LCD Philips 42PFL7606K/02 nie wyszukuje selektywnie kanałów
Jak w temacie wykonuję czynności zgodnie z instrukcją :
1. Naciśnij przycisk menu.
2. Wybierz kolejno: >
> .
3. Wybierz kolejno opcje > , a następnie
naciśnij przycisk OK.
4. Naciśnij przycisk Przyciski numeryczne,
aby wprowadzić częstotliwość kanału.
5. Wybierz opcję , a następnie
naciśnij przycisk OK.
6. Po wyszukaniu kanału wybierz opcję
, a następnie naciśnij przycisk
OK.
i tv nie wyszukuje żadnego z dostępnych kanałów "0".
Dodam że w trybie automatycznym wyszukuje wszystkie dostępne kanały ale jest jest mały problem że po wybraniu niektórych programów z kanału 06 kanały pozostałe są identyfikowane jako niedostępne /brak sygnału/, ponowne włączenie tv pilotem powoduje przywrócenie ich.
Zrobiłem aktualizację oprogramowania lecz nic nie uległo zmianie .
Podejrzewam że jest jakiś błąd w systemie wywołany usterką sprzętową.
W załączeniu przesyłam dokumentację tego telewizora, i proszę o podpowiedzi.
Pobierz plik - link do postu
- philips_chassis_q552-2e_la.rar
- Philips ????? Q552.2E LA.pdf
philips_chassis_q552-2e_la.rar > Philips ????? Q552.2E LA.pdf
Colour Television
Chassis
Q552.2E
LA
19100_000_110214.eps
110929
Contents
Page
Contents
Page
1.
2.
3.
4.
5.
6.
7.
8.
9.
2
2
11
15
44
64
73
80
B05 313912365192
B07 313912365192
B09 313912365192
B01 313912365351, 313912365371
B03 313912365351, 313912365371
B05 313912365351, 313912365371
B07 313912365351, 313912365371
B09 313912365351, 313912365371
B10 313912365371
E 27221719026x IR/LED/Key Board
E 27221719027x IR/LED/Key Board
E 27221719028x IR/LED/Key Board
E 272217190284/5 IR/LED/Key Board
E 27221719029x IR/LED/Key Board
E 272217190301 IR/LED/Key Board
E 272217190328 IR/LED Board
E 27221719033x IR/LED/Key Board
E 27221719046x IR/LED/Key Board
AL1 820400091254
AL1 820400091574
AL1 820400091575
AL3 820400091232
AL3 820400091242
AL3 820400091562
AL3 820400091583
AL3 820400091584
AL3 820400091592
TS1 313912365252
11. Styling Sheets
Berlinale 32 "
Berlinale 40 " & 46 "
Blockbuster 32 "
Blockbuster 37 "
Blockbuster 40 " & 46 "
Blockbuster 55 "
Infinity 32 "
Infinity 42 "
Sundance 32 " & 37 "
Sundance 42 " , 47 " & 55 "
249
254
257
261
281
294
299
302
303
308
309
310
311
312
313
314
315
316
317
319
321
323
324
326
327
330
333
343
Revision List
Technical Specs, Diversity, and Connections
Precautions, Notes, and Abbreviation List
Mechanical Instructions
Service Modes, Error Codes, and Fault Finding
Alignments
Circuit Descriptions
IC Data Sheets
Block Diagrams
Wiring diagram Berlinale 32 "
Wiring diagram Berlinale 40 " - 46 "
Wiring diagram Blockbuster 37 "
Wiring diagram Blockbuster 40 " - 55 "
Wiring diagram Sundance 32 " - 37 "
Wiring diagram Sundance 42 " - 47 " - 55 "
Block Diagram Video
Block Diagram Audio
Block Diagram Control & Clock Signals
Block Diagram I2C
Supply Lines Overview
10. Circuit Diagrams and PWB Layouts
A 272217190318 PSL
A 272217190319 - 272217190414 PSL
A 272217190321 PSL
A 272217190326 PSL
A 272217190361 PSL
A 272217190418 PSL
A 272217190477 PSL
B01 313912364954
B03 313912364954
B05 313912364954
B07 313912364954
B09 313912364954
B01 393912364955
B03 393912364955
B05 393912364955
B07 393912364955
B09 393912364955
B01 313912365192
B03 313912365192
93
93
96
97
100
101
102
103
104
105
106
Drawing
107
110
113
116
119
122
125
128
148
161
166
169
172
192
205
210
213
216
236
PWB
108-109
111-112
114-115
117-118
120-121
123-124
126-127
170-171
170-171
170-171
170-171
170-171
214-215
214-215
214-215
214-215
214-215
259-260
259-260
259-260
259-260
259-260
304-307
304-307
304-307
304-307
304-307
306-307
336-342
336-342
336-342
336-342
336-342
336-342
336-342
336-342
336-342
344
345
346
347
348
349
350
351
352
353
©
Copyright 2012 Koninklijke Philips Electronics N.V.
All rights reserved. No part of this publication may be reproduced, stored in a
retrieval system or transmitted, in any form or by any means, electronic, mechanical,
photocopying, or otherwise without the prior permission of Philips.
Published by ER/TY 1263 BG TV Quality, the Netherlands
Subject to modification
EN 3122 785 19109
2012-Mar-16
�EN 2
1.
Revision List
Q552.2E LA
1. Revision List
Manual xxxx xxx xxxx.0
• First release.
Chapter 2: Table 2-1 updated (added CTNs).
Chapter 5: Added section 5.2.4 Hotel mode.
Chapter 10: Added Ambilight schematics and layouts
applicable for the added CTNs.
•
•
•
Manual xxxx xxx xxxx.1
• Chapter 2: Table 2-1 updated (added CTNs).
• Chapter 6: added Option codes at bit level;
see section 6.4.6 Option Bit Overview.
• Chapter 11: added 55 " styling sheet.
Manual xxxx xxx xxxx.6
• Chapter 2: Table 2-1 updated (added CTNs).
• Chapter 2: removed video/audio out from SCART
connector; see section 2.3.1.
• Chapter 4: added section 4.7 Assy/Panel Removal
Berlinale styling (xxPFL5806K/xx).
• Chapter 9: added figures 9.1 Wiring diagram Berlinale 32 "
and 9.2 Wiring diagram Berlinale 40 " - 46 " .
Manual xxxx xxx xxxx.2
• Chapter 2: Table 2-1 updated (added CTNs).
Manual xxxx xxx xxxx.3
• Chapter 2: added connection overview; see Figure 2-1.
• Chapter 6: added White tone alignment values see Table
6-1 to Table 6-15.
• Chapter 7 + 10: revelation of detailed Power Supply Unit
information to support component level repair;
see Table 2-1.
Manual xxxx xxx xxxx.7
• Chapter 2: Table 2-1 updated (added CTNs).
Manual xxxx xxx xxxx.8
• Chapter 2: Table 2-1 updated (added CTNs).
• Chapter 11: Updated 32 " , 40 " -46 " , and 55 " Blockbuster
styling sheet.
Manual xxxx xxx xxxx.4
• Chapter 2: Table 2-1 updated (added CTNs).
• Chapter 6: Added/changed alignment values; see section
6.3.1 White Point.
• Chapter 7 + 10: Removed detailed Power Supply Unit
information for design protection reasons.
Manual xxxx xxx xxxx.9
• Chapter 5: modified SSB replacement procedure; see
section 5.9.13.
• Chapter 7: Changed PSU repair policy, see sections 5.8
and 7.2.
• Chapter 10: Added PSU schematics and layout drawings.
Manual xxxx xxx xxxx.5
2. Technical Specs, Diversity, and Connections
•
Index of this chapter:
2.1 Technical Specifications
2.2 Directions for Use
2.3 Connections
2.4 Chassis Overview
2.1
Specifications are indicative (subject to change).
Technical Specifications
For on-line product support please use the CTN links
in Table 2-1. Here is product information available, as well as
getting started, user manuals, frequently asked questions and
software & drivers.
Notes:
• Figures can deviate due to the different set executions.
Table 2-1 Described Model Numbers and Diversity
Descriptions
9
10
CTN
Styling
32HFL5573D/10
Blockbuster 64954 2-2
64955
11.3
4-4 4.8
4.8.7
7.2
9.3
-
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
32PFL5806K/02
Berlinale
11.1
64955 2-2
4-1 4.7
4.7.9
7.2
9.1
10.7
-
10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26 -
10.51 -
32HFL7406D/10
Sundance
11.9
65192 2-1
4-9 4.9
4.9.8
7.2
9.8
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.65
32PDL7906H/12
Infinity
11.7
65192 2-1
4-17 4.10 4.10.11 7.2
9.6
-
10.60 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.51 10.63
32PDL7906K/02
Infinity
11.7
65192 2-1
4-17 4.10 4.10.11 7.2
9.6
-
10.60 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.51 10.63
32PDL7906M/08
Infinity
11.7
65192 2-1
4-17 4.10 4.10.11 7.2
9.6
-
10.60 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.51 10.63
32PDL7906T/12
Infinity
11.7
65192 2-1
4-17 4.10 4.10.11 7.2
9.6
-
10.60 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.51 10.63
32PFL6606H/12
Blockbuster 64954 2-2
64955
11.3
4-4 4.8
4.8.7
7.2
9.3
-
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
32PFL6606H/60
Blockbuster 64954 2-2
64955
11.3
4-4 4.8
4.8.7
7.2
9.3
-
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.52 -
2012-Mar-16
back to
div. table
TS (Temperature Sensor)
E (IR/LED/Key Board)
B10 (DVBT-2)
B09 (non-DVBS-conn.)
B08 (DVBS-Supp.)
B07 (DVBS-FE)
B06 (non-DVBS-LVDS)
B05 (DDR)
B04 (I/O)
B03 (DC/DC / Class D)
B02 (PNX85500)
B01 (Tuner)
A (PSU)
ALxx (Ambilight) LiteOn
Schematics
Wiring Diagram
PSU
LCD Removal
Assembly Removal
7
Mechanics
Wire Dressing
4
Connection Overview
2
3139 123 xxxxx
SSB
�Technical Specs, Diversity, and Connections
Descriptions
9
2.
EN 3
10
CTN
Styling
32PFL6606K/02
Blockbuster 64954 2-2
11.3
64955
4-4
4.8
4.8.7
7.2
9.3
-
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
32PFL6606M/08
Blockbuster 64954 2-2
64955
11.3
4-4
4.8
4.8.7
7.2
9.3
-
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
32PFL6606T/12
Blockbuster 65192 2-2
11.3
4-4
4.8
4.8.7
7.2
9.3
-
-
10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.51 -
32PFL6626H/12
Blockbuster 64954 2-2
64955
11.3
4-4
4.8
4.8.7
7.2
9.3
-
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
32PFL6626K/02
Blockbuster 64954 2-2
64955
11.3
4-4
4.8
4.8.7
7.2
9.3
-
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
32PFL6626M/08
Blockbuster 64954 2-2
64955
11.3
4-4
4.8
4.8.7
7.2
9.3
-
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
32PFL6626T/12
Blockbuster 65192 2-2
11.3
4-4
4.8
4.8.7
7.2
9.3
-
-
10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.51 -
32PFL6636H/12
Blockbuster 64954 2-2
64955
11.3
4-4
4.8
4.8.7
7.2
9.3
-
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
32PFL6636K/02
Blockbuster 64954 2-2
64955
11.3
4-4
4.8
4.8.7
7.2
9.3
-
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
32PFL6636M/08
Blockbuster 64954 2-2
11.3
64955
4-4
4.8
4.8.7
7.2
9.3
-
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
32PFL6636T/12
Blockbuster 65192 2-2
11.3
4-4
4.8
4.8.7
7.2
9.3
-
-
10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.51 -
32PFL7406H/12
Sundance
11.9
65192 2-1
4-9
4.9
4.9.8
7.2
9.8
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.65
32PFL7406H/60
Sundance
11.9
65192 2-1
4-9
4.9
4.9.8
7.2
9.8
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.65
32PFL7406K/02
Sundance
11.9
65192 2-1
4-9
4.9
4.9.8
7.2
9.8
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.65
32PFL7406M/08
Sundance
11.9
65192 2-1
4-9
4.9
4.9.8
7.2
9.8
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.65
32PFL7406T/12
Sundance
11.9
65192 2-1
4-9
4.9
4.9.8
7.2
9.8
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.65
32PFL7476H/12
Sundance
11.9
65192 2-1
4-9
4.9
4.9.8
7.2
9.8
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.65
32PFL7476K/02
Sundance
11.9
65192 2-1
4-9
4.9
4.9.8
7.2
9.8
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.65
32PFL7486H/12
Sundance
11.9
65192 2-1
4-9
4.9
4.9.8
7.2
9.8
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.65
32PFL7486K/02
Sundance
11.9
65192 2-1
4-9
4.9
4.9.8
7.2
9.8
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.65
32PFL7486M/08
Sundance
11.9
65192 2-1
4-9
4.9
4.9.8
7.2
9.8
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.65
32PFL7496H/12
Sundance
11.9
65192 2-1
4-9
4.9
4.9.8
7.2
9.8
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.65
32PFL7496K/02
Sundance
11.9
65192 2-1
4-9
4.9
4.9.8
7.2
9.8
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.65
32PFL7606H/12
Sundance
11.9
65192 2-1
4-9
4.9
4.9.8
7.2
9.8
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.65
32PFL7606H/60
Sundance
11.9
65192 2-1
4-9
4.9
4.9.8
7.2
9.8
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.65
32PFL7606K/02
Sundance
11.9
65192 2-1
4-9
4.9
4.9.8
7.2
9.8
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.65
32PFL7606M/08
Sundance
11.9
65192 2-1
4-9
4.9
4.9.8
7.2
9.8
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.65
32PFL7606T/12
Sundance
11.9
65192 2-1
4-9
4.9
4.9.8
7.2
9.8
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.65
37PFL6606H/12
Blockbuster 64954 2-2
11.4
64955
4-5
4.8
4.8.7
7.2
9.4
-
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
37PFL6606H/60
Blockbuster 64954 2-2
11.4
64955
4-5
4.8
4.9.8
7.2
9.4
-
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.52 -
37PFL6606K/02
Blockbuster 64954 2-2
11.4
64955
4-5
4.8
4.8.7
7.2
9.4
-
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
37PFL6606M/08
Blockbuster 64954 2-2
11.4
64955
4-5
4.8
4.8.7
7.2
9.4
-
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
37PFL6606T/12
Blockbuster 65192 2-2
11.4
4-5
4.8
4.8.7
7.2
9.4
-
-
10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.51 -
37PFL7606H/12
Sundance
11.9
65192 2-1
4-10 4.9
4.9.8
7.2
9.8
10.4
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
37PFL7606K/02
Sundance
11.9
65192 2-1
4-10 4.9
4.9.8
7.2
9.8
10.4
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
37PFL7606M/08
Sundance
11.9
65192 2-1
4-10 4.9
4.9.8
7.2
9.8
10.4
TS (Temperature Sensor)
E (IR/LED/Key Board)
B10 (DVBT-2)
B09 (non-DVBS-conn.)
B08 (DVBS-Supp.)
B07 (DVBS-FE)
B06 (non-DVBS-LVDS)
B05 (DDR)
B04 (I/O)
B03 (DC/DC / Class D)
B02 (PNX85500)
B01 (Tuner)
A (PSU)
ALxx (Ambilight) LiteOn
Schematics
Wiring Diagram
PSU
LCD Removal
Assembly Removal
7
Mechanics
Wire Dressing
4
Connection Overview
2
3139 123 xxxxx
SSB
Q552.2E LA
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
back to
div. table
2012-Mar-16
�Technical Specs, Diversity, and Connections
Descriptions
9
10
CTN
Styling
37PFL7606T/12
Sundance
11.9
65192 2-1
4-10 4.9
4.9.8
7.2
9.8
10.4
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
37PFL7666H/12
Sundance
11.9
65192 2-1
4-10 4.9
4.9.8
7.2
9.8
10.4
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
37PFL7666K/02
Sundance
11.9
65192 2-1
4-10 4.9
4.9.8
7.2
9.8
10.4
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
37PFL7666T/12
Sundance
11.9
65192 2-1
4-10 4.9
4.9.8
7.2
9.8
10.4
10.62 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.67
37PFL7676H/12
Sundance
11.9
65192 2-1
4-10 4.9
4.9.8
7.2
9.8
10.4
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
37PFL7676K/02
Sundance
11.9
65192 2-1
4-10 4.9
4.9.8
7.2
9.8
10.4
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
40HFL5573D/10
Blockbuster 64954 2-2
64955
11.5
4-6 4.8
4.8.7
7.2
9.5
10.1
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
40PFL5806K/02
Berlinale
11.2
64955 2-2
4-2 4.7
4.7.9
7.2
9.2
10.5
-
10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26 -
10.51 -
40PFL6606H/12
Blockbuster 64954 2-2
64955
11.5
4-6 4.8
4.8.7
7.2
9.5
10.1
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
40PFL6606H/60
Blockbuster 64954 2-2
11.5
64955
4-6 4.8
4.8.7
7.2
9.5
10.1
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
40PFL6606K/02
Blockbuster 64954 2-2
11.5
64955
4-6 4.8
4.8.7
7.2
9.5
10.1
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
40PFL6606M/08
Blockbuster 64954 2-2
11.5
64955
4-6 4.8
4.8.7
7.2
9.5
10.1
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
40PFL6606T/12
Blockbuster 65192 2-2
11.5
4-6 4.8
4.8.7
7.2
9.5
10.1
-
10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.51 -
40PFL6626H/12
Blockbuster 64954 2-2
11.5
64955
4-6 4.8
4.8.7
7.2
9.5
10.1
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
40PFL6626K/02
Blockbuster 64954 2-2
11.5
64955
4-6 4.8
4.8.7
7.2
9.5
10.1
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
40PFL6626M/08
Blockbuster 64954 2-2
11.5
64955
4-6 4.8
4.8.7
7.2
9.5
10.1
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
40PFL6626T/12
Blockbuster 65192 2-2
11.5
4-6 4.8
4.8.7
7.2
9.5
10.1
-
10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.51 -
40PFL6636H/12
Blockbuster 64954 2-2
11.5
64955
4-6 4.8
4.8.7
7.2
9.5
10.1
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
40PFL6636K/02
Blockbuster 64954 2-2
11.5
64955
4-6 4.8
4.8.7
7.2
9.5
10.1
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
40PFL6636M/08
Blockbuster 64954 2-2
11.5
64955
4-6 4.8
4.8.7
7.2
9.5
10.1
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.51 -
40PFL6636T/12
Blockbuster 65192 2-2
11.5
4-6 4.8
4.8.7
7.2
9.5
10.1
-
10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.51 -
42HFL7406D/10
Sundance
11.10
65192 2-1
4-11 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PDL7906H/12
Infinity
11.8
65192 2-1
4-18 4.10 4.10.11 7.2
9.7
-
10.60 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.51 10.64
42PDL7906K/02
Infinity
11.8
65192 2-1
4-18 4.10 4.10.11 7.2
9.7
-
10.60 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.51 10.64
42PDL7906M/08
Infinity
11.8
65192 2-1
4-18 4.10 4.10.11 7.2
9.7
-
10.60 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.51 10.64
42PDL7906T/12
Infinity
11.8
65192 2-1
4-18 4.10 4.10.11 7.2
9.7
-
10.60 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.51 10.64
42PFL7406H/12
Sundance
11.10
65192 2-1
4-11 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7406H/60
Sundance
11.10
65192 2-1
4-11 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7406T/12
Sundance
11.10
65192 2-1
4-11 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7406K/02
Sundance
11.10
65192 2-1
4-11 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7406M/08
Sundance
11.10
65192 2-1
4-11 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7456H/12
Sundance
11.10
65192 2-1
4-11 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7456K/02
Sundance
11.10
65192 2-1
4-11 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7456M/08
Sundance
11.10
65192 2-1
4-11 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7486H/12
Sundance
11.10
65192 2-1
4-11 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7486K/02
Sundance
11.10
65192 2-1
4-11 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
2012-Mar-16
back to
div. table
TS (Temperature Sensor)
E (IR/LED/Key Board)
B10 (DVBT-2)
B09 (non-DVBS-conn.)
B08 (DVBS-Supp.)
B07 (DVBS-FE)
B06 (non-DVBS-LVDS)
B05 (DDR)
B04 (I/O)
B03 (DC/DC / Class D)
B02 (PNX85500)
Schematics
B01 (Tuner)
PSU
LCD Removal
Assembly Removal
7
Mechanics
Wire Dressing
4
Connection Overview
2
3139 123 xxxxx
SSB
ALxx (Ambilight) LiteOn
Q552.2E LA
A (PSU)
2.
Wiring Diagram
EN 4
�Technical Specs, Diversity, and Connections
Descriptions
9
2.
EN 5
10
TS (Temperature Sensor)
E (IR/LED/Key Board)
B10 (DVBT-2)
B09 (non-DVBS-conn.)
B08 (DVBS-Supp.)
B07 (DVBS-FE)
B06 (non-DVBS-LVDS)
B05 (DDR)
B04 (I/O)
B03 (DC/DC / Class D)
B02 (PNX85500)
B01 (Tuner)
A (PSU)
ALxx (Ambilight) LiteOn
Schematics
Wiring Diagram
PSU
LCD Removal
Assembly Removal
7
Mechanics
Wire Dressing
4
Connection Overview
2
3139 123 xxxxx
SSB
Q552.2E LA
CTN
Styling
42PFL7486M/08
Sundance
11.10
65192 2-1
4-11 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7606H/12
Sundance
11.10
65192 2-1
4-14 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7606H/60
Sundance
11.10
65192 2-1
4-14 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7606K/02
Sundance
11.10
65192 2-1
4-14 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7606M/08
Sundance
11.10
65192 2-1
4-14 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7606T/12
Sundance
11.10
65192 2-1
4-14 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7656H/12
Sundance
11.10
65192 2-1
4-14 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7656K/02
Sundance
11.10
65192 2-1
4-14 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7656M/08
Sundance
11.10
65192 2-1
4-14 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7656T/12
Sundance
11.10
65192 2-1
4-14 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7666H/12
Sundance
11.10
65192 2-1
4-14 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7666H/60
Sundance
11.10
65192 2-1
4-14 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.76
10.66
42PFL7666K/02
Sundance
11.10
65192 2-1
4-14 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7666T/12
Sundance
11.10
65192 2-1
4-14 4.9
4.9.8
7.2
9.9
-
10.62 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.67
42PFL7676H/12
Sundance
11.10
65192 2-1
4-14 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7676K/02
Sundance
11.10
65192 2-1
4-14 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7676T/12
Sundance
11.10
65192 2-1
4-14 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7696H/12
Sundance
11.10
65192 2-1
4-14 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7696K/02
Sundance
11.10
65192 2-1
4-14 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7696M/08
Sundance
11.10
65192 2-1
4-14 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
42PFL7696T/12
Sundance
11.10
65192 2-1
4-14 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.66
46HFL5573D/10
Blockbuster 64954 2-2
11.5
64955
4-7
4.8
4.8.7
7.2
9.5
90441 -
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.53 -
46PFL5806K/02
Berlinale
11.2
64955 2-2
4-3
4.7
4.7.9
7.2
9.2
90441 -
10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26 -
10.53 -
46PFL6606H/12
Blockbuster 64954 2-2
11.5
64955
4-7
4.8
4.8.7
7.2
9.5
10.2
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.53 -
46PFL6606H/60
Blockbuster 64954 2-2
11.5
64955
4-7
4.8
4.8.7
7.2
9.5
10.2
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.53 -
46PFL6606K/02
Blockbuster 64954 2-2
11.5
64955
4-7
4.8
4.8.7
7.2
9.5
10.2
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.53 -
46PFL6606M/08
Blockbuster 64954 2-2
11.5
64955
4-7
4.8
4.8.7
7.2
9.5
10.2
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.53 -
46PFL6606T/12
Blockbuster 65192 2-2
11.5
4-7
4.8
4.8.7
7.2
9.5
10.2
-
10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.53 -
46PFL6626H/12
Blockbuster 64954 2-2
11.5
64955
4-7
4.8
4.8.7
7.2
9.5
90441 -
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.53 -
46PFL6626K/02
Blockbuster 64954 2-2
11.5
64955
4-7
4.8
4.8.7
7.2
9.5
90441 -
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.53 -
46PFL6626T/12
Blockbuster 65192 2-2
11.5
4-7
4.8
4.8.7
7.2
9.5
10.2
10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.53 -
46PFL6806H/12
Blockbuster 65351 2-2
11.5
4-7
4.8
4.8.7
7.2
9.5
90441 -
10.39 10.40 10.41 10.42 10.43 10.44 10.45 10.46 10.47 -
10.54 -
46PFL6806H/60
Blockbuster 65351 2-2
11.5
4-7
4.8
4.8.7
7.2
9.5
90441 -
10.39 10.40 10.41 10.42 10.43 10.44 10.45 10.46 10.47 -
10.54 -
46PFL6806K/02
Blockbuster 65351 2-2
11.5
4-7
4.8
4.8.7
7.2
9.5
90441 -
10.39 10.40 10.41 10.42 10.43 10.44 10.45 10.46 10.47 -
10.54 -
46PFL6806T/12
Blockbuster 65371 2-2
11.5
4-7
4.8
4.8.7
7.2
9.5
90441 -
10.39 10.40 10.41 10.42 10.43 10.44 10.45 10.46 10.47 10.48 10.54 -
47PFL7456H/12
Sundance
11.10
4-12 4.9
4.9.8
7.2
9.9
-
65192 2-1
back to
div. table
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.68
2012-Mar-16
�Technical Specs, Diversity, and Connections
Descriptions
9
10
TS (Temperature Sensor)
E (IR/LED/Key Board)
B10 (DVBT-2)
B09 (non-DVBS-conn.)
B08 (DVBS-Supp.)
B07 (DVBS-FE)
B06 (non-DVBS-LVDS)
B05 (DDR)
B04 (I/O)
B03 (DC/DC / Class D)
B02 (PNX85500)
B01 (Tuner)
Schematics
PSU
LCD Removal
Assembly Removal
7
Mechanics
Wire Dressing
4
Connection Overview
2
3139 123 xxxxx
SSB
ALxx (Ambilight) LiteOn
Q552.2E LA
A (PSU)
2.
Wiring Diagram
EN 6
CTN
Sundance
11.10
65192 2-1
4-12 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.68
47PFL7606H/12
Sundance
11.10
65192 2-1
4-15 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.68
47PFL7606H/60
Sundance
11.10
65192 2-1
4-15 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.68
47PFL7606K/02
Sundance
11.10
65192 2-1
4-15 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.68
47PFL7606M/08
Sundance
11.10
65192 2-1
4-15 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.68
47PFL7606T/12
Sundance
11.10
65192 2-1
4-15 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.68
47PFL7656H/12
Sundance
11.10
65192 2-1
4-15 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.68
47PFL7656K/02
Sundance
11.10
65192 2-1
4-15 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.68
47PFL7656M/08
Sundance
11.10
65192 2-1
4-15 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.68
47PFL7656T/12
Sundance
11.10
65192 2-1
4-15 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.68
47PFL7666H/12
Sundance
11.10
65192 2-1
4-15 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.68
47PFL7666K/02
Sundance
11.10
65192 2-1
4-15 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.68
47PFL7666T/12
Sundance
11.10
65192 2-1
4-15 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.68
47PFL7696H/12
Sundance
11.10
65192 2-1
4-15 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.68
47PFL7696K/02
Sundance
11.10
65192 2-1
4-15 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.68
47PFL7696M/08
Sundance
11.10
65192 2-1
4-15 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.68
47PFL7696T/12
Sundance
11.10
65192 2-1
4-15 4.9
4.9.8
7.2
9.9
-
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.55 10.68
55HFL5573D/10
Blockbuster 64954 2-2
11.6
64955
4-8 4.8
4.8.7
7.2
9.5
10.3
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.53 -
55PFL6606H/12
Blockbuster 64954 2-2
11.6
64955
4-8 4.8
4.8.7
7.2
9.5
10.3
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.53 -
55PFL6606H/60
Blockbuster 64954 2-2
11.6
64955
4-8 4.8
4.8.7
7.2
9.5
10.3
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.53 -
55PFL6606K/02
Blockbuster 64954 2-2
11.6
64955
4-8 4.8
4.8.7
7.2
9.5
10.3
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.53 -
55PFL6606M/08
Blockbuster 64954 2-2
11.6
64955
4-8 4.8
4.8.7
7.2
9.5
10.3
-
10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.18 10.19 10.20 10.21 10.22 10.23 10.24 10.25 10.26
10.53 -
55PFL6606T/12
Blockbuster 65192 2-2
11.5
4-8 4.8
4.8.7
7.2
9.5
10.3
-
10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.53 -
55PFL7606H/12
Sundance
11.10
65192 2-1
4-16 4.9
4.9.8
7.2
9.9
10.6
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.53 10.76
10.68
55PFL7606K/02
Sundance
11.10
65192 2-1
4-16 4.9
4.9.8
7.2
9.9
10.6
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.53 10.76
10.68
55PFL7606T/12
2.2
Styling
47PFL7456K/02
Sundance
11.10
65192 2-1
4-16 4.9
4.9.8
7.2
9.9
10.6
10.61 10.28 10.29 10.30 10.31 10.32 10.33 10.34 10.35 10.36 10.37 10.53 10.76
10.68
Directions for Use
You can download this information from the following websites:
http://www.philips.com/support
http://www.p4c.philips.com
2012-Mar-16
back to
div. table
�Technical Specs, Diversity, and Connections
2.3
Q552.2E LA
2.
EN 7
Connections
SIDE CONNECTORS
REAR CONNECTORS
PFL7XX6K
5
15
Optional
1
2
EXT 1
(RGB/CVBS)
6
3
BOTTOM REAR CONNECTORS
7
9
10
10
11
12
13
16
14
17
17
19
19103_001_110525.eps
110525
Figure 2-1 Connection overview (Sundance + Infinity)
back to
div. table
2012-Mar-16
�EN 8
2.
Q552.2E LA
Technical Specs, Diversity, and Connections
SIDE CONNECTORS
REAR CONNECTORS
5
15
1
2
4
3
16
BOTTOM REAR CONNECTORS
7
8
10
11
13
14
17
18
19
19100_043_110214.eps
110525
Figure 2-2 Connection overview (Berlinale + Blockbuster)
Note: The following connector colour abbreviations are used
(acc. to DIN/IEC 757): Bk= Black, Bu= Blue, Gn= Green, Gy=
Grey, Rd= Red, Wh= White, Ye= Yellow.
2.3.1
15 - Video Red
16 - Status/FBL
17
18
19
20
21
Rear Connections
1 - EXT1: Video RGB - In, CVBS - In, Audio - In
20
21
2
- Ground Video
- Ground FBL
- n.c.
- Video CVBS
- Shield
0.7 VPP / 75 ohm
0 - 0.4 V: INT
1 - 3 V: EXT / 75 ohm
Gnd
Gnd
j
1 VPP / 75 ohm
Gnd
j
H
2 - Service Connector (UART)
1 - Ground
Gnd
2 - UART_TX
Transmit
3 - UART_RX
Receive
1
10000_001_090121.eps
090121
j
H
H
H
k
j
Figure 2-3 SCART connector
1
2
3
4
5
6
7
8
- n.c.
- Audio R
- n.c.
- Ground Audio
- Ground Blue
- Audio L
- Video Blue
- Function Select
9
10
11
12
13
14
- Ground Green
- n.c.
- Video Green
- n.c.
- Ground Red
- Ground P50
2012-Mar-16
0.5 VRMS / 10 kohm
H
H
j
jk
0.7 VPP / 75 ohm
Gnd
Gnd
j
H
jq
jq
jq
jq
jq
4 - Cinch: Audio - In (VGA/DVI)
Rd - Audio R
0.5 VRMS / 10 kohm
Wh - Audio L
0.5 VRMS / 10 kohm
j
Gnd
Gnd
0.5 VRMS / 10 kohm
0.7 VPP / 75 ohm
0 - 2 V: INT
4.5 - 7 V: EXT 16:9
9.5 - 12 V: EXT 4:3
Gnd
3 - EXT2: Cinch: Video YPbPr - In, Audio - In
Gn - Video Y
1 VPP / 75 ohm
Bu - Video Pb
0.7 VPP / 75 ohm
Rd - Video Pr
0.7 VPP / 75 ohm
Rd - Audio - R
0.5 VRMS / 10 kohm
Wh - Audio - L
0.5 VRMS / 10 kohm
jq
jq
5 - SAT - In
- - F-type
j
Coax, 75 ohm
6 - Head phone (Output)
Bk - Head phone
32 - 600 ohm / 10 mW
H
H
back to
div. table
D
ot
�Technical Specs, Diversity, and Connections
2.3.2
Rear Connections - Bottom
10
11
12
13
14
15
16
17
18
19
20
7 - RJ45: Ethernet
12345678
10000_025_090121.eps
090121
Figure 2-4 Ethernet connector
1
2
3
4
5
6
7
8
- TD+
- TD- RD+
- CT
- CT
- RD- GND
- GND
Transmit signal
Transmit signal
Receive signal
Centre Tap: DC level fixation
Centre Tap: DC level fixation
Receive signal
Gnd
Gnd
k
k
j
Q552.2E LA
- CLK+
- Shield
- CLK- Easylink/CEC
- ARC
- DDC_SCL
- DDC_SDA
- Ground
- +5V
- HPD
- Ground
9 - Optical: S/PDIF - Out
Bk - Coaxial
Optical signal
Hot Plug Detect
Gnd
13 - Aerial - In
- - IEC-type (EU)
j
H
H
kq
10
Figure 2-7 VGA Connector
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
j
H
j
j
H
j
j
H
j
j
H
j
jk
DDC clock
DDC data
Gnd
15
10000_002_090121.eps
090127
1
2
j
jk
H
j
j
H
Hot Plug Detect
Gnd
5
11
k
Data channel
Gnd
Data channel
Data channel
Gnd
Data channel
Data channel
Gnd
Data channel
Data channel
Gnd
Data channel
Control channel
2.3.3
- Video Red
- Video Green
- Video Blue
- n.c.
- Ground
- Ground Red
- Ground Green
- Ground Blue
- +5VDC
- Ground Sync
- n.c.
- DDC_SDA
- H-sync
- V-sync
- DDC_SCL
0.7 VPP / 75 ohm
0.7 VPP / 75 ohm
0.7 VPP / 75 ohm
j
j
j
Gnd
Gnd
Gnd
Gnd
+5 V
Gnd
H
H
H
H
j
H
DDC data
0-5V
0-5V
DDC clock
j
j
j
j
Side Connections
15 - Common Interface
68p - See diagram B01A B01 313912364954
14
GND
WP
12
GND
11
CD
10
8
Data channel
Gnd
Data channel
Data channel
Gnd
Data channel
Data channel
Gnd
Data channel
CLOCK
4
VDD
3
GND1
2
CMD/DI
1
- D2+
- Shield
- D2- D1+
- Shield
- D1- D0+
- Shield
- D0-
GND2
5
DAT3/CS
9
Figure 2-6 HDMI (type A) connector
DAT0/D0
6
1
2
DAT1/IRQ
7
10000_017_090121.eps
090428
1
2
3
4
5
6
7
8
9
jk
16 - SD-Card: Secure Digital Card - In/Out (optional)
11 - HDMI 1: Digital Video - In, Digital Audio with ARC - In/
Out
19
18
D
Coax, 75 ohm
6
Figure 2-5 HDMI (type A) connector
- D2+
- Shield
- D2- D1+
- Shield
- D1- D0+
- Shield
- D0- CLK+
- Shield
- CLK- Easylink/CEC
- n.c.
- DDC_SCL
- DDC_SDA
- Ground
- +5V
- HPD
- Ground
jq
jq
14 - VGA: Video RGB - In
10000_017_090121.eps
090428
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
j
H
j
jk
k
j
jk
H
j
j
H
12 - Cinch: Audio - In (VGA/DVI)
Rd - Audio R
0.5 VRMS / 10 kohm
Wh - Audio L
0.5 VRMS / 10 kohm
10 - HDMI 2: Digital Video, Digital Audio - In
19
18
EN 9
Data channel
Gnd
Data channel
Control channel
Audio Return Channel
DDC clock
DDC data
Gnd
1
8 - Cinch: S/PDIF - Out
Bk - Coaxial
0.4 - 0.6VPP / 75 ohm
2.
DAT2/NC
GND
13
j
H
j
j
H
j
j
H
j
10000_049_100210.eps
100210
Figure 2-8 SD-Card connector
1
2
3
4
back to
div. table
- DAT3/CS
- CMD/DI
- GND1
- Vdd
Signal
Signal
Gnd
Supply
jk
k
H
k
2012-Mar-16
�EN 10
5
6
7
8
9
10
11
12
13
14
2.
Q552.2E LA
- CLOCK
- GND2
- DAT0/D0
- DAT1/IRQ
- DAT2/NC
- CD
- GND
- WP
- GND
- GND
Technical Specs, Diversity, and Connections
k
H
jk
jk
jk
j
H
j
H
H
Signal
Gnd
Signal
Signal
Signal
Signal
Gnd
Signal
Gnd
Gnd
1
2
3
4
2
3
19 - HDMI : Digital Video, Digital Audio - In
See 10 - HDMI 2: Digital Video, Digital Audio - In
4
10000_022_090121.eps
090121
Figure 2-9 USB (type A)
2.4
Chassis Overview
Refer to chapter Block Diagrams for PWB/CBA locations.
2012-Mar-16
Gnd
18 - Head phone (Output)
Bk - Head phone
32 - 600 ohm / 10 mW
17 - USB2.0
1
- +5V
- Data (-)
- Data (+)
- Ground
back to
div. table
k
jk
jk
H
ot
�Precautions, Notes, and Abbreviation List
Q552.2E LA
3.
EN 11
3. Precautions, Notes, and Abbreviation List
Index of this chapter:
3.1 Safety Instructions
3.2 Warnings
3.3 Notes
3.4 Abbreviation List
3.3.2
Schematic Notes
•
•
3.1
Safety Instructions
Safety regulations require the following during a repair:
• Connect the set to the Mains/AC Power via an isolation
transformer ( & gt; 800 VA).
• Replace safety components, indicated by the symbol h,
only by components identical to the original ones. Any
other component substitution (other than original type) may
increase risk of fire or electrical shock hazard.
•
•
•
•
Safety regulations require that after a repair, the set must be
returned in its original condition. Pay in particular attention to
the following points:
• Route the wire trees correctly and fix them with the
mounted cable clamps.
• Check the insulation of the Mains/AC Power lead for
external damage.
• Check the strain relief of the Mains/AC Power cord for
proper function.
• Check the electrical DC resistance between the Mains/AC
Power plug and the secondary side (only for sets that have
a Mains/AC Power isolated power supply):
1. Unplug the Mains/AC Power cord and connect a wire
between the two pins of the Mains/AC Power plug.
2. Set the Mains/AC Power switch to the “on” position
(keep the Mains/AC Power cord unplugged!).
3. Measure the resistance value between the pins of the
Mains/AC Power plug and the metal shielding of the
tuner or the aerial connection on the set. The reading
should be between 4.5 M and 12 M.
4. Switch “off” the set, and remove the wire between the
two pins of the Mains/AC Power plug.
• Check the cabinet for defects, to prevent touching of any
inner parts by the customer.
3.2
3.3.3
•
•
•
3.3.4
BGA Temperature Profiles
For BGA-ICs, you must use the correct temperature-profile.
Where applicable and available, this profile is added to the IC
Data Sheet information section in this manual.
3.3.5
General
•
•
Lead-free Soldering
Due to lead-free technology some rules have to be respected
by the workshop during a repair:
• Use only lead-free soldering tin. If lead-free solder paste is
required, please contact the manufacturer of your soldering
equipment. In general, use of solder paste within
workshops should be avoided because paste is not easy to
store and to handle.
• Use only adequate solder tools applicable for lead-free
soldering tin. The solder tool must be able:
– To reach a solder-tip temperature of at least 400°C.
– To stabilize the adjusted temperature at the solder-tip.
– To exchange solder-tips for different applications.
• Adjust your solder tool so that a temperature of around
360°C - 380°C is reached and stabilized at the solder joint.
Heating time of the solder-joint should not exceed ~ 4 sec.
Avoid temperatures above 400°C, otherwise wear-out of
tips will increase drastically and flux-fluid will be destroyed.
To avoid wear-out of tips, switch “off” unused equipment or
reduce heat.
• Mix of lead-free soldering tin/parts with leaded soldering
tin/parts is possible but PHILIPS recommends strongly to
avoid mixed regimes. If this cannot be avoided, carefully
clear the solder-joint from old tin and re-solder with new tin.
Notes
3.3.1
BGA (Ball Grid Array) ICs
Introduction
For more information on how to handle BGA devices, visit this
URL: http://www.atyourservice-magazine.com. Select
“Magazine”, then go to “Repair downloads”. Here you will find
Information on how to deal with BGA-ICs.
All ICs and many other semiconductors are susceptible to
electrostatic discharges (ESD w). Careless handling
during repair can reduce life drastically. Make sure that,
during repair, you are connected with the same potential as
the mass of the set by a wristband with resistance. Keep
components and tools also at this same potential.
Be careful during measurements in the high voltage
section.
Never replace modules or other components while the unit
is switched “on”.
When you align the set, use plastic rather than metal tools.
This will prevent any short circuits and the danger of a
circuit becoming unstable.
3.3
Spare Parts
For the latest spare part overview, consult your Philips Spare
Part web portal.
Warnings
•
All resistor values are in ohms, and the value multiplier is
often used to indicate the decimal point location (e.g. 2K2
indicates 2.2 k).
Resistor values with no multiplier may be indicated with
either an “E” or an “R” (e.g. 220E or 220R indicates 220 ).
All capacitor values are given in micro-farads ( 10-6),
nano-farads (n 10-9), or pico-farads (p 10-12).
Capacitor values may also use the value multiplier as the
decimal point indication (e.g. 2p2 indicates 2.2 pF).
An “asterisk” (*) indicates component usage varies. Refer
to the diversity tables for the correct values.
The correct component values are listed on the Philips
Spare Parts Web Portal.
Measure the voltages and waveforms with regard to the
chassis (= tuner) ground (H), or hot ground (I), depending
on the tested area of circuitry. The voltages and waveforms
shown in the diagrams are indicative. Measure them in the
Service Default Mode with a colour bar signal and stereo
sound (L: 3 kHz, R: 1 kHz unless stated otherwise) and
picture carrier at 475.25 MHz for PAL, or 61.25 MHz for
NTSC (channel 3).
Where necessary, measure the waveforms and voltages
with (D) and without (E) aerial signal. Measure the
voltages in the power supply section both in normal
operation (G) and in stand-by (F). These values are
indicated by means of the appropriate symbols.
3.3.6
Alternative BOM identification
It should be noted that on the European Service website,
“Alternative BOM” is referred to as “Design variant”.
The third digit in the serial number (example:
AG2B0335000001) indicates the number of the alternative
B.O.M. (Bill Of Materials) that has been used for producing the
specific TV set. In general, it is possible that the same TV
model on the market is produced with e.g. two different types
of displays, coming from two different suppliers. This will then
back to
div. table
2012-Mar-16
�EN 12
3.
Q552.2E LA
Precautions, Notes, and Abbreviation List
result in sets which have the same CTN (Commercial Type
Number; e.g. 28PW9515/12) but which have a different B.O.M.
number.
By looking at the third digit of the serial number, one can
identify which B.O.M. is used for the TV set he is working with.
If the third digit of the serial number contains the number “1”
(example: AG1B033500001), then the TV set has been
manufactured according to B.O.M. number 1. If the third digit is
a “2” (example: AG2B0335000001), then the set has been
produced according to B.O.M. no. 2. This is important for
ordering the correct spare parts!
For the third digit, the numbers 1...9 and the characters A...Z
can be used, so in total: 9 plus 26= 35 different B.O.M.s can be
indicated by the third digit of the serial number.
AARA
ACI
ADC
AFC
AGC
Identification: The bottom line of a type plate gives a 14-digit
serial number. Digits 1 and 2 refer to the production centre (e.g.
SN is Lysomice, RJ is Kobierzyce), digit 3 refers to the B.O.M.
code, digit 4 refers to the Service version change code, digits 5
and 6 refer to the production year, and digits 7 and 8 refer to
production week (in example below it is 2010 week 10 / 2010
week 17). The 6 last digits contain the serial number.
AM
AP
AR
ASF
ATSC
ATV
Auto TV
AV
AVC
AVIP
B/G
BDS
BLR
BTSC
10000_053_110228.eps
110228
B-TXT
C
CEC
Figure 3-1 Serial number (example)
3.3.7
Board Level Repair (BLR) or Component Level Repair
(CLR)
CL
CLR
ComPair
CP
CSM
CTI
If a board is defective, consult your repair procedure to decide
if the board has to be exchanged or if it should be repaired on
component level.
If your repair procedure says the board should be exchanged
completely, do not solder on the defective board. Otherwise, it
cannot be returned to the O.E.M. supplier for back charging!
3.3.8
•
•
3.4
CVBS
Practical Service Precautions
DAC
DBE
It makes sense to avoid exposure to electrical shock.
While some sources are expected to have a possible
dangerous impact, others of quite high potential are of
limited current and are sometimes held in less regard.
Always respect voltages. While some may not be
dangerous in themselves, they can cause unexpected
reactions that are best avoided. Before reaching into a
powered TV set, it is best to test the high voltage insulation.
It is easy to do, and is a good service precaution.
DCM
DDC
D/K
DFI
DFU
DMR
DMSD
DNM
Abbreviation List
0/6/12
2012-Mar-16
SCART switch control signal on A/V
board. 0 = loop through (AUX to TV),
back to
div. table
6 = play 16 : 9 format, 12 = play 4 : 3
format
Automatic Aspect Ratio Adaptation:
algorithm that adapts aspect ratio to
remove horizontal black bars; keeps
the original aspect ratio
Automatic Channel Installation:
algorithm that installs TV channels
directly from a cable network by
means of a predefined TXT page
Analogue to Digital Converter
Automatic Frequency Control: control
signal used to tune to the correct
frequency
Automatic Gain Control: algorithm that
controls the video input of the feature
box
Amplitude Modulation
Asia Pacific
Aspect Ratio: 4 by 3 or 16 by 9
Auto Screen Fit: algorithm that adapts
aspect ratio to remove horizontal black
bars without discarding video
information
Advanced Television Systems
Committee, the digital TV standard in
the USA
See Auto TV
A hardware and software control
system that measures picture content,
and adapts image parameters in a
dynamic way
External Audio Video
Audio Video Controller
Audio Video Input Processor
Monochrome TV system. Sound
carrier distance is 5.5 MHz
Business Display Solutions (iTV)
Board-Level Repair
Broadcast Television Standard
Committee. Multiplex FM stereo sound
system, originating from the USA and
used e.g. in LATAM and AP-NTSC
countries
Blue TeleteXT
Centre channel (audio)
Consumer Electronics Control bus:
remote control bus on HDMI
connections
Constant Level: audio output to
connect with an external amplifier
Component Level Repair
Computer aided rePair
Connected Planet / Copy Protection
Customer Service Mode
Color Transient Improvement:
manipulates steepness of chroma
transients
Composite Video Blanking and
Synchronization
Digital to Analogue Converter
Dynamic Bass Enhancement: extra
low frequency amplification
Data Communication Module. Also
referred to as System Card or
Smartcard (for iTV).
See “E-DDC”
Monochrome TV system. Sound
carrier distance is 6.5 MHz
Dynamic Frame Insertion
Directions For Use: owner's manual
Digital Media Reader: card reader
Digital Multi Standard Decoding
Digital Natural Motion
�Precautions, Notes, and Abbreviation List
DNR
DRAM
DRM
DSP
DST
DTCP
DVB-C
DVB-T
DVD
DVI(-d)
E-DDC
EDID
EEPROM
EMI
EPG
EPLD
EU
EXT
FDS
FDW
FLASH
FM
FPGA
FTV
Gb/s
G-TXT
H
HD
HDD
HDCP
HDMI
HP
I
I 2C
I2D
I2S
IF
IR
IRQ
ITU-656
Digital Noise Reduction: noise
reduction feature of the set
Dynamic RAM
Digital Rights Management
Digital Signal Processing
Dealer Service Tool: special remote
control designed for service
technicians
Digital Transmission Content
Protection; A protocol for protecting
digital audio/video content that is
traversing a high speed serial bus,
such as IEEE-1394
Digital Video Broadcast - Cable
Digital Video Broadcast - Terrestrial
Digital Versatile Disc
Digital Visual Interface (d= digital only)
Enhanced Display Data Channel
(VESA standard for communication
channel and display). Using E-DDC,
the video source can read the EDID
information form the display.
Extended Display Identification Data
(VESA standard)
Electrically Erasable and
Programmable Read Only Memory
Electro Magnetic Interference
Electronic Program Guide
Erasable Programmable Logic Device
Europe
EXTernal (source), entering the set by
SCART or by cinches (jacks)
Full Dual Screen (same as FDW)
Full Dual Window (same as FDS)
FLASH memory
Field Memory or Frequency
Modulation
Field-Programmable Gate Array
Flat TeleVision
Giga bits per second
Green TeleteXT
H_sync to the module
High Definition
Hard Disk Drive
High-bandwidth Digital Content
Protection: A “key” encoded into the
HDMI/DVI signal that prevents video
data piracy. If a source is HDCP coded
and connected via HDMI/DVI without
the proper HDCP decoding, the
picture is put into a “snow vision” mode
or changed to a low resolution. For
normal content distribution the source
and the display device must be
enabled for HDCP “software key”
decoding.
High Definition Multimedia Interface
HeadPhone
Monochrome TV system. Sound
carrier distance is 6.0 MHz
Inter IC bus
Inter IC Data bus
Inter IC Sound bus
Intermediate Frequency
Infra Red
Interrupt Request
The ITU Radio communication Sector
(ITU-R) is a standards body
subcommittee of the International
Telecommunication Union relating to
radio communication. ITU-656 (a.k.a.
SDI), is a digitized video format used
for broadcast grade video.
Uncompressed digital component or
digital composite signals can be used.
iTV
LS
LATAM
LCD
LED
L/L'
LPL
LS
LVDS
Mbps
M/N
MHEG
MIPS
MOP
MOSFET
MPEG
MPIF
MUTE
MTV
NC
NICAM
NTC
NTSC
NVM
O/C
OSD
OAD
OTC
P50
PAL
PCB
PCM
back to
div. table
Q552.2E LA
3.
EN 13
The SDI signal is self-synchronizing,
uses 8 bit or 10 bit data words, and has
a maximum data rate of 270 Mbit/s,
with a minimum bandwidth of 135
MHz.
Institutional TeleVision; TV sets for
hotels, hospitals etc.
Last Status; The settings last chosen
by the customer and read and stored
in RAM or in the NVM. They are called
at start-up of the set to configure it
according to the customer's
preferences
Latin America
Liquid Crystal Display
Light Emitting Diode
Monochrome TV system. Sound
carrier distance is 6.5 MHz. L' is Band
I, L is all bands except for Band I
LG.Philips LCD (supplier)
Loudspeaker
Low Voltage Differential Signalling
Mega bits per second
Monochrome TV system. Sound
carrier distance is 4.5 MHz
Part of a set of international standards
related to the presentation of
multimedia information, standardised
by the Multimedia and Hypermedia
Experts Group. It is commonly used as
a language to describe interactive
television services
Microprocessor without Interlocked
Pipeline-Stages; A RISC-based
microprocessor
Matrix Output Processor
Metal Oxide Silicon Field Effect
Transistor, switching device
Motion Pictures Experts Group
Multi Platform InterFace
MUTE Line
Mainstream TV: TV-mode with
Consumer TV features enabled (iTV)
Not Connected
Near Instantaneous Compounded
Audio Multiplexing. This is a digital
sound system, mainly used in Europe.
Negative Temperature Coefficient,
non-linear resistor
National Television Standard
Committee. Color system mainly used
in North America and Japan. Color
carrier NTSC M/N= 3.579545 MHz,
NTSC 4.43= 4.433619 MHz (this is a
VCR norm, it is not transmitted off-air)
Non-Volatile Memory: IC containing
TV related data such as alignments
Open Circuit
On Screen Display
Over the Air Download. Method of
software upgrade via RF transmission.
Upgrade software is broadcasted in
TS with TV channels.
On screen display Teletext and
Control; also called Artistic (SAA5800)
Project 50: communication protocol
between TV and peripherals
Phase Alternating Line. Color system
mainly used in West Europe (colour
carrier = 4.433619 MHz) and South
America (colour carrier
PAL M = 3.575612 MHz and
PAL N = 3.582056 MHz)
Printed Circuit Board (same as “PWB”)
Pulse Code Modulation
2012-Mar-16
�EN 14
3.
PDP
PFC
PIP
PLL
POD
POR
PSDL
PSL
PSLS
PTC
PWB
PWM
QRC
QTNR
QVCP
RAM
RGB
RC
RC5 / RC6
RESET
ROM
RSDS
R-TXT
SAM
S/C
SCART
SCL
SCL-F
SD
SDA
SDA-F
SDI
SDRAM
SECAM
SIF
SMPS
SoC
SOG
SOPS
SPI
S/PDIF
SRAM
SRP
SSB
SSC
STB
STBY
SVGA
SVHS
SW
2012-Mar-16
Q552.2E LA
Precautions, Notes, and Abbreviation List
Plasma Display Panel
Power Factor Corrector (or Preconditioner)
Picture In Picture
Phase Locked Loop. Used for e.g.
FST tuning systems. The customer
can give directly the desired frequency
Point Of Deployment: a removable
CAM module, implementing the CA
system for a host (e.g. a TV-set)
Power On Reset, signal to reset the uP
Power Supply for Direct view LED
backlight with 2D-dimming
Power Supply with integrated LED
drivers
Power Supply with integrated LED
drivers with added Scanning
functionality
Positive Temperature Coefficient,
non-linear resistor
Printed Wiring Board (same as “PCB”)
Pulse Width Modulation
Quasi Resonant Converter
Quality Temporal Noise Reduction
Quality Video Composition Processor
Random Access Memory
Red, Green, and Blue. The primary
color signals for TV. By mixing levels
of R, G, and B, all colors (Y/C) are
reproduced.
Remote Control
Signal protocol from the remote
control receiver
RESET signal
Read Only Memory
Reduced Swing Differential Signalling
data interface
Red TeleteXT
Service Alignment Mode
Short Circuit
Syndicat des Constructeurs
d'Appareils Radiorécepteurs et
Téléviseurs
Serial Clock I2C
CLock Signal on Fast I2C bus
Standard Definition
Serial Data I2C
DAta Signal on Fast I2C bus
Serial Digital Interface, see “ITU-656”
Synchronous DRAM
SEequence Couleur Avec Mémoire.
Colour system mainly used in France
and East Europe. Colour
carriers = 4.406250 MHz and
4.250000 MHz
Sound Intermediate Frequency
Switched Mode Power Supply
System on Chip
Sync On Green
Self Oscillating Power Supply
Serial Peripheral Interface bus; a 4wire synchronous serial data link
standard
Sony Philips Digital InterFace
Static RAM
Service Reference Protocol
Small Signal Board
Spread Spectrum Clocking, used to
reduce the effects of EMI
Set Top Box
STand-BY
800 × 600 (4:3)
Super Video Home System
Software
SWAN
SXGA
TFT
THD
TMDS
TS
TXT
TXT-DW
UI
uP
UXGA
V
VESA
VGA
VL
VSB
WYSIWYR
WXGA
XTAL
XGA
Y
Y/C
YPbPr
YUV
back to
div. table
Spatial temporal Weighted Averaging
Noise reduction
1280 × 1024
Thin Film Transistor
Total Harmonic Distortion
Transmission Minimized Differential
Signalling
Transport Stream
TeleteXT
Dual Window with TeleteXT
User Interface
Microprocessor
1600 × 1200 (4:3)
V-sync to the module
Video Electronics Standards
Association
640 × 480 (4:3)
Variable Level out: processed audio
output toward external amplifier
Vestigial Side Band; modulation
method
What You See Is What You Record:
record selection that follows main
picture and sound
1280 × 768 (15:9)
Quartz crystal
1024 × 768 (4:3)
Luminance signal
Luminance (Y) and Chrominance (C)
signal
Component video. Luminance and
scaled color difference signals (B-Y
and R-Y)
Component video
�Mechanical Instructions
Q552.2E LA
4.
EN 15
4. Mechanical Instructions
Index of this chapter:
4.1 Cable Dressing Berlinale Styling (xxPFL58x6x/xx series)
4.2 Cable Dressing Blockbuster Styling (xxPFL66x6x/xx
series)
4.3 Cable Dressing Sundance Styling (xxPFL74x6x/xx series)
4.4 Cable Dressing Sundance Styling (xxPFL76x6x/xx series;
WiFi)
4.5 Cable Dressing Infinity Styling (xxPDL79x6x/xx series)
4.6 Service Positions
4.7 Assy/Panel Removal Berlinale styling (xxPFL5806K/xx)
4.1
4.8 Assy/Panel Removal Blockbuster Styling (xxPFL6xxx/xx
series)
4.9 Assy/Panel Removal Sundance Styling (xxPFL7xxx/xx
series)
4.10 Assy/Panel Removal Infinity Styling (xxPDL79xx/xx
series)
4.11 Set Re-assembly
Notes:
• Figures below can deviate slightly from the actual situation,
due to the different set executions.
Cable Dressing Berlinale Styling (xxPFL58x6x/xx series)
1 × tape (150 m.m.)
10 × tapes (80 m.m.)
1 × tape (50 m.m.)
1 × tape (25 m.m.)
2 × 11 m.m. clamp
19106_049_110928.eps
110928
Figure 4-1 Cable dressing 32PFL58x6x/xx (Berlinale)
back to
div. table
2012-Mar-16
�EN 16
4.
Mechanical Instructions
Q552.2E LA
3 × tape (100 m.m.)
5 × tapes (80 m.m.)
3 × tapes (50 m.m.)
1 × tape (25 m.m.)
2 × 11 m.m. clamp
1 × stick-on clamp
19106_050_110928.eps
110928
Figure 4-2 Cable dressing 40PFL58x6x/xx (Berlinale)
2012-Mar-16
back to
div. table
�Mechanical Instructions
Q552.2E LA
4.
EN 17
3 × tape (100 m.m.)
9 × tapes (80 m.m.)
1 × tape (25 m.m.)
2 × 11 m.m. clamp
1 × stick-on clamp
19106_051_110928.eps
110928
Figure 4-3 Cable dressing 46PFL58x6x/xx (Berlinale)
back to
div. table
2012-Mar-16
�EN 18
4.2
4.
Q552.2E LA
Mechanical Instructions
Cable Dressing Blockbuster Styling (xxPFL66x6x/xx series)
19100_044_110214.eps
110214
Figure 4-4 Cable dressing 32PFL66x6x/xx (Blockbuster)
2012-Mar-16
back to
div. table
�Mechanical Instructions
Q552.2E LA
4.
EN 19
19100_045_110214.eps
111103
Figure 4-5 Cable dressing 37PFL66x6x/xx (Blockbuster)
back to
div. table
2012-Mar-16
�EN 20
4.
Q552.2E LA
Mechanical Instructions
19100_046_110214.eps
111103
Figure 4-6 Cable dressing 40PFL66x6x/xx (Blockbuster)
2012-Mar-16
back to
div. table
�Mechanical Instructions
Q552.2E LA
4.
EN 21
19101_001_110407.eps
111103
Figure 4-7 Cable dressing 46PFL6xx6x/xx (Blockbuster)
back to
div. table
2012-Mar-16
�EN 22
4.
Q552.2E LA
Mechanical Instructions
19101_002_110407.eps
111103
Figure 4-8 Cable dressing 55PFL66x6x/xx (Blockbuster)
2012-Mar-16
back to
div. table
�Mechanical Instructions
4.3
Q552.2E LA
4.
EN 23
Cable Dressing Sundance Styling (xxPFL74x6x/xx series)
19104_057_110701.eps
110701
Figure 4-9 Cable dressing 32PFL74x6x/xx & 32PFL76x6x/xx (Sundance)
back to
div. table
2012-Mar-16
�EN 24
4.
Q552.2E LA
Mechanical Instructions
19104_058_110701.eps
110701
Figure 4-10 Cable dressing 37PFL76x6x/xx (Sundance)
2012-Mar-16
back to
div. table
�Mechanical Instructions
Q552.2E LA
4.
EN 25
19104_059_110701.eps
110701
Figure 4-11 Cable dressing 42PFL74x6x/xx (Sundance)
back to
div. table
2012-Mar-16
�EN 26
4.
Q552.2E LA
Mechanical Instructions
10000_000fullwide_090515.eps
091118
Figure 4-12 Cable dressing 47PFL74x6x/xx (Sundance)
2012-Mar-16
back to
div. table
�Mechanical Instructions
4.4
Q552.2E LA
4.
EN 27
Cable Dressing Sundance Styling (xxPFL76x6x/xx series; WiFi)
19104_061_110701.eps
110701
Figure 4-13 Cable dressing 37PFL76x6x/xx (Sundance)
back to
div. table
2012-Mar-16
�EN 28
4.
Q552.2E LA
Mechanical Instructions
19104_062_110701.eps
110701
Figure 4-14 Cable dressing 42PFL76x6x/xx (Sundance)
2012-Mar-16
back to
div. table
�Mechanical Instructions
Q552.2E LA
4.
EN 29
19104_063_110701.eps
110701
Figure 4-15 Cable dressing 47PFL76x6x/xx (Sundance)
back to
div. table
2012-Mar-16
�EN 30
4.
Q552.2E LA
Mechanical Instructions
19104_064_110701.eps
110701
Figure 4-16 Cable dressing 55PFL76x6x/xx (Sundance)
2012-Mar-16
back to
div. table
�Mechanical Instructions
4.5
Q552.2E LA
4.
EN 31
Cable Dressing Infinity Styling (xxPDL79x6x/xx series)
19104_065_110701.eps
110701
Figure 4-17 Cable dressing 32PDL79x6x/xx (Infinity)
back to
div. table
2012-Mar-16
�EN 32
4.
Q552.2E LA
Mechanical Instructions
19104_066_110701.eps
110701
Figure 4-18 Cable dressing 42PDL79x6x/xx (Infinity)
4.6
Service Positions
For easy servicing of a TV set, the set should be put face down
on a soft flat surface, foam buffers or other specific workshop
tools. Ensure that a stable situation is created to perform
measurements and alignments. When using foam bars take
care that these always support the cabinet and never only the
display. Caution: Failure to follow these guidelines can
seriously damage the display!
Ensure that ESD safe measures are taken.
2012-Mar-16
back to
div. table
�Mechanical Instructions
4.7
Assy/Panel Removal Berlinale styling
(xxPFL5806K/xx)
Rear Cover
Refer to Figure 4-19 for details.
2
4.
EN 33
Warning: Disconnect the mains power cord before removing
the rear cover.
1. Remove screw caps [1] that cover VESA screw holes.
2. Remove all fixation screws [2] that secure the rear cover.
3. At the indicated areas [3] the cover is secured by clips. Be
very careful with releasing those.
4. Lift the rear cover from the TV. Make sure that wires and
flat foils are not damaged while lifting the rear cover from
the set.
Instructions below apply to the 32PFL5606H/12, but will be
similar for other models.
4.7.1
Q552.2E LA
2
2
1
1
3
3
2
2
1
2
2
1
2
2
2
19080_107_110401.eps
110407
Figure 4-19 Rear cover removal
4.7.2
Small Signal Board (SSB)
4.7.3
Caution: it is mandatory to remount all different screws at their
original position during re-assembly. Failure to do so may result
in damaging the SSB.
1. Release the clips from both the LVDS Flat Foil connectors
that connect with the SSB.
Caution: be careful, as these are very fragile connectors!
Take the flat foils out of their connectors.
2. Unplug all other connectors.
3. Remove all fixation screws from the SSB. Note that one
screw is located below the upper flat foil cable.
4. Take out the SSB together with side and bottom I/O
bracket.
5. Remove the screws between the bottom Y-Pb and L-R
audio connectors.
6. Remove the side and bottom I/O bracket from the SSB.
Note that these parts are kept in place by very fragile clips.
Release those clips gently!
Power Supply Unit (PSU)
Caution: it is mandatory to remount all different screws at their
original position during re-assembly. Failure to do so may result
in damaging the PSU.
1. Release the tape from the Power board cables.
2. Unplug power connectors from the SSB, as it is not unplugable at the PSU itself (soldered connector).
3. Unplug both other connectors from the PSU.
4. Remove all fixation screws from the PSU.
5. The PSU can be taken out of the set now.
When defective, replace the whole unit.
4.7.4
Stand removal
1. Remove the four fixation screws.
2. Take the stand out in a downwards direction.
back to
div. table
2012-Mar-16
�EN 34
4.7.5
4.
Mechanical Instructions
Q552.2E LA
Stand bracket removal
4.7.8
Refer to Figure 4-20 for details.
Caution: it is mandatory to remount all different screws at their
original position during re-assembly. Be sure to put the set in
the Service Position.
1. Remove the fixation screws [1], [2].
2. Take the Stand bracket out.
3. Take Cover leading edge out, be careful of the clips.
Stand bracket
2
IR/LED/Keyboard
Refer to Figure 4-22 for details.
1. Remove the stand bracket as described earlier.
2. Release the connectors [1] from the IR/LED/Keyboard.
3. Caution: The board is fitted to the bezel by double sided
tape!
4. Use the slot type screw driver to detach the IR/LED/
Keyboard from the bezel. Be careful not to damage the
bezel. Refer to Figure 4-22 for details.
5. Carefully remove any of the tape residue from the bezel.
When defective, replace the whole unit.
2
1
1
19080_113_110402.eps
111103
1
2
1
Cover leading edge
2
Figure 4-22 IR/LED/Keyboard removal
Caution: The touch control function needs to be checked when
it is replaced.
1. Use test finger with a 8 mm diameter to touch centre of key
icon on front cover.
2. Press touch key sensitivity test hot key “0 6 2 5 9 0 MENU”,
check the sensitivity count value of each key (CH +/-,
HOME, VOL +/-), when touching key icon on front cover.
Refer to Figure 4-23 for details.
3. The value count of each key should be over 100.
19080_108_110402.eps
110407
Figure 4-20 Stand bracket removal
4.7.6
Power switch and mains plug
Refer to Figure 4-21 for details.
1. Unplug the connector from the PSU.
2. The switch and mains inlet can be remove by simply lifting
them upwards out of their brackets.
3. The brackets can be removed by removing the fixation
screws [1] and take them out of the set.
When defective, replace the power switch and mains plug
assembly.
AC inlet cover
1
19080_116_110406.eps
111103
AC hand switch
Figure 4-23 Check touch control
1
19080_109_110402.eps
111103
Figure 4-21 Power switch and mains plug removal
4.7.7
Speakers
1. Unplug the left and right speaker connectors from the SSB.
2. Remove the Stand bracket as described earlier.
3. Remove the Power switch and mains plug as described
earlier.
4. Release tapes from the speaker cables.
5. Take the left and right speakers out.
When defective, replace the both units.
2012-Mar-16
back to
div. table
�Mechanical Instructions
4.7.9
Q552.2E LA
4.
EN 35
LCD Panel
Refer to Figure 4-24 for details.
1. Remove the SSB as described earlier.
2. Remove the PSU as described earlier.
3. Remove the stand as described earlier.
4. Remove the stand bracket as described earlier.
5. Remove the Power switch and mains plug as described
earlier.
6. Remove the speakers as described earlier.
7. Release the tapes from the cables of the IR/KEY board.
8. Release the clips from both the LVDS flat
foil connectors [1].
Caution: be careful, as these are very fragile cables and
connectors! Take the flat foils out of their connectors.
9. Remove the fixation screws [2] at the top, sides and bottom
of the panel that secure the LCD panel with the bezel.
Remove all metal clips from their position. Be careful not to
break the clicks that secure by metal brackets to keep
those in position.
10. Lift the LCD Panel from the bezel.
When defective, replace the whole unit.
2
1
19100_048_110216.eps
110216
Figure 4-25 Bottom catches 40 " and 46 " Blockbuster sets -1-
2
1
2
2
1
2
2
2
2
19100_049_110216.eps
110216
2
1
Figure 4-26 Bottom catches 40 " and 46 " Blockbuster sets -2-
2
2
2
2
It is advised to lay the set with front facing down before
executing this operation.
1. Remove all screws from the rear cover.
2. Use a round rod (diameter 2 mm) and insert it in one of the
holes [1].
3. Push the catch located inside the rear cover away by
inserting the rod [2] through the hole and lifting the rear
cover at the same time.
4. Repeat the same procedure on the other hole.
19080_115_110402.eps
111103
Figure 4-24 LCD panel removal
4.8
Assy/Panel Removal Blockbuster Styling
(xxPFL6xxx/xx series)
For the 40 " and 46 " Blockbuster sets, additional instructions
(rear cover removal) apply. Refer to subsection Additional
instructions for Blockbuster 40-/46PFL6x06x/xx.
4.8.2
Tweeters
Each tweeter unit is mounted with two screws.
When defective, replace the whole unit.
The instructions apply to the 37PFL6606H/12.
4.8.1
Speakers
Rear Cover
Subwoofer
The central subwoofer is located in the centre of the set and is
secured by two bosses.
When defective, replace the whole unit.
Warning: Disconnect the mains power cord before you remove
the rear cover.
Note: it is not necessary to remove the stand while removing
the rear cover.
4.8.3
1. Remove all screws of the rear cover.
2. Lift the rear cover from the TV. Make sure that wires and
flat coils are not damaged while lifting the rear cover from
the set.
Mains Switch
Refer to Figure 4-35 for details.
Additional instructions for Blockbuster 40-/46PFL6x06x/xx
40 " and 46 " Blockbuster (40-/46PFL6606x/xx) sets have a
dedicated method to open the bottom catches when removing
the rear cover.
Refer to Figure 4-25 and Figure 4-26 for details.
back to
div. table
2012-Mar-16
�EN 36
4.
Q552.2E LA
Mechanical Instructions
1
2
2
1
2
2
2
2
19100_047_110216.eps
110216
Figure 4-27 Mains switch
The mains switch is mounted on a plastic subframe and can be
removed without removing the subframe.
1. Use a screwdriver and push the switch out of its casing [1].
2. Unplug the connectors.
When defective, replace the whole unit.
4.8.4
19101_007_110407.eps
110407
Main Power Supply
Figure 4-29 SSB
1. Unplug all connectors [1].
2. Remove the fixation screws [2].
3. Take the board out.
When remounting, ensure that the side shielding is positioned
correctly.
Refer to Figure 4-36 for details.
2
1
4.8.6
2
Keyboard Control, IR & LED Board
Refer to Figure 4-38 and Figure 4-39 for details.
1
1
1
2
1
1
19101_009_110407.eps
110407
2
Figure 4-30 Keyboard control, IR & LED board [1/2]
19101_008_110407.eps
110407
Figure 4-28 Main Power Supply
2
1. Unplug all connectors [1].
2. Remove the fixation screws [2].
3. Take the board out.
When defective, replace the whole unit.
4.8.5
2
Small Signal Board (SSB)
Refer to Figure 4-37 for details.
2
2
3
3
2
2
19101_006_110407.eps
110407
Figure 4-31 Keyboard control, IR & LED board [2/2]
1. Remove the stand [1].
2. Remove the stand subframe [2].
2012-Mar-16
back to
div. table
�Mechanical Instructions
3. Remove the screws [3], unplug the connector and take the
board out.
When defective, replace the whole unit.
4.8.7
Q552.2E LA
4.
EN 37
LCD Panel
Refer to Figure 4-41 and Figure 4-42 for details.
1
2
19101_005_110407.eps
110407
Figure 4-32 LCD panel [1/3]
1. Remove the SSB as described earlier.
2. Remove the PSU as described earlier.
3. Remove the tweeters with their subframes and subwoofer
as described earlier.
4. Remove the stand and -subframe as described earlier.
5. Remove the cables [1].
6. Remove the mains switch subframe [2].
7. Remove the keyboard control-, and IR & LED board as
described earlier.
8. Remove all remaining cables and subframes.
9. Use a screwdriver to release the catches [3] that secure the
panel.
10. Use a screwdriver to release the catches and remove the
sidewings [4] that secure the panel.
11. Take the panel out.
Remove the clamps from the panel before sending the panel in
for Service.
3
19101_004_110407.eps
110407
Figure 4-33 LCD panel [2/3]
back to
div. table
2012-Mar-16
�EN 38
4.
Mechanical Instructions
Q552.2E LA
1
19100_047_110216.eps
110216
4
Figure 4-35 Mains switch
The mains switch is mounted on a plastic subframe and can be
removed without removing the subframe.
1. Use a screwdriver and push the switch out of its casing [1].
2. Unplug the connectors.
When defective, replace the whole unit.
4.9.4
19101_003_110407.eps
110407
Main Power Supply
Refer to Figure 4-36 for details.
Figure 4-34 LCD panel [3/3]
4.9
1
Assy/Panel Removal Sundance Styling
(xxPFL7xxx/xx series)
The instructions apply to the 32PFL7406K/02.
2
4.9.1
2
Rear Cover
Warning: Disconnect the mains power cord before you remove
the rear cover.
Note: it is not necessary to remove the stand while removing
the rear cover.
1
1. Remove all screws of the rear cover.
2. Lift the rear cover from the TV. Make sure that wires and
flat coils are not damaged while lifting the rear cover from
the set.
2
2
1
4.9.2
Speakers
19100_050_110216.eps
110216
Tweeters
Each tweeter unit is mounted with one screw.
When defective, replace the whole unit.
Figure 4-36 Main Power Supply
1. Unplug all connectors [1].
2. Remove the fixation screws [2].
3. Take the board out.
When defective, replace the whole unit.
Subwoofer
The central subwoofer is located in the centre of the set and is
secured by two bosses.
When defective, replace the whole unit.
4.9.3
4.9.5
Mains Switch
Refer to Figure 4-37 for details.
Refer to Figure 4-35 for details.
2012-Mar-16
Small Signal Board (SSB)
back to
div. table
�Mechanical Instructions
Q552.2E LA
4.
EN 39
3. Remove the screws [3] and take the board out.
When defective, replace the whole unit.
4.9.7
2
The Ambilight units can be lifted from the subframes without
the use of tools.
Refer to Figure 4-40 for details.
2
1
2
Ambilight Units
2
2
2
1
2
19100_051_110216.eps
110216
Figure 4-37 SSB
1. Unplug all connectors [1].
2. Remove the fixation screws [2].
3. Take the board out.
When remounting, ensure that the side shielding is positioned
correctly.
4.9.6
19100_054_110216.eps
110216
Figure 4-40 Ambilight units
1. Unplug the connector [1].
2. Carefully lift the board [2] and take the board out.
When defective, replace the whole unit.
Keyboard Control, IR & LED Board
Refer to Figure 4-38 and Figure 4-39 for details.
1
1
1
1
1
1
19100_052_110216.eps
110216
Figure 4-38 Keyboard control, IR & LED board [1/2]
2
2
3
2
19100_053_110216.eps
110216
Figure 4-39 Keyboard control, IR & LED board [2/2]
1. Remove the stand and the plastic support [1].
2. Unplug the connector [2].
back to
div. table
2012-Mar-16
�EN 40
4.9.8
4.
Q552.2E LA
Mechanical Instructions
LCD Panel
Refer to Figure 4-41 and Figure 4-42 for details.
4
4
4
2
2
2
1
4
4
4
4
2
2
19100_055_110216.eps
110216
Figure 4-41 LCD panel [1/2]
1. Remove the SSB as described earlier.
2. Remove the PSU as described earlier.
3. Remove the tweeters with their subframes and subwoofer
as described earlier.
4. Remove the stand and -support as described earlier.
5. Remove the cables [1].
6. Remove the stand subframe [2].
7. Remove the mains switch subframe [3].
8. Remove the Ambilight units together with their subframes
as described earlier.
9. Unplug the connector from the keyboard control-, and IR &
LED board as described earlier.
10. Remove all remaining cables and subframes.
11. Use a screwdriver to release the clamps [4] that secure the
panel and take the panel out.
Remove the clamps from the panel before sending the panel in
for Service.
4
19100_056_110217.eps
110217
Figure 4-42 LCD panel [2/2]
4.10 Assy/Panel Removal Infinity Styling
(xxPDL79xx/xx series)
The instructions apply to the 32PDL7906K/02.
4.10.1 Rear Cover
Warning: Disconnect the mains power cord before you remove
the rear cover.
1. Remove all screws of the rear cover.
2012-Mar-16
back to
div. table
�Mechanical Instructions
Q552.2E LA
2. Lift the rear cover from the TV. Make sure that wires and
flat coils are not damaged while lifting the rear cover from
the set.
4.
EN 41
1
4.10.2 Speakers
2
2
Tweeters
Each tweeter unit is mounted with one screw.
When defective, replace the whole unit.
1
Subwoofer
The central subwoofer is located in the centre of the set and is
secured by two bosses.
When defective, replace the whole unit.
1
4.10.3 Mains Switch
2
Refer to Figure 4-43 for details.
2
19104_068_110701.eps
110701
Figure 4-44 Main Power Supply
1. Unplug all connectors [1].
2. Remove the fixation screws [2].
3. Take the board out.
When defective, replace the whole unit.
1
4.10.5 Small Signal Board (SSB)
Refer to Figure 4-45 for details.
2
19104_067_110701.eps
110701
Figure 4-43 Mains switch
1
2
2
2
The mains switch is mounted on a plastic subframe and can be
removed without removing the subframe.
1. Use a screwdriver and push the switch out of its casing [1].
2. Unplug the connectors.
When defective, replace the whole unit.
2
2
4.10.4 Main Power Supply
19104_069_110701.eps
110701
Refer to Figure 4-44 for details.
Figure 4-45 SSB
1. Unplug all connectors [1].
2. Remove the fixation screws [2].
3. Take the board out.
When remounting, ensure that the side shielding is positioned
correctly.
back to
div. table
2012-Mar-16
�EN 42
4.
Q552.2E LA
Mechanical Instructions
4.10.6 IR/LED Board
4.10.9 Temperature Sensor Board
Refer to Figure 4-46 for details.
Refer to Figure 4-49 for details.
1
2
2
1
19104_070_110701.eps
110701
19104_074_110708.eps
110708
Figure 4-46 IR/LED board
Figure 4-49 Temperature Sensor board
1. Unplug the connector [1].
2. Remove the screw [2].
3. Take the board out together with the subframe.
When defective, replace the whole unit.
1. Remove the screw [1].
2. Unplug the connector [2].
3. Take the board out.
When defective, replace the whole unit.
4.10.7 Keyboard Control Board
4.10.10 Ambilight Units
Refer to Figure 4-47 for details.
The Ambilight units can be lifted from the subframes without
the use of tools.
Refer to Figure 4-50 for details.
2
2
1
19104_071_110701.eps
110701
2
Figure 4-47 Keyboard control board
1
1. Unplug the connector [1] from the IR/LED board, as
described earlier.
2. Release the tapes of the IR/LED cables.
3. Unplug the connector [1].
4. Remove the screws [2].
5. Take the board out together with the subframe.
When defective, replace the whole unit.
19100_054_110216.eps
110216
4.10.8 WiFi Board
Figure 4-50 Ambilight units
Refer to Figure 4-48 for details.
1. Unplug the connector [1].
2. Carefully lift the board [2] and take the board out.
When defective, replace the whole unit.
19104_072_110704.eps
110704
Figure 4-48 WiFi board
1. Remove the screw [1].
2. Unplug the connector [2].
3. Take the board out together with the subframe.
When defective, replace the whole unit.
2012-Mar-16
back to
div. table
�Mechanical Instructions
Q552.2E LA
4.
EN 43
4.10.11 LCD Panel
Refer to Figure 4-51 for details.
3
2
3
2
3
3
1
1
3
3
2
3
1
3
1
1
1
3
2
19104_073_110704.eps
110704
Figure 4-51 LCD panel
4.11 Set Re-assembly
1. Remove the SSB as described earlier.
2. Remove the PSU as described earlier.
3. Remove the tweeters with their subframes and subwoofer
as described earlier.
4. Remove all remaining cables.
5. Remove the stand support [1].
6. Remove the Ambilight units.
7. Remove the WiFi board as described earlier.
8. Remove the keyboard control-, and IR & LED board as
described earlier.
9. Remove all remaining cables and subframes.
10. Remove the adhesive tape on each corner [2].
11. Remove the clamps [3] that secure the panel and take the
panel out.
To re-assemble the whole set, execute all processes in reverse
order.
Notes:
• While re-assembling, make sure that all cables are placed
and connected in their original position.
• Pay special attention not to damage the EMC foams in the
set. Ensure that EMC foams are mounted correctly.
back to
div. table
2012-Mar-16
�EN 44
5.
Q552.2E LA
Service Modes, Error Codes, and Fault Finding
5. Service Modes, Error Codes, and Fault Finding
Index of this chapter:
5.1 Test Points
5.2 Service Modes
5.3 Stepwise Start-up
5.4 Service Tools
5.5 Error Codes
5.6 The Blinking LED Procedure
5.7 Protections
5.9 Fault Finding and Repair Tips
5.10 Software Upgrading
5.1
–
–
How to Activate SDM
For this chassis there are two kinds of SDM: an analogue SDM
and a digital SDM. Tuning will happen according Table 5-1.
• Analogue SDM: use the standard RC-transmitter and key
in the code “062596”, directly followed by the “MENU” (or
“HOME”) button.
Note: It is possible that, together with the SDM, the main
menu will appear. To switch it “off”, push the “MENU” (or
" HOME " ) button again.
Analogue SDM can also be activated by grounding for a
moment the solder path on the SSB, with the indication
“SDM” (see Service mode pad).
• Digital SDM: use the standard RC-transmitter and key in
the code “062593”, directly followed by the “MENU” (or
" HOME " ) button.
Note: It is possible that, together with the SDM, the main
menu will appear. To switch it “off”, push the “MENU” (or
" HOME " ) button again.
Test Points
As most signals are digital, it will be difficult to measure
waveforms with a standard oscilloscope. However, several key
ICs are capable of generating test patterns, which can be
controlled via ComPair. In this way it is possible to determine
which part is defective.
Perform measurements under the following conditions:
• Service Default Mode.
• Video: Colour bar signal.
• Audio: 3 kHz left, 1 kHz right.
5.2
Automatic volume levelling (AVL).
Skip/blank of non-favourite pre-sets.
Service Modes
Service Default mode (SDM) and Service Alignment Mode
(SAM) offers several features for the service technician, while
the Customer Service Mode (CSM) is used for communication
between the call centre and the customer.
SDM
This chassis also offers the option of using ComPair, a
hardware interface between a computer and the TV chassis. It
offers the abilities of structured troubleshooting, error code
reading, and software version read-out for all chassis.
(see also section “5.4.1 ComPair”).
19100_057_110217.eps
110217
Note: For the new model range, a new remote control (RC) is
used with some renamed buttons. This has an impact on the
activation of the Service modes. For instance the old “MENU”
button is now called “HOME” (or is indicated by a “house” icon).
5.2.1
Figure 5-1 Service mode pad
After activating this mode, “SDM” will appear in the upper right
corner of the screen (when a picture is available).
Service Default Mode (SDM)
How to Navigate
When the “MENU” (or “HOME”) button is pressed on the RC
transmitter, the TV set will toggle between the SDM and the
normal user menu.
Purpose
• To create a pre-defined setting, to get the same
measurement results as given in this manual.
• To override software protections detected by stand-by
processor and make the TV start up to the step just before
protection (a sort of automatic stepwise start-up). See
section “5.3 Stepwise Start-up”.
• To start the blinking LED procedure where only LAYER 2
errors are displayed. (see also section “5.5 Error Codes”).
How to Exit SDM
Use one of the following methods:
• Switch the set to STAND-BY via the RC-transmitter.
• Via a standard customer RC-transmitter: key in “00”sequence.
Specifications
5.2.2
Table 5-1 SDM default settings
Region
Freq. (MHz)
475.25
PAL B/G
Europe, AP DVB-T
Purpose
• To perform (software) alignments.
• To change option settings.
• To easily identify the used software version.
• To view operation hours.
• To display (or clear) the error code buffer.
Default system
Europe, AP(PAL/Multi)
546.00 PID Video: 0B
DVB-T
06 PID PCR: 0B 06 PID
Audio: 0B 07
•
•
•
2012-Mar-16
Service Alignment Mode (SAM)
How to Activate SAM
Via a standard RC transmitter: Key in the code “062596”
directly followed by the “INFO” or “OK” button. After activating
SAM with this method a service warning will appear on the
screen, continue by pressing the “OK” button on the RC.
All picture settings at 50% (brightness, colour, contrast).
Sound volume at 25%.
All service-unfriendly modes (if present) are disabled, like:
– (Sleep) timer.
– Child/parental lock.
– Picture mute (blue mute or black mute).
Contents of SAM
• Hardware Info.
back to
div. table
�Service Modes, Error Codes, and Fault Finding
5.
EN 45
–
•
•
•
•
•
•
•
A. SW Version. Displays the software version of the
main software (example: Q555X-1.2.3.4 =
AAAAB_X.Y.W.Z).
• AAAA= the chassis name.
• B= the software branch version. This is a
sequential number (this is no longer the region
indication, as the software is now multi-region).
• X.Y.W.Z= the software version, where X is the
main version number (different numbers are not
compatible with one another) and Y.W.Z is the sub
version number (a higher number is always
compatible with a lower number).
– B. STBY PROC Version. Displays the software
version of the stand-by processor.
– C. Production Code. Displays the production code of
the TV, this is the serial number as printed on the back
of the TV set. Note that if an NVM is replaced or is
initialized after corruption, this production code has to
be re-written to NVM. ComPair will foresee in a
possibility to do this.
Operation Hours. Displays the accumulated total of
operation hours (not the stand-by hours). Every time the
TV is switched “on/off”, 0.5 hours is added to this number.
Errors (followed by maximum 10 errors). The most recent
error is displayed at the upper left (for an error explanation
see section “5.5 Error Codes”).
Reset Error Buffer. When “cursor right” (or “OK” button)
pressed here, followed by the “OK” button, the error buffer
is reset.
Alignments. This will activate the “ALIGNMENTS” submenu. See Chapter 6. Alignments.
Dealer Options. Extra features for the dealers.
Options. Extra features for Service. For more info
regarding option codes, see chapter 6. Alignments.
Note that if the option code numbers are changed, these
have to be confirmed with pressing the “OK” button before
the options are stored, otherwise changes will be lost.
Initialize NVM. The moment the processor recognizes a
corrupted NVM, the “initialize NVM” line will be highlighted.
Now, two things can be done (dependent of the service
instructions at that moment):
– Save the content of the NVM via ComPair for
development analysis, before initializing. This will give
the Service department an extra possibility for
diagnosis (e.g. when Development asks for this).
– Initialize the NVM.
Q552.2E LA
Display Option
Code
39mm
27mm
PHILIPS
040
MODEL:
32PF9968/10
PROD.SERIAL NO:
AG 1A0620 000001
(CTN Sticker)
10000_038_090121.eps
090819
Figure 5-2 Location of Display Option Code sticker
•
•
•
•
•
•
Note: When the NVM is corrupted, or replaced, there is a high
possibility that no picture appears because the display code is
not correct. So, before initializing the NVM via the SAM, a
picture is necessary and therefore the correct display option
has to be entered. Refer to Chapter 6. Alignments for details.
To adapt this option, it’s advised to use ComPair (the correct
values for the options can be found in Chapter 6. Alignments)
or a method via a standard RC (described below).
Changing the display option via a standard RC: Key in the
code “062598” directly followed by the “MENU” (or " HOME " )
button and “XXX” (where XXX is the 3 digit decimal display
code as mentioned on the sticker in the set). Make sure to key
in all three digits, also the leading zero’s. If the above action is
successful, the front LED will go out as an indication that the
RC sequence was correct. After the display option is changed
in the NVM, the TV will go to the Stand-by mode. If the NVM
was corrupted or empty before this action, it will be initialized
first (loaded with default values). This initializing can take up to
20 seconds.
•
•
back to
div. table
Store - go right. All options and alignments are stored
when pressing “cursor right” (or the “OK” button) and then
the “OK”-button.
Operation hours display. Displays the accumulated total
of operation hours of the screen itself. In case of a display
replacement, reset to “0” or to the consumed operation
hours of the spare display.
SW Maintenance.
– SW Events. In case of specific software problems, the
development department can ask for this info.
– HW Events. In case of specific software problems, the
development department can ask for this info :
- Event 26: refers to a power dip, this is logged after
the TV set reboots due to a power dip.
- Event 17: refers to the power OK status, sensed even
before the 3 x retry to generate the error code.
Test settings. For development purposes only.
Development file versions. Not useful for Service
purposes, this information is only used by the development
department.
Upload to USB. To upload several settings from the TV to
an USB stick, which is connected to the SSB. The items are
“Channel list”, “Personal settings”, “Option codes”,
“Alignments”, “Identification data” (includes the set type
and prod code + all 12NC like SSB, display, boards),
“History list”. The “All” item supports to upload all several
items at once.
First a directory “repair\” has to be created in the root
of the USB stick.
To upload the settings, select each item separately, press
“cursor right” (or the “OK” button), confirm with “OK” and
wait until the message “Done” appears. In case the
download to the USB stick was not successful, “Failure” will
be displayed. In this case, check if the USB stick is
connected properly and if the directory “repair” is present in
the root of the USB stick. Now the settings are stored onto
the USB stick and can be used to download into another TV
or other SSB. Uploading is of course only possible if the
software is running and preferably a picture is available.
This method is created to be able to save the customer’s
TV settings and to store them into another SSB.
Download from USB. To download several settings from
the USB stick to the TV, same way of working needs to be
followed as described in “Upload to USB”. To make sure
that the download of the channel list from USB to the TV is
executed properly, it is necessary to restart the TV and
tune to a valid preset if necessary. The “All” item supports
to download all several items at once.
NVM editor. For NET TV the set “type number” must be
entered correctly.
Also the production code (AG code) can be entered here
via the RC-transmitter.
Correct data can be found on the side/rear sticker.
2012-Mar-16
�EN 46
5.
Q552.2E LA
Service Modes, Error Codes, and Fault Finding
How to Navigate
• In SAM, the menu items can be selected with the
“CURSOR UP/DOWN” key on the RC-transmitter. The
selected item will be highlighted. When not all menu items
fit on the screen, move the “CURSOR UP/DOWN” key to
display the next/previous menu items.
• With the “CURSOR LEFT/RIGHT” keys, it is possible to:
– (De) activate the selected menu item.
– (De) activate the selected sub menu.
• With the “OK” key, it is possible to activate the selected
action.
How to Navigate
By means of the “CURSOR-DOWN/UP” knob on the RCtransmitter, can be navigated through the menus.
Contents of CSM
The contents are reduced to 3 pages: General, Software
versions and Quality items. The group names itself are not
shown anywhere in the CSM menu.
General
• Set Type. This information is very helpful for a helpdesk/
workshop as reference for further diagnosis. In this way, it
is not necessary for the customer to look at the rear of the
TV-set. Note that if an NVM is replaced or is initialized after
corruption, this set type has to be re-written to NVM.
ComPair will foresee in a possibility to do this. The update
can also be done via the NVM editor available in SAM.
• Production Code. Displays the production code (the serial
number) of the TV. Note that if an NVM is replaced or is
initialized after corruption, this production code has to be
re-written to NVM. ComPair will foresee in a possibility to
do this. The update can also be done via the NVM editor
available in SAM.
• Installed date. Indicates the date of the first installation of
the TV. This date is acquired via time extraction.
• Options 1. Gives the option codes of option group 1 as set
in SAM (Service Alignment Mode).
• Options 2. Gives the option codes of option group 2 as set
in SAM (Service Alignment Mode).
• 12NC SSB. Gives an identification of the SSB as stored in
NVM. Note that if an NVM is replaced or is initialized after
corruption, this identification number has to be re-written to
NVM. ComPair will foresee in a possibility to do this. This
identification number is the 12nc number of the SSB.
• 12NC display. Shows the 12NC of the display.
• 12NC supply. Shows the 12NC of the power supply.
• 12NC 200Hz board. Shows the 12NC of the 200Hz Panel
(when present).
• 12NC AV PIP. Shows the 12NC of the AV PIP board
(when present).
How to Exit SAM
Use one of the following methods:
• Switch the TV set to STAND-BY via the RC-transmitter.
• Via a standard RC-transmitter, key in “00” sequence, or
select the “BACK” key.
5.2.3
Customer Service Mode (CSM)
Purpose
When a customer is having problems with his TV-set, he can
call his dealer or the Customer Helpdesk. The service
technician can then ask the customer to activate the CSM, in
order to identify the status of the set. Now, the service
technician can judge the severity of the complaint. In many
cases, he can advise the customer how to solve the problem,
or he can decide if it is necessary to visit the customer.
The CSM is a read only mode; therefore, modifications in this
mode are not possible.
When in this chassis CSM is activated, a test pattern will be
displayed during 5 seconds (1 second Blue, 1 second Green
and 1 second Red, then again 1 second Blue and 1 second
Green). This test pattern is generated by the PNX51X0
(located on the 200Hz board as part of the display). So if this
test pattern is shown, it could be determined that the back end
video chain (PNX51X0 and display) is working.For TV sets
without the PNX51X0 inside, every menu from CSM will be
used as check for the back end chain video.
When CSM is activated and there is a USB stick connected to
the TV set, the software will dump the CSM content to the USB
stick. The file (CSM_model number_serial number.txt) will be
saved in the root of the USB stick. This info can be handy if no
information is displayed.
Software versions
• Current main SW. Displays the build-in main software
version. In case of field problems related to software,
software can be upgraded. As this software is consumer
upgradeable, it will also be published on the Internet.
Example: Q55xx1.2.3.4
• Stand-by SW. Displays the build-in stand-by processor
software version. Upgrading this software will be possible
via ComPair or via USB (see section 5.10 Software
Upgrading).
Example: STDBY_83.84.0.0.
• e-UM version. Displays the electronic user manual
software-version (12NC version number). Most significant
number here is the last digit.
• AV PIP software.
• 3D dongle software version.
When in CSM mode (and a USB stick connected), pressing
“OK” will create an extended CSM dump file on the USB stick.
This file (Extended_CSM_model number_serial number.txt)
contains:
• The normal CSM dump information,
• All items (from SAM “load to USB”, but in readable format),
• Operating hours,
• Error codes,
• Software/Hardware event logs.
To have fast feedback from the field, a flashdump can be
requested by development. When in CSM, push the “red”
button and key in serial digits ‘2679’ (same keys to form the
word ‘COPY’ with a cellphone). A file “Dump_model
number_serial number.bin” will be written on the connected
USB device. This can take 1/2 minute, depending on the
quantity of data that needs to be dumped.
Quality items
• Signal quality. Bad / average /good (not for DVB-S).
• Ethernet MAC address. Displays the MAC address
present in the SSB.
• Wireless MAC address. Displays the wireless MAC
address to support the Wi-Fi functionality.
• BDS key. Indicates if the set is in the BDS status.
• CI module. Displays status if the common interface
module is detected.
• CI + protected service. Yes/No.
• Event counter :
S : 000X 0000(number of software recoveries : SW
EVENT-LOG #(reboots)
S : 0000 000X (number of software events : SW EVENTLOG #(events)
H : 000X 0000(number of hardware errors)
Also when CSM is activated, the LAYER 1 error is displayed via
blinking LED. Only the latest error is displayed (see also
section 5.5 Error Codes).
How to Activate CSM
Key in the code “123654” via the standard RC transmitter.
Note: Activation of the CSM is only possible if there is no (user)
menu on the screen!
2012-Mar-16
back to
div. table
�Service Modes, Error Codes, and Fault Finding
5.3
H : 0000 000X (number of hardware events : SW EVENTLOG #(events).
EN 47
When the TV is in a protection state due to an error detected by
stand-by software (error blinking is displayed) and SDM is
activated via shortcutting the SDM solder path on the SSB, the
TV starts up until it reaches the situation just before protection.
So, this is a kind of automatic stepwise start-up. In combination
with the start-up diagrams below, you can see which supplies
are present at a certain moment. Caution: in case the start-up
in this mode with a faulty FET 7U0X is done, you can destroy
all IC’s supplied by the +1V8 and +1v1, due to overvoltage (12V
on XVX-line). It is recommended to measure first the FET
7U0X or others FET’s on shortcircuit before activating SDM via
the service pads.
Hotel mode
Notes: (only applicable to xxHFLxxxxX/nn)
• Refer to the user manual for more information on the hotel
mode.
• When in the hotel mode, the service modes CSM, SDM,
SAM and ComPair are automatically disabled (this is to
prevent hotel guests entering Philips service modes).
• In order to use the service modes and ComPair, hotel
mode must be disabled.
• To enable the hotel mode, Press the following key
sequence on the remote control transmitter: “3 1 9 7 5 3
MUTE”.
The abbreviations “SP” and “MP” in the figures stand for:
• SP: protection or error detected by the Stand-by
Processor.
• MP: protection or error detected by the MIPS Main
Processor.
Mains
off
Mains
on
- WakeUp requested
- Acquisition needed
- Tact switch pushed
St by
5.
Stepwise Start-up
How to Exit CSM
Press “MENU” (or " HOME " ) / “Back” key on the RC-transmitter.
5.2.4
Q552.2E LA
WakeUp
requested
Semi
St by
- stby requested and
no data Acquisition
required
Active
- St by requested
- tact SW pushed
Tact switch
pushed
Hibernate
WakeUp
requested
(SDM)
- Tact switch pushed
- last status is hibernate
after mains ON
GoToProtection
GoToProtection
Protection
18770_250_100216.eps
100402
Figure 5-3 Transition diagram
back to
div. table
2012-Mar-16
�EN 48
5.
Service Modes, Error Codes, and Fault Finding
Q552.2E LA
Off
Stand by or
Protection
Mains is applied
Standby Supply starts running.
All standby supply voltages become available.
st-by µP resets
If the protection state was left by short circuiting the
SDM pins, detection of a protection condition during
startup will stall the startup. Protection conditions in a
playing set will be ignored. The protection mode will
not be entered.
Initialise I/O pins of the st-by µP:
- Switch reset-AVC LOW (reset state)
- Switch reset-system LOW (reset state)
- Switch reset-Ethernet LOW (reset state)
- Switch reset-USB LOW (reset state)
- Switch reset-DVBs LOW (reset state)
- keep Audio-reset and Audio-Mute-Up HIGH
- Switch Audio-Reset high.
It is low in the standby mode if the standby
mode lasted longer than 10s.
start keyboard scanning, RC detection. Wake up reasons are
off.
Switch ON Platform and display supply by switching
LOW the Standby line.
+12V, +24Vs, AL and Bolt-on power
is switched on, followed by the +1V2 DCDC converter
Detect2 is moved to an interrupt. To be checked if
the detection on interrupt base is feasible or not or if
we should stick to the standard 40ms interval.
Detect2 high received
within 2 seconds?
Yes
12V error:
Layer1: 3
Layer2: 16
No
Enter protection
Enable the DCDC converters
(ENABLE-3V3n LOW)
Wait 50ms
Enable the supply detection algorithm
Set I²C slave address
of Standby µP to (A0h)
Detect EJTAG debug probe
(pulling pin of the probe interface to
ground by inserting EJTAG probe)
An EJTAG probe (e.g. WindPower ICE probe) can be
connected for Linux Kernel debugging purposes.
EJTAG probe
connected ?
Yes
No
No
No
Cold boot?
Yes
Release AVC system reset
Feed warm boot script
Release AVC system reset
Feed cold boot script
Release AVC system reset
Feed initializing boot script
disable alive mechanism
18770_251_100216.eps
100216
Figure 5-4 “Off” to “Semi Stand-by” flowchart (part 1)
2012-Mar-16
back to
div. table
�Service Modes, Error Codes, and Fault Finding
Q552.2E LA
5.
Reset-system is switched HIGH by the
AVC at the end of the bootscript
Reset-system is switched HIGH by the
AVC at the end of the bootscript
AVC releases Reset-Ethernet, Reset-USB and
Reset-DVBs when the end of the AVC bootscript is detected
AVC releases Reset-Ethernet, Reset-USB and
Reset-DVBs when the end of the AVC bootscript is detected
Reset-Audio and Audio-Mute-Up are
switched by MIPS code later on in the
startup process
EN 49
Reset-Audio and Audio-Mute-Up are
switched by MIPS code later on in the
startup process
No
This cannot be done through the bootscript,
the I/O is on the standby µP
Timing need to be updated if
more mature info is available.
Bootscript ready
in 1250 ms?
No
Yes
Set I²C slave address
of Standby µP to (60h)
RPC start (comm. protocol)
Timing needs to
be updated if more
mature info is
available.
Flash to Ram
image transfer succeeded
within 30s?
No
Code =
Layer1: 2
Layer2: 15
Yes
Switch AVC PNX85500 in
reset (active low)
Code =
Layer1: 2
Layer2: 53
No
SW initialization
succeeded
within 20s?
Wait 10ms
Timing needs to be
updated if more
mature info is
available.
Yes
Enable Alive check mechanism
Disable all supply related protections and
switch off the +3V3 +5V DC/DC converter.
MIPS reads the wake up reason
from standby µP.
Wait until AVC starts to
communicate
Wait 5ms
switch off the remaining DC/DC
converters
3-th try?
Startup screen shall only be visible when there is a coldboot to
an active state end situation. The startup screen shall not be
visible when waking up for reboot reasons or waking up to semistandby conditions or waking up to enter Hibernate mode..
Wake up reason
coldboot & not semistandby?
yes
Switch Standby I/O line high
and wait 4 seconds
The first time after the option turn on of the startup screen or
when the set is virgin, the cfg file is not present and hence
the startup screen will not be shown.
Startup screen cfg file
present?
Yes
yes
Blink Code as
error code
200Hz set?
yes
No
Enter protection
85500 sends out startup screen
85500 sends out startup screen
85500 starts up the display.
200Hz Tcon has started up the
display.
Startup screen visible
85500 requests Lamp on
No
No
To keep this flowchart readable, the exact
display turn on description is not copied
here. Please see the Semi-standby to On
description for the detailed display startup
During the complete display time of the
Startup screen, the preheat condition of
sequence.
100% PWM is valid.
Startup screen visible
Initialize audio
initialize tuner and channel decoders
Initialize source selection
Initialize video processing IC’s
initialize AutoTV by triggering CHS AutoTV Init interface
Initialize Ambilight with Lights off.
Semi-Standby
18770_252_100216.eps
100216
Figure 5-5 “Off” to “Semi Stand-by” flowchart (part 2)
back to
div. table
2012-Mar-16
�EN 50
5.
Q552.2E LA
Service Modes, Error Codes, and Fault Finding
Constraints taken into account:
- Display may only be started when valid LVDS output clock can be delivered by the AVC.
- To have a reliable operation of the EEFL backlight, the backlight should be driven with a maximum PWM duty
cycle during the first seconds. Only after this first one or two seconds, the PWM may be set to the required output
level (Note that the PWM output should be present before the backlight is switched on). To minimize the artefacts,
the picture should only be unblanked after these first seconds.
Semi Standby
The assumption here is that a fast toggle ( & lt; 2s) can
only happen during ON- & gt; SEMI - & gt; ON. In these states,
the AVC is still active and can provide the 2s delay. A
transition ON- & gt; SEMI- & gt; STBY- & gt; SEMI- & gt; ON cannot be
made in less than 2s, because the standby state will
be maintained for at least 4s.
Wait until previous on-state is left more than 2
seconds ago. (to prevent LCD display problems)
Assert RGB video blanking
and audio mute
CPipe already generates a valid output
clock in the semi-standby state: display
startup can start immediately when leaving
the semi-standby state.
Display already on?
(splash screen)
No
Switch on the display power by
switching LCD-PWR-ON low
The exact timings to
switch on the
display (LVDS
delay, lamp delay)
are defined in the
display file.
Yes
Wait x ms
Initialize audio and video
processing IC's and functions
according needed use case.
Switch on LVDS output in the 85500
Delay Lamp-on with the sum of the LVDS delay and
the Lamp delay indicated in the display file
Switch off the dimming backlight feature, set
the BOOST control to nominal and make sure
PWM output is set to maximum allowed PWM
Switch on LCD backlight (Lamp-ON)
Start POK line
detection algorithm
Wait until valid and stable audio and video, corresponding to the
requested output is delivered by the AVC
AND
the backlight has been switched on for at least the time which is
indicated in the display file as preheat time.
return
Switch Audio-Reset low and wait 5ms
A LED set does not normally need a
preheat time. The preheat remains present
but is set to zero in the display file.
Release audio mute and wait 100ms before any other audio
handling is done (e.g. volume change)
Restore dimming backlight feature, PWM and BOOST output
and unblank the video.
The higher level requirement is that audio and video
should be demuted without transient effects and that
the audio should be demuted maximum 1s before or
at the same time as the unblanking of the video.
Switch on the Ambilight functionality according the last status
settings.
Startup screen Option
and Installation setting
Photoscreen ON?
Yes
Display cfg file present
and up to date, according
correct display option?
No
No
Yes
Prepare Start screen Display config
file and copy to Flash
Active
18770_253_100216.eps
100216
Figure 5-6 “Semi Stand-by” to “Active” flowchart (EEFL or LED backlight 50/100 Hz only)
2012-Mar-16
back to
div. table
�Service Modes, Error Codes, and Fault Finding
The assumption here is that a fast toggle ( & lt; 2s)
can only happen during ON- & gt; SEMI - & gt; ON. In
these states, the AVC is still active and can
provide the 2s delay. If the transition ON- & gt; SEMI & gt; STBY- & gt; SEMI- & gt; ON can be made in less than 2s,
we have to delay the semi - & gt; stby transition until
the requirement is met.
Q552.2E LA
5.
EN 51
Semi Standby
Wait until previous on-state is left more than 2
seconds ago. (to prevent LCD display problems)
Assert RGB video blanking
and audio mute
There is no need to define the
display timings since the timing
implementation is part of the Tcon.
Backlight already on?
(splash screen)
Yes
Initialize audio and video
processing IC's and functions
according needed use case.
No
Request Tcon to Switch on the backlight in a
direct LED or
set Lamp-on I/O line in case of a side LED
Start POK line
detection algorithm
Wait until valid and stable audio and video, corresponding to
the requested output is delivered by the AVC.
return
Switch Audio-Reset low and wait 5ms
The higher level requirement is that audio and
video should be demuted without transient
effects and that the audio should be demuted
maximum 1s before or at the same time as the
unblanking of the video.
Release audio mute and wait 100ms before any other audio
handling is done (e.g. volume change)
unblank the video.
Switch on the Ambilight functionality according the last status
settings.
Startup screen Option
and Installation setting
Photoscreen ON?
Yes
Display cfg file present
and up to date, according
correct display option?
No
No
Yes
Prepare Start screen Display config
file and copy to Flash
Active
18770_254_100216.eps
100216
Figure 5-7 “Semi Stand-by” to “Active” flowchart (LED backlight 200 Hz)
back to
div. table
2012-Mar-16
�EN 52
5.
Q552.2E LA
Service Modes, Error Codes, and Fault Finding
Active
Mute all sound outputs via softmute
Wait 100ms
Set main amplifier mute (I/O: audio-mute)
Force ext audio outputs to ground
(I/O: audio reset)
And wait 5ms
switch off Ambilight
Wait until Ambilight has faded out: Output power
Observer should be zero
Switch off POK line
detection algorithm
switch off LCD backlight
(I/O or I²C)
Mute all video outputs
Yes
200Hz set?
No
Wait x ms (display file)
Instruct 200Hz
Tcon to turn off
the display
Switch off LVDS output in 85500
Wait x ms
The exact timings to
switch off the
display (LVDS
delay, lamp delay)
are defined in the
display file.
Switch off the display power by
switching LCD-PWR-ON high
Semi Standby
18770_255_100216.eps
100216
Figure 5-8 “Active” to “Semi Stand-by” flowchart
2012-Mar-16
back to
div. table
�Service Modes, Error Codes, and Fault Finding
Q552.2E LA
5.
EN 53
Semi Stand by
If ambientlight functionality was used in semi-standby
(lampadaire mode), switch off ambient light (see CHS
ambilight)
Delay transition until ramping down of ambient light is
finished. *)
*) If this is not performed and the set is
switched to standby when the switch off of
the ambilights is still ongoing, the lights will
switch off abruptly when the supply is cut.
transfer Wake up reasons to the Stand by µP.
Switch Memories to self-refresh (this creates a more
stable condition when switching off the power).
Switch AVC system in reset state (reset-system and
reset-AVC lines)
Switch reset-USB, Reset-Ethernet and Reset-DVBs
LOW
Wait 10ms
Disable all supply related protections and switch off
the DC/DC converters (ENABLE-3V3n)
Wait 5ms
Switch OFF all supplies by switching HIGH the
Standby I/O line
Important remarks:
release reset audio 10 sec after entering
standby to save power
Also here, the standby state has to be
maintained for at least 4s before starting
another state transition.
Stand by
18770_256_100216.eps
100216
Figure 5-9 “Semi Stand-by” to “Stand-by” flowchart
back to
div. table
2012-Mar-16
�EN 54
5.
Service Modes, Error Codes, and Fault Finding
Q552.2E LA
5.4
Service Tools
5.5
Error Codes
5.4.1
ComPair
5.5.1
Introduction
Introduction
ComPair (Computer Aided Repair) is a Service tool for Philips
Consumer Electronics products. and offers the following:
1. ComPair helps to quickly get an understanding on how to
repair the chassis in a short and effective way.
2. ComPair allows very detailed diagnostics and is therefore
capable of accurately indicating problem areas. No
knowledge on I2C or UART commands is necessary,
because ComPair takes care of this.
3. ComPair speeds up the repair time since it can
automatically communicate with the chassis (when the µP
is working) and all repair information is directly available.
4. ComPair features TV software up possibilities.
The error code buffer contains all detected errors since the last
time the buffer was erased. The buffer is written from left to
right, new errors are logged at the left side, and all other errors
shift one position to the right.
When an error occurs, it is added to the list of errors, provided
the list is not full. When an error occurs and the error buffer is
full, then the new error is not added, and the error buffer stays
intact (history is maintained).
To prevent that an occasional error stays in the list forever, the
error is removed from the list after more than 50 hrs. of
operation.
When multiple errors occur (errors occurred within a short time
span), there is a high probability that there is some relation
between them.
Specifications
ComPair consists of a Windows based fault finding program
and an interface box between PC and the (defective) product.
The ComPair II interface box is connected to the PC via an
USB cable. For the TV chassis, the ComPair interface box and
the TV communicate via a bi-directional cable via the service
connector(s).
The ComPair fault finding program is able to determine the
problem of the defective television, by a combination of
automatic diagnostics and an interactive question/answer
procedure.
New in this chassis is the way errors can be displayed:
•
•
•
How to Connect
This is described in the chassis fault finding database in
ComPair.
•
TO TV
TO
UART SERVICE
CONNECTOR
ComPair II
RC in
RC out
TO
I2C SERVICE
CONNECTOR
•
TO
UART SERVICE
CONNECTOR
•
Multi
function
Optional Power Link/ Mode
Switch
Activity
I2C
•
RS232 /UART
If no errors are there, the LED should not blink at all in
CSM or SDM. No spacer must be displayed as well.
There is a simple blinking LED procedure for board
level repair (home repair) so called LAYER 1 errors
next to the existing errors which are LAYER 2 errors (see
Table 5-2).
– LAYER 1 errors are one digit errors.
– LAYER 2 errors are 2 digit errors.
In protection mode.
– From consumer mode: LAYER 1.
– From SDM mode: LAYER 2.
Fatal errors, if I2C bus is blocked and the set reboots,
CSM and SAM are not selectable.
– From consumer mode: LAYER 1.
– From SDM mode: LAYER 2.
In CSM mode.
– When entering CSM: error LAYER 1 will be displayed
by blinking LED. Only the latest error is shown.
In SDM mode.
– When SDM is entered via Remote Control code or the
hardware pins, LAYER 2 is displayed via blinking LED.
Error display on screen.
– In CSM no error codes are displayed on screen.
– In SAM the complete error list is shown.
PC
Basically there are three kinds of errors:
• Errors detected by the Stand-by software which lead to
protection. These errors will always lead to protection and
an automatic start of the blinking LED LAYER 1 error.
(see section “5.6 The Blinking LED Procedure”).
• Errors detected by the Stand-by software which not
lead to protection. In this case the front LED should blink
the involved error. See also section “5.5 Error Codes, 5.5.4
Error Buffer”. Note that it can take up several minutes
before the TV starts blinking the error (e.g. LAYER 1
error = 2, LAYER 2 error = 15 or 53).
• Errors detected by main software (MIPS). In this case
the error will be logged into the error buffer and can be read
out via ComPair, via blinking LED method LAYER 1-2
error, or in case picture is visible, via SAM.
ComPair II Developed by Philips Brugge
HDMI
I2C only
Optional power
5V DC
10000_036_090121.eps
091118
Figure 5-10 ComPair II interface connection
Caution: It is compulsory to connect the TV to the PC as
shown in the picture above (with the ComPair interface in
between), as the ComPair interface acts as a level shifter. If
one connects the TV directly to the PC (via UART), ICs can be
blown!
5.5.2
Use one of the following methods:
• On screen via the SAM (only when a picture is visible).
E.g.:
– 00 00 00 00 00: No errors detected
– 23 00 00 00 00: Error code 23 is the last and only
detected error.
– 37 23 00 00 00: Error code 23 was first detected and
error code 37 is the last detected error.
– Note that no protection errors can be logged in the
error buffer.
How to Order
ComPair II order codes:
• ComPair II interface: 3122 785 91020.
• Software is available via the Philips Service web portal.
• ComPair UART interface cable for Q55x.x.
(using 3.5 mm Mini Jack connector): 3138 188 75051.
Note: When you encounter problems, contact your local
support desk.
2012-Mar-16
How to Read the Error Buffer
back to
div. table
�Service Modes, Error Codes, and Fault Finding
•
•
5.5.3
Via the blinking LED procedure. See section 5.5.3 How to
Clear the Error Buffer.
Via ComPair.
5.
EN 55
content, as this history can give significant information). This to
ensure that old error codes are no longer present.
If possible, check the entire contents of the error buffer. In
some situations, an error code is only the result of another error
code and not the actual cause (e.g. a fault in the protection
detection circuitry can also lead to a protection).
There are several mechanisms of error detection:
• Via error bits in the status registers of ICs.
• Via polling on I/O pins going to the stand-by processor.
• Via sensing of analog values on the stand-by processor or
the PNX8550.
• Via a “not acknowledge” of an I2C communication.
How to Clear the Error Buffer
Use one of the following methods:
• By activation of the “RESET ERROR BUFFER” command
in the SAM menu.
• If the content of the error buffer has not changed for 50+
hours, it resets automatically.
5.5.4
Q552.2E LA
Error Buffer
Take notice that some errors need several minutes before they
start blinking or before they will be logged. So in case of
problems wait 2 minutes from start-up onwards, and then
check if the front LED is blinking or if an error is logged.
In case of non-intermittent faults, clear the error buffer before
starting to repair (before clearing the buffer, write down the
Table 5-2 Error code overview
Description
Layer 1
Layer 2
Monitored
by
Error/
Prot
Error Buffer/
Blinking LED
Device
Defective Board
I2C3
2
13
MIPS
E
BL / EB
SSB
SSB
I2C2
2
14
MIPS
E
BL / EB
SSB
SSB
I2C4
2
18
MIPS
E
BL / EB
SSB
SSB
PNX doesn’t boot (HW cause)
2
15
Stby µP
P
BL
PNX8550
SSB
12V
3
16
Stby µP
P
BL
/
Supply
Inverter or display supply
3
17
MIPS
E
EB
/
Supply
PNX51X0
2/9
21
MIPS
E
EB
PNX51X0
200 Hz board
SSB
HDMI mux
2
23
MIPS
E
EB
Sil9x87A
I2C switch
2
24
MIPS
E
EB
PCA9540
SSB
Channel dec DVB-S
2
28
MIPS
E
EB
STV0903
SSB
Lnb controller
2
31
MIPS
E
EB
LNBH23
SSB
Tuner
2
34
MIPS
E
EB
DTT 71300
SSB
Main nvm
2
35
MIPS
E
EB
STM24C64
SSB
Tuner DVB-S
2
36
MIPS
E
EB
STV6110
SSB
T° sensor SSB/set
2
42
MIPS
E
EB
LM 75
T° sensor
T° sensor LED driver/Tcon
7
42
MIPS
E
EB
LM 75
T° sensor
PNX doesn’t boot (SW cause)
2
53
Stby µP
P
BL
PNX8550
SSB
Display
5
64
MIPS
E
BL / EB
Altera
Display
Extra Info
• Rebooting. When a TV is constantly rebooting due to
internal problems, most of the time no errors will be logged
or blinked. This rebooting can be recognized via a ComPair
interface and Hyperterminal (for Hyperterminal settings,
see section “5.9 Fault Finding and Repair Tips, 5.9.7
Logging). It’s shown that the loggings which are generated
by the main software keep continuing. In this case
diagnose has to be done via ComPair.
• Error 13 (I2C bus 3, SSB bus blocked). Current situation:
when this error occurs, the TV will constantly reboot due to
the blocked bus. The best way for further diagnosis here, is
to use ComPair.
• Error 14 (I2C bus 2, TV set bus blocked). Current
situation: when this error occurs, the TV will constantly
reboot due to the blocked bus. The best way for further
diagnosis here, is to use ComPair.
• Error 18 (I2C bus 4, Tuner bus blocked). In case this bus
is blocked, short the “SDM” solder paths on the SSB during
startup, LAYER error 2 = 18 will be blinked.
• Error 15 (PNX8550 doesn’t boot). Indicates that the main
processor was not able to read his bootscript. This error will
point to a hardware problem around the PNX8550
(supplies not OK, PNX 8550 completely dead, I2C link
between PNX and Stand-by Processor broken, etc...).
When error 15 occurs it is also possible that I2C1 bus is
blocked (NVM). I2C1 can be indicated in the schematics as
follows: SCL-UP-MIPS, SDA-UP-MIPS.
Other root causes for this error can be due to hardware
problems regarding the DDR’s and the bootscript reading
from the PNX8550.
• Error 16 (12V). This voltage is made in the power supply
be logged and displayed via the blinking LED procedure
•
•
•
•
•
•
•
back to
div. table
and results in protection (LAYER 1 error = 3) in case of
absence. When SDM is activated we see blinking LED
LAYER 2 error = 16.
Error 17 (Invertor or Display Supply). Here the status of
the “Power OK” is checked by software, no protection will
occur during failure of the invertor or display supply (no
picture), only error logging. LED blinking of LAYER 1
error = 3 in CSM, in SDM this gives LAYER 2 error = 17.
Error 21 (PNX51X0). When there is no I2C communication
towards the PNX51X0 after start-up, LAYER 2 error = 21
will be logged and displayed via the blinking LED
procedure if SDM is switched on. This device is located on
the 200 Hz panel from the display.
Error 23 (HDMI). When there is no I2C communication
towards the HDMI mux after start-up, LAYER 2 error = 23
will be logged and displayed via the blinking LED
procedure if SDM is switched on.
Error 24 (I2C switch). When there is no I2C
communication towards the I2C switch, LAYER 2
error = 24 will be logged and displayed via the blinking LED
procedure when SDM is switched on. Remark: this only
works for TV sets with an I2C controlled screen included.
Error 28 (Channel dec DVB-S). When there is no I2C
communication towards the DVB-S channel decoder,
LAYER 2 error = 28 will be logged and displayed via the
blinking LED procedure if SDM is switched on.
Error 31 (Lnb controller). When there is no I2C
communication towards this device, LAYER 2 error = 31
will be logged and displayed via the blinking LED
procedure if SDM is activated.
Error 34 (Tuner). When there is no I2C communication
towards the tuner during start-up, LAYER 2 error = 34 will
when SDM is switched on.
2012-Mar-16
�EN 56
•
•
•
•
•
5.
Q552.2E LA
Service Modes, Error Codes, and Fault Finding
Error 35 (main NVM). When there is no I2C
communication towards the main NVM during start-up,
LAYER 2 error = 35 will be displayed via the blinking LED
procedure when SDM is switched “on”. All service modes
(CSM, SAM and SDM) are accessible during this failure,
observed in the Uart logging as follows: " & lt; & lt; ERRO & gt; & gt; & gt;
PFPOW_.C: First Error (id19, Layer_1= 2 Layer_= 35) " .
Error 36 (Tuner DVB-S). When there is no I2C
communication towards the DVB-S tuner during start-up,
LAYER 2 error = 36 will be logged and displayed via the
blinking LED procedure when SDM is switched “on”.
Error 42 (Temp sensor). Only applicable for TV sets
equipped with temperature devices.
Error 53. This error will indicate that the PNX8550 has
read his bootscript (when this would have failed, error 15
would blink) but initialization was never completed because
of hardware problems (NAND flash, ...) or software
initialization problems. Possible cause could be that there
is no valid software loaded (try to upgrade to the latest main
software version). Note that it can take a few minutes
before the TV starts blinking LAYER 1 error = 2 or in SDM,
LAYER 2 error = 53.
Error 64. Only applicable for TV sets with an I2C controlled
screen.
5.6
•
Protections
5.7.1
Software Protections
Most of the protections and errors use either the stand-by
microprocessor or the MIPS controller as detection device.
Since in these cases, checking of observers, polling of ADCs,
and filtering of input values are all heavily software based,
these protections are referred to as software protections.
There are several types of software related protections, solving
a variety of fault conditions:
• Related to supplies: presence of the +5V, +3V3 and 1V2
needs to be measured, no protection triggered here.
• Protections related to breakdown of the safety check
mechanism. E.g. since the protection detections are done
by means of software, failing of the software will have to
initiate a protection mode since safety cannot be
guaranteed any more.
Introduction
The blinking LED procedure can be split up into two situations:
• Blinking LED procedure LAYER 1 error. In this case the
error is automatically blinked when the TV is put in CSM.
This will be only one digit error, namely the one that is
referring to the defective board (see table “5-2 Error code
overview”) which causes the failure of the TV. This
approach will especially be used for home repair and call
centres. The aim here is to have service diagnosis from a
distance.
• Blinking LED procedure LAYER 2 error. Via this
procedure, the contents of the error buffer can be made
visible via the front LED. In this case the error contains
2 digits (see table “5-2 Error code overview”) and will be
displayed when SDM (hardware pins) is activated. This is
especially useful for fault finding and gives more details
regarding the failure of the defective board.
Important remark:
For an empty error buffer, the LED should not blink at all in
CSM or SDM. No spacer will be displayed.
Remark on the Supply Errors
The detection of a supply dip or supply loss during the normal
playing of the set does not lead to a protection, but to a cold
reboot of the set. If the supply is still missing after the reboot,
the TV will go to protection.
Protections during Start-up
During TV start-up, some voltages and IC observers are
actively monitored to be able to optimise the start-up speed,
and to assure good operation of all components. If these
monitors do not respond in a defined way, this indicates a
malfunction of the system and leads to a protection. As the
observers are only used during start-up, they are described in
the start-up flow in detail (see section “5.3 Stepwise Start-up”).
5.7.2
When one of the blinking LED procedures is activated, the front
LED will show (blink) the contents of the error buffer. Error
codes greater then 10 are shown as follows:
1. “n” long blinks (where “n” = 1 to 9) indicating decimal digit
2. A pause of 1.5 s
3. “n” short blinks (where “n”= 1 to 9)
4. A pause of approximately 3 s,
5. When all the error codes are displayed, the sequence
finishes with a LED blink of 3 s (spacer).
6. The sequence starts again.
Repair Tip
• There still will be a picture available but no sound. While
the Class D amplifier tries to start-up again, the cone of the
loudspeakers will move slowly in one or the other direction
until the initial failure shuts the amplifier down, this cyclus
starts over and over again. The headphone amplifier will
also behaves similar.
5.8
Repair Policy Power Supply Units
All LGiT power supply units should be repaired. These include
the following sets: 32PFL58xx, 37PFL76xx, 40xFLxxxx,
46xFLxxxx, 55xFLxxxx. Detailed info is available in section
7.2.2.
All other power supply units should be swapped. However, a
detailed pinning table of most power supplies is available in
section 7.2.1.
How to Activate
Use one of the following methods:
2012-Mar-16
Hardware Protections
The only real hardware protection in this chassis appears in
case of an audio problem e.g. DC voltage on the speakers. This
protection will only affect the Class D audio amplifier (item
7D10; see diagram B03A) and puts the amplifier in a
continuous burst mode (cyclus approximately 2 seconds).
Example: Error 12 8 6 0 0.
After activation of the SDM, the front LED will show:
1. One long blink of 750 ms (which is an indication of the
decimal digit) followed by a pause of 1.5 s
2. Two short blinks of 250 ms followed by a pause of 3 s
3. Eight short blinks followed by a pause of 3 s
4. Six short blinks followed by a pause of 3 s
5. One long blink of 3 s to finish the sequence (spacer).
6. The sequence starts again.
5.6.2
Activate the CSM. The blinking front LED will show only
the latest layer 1 error, this works in “normal operation”
mode or automatically when the error/protection is
monitored by the Stand-by processor.
In case no picture is shown and there is no LED blinking,
read the logging to detect whether “error devices” are
mentioned. (see section “5.9 Fault Finding and Repair
Tips, 5.9.7 Logging”).
Activate the SDM. The blinking front LED will show the
entire content of the LAYER 2 error buffer, this works in
“normal operation” mode or when SDM (via hardware pins)
is activated when the tv set is in protection.
5.7
The Blinking LED Procedure
5.6.1
•
back to
div. table
�Service Modes, Error Codes, and Fault Finding
5.9
Fault Finding and Repair Tips
+12V is considered OK (= & gt; DETECT2 signal becomes " high " ,
+12V to +1V8, +12V to +3V3, +12V to +5V DC-DC converter
can be started up) if it rises above 10V and doesn’t drop below
9V5. A small delay of a few milliseconds is introduced between
the start-up of 12V to +1V8 DC-DC converter and the two other
DC-DC converters via 7U48 and associated components.
Audio Amplifier
The Class D-IC 7D10 has a powerpad for cooling. When the IC
is replaced it must be ensured that the powerpad is very well
pushed to the PWB while the solder is still liquid. This is needed
to insure that the cooling is guaranteed, otherwise the Class DIC could break down in short time.
5.9.3
Description DVB-S2:
• LNB-RF1 (0V = disabled, 14V or 18V in normal operation)
LNB supply generated via the second conversion channel
of 7T03 followed by 7T50 LNB supply control IC. It provides
supply voltage that feeds the outdoor satellite reception
equipment.
• +3V3-DVBS (3V3 nominal), +2V5-DVBS (2V5 nominal)
and +1V-DVBS (1.03V nominal) power supply for the
silicon tuner and channel decoder. +1V-DVBS is generated
via a 5V to 1V DC-DC converter and is stabilized at the
point of load (channel decoder) by means of feedback
signal SENSE+1V0-DVBS. +3V3-DVBS and +2V5-DVBS
are generated via linear stabilizers from +5V-DVBS that by
itself is generated via the first conversion channel of 7T03.
AV PIP
To check the AV PIP board (if present) functionality, a
dedicated tespattern can be invoke as follows: select the
“multiview” icon in the User Interface and press the “OK”
button. Apply for the main picture an extended source, e.g.
HDMI input. Proceed by entering CSM (push ‘123654’ on the
remote control) and press the yellow button. A coloured
testpattern should appear now, generated by the AV PIP board
(this can take a few seconds).
5.9.4
At start-up, +24V becomes available when STANDBY signal is
" low " (together with +12V for the basic board), when +3V3 from
the basic board is present the two DC-DC converters channels
inside 7T03 are activated. Initially only the 24V to 5V converter
(channel 1 of 7T03 generating +5V-DVBS) will effectively work,
while +V-LNB is held at a level around 11V7 via diode 6T55.
After 7T05 is initialized, the second channel of 7T03 will start
and generates a voltage higher then LNB-RF1 with 0V8. +5VDVBS start-up will imply +3V3-DVBS start-up, with a small
delay of a few milliseconds = & gt; +2V5-DVBS and +1V-DVBS will
be enabled.
CSM
When CSM is activated and there is a USB stick connected to
the TV, the software will dump the complete CSM content to the
USB stick. The file (Csm.txt) will be saved in the root of the USB
stick. If this mechanism works it can be concluded that a large
part of the operating system is already working (MIPS, USB...)
5.9.5
EN 57
Supply voltage +1V1 is started immediately when +12V voltage
becomes available (+12V is enabled by STANDBY signal when
" low " ). Supply voltages +3V3, +2V5, +1V8, +1V2 and +5V-TUN
are switched " on " by signal ENABLE-3V3 when " low " , provided
that +12V (detected via 7U40 and 7U41) is present.
Ambilight
Due to degeneration process of the LED’s fitted on the ambi
module, there can be a difference in the colour and/or light
output of the spare ambilight modules in comparison with the
originals ones contained in the TV set. Via SAM = & gt; alignments
= & gt; ambilight, the spare module can be adjusted.
5.9.2
5.
+3V3-STANDY (3V3 nominal) is the permanent voltage,
supplying the Stand-by microprocessor inside PNX855xx.
Read also section “5.5 Error Codes, 5.5.4 Error Buffer, Extra
Info”.
5.9.1
Q552.2E LA
DC/DC Converter
If +24V drops below +15V level then the DVB-S2 supply will
stop, even if +3V3 is still present.
Description basic board
The basic board power supply consists of 4 DC/DC converters
and 5 linear stabilizers. All DC/DC converters have +12V input
voltage and deliver:
• +1V1 supply voltage (1.15V nominal), for the core voltage
of PNX855xx, stabilized close to the point of load;
SENSE+1V1 signal provides the DC-DC converter the
needed feedback to achieve this.
• +1V8 supply voltage, for the DDR2 memories and DDR2
interface of PNX855xx.
• +3V3 supply voltage (3.30V nominal), overall 3.3 V for
onboard IC’s, for non-5000 series SSB diversities only.
• +5V (5.15V nominal) for USB, WIFI and Conditional
Access Module and +5V5-TUN for +5V-TUN tuner
stabilizer.
Debugging
The best way to find a failure in the DC/DC converters is to
check their start-up sequence at power “on” via the mains cord,
presuming that the stand-by microprocessor and the external
supply are operational. Take STANDBY signal " high " -to- " low "
transition as time reference.
When +12V becomes available (maximum 1 second after
STANDBY signal goes " low " ) then +1V1 is started immediately.
After ENABLE-3V3 goes " low " , all the other supply voltages
should rise within a few milliseconds.
Tips
• Behaviour comparison with a reference TV550 platform
can be a fast way to locate failures.
• If +12V stays " low " , check the integrity of fuse 1U40.
• Check the integrity (at least no short circuit between drain
and source) of the power MOS-FETs before starting up the
platform in SDM, otherwise many components might be
damaged. Using a ohmmeter can detect short circuits
between any power rail and ground or between +12V and
any other power rail.
• Short circuit at the output of an integrated linear stabilizer
(7UC0, 7UD2 or 7UD3) will heat up this device strongly.
• Switching frequencies should be 500 kHz ...600 kHz for
12 V to 1.1 V and 12 V to 1.8 V DC-DC converters,
900 kHz for 12 V to 3.3 V and 12 V to 5 V DC-DC
converters. The DVB-S2 supply 24 V to 5 V and 24 V to +V
The linear stabilizers are providing:
• +1V2 supply voltage (1.2V nominal), stabilized close to
PNX855xx device, for various other internal blocks of
PNX855xx; SENSE+1V2 signal provides the needed
feedback to achieve this.
• +2V5 supply voltage (2.5V nominal) for LVDS interface and
various other internal blocks of PNX855xx; for 5000 series
SSB diversities the stabilizer is 7UD2 while for the other
diversities 7UC0 is used.
• +3V3 supply voltage (3V3 nominal) for 5000 series SSB
diversities, provided by 7UD3; in this case the 12V to 3V3
DC-DC converter is not present.
• +5V-TUN supply voltage (5V nominal) for tuner and IF
amplifier.
back to
div. table
2012-Mar-16
�EN 58
5.
Q552.2E LA
Service Modes, Error Codes, and Fault Finding
LNB DC-DC converters operates at 300 kHz while for 5 V
to 1.1 V DC-DC converter 900 kHz is used.
5.9.6
•
Failure messages should be checked and investigated.For
instance fatal error on the PNX51x0: check startup of the
back-end processor, supplies..reset, I2C bus. = & gt; error
mentioned in the logging as: *51x0 failed to start by itself*.
• Some failures are indicated by error codes in the logging,
check with error codes table (see Table “5-2 Error code
overview”).e.g. = & gt; & lt; & lt; & lt; ERROR & gt; & gt; & gt; PLFPOW_MERR.C :
First Error (id=10,Layer_1=2,Layer_2=23).
•
I2C bus error mentioned as e.g.: “ I2C bus 4 blocked”.
• Not all failures or error messages should be interpreted as
fault.For instance root cause can be due to wrong option
codes settings = & gt; e.g. “DVBS2Suppoprted : False/True.
In the Uart log startup script we can observe and check the
enabled loaded option codes.
Exit “Factory Mode”
When an “F” is displayed in the screen’s right corner, this
means the set is in “Factory” mode, and it normally
happens after a new SSB is mounted. To exit this mode, push
the “VOLUME minus” button on the TV’s local keyboard for 10
seconds (this disables the continuous mode).
Then push the “SOURCE” button for 10 seconds until the “F”
disappears from the screen.
5.9.7
Logging
Defective sectors (bad blocks) in the Nand Flash can also be
reported in the logging.
When something is wrong with the TV set (f.i. the set is
rebooting) you can check for more information via the logging
in Hyperterminal. The Hyperterminal is available in every
Windows application via Programs, Accessories,
Communications, Hyperterminal. Connect a “ComPair UART”cable (3138 188 75051) from the service connector in the TV to
the “multi function” jack at the front of ComPair II box.
Required settings in ComPair before starting to log:
- Start up the ComPair application.
- Select the correct database (open file “Q55X.X”, this will set
the ComPair interface in the appropriate mode).
- Close ComPair
After start-up of the Hyperterminal, fill in a name (f.i. “logging”)
in the “Connection Description” box, then apply the following
settings:
1. COMx
2. Bits per second = 115200
3. Data bits = 8
4. Parity = none
5. Stop bits = 1
6. Flow control = none
During the start-up of the TV set, the logging will be displayed.
This is also the case during rebooting of the TV set (the same
logging appears time after time). Also available in the logging
is the “Display Option Code” (useful when there is no picture),
look for item “DisplayRawNumber” in the beginning of the
logging. Tip: when there is no picture available during rebooting
you are able to check for “error devices” in the logging (LAYER
2 error) which can be very helpful to determine the failure cause
of the reboot. For protection state, there is no logging.
5.9.8
Startup in the software upgrade application and observe the
Uart logging:
Starting up the TV set in the Manual Software Upgrade mode
will show access to USB, meant to copy software content from
USB to the DRAM.Progress is shown in the logging as follows:
“cosupgstdcmds_mcmdwritepart: Programming 102400 bytes,
40505344 of 40607744 bytes programmed”.
Startup in Jett Mode:
Check Uart logging in Jet mode mentioned as : “JETT UART
READY”.
Uart logging changing preset:
= & gt; COMMAND: calling DFB source = RC6, system=0, key = 4”.
5.9.9
Make sure that the volume is set to minimum during
disconnecting the speakers in the ON-state of the TV. The
audio amplifier can be damaged by disconnecting the speakers
during ON-state of the set!
5.9.10 PSL
In case of no picture when CSM (test pattern) is activated and
backlight doesn’t light up, it’s recommended first to check the
inverter on the PSL + wiring (LAYER 2 error = 17 is displayed
in SDM).
Guidelines Uart logging
5.9.11 Tuner
Description possible cases:
Attention: In case the tuner is replaced, always check the tuner
options!
Uart loggings are displayed:
• When Uart loggings are coming out, the first conclusion we
can make is that the TV set is starting up and
communication with the flash RAM seems to be supported.
The PNX855xx is able to read and write in the DRAMs.
• We can not yet conclude : Flash RAM and DRAMs are fully
operational/reliable.There still can be errors in the data
transfers, DRAM erros, read/write speed and timing
control.
5.9.12 Display option code
Attention: In case the SSB is replaced, always check the
display option code in SAM, even when picture is available.
Performance with the incorrect display option code can lead to
unwanted side-effects for certain conditions.
No Uart logging at all:
• In case there is no Uart logging coming out, check if the
startup script can be send over the I2C bus (3 trials to
startup) + power supplies are switched on and stable.
• No startup will end up in a blinking LED status : error
LAYER 1 = “2”, error LAYER 2 = “53” (startup with SDM
solder paths short).
• Error LAYER 2 = “15” (hardware cause) is more related to
a supply issue while error LAYER 2 = “53” (software cause)
refers more to boot issues.
New in this chassis:
While in the download application (start up in TV mode + “OK”
button pressed), the display option code can be changed via
062598 HOME XXX special SAM command (XXX=display
option in 3 digits).
Uart loggings reporting fault conditions, error messages, error
codes, fatal errors:
2012-Mar-16
Loudspeakers
back to
div. table
�Service Modes, Error Codes, and Fault Finding
5.9.13 SSB Replacement
Q552.2E LA
5.
EN 59
For a more general overview of steps to follow, refer to figure
5-13 SSB replacement flowchart.
Follow the instructions in the flowchart in case a SSB has to be
exchanged. See table 5-3 SSB replacement instructions.
Table 5-3 SSB replacement instructions
Step #
Action to do
Advise / Attention points / Remarks
1
Ensure ESD protection by using a wristband
-
2
If SSB is still functional: Go via SAM to “upload to USB” and copy Personal
settings - Option codes - Alignments (Presets) - Set Identification.
Advice: because of differences in memory allocation, it is advised to upgrade
main SW before copying data from existing SSB. Copy of Preset list is
possible from normal user interface.
Upload to USB: A directory “repair” will be created on the USB, and all data will be copied in this
directory. On sets with software before Q552-xx-140-x-x, there was an issue by copying the
program map table, so it is advised to reinstall the programs from Virgin mode instead of using
copy via USB.
3
Disconnect set from mains and from antenna.
Safety and ESD!
4
Open the set and disconnect LVDS flat cable. Disconnect other cables /
connections.
Always take care for ESD! Be extra careful when removing connectors!
5
Dismount the (defective) SSB from the set.
Do not damage SSB copper tracks with your tools! Do not scratch bottom of SSB (be very careful
by moving SSB over SSB supports). See Figure 5-11 and Figure 5-12.
6
Place new SSB in the set, and fixate/mount carefully.
Do not damage SSB copper tracks with your tools! Do not scratch bottom of SSB (be very careful
by moving SSB over SSB supports). See Figure 5-11 and Figure 5-12.
7
Connect PSU and other connectors. Insert the optional WiFi module.
Make sure that the connectors are correctly plugged-in and locked (click). Special attention for the
optional WiFi module: a defective WiFi module can give reboots or no start-up of the SSB. In this
case do a trial without WiFi module.
8
Connect LVDS connector(s).
Be very careful: wrong or bad connection can damage the TCON part on the SSB and damage
the LCD display. Check if flat cables are fitted correctly before closing the connector lock.
9
Connect set to mains and switch TV “On”.
Check start-up of the set, backlight switch “On”…
10
If the set does not start (or reboots) check:
- The connectors from the power supply,
- The power supply cable and connection pins,
- LVDS cable connection.
Power supply connector must “snap” into the socket.
11
Before programming the new SSB, upgrade to latest software. If set is starting Some SSB’s will start-up in software upgrade mode, and software needs to be installed before you
up in software upgrade mode, then first install new software via software
can program the Display Option codes. It’s adviced to use an autorun.upg file for software
Upgrade Menu or via the autorun.upg file.
upgrade, this in case you have no OSD on the screen.
12
If set is starting up without picture or menu (OSD), first program the correct
Display Option codes.
13
Go to SAM and program “Set type” and “Serial number”. This is possible via Programming “Set type” and “Serial number” is mandatory to have all functionality of the set, like
the NVM editor and virtual keyboard. In case personal settings were
DLNA, Net TV… For certain sets you may need to use ComPair for this.
recovered from the defective SSB, you can use an “Upload from USB”.
14
Check if option codes are correct, and keys are present. SSBs with integrated Attention, check if Tuner on defect board and new board is the same. If not, the same Tuner option
TCON needs TCON alignment in SAM. Adjust White point colour temperature code nbr 1 needs to be adapted (add or substract 512). refer to General Service Info GSC_89308.
Validity of HDCP, CI+, Marlin, and WDRM keys can be checked via ComPair.
alignment for normal, warm and cool according to values in section 6.3.1.
15
Update to latest software (Standby and main software). This step is necessary
to make sure that the (optional) 200 Hz T-CON board has the latest software.
Display drive, and White point colour temperature needs to be aligned! See
section 6.3.1.
Even when the SSB already has the latest software, it is mandatory to upgrade again the software
to update the 200 Hz T-CON part. At the end of the main software update process, a dedicated
software is loaded, from the main processor via the LVDS connection, to upgrade the
200 Hz T-CON part. For certain LCD displays, a dedicated Display software patch (autoscript) is
available. See General Service info GSC_85590.
16
Once the set is playing, check cable connection between PSU and SSB, by
moving the cable if there are no bad connections.
Check the two power connectors 1M95 and 1M99. Bad contact or bad connection here can give
reboots.
17
Fill in the Electronic DDF (Defect Description Form): Fault symptom, TV type It is mandatory to fill in the E-DDF form (see the “At Your Service” web portal).
and TV serial number.
18
Install presets or check if all presets are OK. Check in CSM if Type number,
Serial number, Main and Standby software are correct.
19
Check connectivity to Net TV and DLNA. Check AmbiLight functionality.
Only for sets having these functionalities.
20
Inform customer about Memory Card, USB, or Hard drive PVR (Personal
Video Recording) recordings.
Inform customer that previous recordings made on Memory Card (movie download), USB, or Hard
drive will be lost. USB or Hard drive needs to be re-formatted and matched with new SSB (WDRM
Keys!).
Use blind service mode “062598” + “Home” button, directly followed by the
Display Option code (3 digits). Set will switch to Standby after Display Option code is entered.
Special attention for Standby software: check if Standby software ID is matching with the D-RAM’s
mounted on the SSB (2 × Elpida = 73, 4 × Elpida = 64, 2 × Hynix = 72, 4 × Hynix = 63).
SSB fixation points
Significant risk of damaging the board
by the fixation point
Blue arrows: traces of friction
Red arrows: damaged components
19070_201_110728.eps
110804
19070_202_110728.eps
110804
Figure 5-11 Mounting attention points [1/2]
Figure 5-12 Mounting attention points [2/2]
back to
div. table
2012-Mar-16
�EN 60
5.
Service Modes, Error Codes, and Fault Finding
Q552.2E LA
In st ru ct io n n o t e SSB rep lacem en t Q55x.x
ST AR T
Before starting:
- prepare a USB memory stick with the latest software
- download the latest Main Software (Fus) from www.p4c.philips.com
- unzip this file
- create a folder ”upgrades” in the root of a USB stick (size & gt; 50 MB) and
save the autorun.upg file in this " upgrades " folder.
Note: it is possible to rename this file, e.g. " Q54x_SW_version.upg " ; this in
case there are more than one " autorun.upg " files on the USB stick.
Set is still oper ating?
No
Yes
C onnect the U SB stick to the set,
go to SAM and save the current TV settings via “Upload to USB”
1. D ismount the defective SSB.
2. Replace the SSB by a Service SSB.
Start-up the set
Due to a possible wrong display option code in the received Service
SSB (NVM), it’s possible that no picture is displayed. Due to this
the download application will not be shown either. This tree enables you
to load the main software step-by-step via the UART logging on the PC
(this for visual feedback).
No pictur e displayed
1) Start up the TV set, equiped with the Service SSB,
and enable the UART logging on the PC.
Set behaviour?
Pictur e displayed
Set is starting up without software
upgrade menu appearing on screen
Pictur e displayed
Set is starting up with software
upgrade menu appearing on screen
2) The TV set will start-up automatically in the
download application if main TV software is not loaded.
1) Plug the USB stick into the TV set and select
the “autorun .upg” file in the displayed browser.
3) Plug the prepared USB stick into the TV set. Follow the
instructions in the UART log file, press “Right” cursor key to enter
the list. Navigate to the “autorun.upg” file in the UART logging
printout via the cursor keys on the remote control. When the
correct file is selected, press “Ok”.
2) Now the main software will be loaded automatically,
supported by a progress bar.
4) Press " Down " cursor and “Ok” to start flashing the main
TV software. Printouts like: “L: 1-100%, V: 1-100% and
P: 1-100%” should be visible now in the UART logging.
3) Wait until the message “Operation successful !” is displayed
and remove all inserted media. Restart the TV set.
5) Wait until the message “Operation successful !” is logged in
the UART log and remove all inserted media. Restart the TV set.
Set the correct “Display code” via “062598 -HOME- xxx” where
“xxx” is the 3 digit display panel code (see sticker on the side
or bottom of the cabinet)
After entering the “Display Option” code, the set is going to
Standby
(= validation of code)
Restart the set
No
Connect PC via the ComPair interface to Service connector.
Saved settings
on USB stick?
Yes
Start TV in Jett mode (DVD I + (OSD))
Open ComPair browser Q54x
Go to SAM and reload settings
via “Download from USB” function.
In case of settings reloaded from USB, the set type,
serial number, display 12 NC, are automatically stored
when entering display options.
Program set type number, serial number, and display 12 NC
Program E - DFU if needed.
If not already done:
Check latest software on Service website.
Update main and Stand-by software via USB.
Attention point for Net TV: If the set type and serial number are not
filled in, the Net TV functionality will not work. It will not be possible
to connect to the internet.
- Check if correct “display option” code is programmed.
- Verify “option codes” according to sticker inside the set.
- Default settings for “white drive” & gt; see Service Manual.
Check and perform alignments in SAM according to the
Service Manual. Option codes, colour temperature, etc.
Final check of all menus in CSM.
Special attention for HDMI Keys and Mac address.
Check if E - D F U is present.
End
Q55x.E SSB Board swap – ER on behalf of VDS
Updated 28-07-2011
19070_200_110728.eps
111103
Figure 5-13 SSB replacement flowchart
2012-Mar-16
back to
div. table
�Service Modes, Error Codes, and Fault Finding
Q552.2E LA
5.
EN 61
Set is st art in g u p in F act o ry m o d e
Set is starting up in F actory m ode?
Noisy picture with bands/lines is visible and the
RED LED is continuous on.
An “F” is displayed (and the HDMI 1
input is displayed).
- Press the “volume minus” button on the TVs local keyboard for 5 ~10
seconds
- Press the “SOURCE” button for 10 seconds until the “F” disappears
from the screen or the noise on the screen is replaced by “blue mute”
The noise on the screen is replaced
with the blue mute or the “F” is disappeared!
Unplug the mains cord to verify the correct
disabling of the Factory mode.
Program display option code
via “062598 MENU”, followed by
the 3 digits code of the display
(this code can be found
on a sticker on - or inside - the set).
After entering “display option” code, the set is
going in stand-by mode (= validation of code)
R estart the set
H_16771_007b.eps
100322
Figure 5-14 SSB replacement flowchart - Factory mode
back to
div. table
2012-Mar-16
�EN 62
5.
Q552.2E LA
Service Modes, Error Codes, and Fault Finding
18753_211_100811.eps
110810
Figure 5-15 SSB start-up
5.9.14 Swapping SSBs in Sundance sets (series xxPFL7xxx)
Important: When the NAND-Flash must be replaced, a new
SSB must be ordered, due to the presence of the security keys!
(CI +, MAC address, ...).
Perform the following actions after SSB replacement:
1. Set the correct option codes (see sticker inside the TV).
2. Update the TV software = & gt; see the eUM (electronic User
Manual) for instructions.
3. Perform the alignments as described in chapter 6 (section
6.5 Reset of Repaired SSB).
4. Check in CSM if the CI + key, MAC address.. are valid.
For the correct order number of a new SSB, always refer to the
Spare Parts list!
Earlier sets in the Sundance range have an additional
Temperature sensor board located near the SSB. Later
(service-) SSBs lack the presence of the dedicated connector
on the SSB (no. 1M71).
Upon mounting of such an SSB, remove the entire
Temperature sensor board and set option code “Temp. sensor”
in Option no. 7 to “00”. Refer to table 6-21 Option codes at bit
level (Option 1 - Option 8).
5.10 Software Upgrading
5.10.2 Main Software Upgrade
Attention!
Software version numbers for 2011 sets are all defined below
number 0.40.x.x. This might confuse servicers who store
software versions for more than one set and/or platform on the
same storage device (USB stick).
•
Automatic Software Upgrade
In “normal” conditions, so when there is no major problem with
the TV, the main software and the default software upgrade
application can be upgraded with the “AUTORUN.UPG”
(FUS part of the one-zip file: e.g. 3104 337 05661 _FUS
_Q555X_ x.x.x.x_prod.zip). This can also be done by the
consumers themselves, but they will have to get their software
from the commercial Philips website or via the Software Update
Assistant in the user menu (see eUM). The “autorun.upg” file
must be placed in the root of the USB stick.
How to upgrade:
1. Copy “AUTORUN.UPG” to the root of the USB stick.
2. Insert USB stick in the set while the set is operational. The
set will restart and the upgrading will start automatically. As
soon as the programming is finished, a message is shown
to remove the USB stick and restart the set.
Always check the latest software version on the servicer
website in relation to the actual CTN!!!
5.10.1 Introduction
The set software and security keys are stored in a NANDFlash, which is connected to the PNX855xx.
It is possible for the user to upgrade the main software via the
USB port. This allows replacement of a software image in a
stand alone set, without the need of an E-JTAG debugger. A
description on how to upgrade the main software can be found
in the electronic User Manual.
2012-Mar-16
The “UpgradeAll.upg” file is only used in the factory.
back to
div. table
�Service Modes, Error Codes, and Fault Finding
Manual Software Upgrade
In case that the software upgrade application does not start
automatically, it can also be started manually.
How to start the software upgrade application manually:
1. Disconnect the TV from the Mains/AC Power.
2. Press the “OK” button on a Philips TV remote control or a
Philips DVD RC-6 remote control (it is also possible to use
a TV remote in “DVD” mode). Keep the “OK” button
pressed while reconnecting the TV to the Mains/AC Power.
3. The software upgrade application will start.
Q552.2E LA
5.
EN 63
5.10.5 UART logging 2K10 (see section “5.9 Fault Finding and
Repair Tips, 5.9.7 Logging)
Attention!
In case the download application has been started manually,
the “autorun.upg” will maybe not be recognized.
What to do in this case:
1. Create a directory “UPGRADES” on the USB stick.
2. Rename the “autorun.upg” to something else, e.g. to
“software.upg”. Do not use long or complicated names,
keep it simple. Make sure that “AUTORUN.UPG” is no
longer present in the root of the USB stick.
3. Copy the renamed “upg” file into this directory.
4. Insert USB stick into the TV.
5. The renamed “upg” file will be visible and selectable in the
upgrade application.
Back-up Software Upgrade Application
If the default software upgrade application does not start (could
be due to a corrupted boot sector) via the above described
method, try activating the “back-up software upgrade
application”.
How to start the “back-up software upgrade application”
manually:
1. Disconnect the TV from the Mains/AC Power.
2. Press the “CURSOR DOWN”-button on a Philips TV
remote control while reconnecting the TV to the Mains/AC
Power.
3. The back-up software upgrade application will start.
5.10.3 Stand-by Software Upgrade via USB
In this chassis it is possible to upgrade the Stand-by software
via a USB stick. The method is similar to upgrading the main
software via USB.
Use the following steps:
1. Create a directory “UPGRADES” on the USB stick.
2. Copy the Stand-by software (part of the one-zip file, e.g.
StandbyFactory_88.0.0.0.upg) into this directory.
3. Insert the USB stick into the TV.
4. Start the download application manually (see section “
Manual Software Upgrade”.
5. Select the appropriate file and press the “OK” button to
upgrade.
5.10.4 Content and Usage of the One-Zip Software File
Below the content of the One-Zip file is explained, and
instructions on how and when to use it.
• AmbiCpld_Q55XX_x.x.x.x_prod.zip. Contains the
program instruction and software content, needed to
upgrade the ambilight CPLD on the TV550 platform.
• BalanceFPGA_Q555X_x.x.x.x_prod.zip. Contains the
BalanceFPGA software in “upg” format.
• FUS_Q555X_x.x.x.x_prod.zip. Contains the
“autorun.upg” which is needed to upgrade the TV main
software and the software download application.
• PNX5130UPG_Q555X_x.x.x.x_prod.zip. Contains the
PNX5130 software in “upg” format.
• StandbySW_Q555X_x.x.x.x_prod.zip. Contains the
StandbyFactory software in “upg” format.
• ProcessNVM_Q55XX_x.x.x.x_prod.zip. Default NVM
content. Must be programmed via ComPair or can be
loaded via USB, be aware that all alignments stored in
NVM are overwritten here.
back to
div. table
2012-Mar-16
�EN 64
6.
Q552.2E LA
Alignments
6. Alignments
Index of this chapter:
6.1 General Alignment Conditions
6.2 Hardware Alignments
6.3 Software Alignments
6.4 Option Settings
6.5 Reset of Repaired SSB
6.6 Total Overview SAM modes
6.1
•
6.3.1
•
•
6.2
Contrast
50
Colour
0
Light Sensor
Off
Picture format
Unscaled
•
In menu “Picture”, choose “Pixel Plus HD” and set picture
settings as follows:
Picture Setting
Dynamic Contrast
Off
Dynamic Backlight
Off
Colour Enhancement
Off
Gamma
0
•
Go to the SAM and select “Alignments”- & gt; “White point”.
White point alignment LCD screens:
• Use a 100% white screen (format: 720p50) to the HDMI
input and set the following values:
– “Colour temperature”: “Cool”.
– All “White point” values to: “127”.
First, set the correct options:
– In SAM, select “Option numbers”.
– Fill in the option settings for “Group 1” and “Group 2”
according to the set sticker (see also paragraph 6.4
Option Settings).
– Press OK on the remote control before the cursor is
moved to the left.
– In submenu “Option numbers” select “Store” and press
OK on the RC.
OR:
– In main menu, select “Store” again and press OK on
the RC.
– Switch the set to Stand-by.
Warming up ( & gt; 15 minutes).
In case you have a colour analyser:
• Measure, in a dark environment, with a calibrated
contactless colour analyser (Minolta CA-210 or Minolta
CS-200) in the centre of the screen and note the x, y value.
• Change the pattern to 90% white screen. If a Quantum
Data generator is used, select the “GreyAll” test pattern at
level = 230.
• Adjust the correct x, y coordinates (while holding one of the
White point registers R, G or B on 127) by means of
decreasing the value of one or two other white points to the
correct x, y coordinates (see Table 6-1 White D alignment
values - LED - Minolta CA-210, or 6-2 White D alignment
values - LED - Minolta CS-200). Tolerance: dx: 0.002, dy:
0.002.
• Repeat this step for the other colour temperatures that
need to be aligned.
• When finished press OK on the RC and then press STORE
(in the SAM root menu) to store the aligned values to the
NVM.
• Restore the initial picture settings after the alignments.
Hardware Alignments
Not applicable.
6.3
100
Brightness
Alignment Sequence
•
Choose “TV menu”, “Setup”, “More TV Settings” and then
“Picture” and set picture settings as follows:
Picture Setting
Perform all electrical adjustments under the following
conditions:
• Power supply voltage (depends on region):
– AP-NTSC: 120 VAC or 230 VAC / 50 Hz ( 10%).
– AP-PAL-multi: 120 - 230 VAC / 50 Hz ( 10%).
– EU: 230 VAC / 50 Hz ( 10%).
– LATAM-NTSC: 120 - 230 VAC / 50 Hz ( 10%).
– US: 120 VAC / 60 Hz ( 10%).
• Connect the set to the mains via an isolation transformer
with low internal resistance.
• Allow the set to warm up for approximately 15 minutes.
• Measure voltages and waveforms in relation to correct
ground (e.g. measure audio signals in relation to
AUDIO_GND).
Caution: It is not allowed to use heat sinks as ground.
• Test probe: Ri & gt; 10 M, Ci & lt; 20 pF.
• Use an isolated trimmer/screwdriver to perform
alignments.
6.1.1
White Point
•
General Alignment Conditions
LATAM models: an NTSC M TV-signal with a signal
strength of at least 1 mV and a frequency of 61.25 MHz
(channel 3).
Software Alignments
Put the set in SAM mode (see Chapter 5. Service Modes, Error
Codes, and Fault Finding). The SAM menu will now appear on
the screen. Select ALIGNMENTS and go to one of the sub
menus. The alignments are explained below.
The following items can be aligned:
• White point
• Ambilight.
Table 6-1 White D alignment values - LED - Minolta CA-210
Value
Normal (8120K)
Warm (6080K)
0.282
0.292
0.320
y
To store the data:
• Press OK on the RC before the cursor is moved to the
left
• In main menu select “Store” and press OK on the RC
• Switch the set to stand-by mode.
Cool (9420K)
x
0.298
0.311
0.345
Table 6-2 White D alignment values - LED - Minolta CS-200
Value
2012-Mar-16
Normal (9000K)
Warm (6500K)
0.276
0.287
0.313
y
For the next alignments, supply the following test signals via a
video generator to the RF input:
• EU/AP-PAL models: a PAL B/G TV-signal with a signal
strength of at least 1 mV and a frequency of 475.25 MHz
• US/AP-NTSC models: an NTSC M/N TV-signal with a
signal strength of at least 1 mV and a frequency of 61.25
MHz (channel 3).
Cool (11000K)
x
0.282
0.296
0.329
If you do not have a colour analyser, you can use the default
values. This is the next best solution. The default values are
average values coming from production.
• Select a COLOUR TEMPERATURE (e.g. COOL,
NORMAL, or WARM).
• Set the RED, GREEN and BLUE default values according
to the values in Table 6-3 to Table 6-20.
back to
div. table
�Alignments
•
•
Q552.2E LA
6.
EN 65
Table 6-11 White tone default setting 32 " (Sundance 3D)
When finished press OK on the RC, then press STORE (in
the SAM root menu) to store the aligned values to the NVM.
Restore the initial picture settings after the alignments.
White Tone
e.g. 32PFL76x6x
Colour Temp
Colour Temp
R
G
127
125
104
Cool
123
127
127
116
62
112
102
127
127
102
79
119
Warm
124
B
Normal
B
114
Warm
e.g. 32PFL66x6x
G
127
Cool
White Tone
R
Normal
Table 6-3 White tone default setting 32 " (Blockbuster)
Table 6-12 White tone default setting 37 " (Sundance 3D)
White Tone
e.g. 37PFL76x6x
Colour Temp
Colour Temp
R
G
122
104
127
Cool
103
91
127
98
84
112
112
127
127
113
86
127
Warm
127
B
Normal
B
125
Warm
e.g. 37PFL66x6x
G
126
Cool
White Tone
R
Normal
Table 6-4 White tone default setting 37 " (Blockbuster)
Table 6-13 White tone default setting 42 " (Sundance 3D)
White Tone
e.g. 42PFL76x6x
Colour Temp
Colour Temp
R
G
124
126
109
Cool
118
126
127
120
69
112
109
127
127
105
77
123
Warm
121
B
Normal
B
118
Warm
e.g. 40PFL66x6x
G
126
Cool
White Tone
R
Normal
Table 6-5 White tone default setting 40 " (Blockbuster)
Table 6-14 White tone default setting 47 " (Sundance 3D)
White Tone
e.g. 47PFL76x6x
Colour Temp
Colour Temp
R
G
127
123
96
Cool
126
126
127
120
54
119
111
127
127
105
76
113
Warm
118
B
Normal
B
116
Warm
e.g. 46PFL6xx6x
G
127
Cool
White Tone
R
Normal
Table 6-6 White tone default setting 46 " (Blockbuster)
Table 6-15 White tone default setting 55 " (Sundance 3D)
White Tone
e.g. 55PFL76x6x
Colour Temp
Colour Temp
R
G
127
107
117
Cool
121
102
127
95
72
110
101
127
127
104
84
127
Warm
126
B
Normal
B
115
Warm
e.g. 55PFL66x6x
G
124
Cool
White Tone
R
Normal
Table 6-7 White tone default setting 55 " (Blockbuster)
Table 6-16 White tone default setting 32 " (Infinity)
White Tone
e.g. 32PDL7906x
Colour Temp
Colour Temp
R
G
126
115
127
Cool
108
102
127
104
83
113
102
127
127
102
79
127
Warm
123
B
Normal
B
112
Warm
e.g. 32PFL74x6x
G
127
Cool
White Tone
R
Normal
Table 6-8 White tone default setting 32 " (Sundance)
Table 6-17 White tone default setting 42 " (Infinity)
White Tone
e.g. 42PDL7906x
Colour Temp
Colour Temp
R
G
126
120
122
123
127
107
119
125
127
106
66
127
Warm
122
110
Cool
110
B
Normal
B
120
Warm
e.g. 42PFL74x6x
G
127
Cool
White Tone
R
Normal
Table 6-9 White tone default setting 42 " (Sundance)
66
Table 6-10 White tone default setting 47 " (Sundance)
White Tone
e.g. 47PFL74x6x
Colour Temp
R
G
B
Normal
127
115
115
Cool
123
112
126
Warm
127
104
74
back to
div. table
2012-Mar-16
�EN 66
6.
Alignments
Q552.2E LA
Table 6-18 White tone default setting 32 " (Berlinale)
White Tone
e.g. 32PFL5806x
Colour Temp
R
G
B
Normal
125
127
104
Cool
123
127
120
Warm
127
119
all at once by using the option codes as described in section
6.4.4.
63
6.4.4
Select this sub menu to set all options at once (expressed in
two long strings of numbers).
An option number (or “option byte”) represents a number of
different options. When you change these numbers directly,
you can set all options very quickly. All options are controlled
via eight option numbers.
When the NVM is replaced, all options will require resetting. To
be certain that the factory settings are reproduced exactly, you
must set both option number lines. You can find the correct
option numbers on a sticker inside the TV set.
Example: The options sticker gives the following option
numbers:
• 32776 00001 15421 02235
• 43847 36615 33024 00012
The first line (group 1) indicates hardware options 1 to 4, the
second line (group 2) indicate software options 5 to 8.
Every 5-digit number represents 16 bits (so the maximum value
will be 65536 if all options are set).
When all the correct options are set, the sum of the decimal
values of each Option Byte (OB) will give the option number.
Table 6-19 White tone default setting 40 " (Berlinale)
White Tone
e.g. 40PFL5806x
Colour Temp
R
G
B
Normal
127
115
97
Cool
127
117
114
Warm
127
108
56
Table 6-20 White tone default setting 46 " (Berlinale)
White Tone
e.g. 46PFL5806x
Colour Temp
R
G
B
Normal
127
117
89
Cool
127
119
107
Warm
127
109
49
6.4
Option Settings
6.4.1
Introduction
Diversity
Not all sets with the same Commercial Type Number (CTN)
necessarily have the same option code!
Use of Alternative BOM = & gt; an alternative BOM number usually
indicates the use of an alternative display or power supply. This
results in another display code thus in another Option code.
Refer to Chapter 2. Technical Specs, Diversity, and
Connections.
The microprocessor communicates with a large number of I2C
ICs in the set. To ensure good communication and to make
digital diagnosis possible, the microprocessor has to know
which ICs to address. The presence / absence of these
PNX51XX ICs (back-end advanced video picture improvement
IC which offers motion estimation and compensation features
(commercially called HDNM) plus integrated Ambilight control)
is made known by the option codes.
6.4.5
6.4.6
Option Bit Overview
For test purposes, please find below an overview of the Option
Codes on bit level. With a bin/dec converter, you can calculate
the Option Code.
Dealer Options
Caution
When manipulating option codes, know what you’re doing.
Wrong option codes could damage the set.
Prescribed option codes below are an example, not valid for all
sets and are subject to modification.
The correct option codes are always present on a sticker inside
the set!
For dealer options, in SAM select “Dealer options”.
See Table 6-22 SAM mode overview.
6.4.3
Option Code Overview
Refer to the sticker in the set for the correct option codes.
Important: after having edited the option numbers as
described above, you must press OK on the remote control
before the cursor is moved to the left!
Notes:
• After changing the option(s), save them by pressing the OK
button on the RC before the cursor is moved to the left,
select STORE in the SAM root menu and press OK on the
RC.
• The new option setting is only active after the TV is
switched “off” / “stand-by” and “on” again with the mains
switch (the NVM is then read again).
6.4.2
Opt. No. (Option numbers)
(Service) Options
From 2011 onwards, it is not longer possible to change
individual option settings in SAM. Options can only be changed
Table 6-21 Option codes at bit level (Option 1 - Option 8)
Option & Bit
Option 1 (prescribed value
Dec. Value
Option Name
Prescribed Value1)
Description
327761))
Bit 15 (MSB)
32768
Video Store Streaming
11)
0 = OFF
1 = ON
Bit 14
16384
Multi App
001)
Bit 13
8192
00 = none
01 = multi app (Multiview BASIC)
10 = AVPIP + multi app (Multiview ENHANCED)
11 = future use
Bit 12
4096
Perfect Pixel
001)
Bit 11
2048
00 = Pixel Plus HD
01 = Pixel Precise HD
10 = Perfect Pixel HD
11 = future use
2012-Mar-16
back to
div. table
�Alignments
Q552.2E LA
Option & Bit
Dec. Value
Option Name
Prescribed Value1)
1024
Tuner Type
0001)
Bit 9
512
Bit 8
256
000 = TH2603 (Europe/AP)
001 = FA2307 (Brazil)
010 = VA1E1ED2411
011 = future use
100 = future use
101 = future use
110 = future use
111 = future use
Bit 7
128
PQ Profiles
0001)
Bit 6
64
Bit 5
32
000 = profile 0
001 = profile 1
010 = profile 2
011 = profile 3
100 = profile 4
101 = profile 5
110 = profile 6
111 = profile 7
Bit 4
16
DNM
011)
Bit 3
8
00 = Perfect Natural Motion
01 = HD Natural Motion
10 = future use
11 = future use
Bit 2
4
MOP AL
01)
CPLD, not used in 2011
Bit 1
2
AL Optical Syst
001)
Bit 0 (LSB)
1
00 = 140 nit
01 = 200 nit
10 = future use
11 = future use
AL Shop Mode
01)
EN 67
Description
Bit 10
6.
0 = boost mode in shop is OFF
1 = boost mode in shop is ON
0 = stored in AL modules
1 = stored in SSB
Option 2 (prescribed value 000011))
Bit 15 (MSB)
32768
Bit 14
16384
AL settings storage location
01)
Bit 13
8192
Wall Adaptive AL
01)
0 = OFF
1 = ON
4096
Sunset
01)
0 = OFF
1 = ON
Bit 11
2048
Ambient Light
00001)
Bit 10
1024
Bit 9
512
Bit 8
256
0000 = none
0001 = 2-sided (3/3)
0010 = 2-sided (4/4)
0011 = 2-sided (5/5)
0100 = 2-sided (6/6)
0101 = 2-sided (7/7)
0110 = 3-sided (5/5/5)
0111 = 3-sided (6/6/6)
1000 = 3-sided (3/6/3)
1001 = 3-sided (6/9/6)
1010 = 2-sided (8/8)
1011 = 3-sided (4/4/4)
1100 = 2-sided (1/1)
1101 = 2-sided (2/2)
1110 = future use
1111 = future use
Bit 7
128
FPGA3Dact/1Ddimm
01)
0 = OFF
1 = ON
Bit 6
64
AL Select
01)
0 = AL2k10
1 = AL2k11
Bit 12
1)
Bit 5
32
3D Passive
0
0 = 2D
1 = 3D passive
Bit 4
16
Smart Bit Enhancement (SBE)
01)
0 = off
1 = on (200 Hz board present)
1)
Bit 3
8
Super Resolution
0
0 = Super Resolution SD
1 = Super Resolution HD
Bit 2
4
Light Sensor LUT
001)
Bit 1
2
00 = Lut 0
01 = Lut 1
10 = Lut 2
11 = Lut 3
Bit 0 (LSB)
1
Light Sensor
11)
0 = OFF
1 = ON
Option 3 (prescribed value 154211))
Bit 15 (MSB)
32768
Side IO
01)
0 = not present
1 = present
Bit 14
16384
AV3
0111)
Bit 13
8192
Bit 12
4096
000 = none
001 = CVBS
010 = YPbPr
011 = YPbPr/LR
100 = YPbPr/HV/LR
101 = CVBS/LR
110 = CVBS/Yc/LR
111 = future use
Bit 11
2048
AV2
111)
Bit 10
1024
00 = Scart/CVBS/RGB/LR
01 = CVBS/LR
10 = YPbPr/LR
11 = none
Bit 9
512
AV1
001)
Bit 8
256
00 = Scart/CVBS/RGB/LR
01 = CVBS/YC/YPbPr/HV/LR
10 = CVBS/YC/YPbPr/LR
11 = YPbPr/LR
back to
div. table
2012-Mar-16
�EN 68
6.
Q552.2E LA
Alignments
Option & Bit
Dec. Value
Option Name
Prescribed Value1)
Description
Bit 7
128
3D Prepared
01)
0 = not prepared
1 = prepared
0 = Sound in Cabinet
1 = Sound in Stand
Bit 6
64
Sound in Stand
01)
Bit 5
32
Headphone
11)
0 = OFF
1 = ON
0 = OFF
1 = ON
Bit 4
16
Seamless System
11)
Bit 3
8
ViewPort 21_9/PQL
11)
0 = OFF
1 = ON
0 = OFF
1 = ON
Bit 2
4
HDMI Side
11)
Bit 1
2
HDMI 3
01)
0 = OFF
1 = ON
HDMI 2
11)
0 = OFF
1 = ON
Cabinet
000011)
Cabinet type
(no detailed info available)
Region
0001)
000 = Europe (/02, /05 & /12)
001 = AP PAL multi
010 = AP NTSC
011 = Russian (/60)
100 = Latam (/78 & /77)
101 = Australia
110 = China (/93)
111 = future use
Bit 0 (LSB)
1
Option 4 (prescribed value 022351))
Bit 15 (MSB)
32768
Bit 14
16384
Bit 13
8192
Bit 12
4096
Bit 11
2048
Bit 10
1024
Bit 9
512
Bit 8
256
Bit 7
128
Display MSB
11)
0 = display option = & lt; 255
1 = display option & gt; 255
Bit 6
64
S Video
01)
0 = OFF
1 = ON
0 = OFF
1 = ON
Bit 5
32
Video Store SD Card
11)
Bit 4
16
Internet software Upgrade
11)
0 = OFF
1 = ON (automatic software upgradable via internet)
0 = OFF
1 = ON (connection to internet provider Philips)
Bit 3
8
Online Service
11)
Bit 2
4
WiFi
01)
0 = OFF
1 = ON (wireless connection to ethernet; no link with “Ethernet
option” bit “0”)
Bit 1
2
DLNA
11)
0 = OFF
1 = PC link
Bit 0 (LSB)
1
Ethernet
11)
0 = OFF
1 = Ethernet vonnector and HW present
8 Days EPG
11)
0 = OFF
1 = ON (country dependent)
DVBC Installation
011)
00 = OFF
01 = Country dependent
10 = ON
11 = future use
DVBT Installation
011)
00 = OFF
01 = Country dependent
10 = ON
11 = future use
1)
Option 5 (prescribed value 43847 )
Bit 15 (MSB)
32768
Bit 14
16384
Bit 13
8192
Bit 12
4096
Bit 11
2048
Bit 10
1024
DVB-S
01)
0 = OFF
1 = ON (ATSC/DVB should be ON)
Bit 9
512
DVB-C
11)
0 = OFF
1 = ON (ATSC/DVB should be ON)
Bit 8
1)
256
DVB
1
0 = analogue only
1 = DVBT (and C/S depending DVBC/S option)
Bit 7
128
Display Type
010001111)
Display Type (ex.: 327)
Bit 6
64
Bit 5
32
Bit 4
16
Bit 3
8
Bit 2
4
Bit 1
2
Bit 0 (LSB)
1
Option 6 (prescribed value 366151))
Bit 15 (MSB)
32768
E-sticker
11)
0 = OFF
1 = ON
Bit 14
16384
Hotel Mode
001)
Bit 13
8192
00 = OFF
01 = 1V1
10 = 1V2
11 = future use
Bit 12
4096
Virgin
01)
0 = ON
1 = OFF
2012-Mar-16
back to
div. table
�Alignments
Q552.2E LA
Option & Bit
Dec. Value
Option Name
Prescribed Value1)
2048
USB Time Shift
11)
0 = OFF
1 = ON
Auto Store Mode
111)
00 = none
01 = PDC_VPS
10 = TXT page
11 = PDC_VPS_TXT
PVR
11)
EN 69
Description
Bit 11
6.
0 = OFF
1 = ON
Bit 10
1024
Bit 9
512
Bit 8
256
Ginga
00
1)
00 = OFF
01 = Country dependent
10 = ON
11 = future use
MHP
001)
00 = OFF
01 = Country dependent
10 = ON
11 = future use
Over the Air Download
011)
00 = OFF
01 = Country dependent
10 = ON
11 = future use
Bit 7
128
Bit 6
64
Bit 5
32
Bit 4
16
Bit 3
8
Bit 2
4
Bit 1
2
DVBC light
11)
0 = OFF
1 = ON (when DVBC Installation is OFF or when ON but selected
country is OFF, this option is used)
Bit 0 (LSB)
1
DVBT light
11)
0 = OFF
1 = ON (when DVBT Installation is OFF or Country depend to a
country is OFF, this option is used)
32768
Visual Identity
11)
0 = User Interface 2k10
1 = User Interface 2k11
Bit 14
16384
Red LED Config LUT
0001)
Bit 13
8192
Bit 12
4096
000 = LED config LUT 0
001 = LED config LUT 1
010 = LED config LUT 2
011 = LED config LUT 3
100 = LED config LUT 4
101 = LED config LUT 5
110 = LED config LUT 6
111 = LED config LUT 7
Bit 11
2048
Board Identifier
001)
not used, should always be “00”
Bit 10
1024
Bit 9
512
Manet
01)
0 = all sets except Manet
1= Manet
Bit 8
256
Auto Power Down
11)
0 = OFF
1 = ON
1)
0 = OFF
1 = ON
Option 7 (prescribed value 330241))
Bit 15 (MSB)
Bit 7
128
Light Guide
0
Bit 6
64
E-box
01)
Bit 5
32
Bit 4
16
Bit 3
8
Bit 2
4
Bit 1
2
Bit 0 (LSB)
1
0 = integrated set
1 = e-box/monitor
1)
Temp LUT
000
000 = temp lut 0
001 = temp lut 1
010 = temp lut 2
011 = temp lut 3
100 = future use
101 = future use
110 = future use
111 = future use
Temp Sensor
001)
00 = no temp sensor
01 = temp sensor in display
10 = temp sensor on additional board
11 = temp sensor in AL module
FAN
01)
0 = no fan
1 = fan(s) present)
Option 8 (prescribed value 000121))
Bit 15 (MSB)
32768
Test 8
01)
-
Bit 14
16384
Test 7
01)
-
Bit 13
8192
Test 6
01)
-
Bit 12
4096
Test 5
01)
-
Bit 11
2048
Test 4 (Trick Mode)
01)
0 = OFF
1 = ON
Bit 10
1024
Test 3 (XRay)
01)
0 = OFF
1 = ON
0 = OFF
1 = ON
Bit 9
512
Test 2 (DBV-T light)
01)
Bit 8
256
Test 1 (Monitor out)
01)
Bit 7
128
Bit 6
64
Bit 5
0 = OFF
1 = ON
1)
not used
0000
-
32
Bit 4
16
Bit 3
8
WM DRM10
11)
0 = OFF
1 = ON
Bit 2
4
HBBTV
11)
0 = OFF
1 = ON
back to
div. table
2012-Mar-16
�EN 70
6.
Q552.2E LA
Alignments
Option & Bit
Dec. Value
Option Name
Prescribed Value1)
Description
Bit 1
2
DVB-T2 Installation
01)
0 = OFF
1 = ON
DVB-T2
01)
0 = OFF
1 = ON
Bit 0 (LSB)
1
Note
1). Example
6.5
6.5.1
SSB identification
Whenever ordering a new SSB, it should be noted that the
correct ordering number (12nc) of a SSB is located on a sticker
on the SSB. The format is & lt; 12nc SSB & gt; & lt; serial number & gt; . The
ordering number of a “Service” SSB is the same as the ordering
number of an initial “factory” SSB.
Reset of Repaired SSB
A very important issue towards a repaired SSB from a Service
repair shop (SSB repair on component level) implies the reset
of the NVM on the SSB.
A repaired SSB in Service should get the service Set type
“00PF0000000000” and Production code “00000000000000”.
Also the virgin bit is to be set. To set all this, you can use the
ComPair tool or use the “NVM editor” and “Dealer options”
items in SAM (do not forget to “store”).
After a repaired SSB has been mounted in the set (set repair
on board level), the type number (CTN) and production code of
the TV has to be set according to the type plate of the set. For
this, you can use the NVM editor in SAM. This action also
ensures the correct functioning of the “Net TV” feature and
access to the Net TV portals. The loading of the CTN and
production code can also be done via ComPair (Model number
programming).
After a SSB repair, the original channel map can be restored,
provided that the original channel map was stored on a USB
stick before repair was commenced and that basic functionality
of the TV, needed for this procedure, was not hampered as a
result of the defect. The procedure of “channel map cloning” is
clearly described in the (electronic) user manual.
18310_221_090318.eps
090319
Figure 6-1 SSB identification
In case of a display replacement, reset the “Operation hours
display” to “0”, or to the operation hours of the replacement
display.
2012-Mar-16
back to
div. table
�Alignments
6.6
Q552.2E LA
6.
EN 71
Total Overview SAM modes
Table 6-22 SAM mode overview
Main Menu
Sub-menu 1
Sub-menu 2
Hardware Info
A. software version
e.g. “Q5551_0.9.1.0
B. Stand-by processor
version
e.g. “STDBY_83.84.0.0”
C. Production code
Sub-menu 3
Description
e.g. “see type plate”
Display TV & Stand-by software version and CTN serial
number
Operation hours
Displays the accumulated total of operation hours.TV
switched “on/off” & every 0.5 hours is increase one
Errors
Displayed the most recent errors
Reset error buffer
Alignment
Clears all content in the error buffer
White point
Colour temperature
Normal
3 different modes of colour temperature can be selected
Warn
Cool
White point red
LCD White Point Alignment. For values,
see Table 6-3 White tone default setting 32 " (Blockbuster)
to 6-15 White tone default setting 55 " (Sundance 3D)
White point green
White point blue
Ambilight
Select module
Brightness
Select matrix
Dealer options
Virgin mode
Off/On
Select Virgin mode On/Off. TV starts up / does not start up
(once) with a language selection menu after the mains
switch is turned “on” for the first time (virgin mode)
E-sticker
Off/On
Select E-sticker On/Off (USP’s on-screen)
Auto store mode
None
PDC/VPS
TXT page
PDC/VPS/TXT
Miscellaneous
Group 1
e.g. “00008.00001.15421.02239”
The first line (group 1) indicates hardware options 1 to 4
Group 2
Option numbers
Hotel mode
Off
e.g. “44816.34311.33024.00000”
The second line (group 2) indicates software options 5 to 8
Store
Hotel mode is Off
Store after changing
Initialise NVM
N.A.
Store
Select Store in the SAM root menu after making any
changes
Operation hours
display
Software maintenance
0003
Software events
In case the display must be swapped for repair, you can
reset the “”Display operation hours” to “0”. So, this one
does keeps up the lifetime of the display itself (mainly to
compensate the degeneration behaviour)
Display
Display information is for development purposes
Clear
Test reboot
Test cold reboot
Test application crash
Hardware events
Display
Display information is for development purposes
Clear
Test setting
Digital info
Current frequency: 538
QAM modulation: 64-qam
Display information is for development purposes
Symbol rate:
Original network ID: 12871
Network ID: 12871
Transport stream ID: 2
Service ID: 3
Hierarchical modulation: 0
Selected video PID: 35
Selected main audio PID: 99
Selected 2nd audio PID: 8191
Install start frequency
000
Install start frequency from “0” MHz
Install end frequency
999
Install end frequency as “999” MHz
Digital only
Select Digital only or Digital + Analogue before installation
Default install frequency
Installation
Digital + Analogue
back to
div. table
2012-Mar-16
�EN 72
6.
Q552.2E LA
Alignments
Main Menu
Sub-menu 1
Sub-menu 2
Development file
versions
Development 1 file version
Display parameters DISPT5.0.9.29
Sub-menu 3
Description
Display information is for development purposes
Acoustics parameters ACSTS
5.0.6.20
PQ - TV550 1.0.27.22
PQS- Profile set
PQF - Fixed settings
PQU - User styles
Ambilight parameters PRFAM
5.0.5.2
Development 2 file version
12NC one zip software
Display information is for development purposes
Initial main software
NVM version Q55x1_0.4.5.0
Flash units software
Temp com file version none
Upload to USB
Channel list
To upload several settings from the TV to an USB stick
Personal settings
Option codes
Alignments
Identification data
History list
All (options included)
Download from USB
Channel list
To download several settings from the USB stick to the TV
Personal settings
Option codes
Alignments
Identification data
All (options included)
NVM editor
see type plate
AG code
2012-Mar-16
Type number
see type plate
NVM editor; re key-in type number and production code
after SSB replacement
back to
div. table
�Circuit Descriptions
Q552.2E LA
7.
EN 73
7. Circuit Descriptions
Index of this chapter:
7.1 Introduction
7.2 Power Supply
7.3 DC/DC Converters
7.4 Front-End Analogue and DVB-T, DVB-C; ISDB-T reception
7.5 Front-End DVB-S(2) reception
7.6 HDMI
7.7 Video and Audio Processing - PNX855xx
•
•
•
The Q552.2E LA chassis comes with the following stylings:
• Blockbuster (series xxPFL66xx),
• Sundance (series xxPFL76xx).
7.1.1
Notes:
• Only new circuits (circuits that are not published recently)
are described.
• Figures can deviate slightly from the actual situation, due
to different set executions.
• For a good understanding of the following circuit
descriptions, please use the wiring-, block- (see chapter
9. Block Diagrams) and circuit diagrams (see chapter
10. Circuit Diagrams and PWB Layouts).Where necessary,
you will find a separate drawing for clarification.
Implementation
Key components of this chassis are:
• PNX855xx System-On-Chip (SOC) TV Processor
• TX26xx Hybrid Tuner (DVB-T/C, analogue)
• STV6110AT DVB-S Satellite Tuner
• SII9x87 HDMI Switch
• TPA312xD2PWP Class D Power Amplifier
• LAN8710 Dual Port Gigabit Ethernet media access
controller.
7.1.2
Introduction
The Q552.2E LA is part of the TV550 platform, is a derivative
from the Q552.1E LA and uses the (same) PNX855xx chipset.
The major deltas versus its predecessor Q551 are:
• support of DVB-T2 (“second generation” DVBT)
• implementation of “passive” 3D
TV550 Architecture Overview
For details about the chassis block diagrams refer to chapter 9.
Block Diagrams. An overview of the TV550 2011 architecture
can be found in Figure 7-1.
FLASH
512MB
DDR2
4x 128MB -533
NVM
8kB
SPI
64kB
LVDS only
32
Matrix
FHD@120p
FHD@100p
DVB-T (EU)
DVB-C (EU+HK)
Hybrid
Tuner
DVB-S2
Tuner
NXP
PNX85500
SOC
AL
DVB-S2 (EU)
DC/DC
Ethernet
PHY
3V3
1V1
1V8
2V5
3V3
5V
USB
3D
IR
Stdby
CPLD
CLASS-D
HDMI 1.3
mux
WIFI
7.1
removal of TCON from the SSB (comes with the display)
changed power architecture
new USB hub (for Sundance xxPFL76xx/xx sets).
buffer
SD-CARD
CI
19100_059_110217.eps
110217
Figure 7-1 Architecture of TV550 platform 2011
back to
div. table
2012-Mar-16
�EN 74
7.1.3
7.
Circuit Descriptions
Q552.2E LA
SSB Cell Layout
1M95
1M99
1M59
DVB-S DC/DC
LONG
PCMCIA
1M71
DC/DC
C
Ambilight
CPLD
FLASH
CD
DDR2
DVB-S2
Tuner
F-type
13.65mm
1G50
DDR2
DDR
LVDS-OUT
DDR2
CA
PNX85500
M1
27x27
1.00mm
TS-IN
USB
Class-D
1735
ANA
AUD
ANA
VID
DVB-S DC/DC
HDMI
Heatsink
I²S
SPDIF
1D38
ETH
GPIO
STDBY
SD-SLOT
DDR2
1F24
SCART1/YPbPr
Hybrid
Tuner
1E32
Pb
Pr
L/R
O
U
T
Y
HDMI
C
TR
2
3
1
91
87
0
L
3D
HDMI
HDMI
HDMI
SPDIF
Output
L
Process Support Wire
1M21
1M20
7E01
R
Head
Phone
SVC
VGA
1G51
USB2.0
19100_058_110217.eps
110217
Figure 7-2 SSB layout cells (top view)
2012-Mar-16
back to
div. table
�Circuit Descriptions
7.2
Power Supply
7.2.1
Introduction and connector overview
•
•
•
Q552.2E LA
7.
EN 75
VSTB (+3.3 V; stand-by mode)
VSSB (+12.3 V; on-mode)
VSND (+24.5 V; audio circuit).
The output voltages to the chassis are:
Table 7-1 Connector overview 55 " sets (LGiT ..90321, ..90418)
Connector
no.
1308
1316
1319
1M95
1M99
1M09
1MP1
Descr.
Mains
Display
Display
PSU to SSB
PSU to SSB *
Ambilight *
TCON (for & gt; 46 " only)
Pin
CN1
CN2
CN3
CN4
CN5
CN6
CN7
1
N
Anode L1
Anode R2
3V3stdby
GND_AL
GND_AL
+12V/24V
2
L
n.c.
n.c.
Standby
+12V_AL
+12V_AL
+12V/24V
3
-
L1 Cathode
R8 Cathode
GND1
GND_AL
GND_AL
n.c.
4
-
L2 Cathode
R7 Cathode
GND1
+12V_AL
+12V_AL
GND1
5
-
L3 Cathode
R6 Cathode
+12V
GND_AL
-
GND1
6
-
L4 Cathode
R5 Cathode
+12V
+12V_AL
-
-
7
-
n.c.
R4 Cathode
+Vsnd
2D/3D
-
-
8
-
L5 Cathode
R3 Cathode
GND_SND
GND1
-
-
9
-
L6 Cathode
R2 Cathode
BL-ON-OFF
+12V
-
-
10
-
L7 Cathode
R1 Cathode
BL-DIM1(Vsync)
BL-SPI-SDO_BL-DIM2
-
-
11
-
L8 Cathode
n.c.
BL-I-CTRL
BL-SPI-CSn_BL-DIM3
-
-
12
-
n.c.
Anode R1
POK
BL-SPI-CLK_BL-DIM4
-
-
13
-
Anode L2
-
+24V (AL2_DVBS)
MAINS-OK / TEMP
-
-
14
-
-
-
GND1
-
-
-
15
-
-
-
-
-
-
-
Note: * optional
Table 7-2 Connector overview 37 " 76xx sets (LGiT ..90326)
Connector
no.
1308
1316
1319
1M95
1M99
1M09
1MP1
Descr.
Mains
Display
Display
PSU to SSB
PSU to SSB *
Ambilight *
TCON (for & gt; 46 " only)
Pin
CN1
CN2
CN3
CN4
CN5
CN6
CN7
1
N
Anode R
-
3V3stdby
GND_AL
GND_AL
+12V/24V
2
L
n.c.
-
Standby
+12V_AL
+12V_AL
+12V/24V
3
-
R5 Cathode
-
GND1
GND_AL
GND_AL
n.c.
4
-
R4 Cathode
-
GND1
+12V_AL
+12V_AL
GND1
5
-
R3 Cathode
-
+12V
GND_AL
-
GND1
6
-
R2 Cathode
-
+12V
+12V_AL
-
-
7
-
R1 Cathode
-
+Vsnd
2D/3D
-
-
8
-
L1 Cathode
-
GND_SND
GND1
-
-
9
-
L2 Cathode
-
BL-ON-OFF
+12V
-
-
10
-
L3 Cathode
-
BL-DIM1(Vsync)
BL-SPI-SDO_BL-DIM2
-
-
11
-
L4 Cathode
-
BL-I-CTRL
BL-SPI-CSn_BL-DIM3
-
-
12
-
L5 Cathode
-
POK
BL-SPI-CLK_BL-DIM4
-
-
13
-
n.c.
-
+24V (AL2_DVBS)
MAINS-OK / TEMP
-
-
14
-
Anode L
-
GND1
-
-
-
15
-
-
-
-
-
-
-
Note: * optional
Table 7-3 Connector overview 32 " 66xx sets (Delta ..90337)
Connector
no.
1308
1316
1M95
Descr.
Mains
to display
to SSB
Pin
CN1
CN2
CN4
1
N
A2
+3V3SB
2
L
n.c.
Standby
3
-
pin 5
GND1
4
n.c.
GND1
-
pin 3
+12V3
6
-
n.c.
+12V3
7
-
OCD
+Vsnd
8
-
n.c.
GND1
9
-
A1
BL-ON-OFF
10
-
n.c.
BL-DIM1
11
-
pin 13
BL-I-CTRL
12
-
n.c.
POK
13
-
pin 11
+24V
14
-
n.c.
GND1
15
back to
div. table
-
5
-
GND1
-
2012-Mar-16
�EN 76
7.
Circuit Descriptions
Q552.2E LA
Table 7-4 Connector overview 37 " 66xx sets (FSP ..90341)
Table 7-5 Connector overview 40 " & 46 " sets (LGiT ..90318,
..90319, ..90441, ..90361, ..90477)
Connector
no.
1308
1316
1M95
Descr.
Mains
to display
to SSB
no.
1308
1316
1M95
Pin
CN1
CN2
CN4
Descr.
Mains
to display
to SSB
1
N
Anode_R
+3V3stdby
Pin
CN1
CN2
CN4
2
L
n.c.
Standby
1
N
Anode 1+
+3V3stdby
3
-
R5 Cathode
GND1
2
L
n.c.
Standby
4
-
R4 Cathode
GND1
3
-
Cathode 1-
GND1
5
-
R3 Cathode
+12V
4
-
n.c.
GND1
6
-
R2 Cathode
+12V
5
-
Anode 2+
+12V
7
-
R1 Cathode
+Vsnd (+24V)
6
-
n.c.
+12V
8
-
L1 Cathode
GND_SND
7
-
Cathode 2-
+Vsnd (+24V)
9
-
L2 Cathode
BL-ON-OFF
8
-
n.c. *
GND_SND
10
-
L3 Cathode
BL-DIM1 (Vsync)
9
-
Anode 3+ *
BL-ON-OFF
11
-
L4 Cathode
BL-I-CTRL
10
-
n.c. *
BL-DIM1 (Vsync)
12
-
L5 Cathode
POK
11
-
Cathode 3-*
BL-I-CTRL
13
-
n.c.
+24V (AL2_DVBS)
12
-
n.c. *
POK
14
-
Anode_L
GND1
13
-
Anode 4+ *
+24V (AL2_DVBS)
15
-
-
-
14
-
n.c. *
GND1
15
-
Cathode 4- *
-
Connector
7.2.2
Block Diagram and Fault Finding LGiT supply units
(32PFL58xx, 37PFL76xx, 40xFLxxxx, 46xFLxxxx,
55xFLxxxx sets)
BL Driver 1
Line
filter
ACin
198 V - 264 V
90 V - 276 V
PFC
Back Light
Resonant
converter
BL Driver 2
Diode
bridge
STBY
VSSB
VSTB
Regulator
VSND
19132_012_111221.eps
111221
Figure 7-3 Block diagram
Check
First step
Normal operation
Check the fuse (F101)
Apply the mains voltage (ACin)
Check the Standby voltage
at C306: measure 3.3 V
Pull the Standby pin to LOW (GND)
Check the PFC voltage at C644
PFC present: measure 380 V to 400 V
PFC not present: measure ACin × 2
Check the main supply at C208: measure 12.3 V
Check the audio supply at C233: measure 24.5 V
Pull the BL_ON_OFF pin to HIGH (3.3 V)
Allow the power supply to start-up a few times
Second step
Check the entire block (PC102, VCC, etc.)
Check the entire block (VCC, ICs, etc.)
Check the entire block (VCC, ICs, etc.)
No turn on
Check the reference voltage of the
LED Driver (U401): measure approximately 12 V
19132_013_111221.eps
111222
Figure 7-4 Test instructions
2012-Mar-16
back to
div. table
�Circuit Descriptions
Following checks have to be performed:
• check fuse (F101)
• standby check VSTB (C306), measure 3.3 V
• PFC voltage check (C644), measure 380 - 400 V; if no PFC
applied, measure 311 @ 220 V
• multi-level check VSSB (C208), measure 12.3 V
• multi-level check VSND (C233), measure 24.5 V
• reference voltage check (U401), measure 12 V (appr.).
•
•
•
Q552.2E LA
7.
EN 77
the +V-LNB signal comes from item no. 7T03
the V0-CTRL signal goes to item no. 7T03
the LNB-RF1 goes to the LNB.
Figures gives a graphical representation of the DC/DC
converters with its current consumptions:
+ 5V 5-TUN
196 m A
+ 5V
dc -dc
SAFETY INSTRUCTION
Replace safety components, indicated by the symbol h, only
by components identical to the original ones. Any other
component substitution (other than original type) may increase
risk of fire or electrical shock hazard.
7.3
+ 12V
2919 m A
DC/DC Converters
+ 3V 3
dc -dc
+ 1V 8
dc -dc
The on-board DC/DC converters deliver the following voltages
(depending on set execution):
• +3V3-STANDBY, permanent voltage for the Stand-by
controller, LED/IR receiver and controls; connector 1M95
pin 1
• +12V, input from the power supply for TV550 common
(active mode); connector 1M95 pins 6, 7 and 8
• +24V, input from the power supply for DVB-S2 (in active
mode); connector 1M09 pins 1 and 2
• +1V1, core voltage supply for PNX855xx; has to be started
up first and switched " off " last (diagram B03B)
• +1V2, supply voltage for analogue blocks inside PNX855xx
• +1V8, supply voltage for DDR2 (diagram B03B)
• +2V5, supply voltage for analogue blocks inside PNX855xx
(see diagram B03E)
• +3V3, general supply voltage (diagram B03E)
• +5V, supply voltage for USB and CAM (diagram B03E)
• +5V-TUN, supply voltage for tuner (diagram B03E)
• +V-LNB, input voltage for LNB supply IC (item no. 7T50)
• +5V-DVBS, input intermediate supply voltage for DVB-S2
(diagram B08A)
• +3V3-DVBS, clean voltage for silicon tuner and DVB-S2
channel decoder
• +2V5-DVBS, clean voltage for DVB-S2 channel decoder
• +1V-DVBS, core voltage for DVB-S2 channel decoder.
+ 1V 1
dc -dc
+ 5V 5-TUN
+ 5V
2179 m A
+ 3V 3
+ 3V 3
2371 m A
+ 1V 8
+ 1V 8
2450 m A
+ 5V -TUN
s tabiliz er
+ 2V 5
s tabiliz er
+ 1V 2
s tabiliz er
+ 5V -TUN
196 m A
+ 2V 5
450 m A
+ 1V 2
550 m A
+ 1V 1
5100 m A
18770_226_100127.eps
100426
Figure 7-5 DC/DC converters
7.4
Front-End Analogue and DVB-T, DVB-C;
ISDB-T reception
7.4.1
European/China region
The Front-End for the European/China region consist of the
following key components:
•
•
•
•
•
A +12 V under-voltage detector (see diagram B03C) enables
the 12V to 3.3V and 12V to 5V DC/DC converters via the
ENABLE-3V3-5V line, and the 12V to 1.8V DC/DC converter
via the ENABLE-1V8 line. DETECT2 is the signal going to the
Stand-by microcontroller and ENABLE-3V3n is the signal
coming from the Stand-by microcontroller.
Hybrid Tuner
Switchable SAW filter 7/8 MHz (Eur.), or single SAW filter
(8 MHz) (China)
Bandpass filter
Amplifier
PNX855xx SoC TV processor with integrated DVB-T and
DVB-C channel decoder and analogue demodulator.
Below find a block diagram of the front-end application for this
region.
Diagram B03D contains the following linear stabilisers:
• +2V5 stabiliser, built around item no. 7UCO
• +5V-TUN stabiliser, built around items no. 7UA6 and 7UA7
• +1V2 stabiliser, built around items no. 7UA3 and 7UA4.
Diagram B08A contains the DVB-S2-related DC/DC
converters and -stabilisers:
• a +24V under-voltage detection circuitry is built around
item no. 7T04
• the switching frequency of the 24 to 14...20V switched
mode converter is 350 kHz (item no. 7T03 and +V-LNB
lines)
• the output signal on the +V-LNB line goes to the LNBH23Q
(item no. 7T50)
• the LNBH23Q (item no. 7T50) sends a feedback signal via
the V0-CNTRL line
• the switching frequency of the +5V-DVBS to +1-DVBS
switched mode converter is 900 kHz (item no. 7T00)
• a delay line for the +2V5-DVBS and +1V-DVBS lines is
created with item no. 3T03 (R=10k) and 2T06 (C=100n)
• a 3.3V to 2.5V linear stabiliser is built around item no. 7T01
• a 5V to 3.3V linear stabiliser is built around item no. 7T02.
18770_235_100127.eps
100219
Figure 7-6 Front-End block diagram European/China region
7.5
Front-End DVB-S(2) reception
The Front-End for the DVB-S(2) application consist of the
following key components:
•
•
•
•
•
Diagram B08B contains the DVB-S2 LNB supply:
back to
div. table
Satellite Tuner; I2C address 0xC6 (bridged via channel
decoder)
Channel decoder; I2C address 0xD0
LNB switching regulator; I2C address 0x14
Amplifier
PNX855xx SoC TV processor with integrated DVB-T and
DVB-C channel decoder and analogue demodulator.
2012-Mar-16
�EN 78
7.
Circuit Descriptions
Q552.2E LA
Below find a block diagram of the front-end application for
DVB-S(2) reception.
•
•
•
•
•
•
•
•
7.7
Stable clock detection mechanism
Integrated EDID
RT control
HPD control
Sync detection
TMDS output control
CEC control
EDID stored in Sil9x87, therefore there are no EDID pins
on the SSB.
Video and Audio Processing - PNX855xx
The PNX855xx is the main audio and video processor (or
System-on-Chip) for this platform. It has the following features:
•
18770_237_100127.eps
100219
•
•
•
•
•
•
•
•
•
Figure 7-7 Front-End block diagram DVB-S(2) reception
This application supports the following protocols:
• Polarization selection via supply voltage (18V = horizontal,
13V = vertical)
• Band selection via “toneburst” (22 kHz): tone “on” = “high”
band, tone “off” = “low” band
• Satellite (LNB) selection via DiSEqC 1.0 protocol
• Reception of DVB-S (supporting QPSK encoded signals)
and DVB-S2 (supporting QPSK, 8PSK, 16APSK and
32APSK encoded signals), introducing LDPC low-density
parity check techniques.
7.6
•
Multi-standard digital video decoder (MPEG-2, H.264,
MPEG-4)
Integrated DVB-T/DVB-C channel decoder
Integrated CI+
Integrated motion accurate picture processing (MAPP2)
High definition ME/MC
2D LED backlight dimming option
Embedded HDMI HDCP keys
Extended colour gamut and colour booster
Integrated USB2.0 host controller
Improved MPEG artefact reduction compared with
PNX8543
Security for customers own code/settings (secure flash).
The TV550 combines front-end video processing functions,
such as DVB-T channel decoding, MPEG-2/H.264 decode,
analog video decode and HDMI reception, with advanced
back-end video picture improvements. It also includes next
generation Motion Accurate Picture Processing (MAPP2). The
MAPP2 technology provides state-of-the-art motion artifact
reduction with movie judder cancellation, motion sharpness
and vivid colour management. High flat panel screen
resolutions and refresh rates are supported with formats
including 1366 × 768 @ 100Hz/120Hz and 1920 × 1080 @
100Hz/120Hz. The combination of Ethernet, CI+ and H.264
supports new TV experiences with IPTV and VOD. On top of
that, optional support is available for 2D dimming in
combination with LED backlights for optimum contrast and
power savings up to 50%.
HDMI
In this platform, the Silicon Image Sil9x87 HDMI multiplexer is
implemented. Refer to figure 7-8 HDMI input configuration for
the application.
For a functional diagram of the PNX855xx, refer
to Figure 7-9.
18770_243_100203.eps
100203
Figure 7-8 HDMI input configuration
The following multiplexers can be used:
• Sil9187A (does not support “Instaport” technology for fast
switching between input signals)
• Sil9287B (supports “Instaport” technology for fast
switching between input signals).
The hardware default I2C addresses are:
• Sil9187A: 0xB0/0xB2 (random: software workaround)
• Sil9287B: 0xB2 (fixed).
The Sil9x87 has the following specifications:
• +5V detection mechanism
2012-Mar-16
back to
div. table
�Circuit Descriptions
PNX85500x
DVB
7.
EN 79
MEMORY
CONTROLLER
TS input
MPEG
SYSTEM
PROCESSOR
CI/CA
TS out/in for
PCMCIA
Q552.2E LA
PRIMARY
VIDEO
OUTPUT
LVDS
LVDS for
flat panel display
(single, dual or
quad channel)
DVB-T/C
channel decoder
AV-PIP
SUB-PICTURE
VIDEO
DECODER
CVBS, Y/C,
RGB
3D COMB
SECONDARY
VIDEO
OUTPUT
SSIF, LR
DIGITAL IF
MPEG/H.264
VIDEO
DECODER
analog CVBS
AUDIO DACS
Low-IF
VIDEO
ENCODER
analog audio
Motion-accurate
pixel processing
SCALER,
DE-INTERLACE
AND NOISE
REDUCTION
AUDIO DEMOD
AND DECODE
AUDIO IN
SPDIF
AUDIO DSP
AUDIO OUT
HDMI
RECEIVER
HDMI
450 MHz
AV-DSP
560 MHz
MIPS32
24KEf CPU
SYSTEM
CONTROLLER
(8051)
I 2S
SPDIF
DRAWING
ENGINE
DMA BLOCK
I2C
PWM GPIO
IR
ADC
SPI
UART
I 2C
GPIO Flash USB 2.0 SD Ethernet
Memory MAC
x8
Card
18770_241_100201.eps
111103
Figure 7-9 PNX855xx functional diagram
back to
div. table
2012-Mar-16
�EN 80
8.
IC Data Sheets
Q552.2E LA
8. IC Data Sheets
This chapter shows the internal block diagrams and pin
configurations of ICs that are drawn as “black boxes” in the
8.1
electrical diagrams (with the exception of “memory” and “logic”
ICs).
Diagram 10.8 B01C, USB2513B (IC 7F25)
Block diagram
To Upstream
VBUS
Upstream
USB Data
To EEPROM or
SMBus Master
24 MHz
Crystal
SDA SCL
3.3 V
BusPower
Detect/
Vbus Pulse
Upstream
PHY
Regulator
Serial
Interface
PLL
Serial
Interface
Engine
Repeater
3.3 V
...
TT
#1
Regulator
Controller
TT
#x
Port
Controller
CRFILT
Routing & Port Re-Ordering Logic
Port #1
PHY#1
OC Sense
Switch Driver/
LED Drivers
...
Port #x
OC Sense
Switch Driver/
LED Drivers
PHY#x
USB Data
OC
Port
Downstream Sense Power
Switch/
LED
Drivers
OC
USB Data
Port
Downstream Sense Power
Switch/
LED
Drivers
The ‘x’ indicates the number of available downstream ports: 2, 3, 4, or 7.
NC
NC
NC
21
19
SCL / SMBCLK / CFG_SEL[0]
24
20
HS_IND / CFG_SEL[1]
25
VDD33
RESET_N
26
SDA / SMBDATA / NON_REM[1]
VBUS_DET
27
Pinning information
22
The LED port indicators only apply to USB2513i.
23
Note :
SUSP_IND / LOCAL_PWR / NON_REM[0]
28
18
NC
VDD33
29
17
OCS_N[2]
USBDM_UP
30
16
PRTPWR[2] / BC_EN[2]*
USBDP_UP
31
15
VDD33
XTALOUT
32
14
CRFILT
XTALIN / CLKIN
33
13
OCS_N[1]
PLLFILT
34
12
PRTPWR[1] / BC_EN[1]*
11
TEST
10
VDD33
9
6
NC
NC
5
VDD33
7
4
USBDP_DN[2]
8
3
USBDM_DN[2]
NC
2
NC
1
36
USBDP_DN[1]
35
VDD33
Ground Pad
(must be connected to VSS)
USBDM_DN[1]
RBIAS
SMSC
USB2512/12A/12B
USB2512i/12Ai/12Bi
(Top View QFN-36)
Indicates pins on the bottom of the device.
18770_301_100217.eps
100217
Figure 8-1 Internal block diagram and pin configuration
2012-Mar-16
back to
div. table
�IC Data Sheets
8.2
Q552.2E LA
8.
EN 81
Diagram 10.8 B01J, LM75BDP (IC 7FD1)
Block diagram
VCC
LM75B
BIAS
REFERENCE
POINTER
REGISTER
CONFIGURATION
REGISTER
BAND GAP
TEMP SENSOR
COUNTER
TEMPERATURE
REGISTER
TIMER
TOS
REGISTER
COMPARATOR/
INTERRUPT
THYST
REGISTER
11-BIT
SIGMA-DELTA
A-to-D
CONVERTER
OSCILLATOR
POWER-ON
RESET
OS
LOGIC CONTROL AND INTERFACE
A2
A1
A0
SCL SDA
GND
Pinning information
SDA
1
8
VCC
SCL
2
7
A0
6
A1
5
A2
OS
3
GND
LM75BDP
4
18770_300_100217.eps
100217
Figure 8-2 Pin configuration
back to
div. table
2012-Mar-16
�EN 82
8.3
8.
IC Data Sheets
Q552.2E LA
Diagram 10.9 B02A, PNX855xx (IC7S00)
Block diagram
PNX8550x
MEMORY
CONTROLLER
TS input
MPEG
SYSTEM
PROCESSOR
CI/CA
TS out/in for
PCMCIA
PRIMARY
VIDEO
OUTPUT
LVDS
LVDS for
flat panel display
(single, dual or
quad channel)
DVB-T/C
channel decoder
DVB
AV-PIP
SUB-PICTURE
VIDEO
DECODER
CVBS, Y/C,
RGB
3D COMB
SECONDARY
VIDEO
OUTPUT
MULTISTANDARD
VIDEO
DECODER
DIGITAL IF
Direct-IF
analog audio
analog Y/C
Motion-accurate
pixel processing
SCALER,
DE-INTERLACE
AND NOISE
REDUCTION
AUDIO DEMOD
AND DECODE
SSIF, LR
analog CVBS
AUDIO DACS
Low-IF
VIDEO
ENCODER
AUDIO IN
SPDIF
AUDIO DSP
AUDIO OUT
HDMI
RECEIVER
HDMI
450 MHz
AV-DSP
500 MHz
MIPS32
24KEf CPU
SYSTEM
CONTROLLER
(8051)
I2S
SPDIF
DRAWING
ENGINE
Scatter/Gather
TS Demux
I2C
PWM Px_x
IR
ADC
SPI
UART
I2C
GPIO Flash USB 2.0 SD Ethernet
Memory MAC
x 10
Card
Pinning information
ball A1
index area
PNX8550xE
2 4 6 8 10 12 14 16 18 20 22 24 26
1 3 5 7 9 11 13 15 17 19 21 23 25
A
B
C
D
E
F
G
H
J
K
L
M
N
P
R
T
U
V
W
Y
AA
AB
AC
AD
AE
AF
Transparent top view
18770_308_100217.eps
100217
Figure 8-3 Internal block diagram and pin configuration
2012-Mar-16
back to
div. table
�IC Data Sheets
8.4
Q552.2E LA
8.
EN 83
Diagram 10.10 B03A, TPA312xD2PWP (IC7D10)
Block diagram
TPA3120D2
1 F
0.22 F
LIN
BSR
RIN
ROUT
1 F
22 H
0.68 F
PGNDR
0.68 F
PGNDL
1 F
BYPASS
AGND
470 F
LOUT
22 H
BSL
470 F
0.22 F
PVCCL
AVCC
PVCCR
VCLAMP
Shutdown
Control
SD
1 F
MUTE
}
GAIN0
GAIN1
Control
Pinning information
PWP (TSSOP) PACKAGE
(TOP VIEW)
PVCCL
SD
PVCCL
MUTE
LIN
RIN
BYPASS
AGND
AGND
PVCCR
VCLAMP
PVCCR
1
2
3
4
5
6
7
8
9
10
11
12
24
23
22
21
20
19
18
17
16
15
14
13
PGNDL
PGNDL
LOUT
BSL
AVCC
AVCC
GAIN0
GAIN1
BSR
ROUT
PGNDR
PGNDR
I_18020_142.eps
100402
Figure 8-4 Internal block diagram and pin configuration
back to
div. table
2012-Mar-16
�EN 84
8.5
8.
IC Data Sheets
Q552.2E LA
Diagram 10.10 B03B, TPS53126PW (IC7U03)
Block diagram
Pinning information
VBST1
1
28
NC
2
27
LL1
EN1
3
26
DRVL1
PGND1
DRVH1
4
25
5
24
TRIP1
NC
6
23
VIN
22
VREG5
GND
7
TEST1
8
NC
9
TPS53124
VO1
VFB1
21
V5FILT
20
TEST2
TRIP2
VFB2
10
19
VO2
11
18
PGND2
EN2
12
17
DRVL2
NC
13
16
LL2
14
15
DRVH2
VBST2
18310_300_090319.eps
100416
Figure 8-5 Internal block diagram and pin configuration
2012-Mar-16
back to
div. table
�IC Data Sheets
8.6
Q552.2E LA
8.
EN 85
Diagram 10.10 B03E, ST1S10PH (IC 7UD0)
Block diagram
ST1S10PH
Pinning information
DFN8 (4 × 4)
PowerSO-8
I_18010_083.eps
110601
Figure 8-6 Internal block diagram and pin configuration
back to
div. table
2012-Mar-16
�EN 86
8.7
8.
IC Data Sheets
Q552.2E LA
Diagram 10.10 B03E, LD1117DT25 (IC 7UD2)
Block diagram
LD1117DT
Pinning information
DPAK
F_15710_166.eps
100402
Figure 8-7 Internal block diagram and pin configuration
2012-Mar-16
back to
div. table
�IC Data Sheets
8.
EN 87
Diagram 10.11 B04C, LAN8710A-EZKH (IC 7E10)
Block diagram
MODE0
MODE1
MODE2
nRST
MODE Control
AutoNegotiation
10M Tx
Logic
Management
Control
100M Tx
Logic
Reset
Control
SMI
RMIISEL
HP Auto-MDIX
10M
Transmitter
TXP / TXN
Transmit Section
RXP / RXN
100M
Transmitter
MDIX
Control
TXD[0:3]
TXEN
TXER
TXCLK
CRS
COL/CRS_DV
RMII / MII Logic
RXD[0:3]
RXDV
RXER
RXCLK
100M Rx
Logic
DSP System:
Clock
Data Recovery
Equalizer
PLL
Analog-toDigital
XTAL1/CLKIN
XTAL2
Interrupt
Generator
nINT
100M PLL
Receive Section
LED Circuitry
10M Rx
Logic
Squelch &
Filters
LED1
LED2
Central
Bias
RBIAS
PHY
Address
Latches
10M PLL
MDC
MDIO
PHYAD[0:2]
RBIAS
RXP
RXN
TXP
TXN
VDD1A
RXDV
TXD3
32
31
30
29
28
27
26
25
Pinning information
VDD2A
1
24
TXD2
LED2/nINTSEL
2
23
TXD1
LED1/REGOFF
3
22
TXD0
XTAL2
4
21
TXEN
XTAL1/CLKIN
5
20
TXCLK
VDDCR
6
19
nRST
RXCLK/PHYAD1
7
18
nINT/TXER/TXD4
RXD3/PHYAD2
8
17
MDC
SMSC
LAN8710/LAN8710i
32 PIN QFN
(Top View)
9
10
11
12
13
14
15
16
RXD1/MODE1
RXD0/MDE0
VDDIO
RXER/RXD4/PHYAD0
CRS
COL/CRS_DV/MODE2
MDIO
VSS
RXD2/RMIISEL
8.8
Q552.2E LA
18770_302_100217.eps
100217
Figure 8-8 Internal block diagram and pin configuration
back to
div. table
2012-Mar-16
�EN 88
8.9
8.
IC Data Sheets
Q552.2E LA
Diagram 10.11 B04D, SiI9x87B (IC 7EC1)
Block diagram
Pinning information
18770_303_100217.eps
100217
Figure 8-9 Internal block diagram and pin configuration
2012-Mar-16
back to
div. table
�IC Data Sheets
Q552.2E LA
8.
EN 89
8.10 Diagram 10.11 B04E, TPA6111A2DGN (IC 7EE1)
Block diagram
VDD 8
VDD/2
2
IN 1−
3
BYPASS
VO1 1
−
+
TPA6111A2
6
IN 2−
5
SHUTDOWN
VO2 7
−
+
4
Bias
Control
Pinning information
D OR DGN PACKAGE
(TOP VIEW)
VO1
IN1−
BYPASS
GND
1
8
2
7
3
6
4
5
VDD
VO2
IN2−
SHUTDOWN
18770_309_100217.eps
110602
Figure 8-10 Internal block diagram and pin configuration
back to
div. table
2012-Mar-16
�EN 90
8.
Q552.2E LA
IC Data Sheets
8.11 Diagram 10.14 B07A, STV6110AT (IC 7R02)
Block diagram
STV6110AT
RF_OUT
IP
RF_IN
IN
QP
AGC
QN
PLL, dividers
XTAL_IN
XTAL_INN
DC offset compensation
SCL
2
I C bus interface
Amplifier
SDA
XTAL_OUT
18770_304_100217.eps
110601
Figure 8-11 Internal block diagram and pin configuration
2012-Mar-16
back to
div. table
�IC Data Sheets
Q552.2E LA
8.
EN 91
8.12 Diagram 10.15 B08A, TPS54283PWP (IC 7T03)
Block diagram
TPS54283PWP
2
CLK1
1
SW1
Current
Comparator
S
4
+
Q
R
R
+
FB1
PVDD1
3
Level
Shift
f(IDRAIN1) + DC(ofst)
GND
BOOT1
BP
Q
f(IDRAIN1)
7
Overcurrent Comp
+
0.8 VREF
RCOMP
Soft Start
1
SD1
f(ISLOPE1)
BP
f(IMAX1)
CLK1
CCOMP
Anti-Cross
Conduction
VDD2
Weak
Pull-Down
MOSFET
f(ISLOPE1)
Ramp
Gen 1
TSD
6 A
EN1
5
EN2
1.2 MHz
Oscilator
6 A
6
CLK1
Divide
by 2/4
f(ISLOPE2)
Ramp
Gen 2
SD1
Internal
Control
SD2
CLK2
UVLO
150 k
SEQ 10
BP
150 k
FB1
FB2
CLK2
Output
Undervoltage
Detect
13 BOOT2
BP
Level
Shift
14 PVDD2
f(IDRAIN2) + DC(ofst)
Current
Comparator
S
GND
4
+
FB2
FET
Switch
Q
R
R
+
Q
f(IDRAIN2)
8
Overcurrent Comp
+
0.8 VREF
RCOMP
Soft Start
2
SD2
f(ISLOPE2)
f(IMAX2)
CLK2
CCOMP
5.25-V
Regulator
BP 11
150 k
12 SW2
BP
Anti-Cross
Conduction
Weak
Pull-Down
MOSFET
PVDD2
BP
ILIM2
Level
Select
9
150 k
0.8 VREF
References
IMAX2 (Set to one of two limits)
UDG-07007
18770_305_100217.eps
110601
Figure 8-12 Internal block diagram and pin configuration
back to
div. table
2012-Mar-16
�EN 92
8.
Q552.2E LA
IC Data Sheets
8.13 Diagram 10.15 B08B, LNBH23Q (IC 7T50)
Block diagram
ISEL
TTX
ADDR
SDA SCL
Vcc
LX
PWM
PWM
Controller
Rsense
Byp
Vcc- L
Preregulator
+U.V.lockout
+P.ON reset
EN
VSEL
P-GND
VSEL
EN
TTX
ITEST
Vup
I2C interface
VOUT Control
TEN
Linear Post-reg
+Modulator
+Protections
+Diagnostics
VoRX
I2C Diagnostics
VoTX
TTX
22KHz
Oscill.
22KHz Tone
Amp. Diagn.
EXTM
22KHz Tone
Freq. Detector
DETIN
DSQOUT
DSQIN
LNBH23
V CTRL
A-GND
Pinning information
1 n.c .
2 n.c .
3 n.c .
4 LX
5 P -G ND
6 S DA
7 n.c .
8 n.c .
9 S CL
10 A D D R
11 D S Q out
12 D S Q IN
13 E XTM
14 TTX
15 B Y P
16 n.c .
17 n.c .
18 V c c -L
19 V c c
20 A -G N D
21 V oR X
22 V oTX
23 n.c .
24 n.c .
25 n.c .
26 n.c .
27 V up
28 IS E L
29 D E TIN
30 V CTRL
31 n.c .
32 n.c .
Epad
Connected with power grounds and to
the ground layer through vias
to dissipate the heat.
18770_306_100217.eps
100217
Figure 8-13 Internal block diagram and pin configuration
2012-Mar-16
back to
div. table
�Block Diagrams
Q552.2E LA
9.
EN 93
9. Block Diagrams
Wiring diagram Berlinale 32 "
WIRING DIAGRAM 32 " BERLINALE
1316
1M95
10P
TO DISPLAY
SUPPLY
8M95
14P
LOUDSPEAKER
(5213)
MAIN POWER SUPPLY
32 " PLDC-P015A
(1005)
1M95
51P
USB
SSB
TUNER
3139 123 6523.x
(1150)
HDMI
2P
HDMI
HDMI
3P
51P
1D38
TO DISPLAY
B
8P
LCD DISPLAY
(1004)
1M20
8G51
1G51
14P
VGA
130
MAINS
SWITCH
INLET
C2
(8308)
C1
IR/LED/CONTROL BOARD
J1
(1108)
(5216)
(5216)
8308
LOUDSPEAKER
8
LOUDSPEAKER
9.1
8P
1M95 (B01)
2012-Mar-16 back to
div. table
1D38 (B03)
1735 (B03A)
1M20 (B04C)
1. +3V3STBY
2. STANDBY
3. GND
4. GND
5. +12VS
6. +12VS
7. +24VAUDIO
8. GND
9. LAMP-ON
10. BACKLIGHT-PWM
11. BACKLIGHT-BOOST
12. POWER-OK
13. N.C.
14. GND
LEADING EDGE
1.
2.
3.
4.
1.
2.
3.
4.
5.
6.
7.
8.
LEFT-SPEAKER
LEFT_SPEAKER
GND-AUDIO
GND-AUDIO
RIGHT_SPEAKER
RIGHT-SPEAKER
1G51 (B06B)
1. +VDISP-INT
2. +VDISP-INT
3. +VDISP-INT
4. +VDISP-INT
|
|
51. GND
LIGHT-SENSOR
GND
RC
LED-2
+3V3STBY
LED-1
KEYBOARD
+5V_SW
19130_053_110616.eps
110928
�Block Diagrams
9.2
Q552.2E LA
9.
EN 94
Wiring diagram Berlinale 40 " - 46 "
WIRING DIAGRAM BERLINALE 40 " - 46 "
DISPLAY
SUPPLY
CN2
MAIN POWER SUPPLY
14P
CN4
40 PLDE-P017A
(1005)
8M95
SPEAKER BOX
(5213)
SSB
(1150)
CN6004 CN6005 CN7001
4P
3P
14P
CN1
2P
CN4003
8P
CN4010
51P
B
8G51
8308
51P
INLET
LCD DISPLAY
(1004)
TWEETER
TWEETER
(5216)
(5216)
CN2
CN1
MAINS
SWITCH
(8308)
LEADING EDGE
2012-Mar-16 back to
div. table
(1108)
J1
4P
CN4010 (B010)
1. Panel_12V
2. Panel_12V
3. Panel_12V
4. Panel_12V
|
|
51. GND
CN4003 (B04)
1.
2.
3.
4.
5.
6.
7.
8.
LIGHT_SENSOR
GND
RC6
Green_Button
3V3SB
LED_G
Key1
+5V_SW
CN7001 (B01)
1. STB_PWR3V3
2. STANDBY
3. GND
4. GND
5. +12V
6. +12V
7. +24V
8. GND
9. INVERTER_ON_OFF
10. BRIGHT_ADJ
11. N.C.
12. N.C.
13. N.C.
14. GND
CN6005 (B06)
1. OUT2A
2. GND
3. OUT2B
CN6004 (B06)
1.
2.
3.
4.
OUT1A
GND
GND
OUT1B
19150_001_110511.eps
110914
�Block Diagrams
9.
EN 95
Wiring diagram Blockbuster 32 "
WIRING DIAGRAM 32 " BLOCKBUSTER
TO DISPLAY
SUPPLY
8M95
1M95
14P
LOUDSPEAKER
3139 123 6495.x
(1150)
SD-CARD
READER
3P
4P
HDMI
USB
HDMI
C2
C1
1308 (PSU)
1. +3V3STDBY
2. STANDBY
3. GND
4. GND
5. +12V
6. +12V
7. +VSND
8. GND_SND
9. BL-ON-OFF
10. BL-DIM1
11. BL-I-CTRL
12. POK
13. +24V
14. GND1
1. N
2. L
J1
(1108)
1M95 (PSU)
IR/LED/CONTROL BOARD
VGA
LOUDSPEAKER
INLET
(5216)
MAINS
SWITCH
(8308)
1316 (PSU)
1. ANODE 1
2. NC
3. CATHODE 1
4. GND
5. ANODE 2
6. NC
7. CATHODE 2
8. NC
9. ANODE 3
10. NC
11. CATHODE 3
12. NC
13. ANODE 4
14. NC
15. CATHODE 4
HDMI
PHONE
41P
8308
2P
130
8
TO DISPLAY
SPDIF
51P
LCD DISPLAY
(1004)
ETHER
NET
(1005)
TO DISPLAY
HDMI
51P
SCART
TUNER
1G51
8G51
8P
MAIN POWER SUPPLY
32 " DPS-93BP
1M19
8G50
(5216)
14P
SSB
B
1M95
10P
1735 1D38
1316
41P
1G50
(5213)
LOUDSPEAKER
9.3
Q552.2E LA
8P
1M95 (B03C)
2012-Mar-16 back to
div. table
1D38 (B03A)
1735 (B03A)
1M19 (B09A)
1G51 (B06B)
1. +3V3-STANDBY
2. STANDBY
3. GND
4. GND
5. +12VIN
6. +12VIN
7. +24V-AUDIO-POWER
8. GND
9. LAMP-ON
10. BACKLIGHT-PWM_BL-VS
11. BACKLIGHT-BOOST
12. POWER-OK
13. +24V
GND
LEADING EDGE
1.
2.
3.
4.
1.
2.
3.
4.
5.
6.
7.
8.
1. +VDISP
2. +VDISP
3. +VDISP
4. +VDISP
|
|
51. CTRL-DISP
LEFT-SPEAKER
GND-AUDIO
GND-AUDIO
RIGHT-SPEAKER
RIGHT-SPEAKER
1735 (B03A)
1.
2.
3.
4.
LEFT-SPEAKER
GND-AUDIO
GND-AUDIO
RIGHT-SPEAKER
LIGHT-SENSOR
GND
RC
LED-2
+3V3-STANDBY
LED-1
KEYBOARD
+5V
19100_808_110211.eps
110322
�Block Diagrams
9.
EN 96
Wiring diagram Blockbuster 37 "
WIRING DIAGRAM 37 " BLOCKBUSTER
TO DISPLAY
SUPPLY
8M95
14P
3139 123 6495.x
(1150)
SD-CARD
READER
3P
8G50
4P
14P
SSB
B
1M95
10P
1735 1D38
1316
41P
1M95
(5213)
1G50
LOUDSPEAKER
USB
51P
SCART
LCD DISPLAY
(1004)
TO DISPLAY
41P
2P
HDMI
HDMI
HDMI
PHONE
51P
SPDIF
TO DISPLAY
ETHER
NET
TUNER
(1005)
HDMI
1G51
8P
MAIN POWER SUPPLY
37 " FSP110-4FS01
1M19
8G51
VGA
13
1M95 (PSU)
1308 (PSU)
1. +3V3STDBY
2. STANDBY
3. GND
4. GND
5. +12V
6. +12V
7. +VSND
8. GND_SND
9. BL-ON-OFF
10. BL-DIM1
11. BL-I-CTRL
12. POK
13. +24V
14. GND1
1. N
2. L
C2
INLET
8308
C1
IR / LED BOARD
J1
(1108)
(5216)
(5216)
MAINS
SWITCH
1316 (PSU)
1. ANODE 1
2. NC
3. CATHODE 1
4. GND
5. ANODE 2
6. NC
7. CATHODE 2
8. NC
9. ANODE 3
10. NC
11. CATHODE 3
12. NC
13. ANODE 4
14. NC
15. CATHODE 4
LOUDSPEAKER
08
LOUDSPEAKER
9.4
Q552.2E LA
8P
1M95 (B03C)
2012-Mar-16 back to
div. table
1D38 (B03A)
1M19 (B09A)
1G51 (B06B)
1. +3V3-STANDBY
2. STANDBY
3. GND
4. GND
5. +12VIN
6. +12VIN
7. +24V-AUDIO-POWER
8. GND
9. LAMP-ON
10. BACKLIGHT-PWM_BL-VS
11. BACKLIGHT-BOOST
12. POWER-OK
13. +24V
GND
(8308)
1. LEFT-SPEAKER
2. GND-AUDIO
3. RIGHT-SPEAKER
1.
2.
3.
4.
5.
6.
7.
8.
1. +VDISP
2. +VDISP
3. +VDISP
4. +VDISP
|
|
51. CTRL-DISP
1735 (B03A)
1.
2.
3.
4.
LEFT-SPEAKER
GND-AUDIO
GND-AUDIO
RIGHT-SPEAKER
LIGHT-SENSOR
GND
RC
LED-2
+3V3-STANDBY
LED-1
KEYBOARD
+5V
19100_809_110211.eps
110309
�Block Diagrams
9.
EN 97
Wiring diagram Blockbuster 40 " - 55 "
WIRING DIAGRAM 40 " - 55 " BLOCKBUSTER
TO DISPLY
SUPPLT
1316
14P
1M99
10P
8M95
1M95
MAIN POWER SUPPLY
40 " PLDE-P007A
46 " PLDG-P009A
55 " PLDK-P011A
14P
3139 123 6495.x
(1150)
41P
SD-CARD
READER
3P
USB
51P
8G51
(5213)
51P
LCD DISPLAY
(1004)
HDMI
HDMI
HDMI
PHONE
SPDIF
ETHER
NET
8G50
TO DISPLAY
HDMI
SCART
TUNER
8P
LOUDSPEAKER
SSB
B
4P
1G51
1M19
2P
1735 1D38
1G50
(1005)
1308
9.5
Q552.2E LA
VGA
TO DISPLAY
41P
8308
INLET
LOUDSPEAKER
LOUDSPEAKER
(5216)
(5216)
MAINS
SWITCH
C2
C1
(8308)
IR/LED/CONTROL BOARD
1316 (PSU)
1M95 (PSU)
1. ANODE 1
2. NC
3. CATHODE 1
4. GND
5. ANODE 2
6. NC
7. CATHODE 2
8. NC
9. ANODE 3
10. NC
11. CATHODE 3
12. NC
13. ANODE 4
14. NC
15. CATHODE 4
1. +3V3STDBY
2. STANDBY
3. GND
4. GND
5. +12V
6. +12V
7. +VSND
8. GND_SND
9. BL-ON-OFF
10. BL-DIM1
11. BL-I-CTRL
12. POK
13. +24V
14. GND1
1. N
2. L
J1
(1108)
1308 (PSU)
8P
2012-Mar-16 back to
div. table
1735 (B03A)
1M19 (B09A)
1G51 (B06B)
1. +3V3-STANDBY
2. STANDBY
3. GND
4. GND
5. +12VIN
6. +12VIN
7. +24V-AUDIO-POWER
8. GND
9. LAMP-ON
10. BACKLIGHT-PWM_BL-VS
11. BACKLIGHT-BOOST
12. POWER-OK
13. +24V
GND
LEADING EDGE
1M95 (B03C)
1.
2.
3.
4.
1.
2.
3.
4.
5.
6.
7.
8.
1. +VDISP
2. +VDISP
3. +VDISP
4. +VDISP
|
|
51. CTRL-DISP
LEFT-SPEAKER
GND-AUDIO
GND-AUDIO
RIGHT-SPEAKER
1D38 (B03A)
1. LEFT-SPEAKER
2. GND-AUDIO
3. RIGHT-SPEAKER
LIGHT-SENSOR
GND
RC
LED-2
+3V3-STANDBY
LED-1
KEYBOARD
+5V
19100_807_110211.eps
110404
�Block Diagrams
9.6
Q552.2E LA
9.
EN 98
Wiring diagram Infinity 32 "
WIRING DIAGRAM 32 " INFINITY
8M84
TO DISPLAY
SUPPLY
4P
1M85
SD-CARD
READER
USB
51P
41P
HDMI
1M83
TUNER
SPDIF
TO DISPLAY
AL
SCART
ETHER
NET
51P
11P
LCD DISPLAY
(1004)
TO DISPLAY
1G51
1M20
8G51
HDMI
HDMI
26P
3P
4P
1735 1D38
USB
4P
8G50
(1005)
18P
3139 123 6519.x
(1150)
14P
MAIN POWER SUPPLY
32 " FSP103-4FS01
(1163)
4P
1M71
SSB
B
41P
1G50
AMBILIGHT MODULE
5P
09
(1163)
1F24
26P
1M95
1M
AMBILIGHT MODULE
1M59
4P
LOUDSPEAKER
(5213)
AL
1M99
14P
10P
1T02
8M59
8M59
(1027)
8F24
8M95
18P
1M86
8M99
8M71
1M95
1316
TEMP. SENSOR
TS
VGA
HDMI
2P
13
MAINS
SWITCH
CN1
(5216)
CN2
8M21
INLET
LOUDSPEAKER
8308
(8308)
08
LOUDSPEAKER
(5216)
IR/LED/CONTROL BOARD
IR BOARD
J1
(1108)
11P
WIFI MODULE
(1115)
1M95 (B03C)
1D38 (B03A)
1735 (B03A)
1. LEFT-SPEAKER
2. GND-AUDIO
3. RIGHT-SPEAKER
1.
2.
3.
4.
1G51 (B06B)
1. +VDISP
2. +VDISP
3. +VDISP
4. +VDISP
|
|
51. N.C.
1M71 (B09A)
1.
2.
3.
4.
SCL-BL
GND
SDA-BL
+3V3
1F24 (B01C)
1.
2.
3.
4.
5.
LEFT-SPEAKER
GND-AUDIO
GND-AUDIO
RIGHT-SPEAKER
1M99 (B03C)
+5V
USB-WIFI-DDn
USB-WIFI-DDP
GND
GND
1. GND_AL
2. +12V_AL
3. GND_AL
4. +12V_AL
2012-Mar-16 back to
div. table
1M20 (B09A)
1.
2.
3.
4.
5.
6.
7.
8.
9.
LIGHT-SENSOR
LED-1
LED-2
GND
KEYBOARD
+3V3-STANDBY
RC
SCL-SET
SDA-SET
1. +3V3-STANDBY
2. STANDBY
3. GND
4. GND
5. +12VIN
6. +12VIN
7. +24V-AUDIO-POWER
8. GND
9. LAMP-ON
10. BACKLIGHT-PWM_BL-VS
11. BACKLIGHT-BOOST
12. POWER-OK
13. +24V
GND
1M59 (B09A)
1. AMBI-SPI-CLK-OUT
2. GND
3. AMBI-SPI-SDO-OUT
4. AMBI-SPI-SDI-OUT-GI
5. V-AMBI
6. AMBI-PWM-CLK_B2
7. GND
8. AMBI-SPI-CS-OUTn_R2
9. AMBI-LATCH1_G2
10. V-AMBI
11. AMBI-BLANK_R1
12. AMBI-PROG_B1
13. AMBI-LATCH2_DIS
14. AMBI-TEMP
15. GND_AL
16. GND_AL
17. GND_AL
18. GND_AL
19. GND_AL
20. N.C.
21. +12V_AL
22. +12V_AL
23. +12V_AL
24. +12V_AL
25. +12V_AL
26. +12V_AL
19100_824_110708.eps
110708
�Block Diagrams
9.7
Q552.2E LA
9.
EN 99
Wiring diagram Infinity 42 "
WIRING DIAGRAM 42 " INFINITY
LED
POWER
8M84
TEMP. SENSOR
TS
1319
10P
SSB
HDMI HDMI
VGA
AL
USB
HDMI
USB
TUNER
SPDIF
ETHER
NET
HDMI
26P
SD-CARD
READER
3P
4P
51P
1735 1D38
1G51
1M20
11P
2P
1308
(1163)
AL
SCART
1M83
41P
1G50
3139 123 6519.x
(1150)
(5213)
8G50
26P
5P
B
LOUDSPEAKER
1M84
1F24
26P
(1163)
1M59
4P
4P
1M71
14P
1M99
14P
AMBILIGHT MODULE
8M59
1M95
1M95
(1005)
4P
1T02
4P
1M83
8M99
8M95
MAIN POWER SUPPLY
42 " DPS-186FP
AMBILIGHT MODULE
(1027)
8F24
1M09
10P
26P
1316
8G51
8308
TO DISPLAY
41P
MAINS
SWITCH
(8308)
INLET
LCD DISPLAY
(1004)
TO DISPLAY
51P
LOUDSPEAKER
LOUDSPEAKER
(5216)
CN1
(5216)
CN2
8M21
KEYBOARD CONTROL
IR BOARD
(1108)
1D38 (B03A)
1. LEFT-SPEAKER
2. GND-AUDIO
3. RIGHT-SPEAKER
1G51 (B06B)
1. +VDISP
2. +VDISP
3. +VDISP
4. +VDISP
|
|
51. N.C.
1M71 (B09A)
1.
2.
3.
4.
SCL-BL
GND
SDA-BL
+3V3
1F24 (B01C)
1.
2.
3.
4.
5.
WIFI MODULE
J1
(1115)
11P
+5V
USB-WIFI-DDn
USB-WIFI-DDP
GND
GND
2012-Mar-16 back to
div. table
1M95 (B03C)
1735 (B03A)
1.
2.
3.
4.
LEFT-SPEAKER
GND-AUDIO
GND-AUDIO
RIGHT-SPEAKER
1M99 (B03C)
1. GND_AL
2. +12V_AL
3. GND_AL
4. +12V_AL
1M20 (B09A)
1.
2.
3.
4.
5.
6.
7.
8.
9.
LIGHT-SENSOR
LED-1
LED-2
GND
KEYBOARD
+3V3-STANDBY
RC
SCL-SET
SDA-SET
1. +3V3-STANDBY
2. STANDBY
3. GND
4. GND
5. +12VIN
6. +12VIN
7. +24V-AUDIO-POWER
8. GND
9. LAMP-ON
10. BACKLIGHT-PWM_BL-VS
11. BACKLIGHT-BOOST
12. POWER-OK
13. +24V
GND
1M59 (B09A)
1. AMBI-SPI-CLK-OUT
2. GND
3. AMBI-SPI-SDO-OUT
4. AMBI-SPI-SDI-OUT-GI
5. V-AMBI
6. AMBI-PWM-CLK_B2
7. GND
8. AMBI-SPI-CS-OUTn_R2
9. AMBI-LATCH1_G2
10. V-AMBI
11. AMBI-BLANK_R1
12. AMBI-PROG_B1
13. AMBI-LATCH2_DIS
14. AMBI-TEMP
15. GND_AL
16. GND_AL
17. GND_AL
18. GND_AL
19. GND_AL
20. N.C.
21. +12V_AL
22. +12V_AL
23. +12V_AL
24. +12V_AL
25. +12V_AL
26. +12V_AL
19100_825_110708.eps
110708
�Block Diagrams
9.8
Q552.2E LA
9.
EN 100
Wiring diagram Sundance 32 " - 37 "
WIRING DIAGRAM 32 " - 37 " SUNDANCE
8M84
1M85
3139 123 6519.x
(1150)
SD-CARD
READER
2P
13
USB
41P
HDMI
1M83
TUNER
SPDIF
ETHER
NET
TO DISPLAY
AL
SCART
HDMI
HDMI
VGA
HDMI
8308
51P
51P
LCD DISPLAY
(1004)
TO DISPLAY
8P
8G51
1G51
1M20
8G50
(1005)
26P
3P
4P
1735 1D38
USB
4P
09
MAIN POWER SUPPLY
32 " FSP096-4FS01
18P
AMBILIGHT MODULE
4P
1M71
SSB
B
41P
1G50
4P
5P
14P
INLET
(1163)
1F24
26P
(1027)
1M95
1M
AMBILIGHT MODULE
1M59
4P
LOUDSPEAKER
(5213)
AL
1M99
14P
10P
1T02
8M59
8M59
8M95
18P
1M86
8M09
8M71
1M95
1316
TEMP. SENSOR
TS
(1163)
TO DISPLAY
SUPPLY
08
CN1
CN2
8M20
LOUDSPEAKER
(5216)
LOUDSPEAKER
(5216)
MAINS
SWITCH
(8308)
IR/LED/CONTROL BOARD
J1
(1108)
8P
WIFI MODULE
(1115)
1M95 (B03C)
1D38 (B03A)
1. LEFT-SPEAKER
2. GND-AUDIO
3. RIGHT-SPEAKER
1G51 (B06B)
1. +VDISP
2. +VDISP
3. +VDISP
4. +VDISP
|
|
51. N.C.
1M71 (B09A)
1.
2.
3.
4.
SCL-BL
GND
SDA-BL
+3V3
1F24 (B01C)
1.
2.
3.
4.
5.
+5V
USB-WIFI-DDn
USB-WIFI-DDP
GND
GND
1735 (B03A)
1.
2.
3.
4.
LEFT-SPEAKER
GND-AUDIO
GND-AUDIO
RIGHT-SPEAKER
1M99 (B03C)
1. GND_AL
2. +12V_AL
3. GND_AL
4. +12V_AL
2012-Mar-16 back to
div. table
1M20 (B09A)
1.
2.
3.
4.
5.
6.
7.
8.
9.
LIGHT-SENSOR
LED-1
LED-2
GND
KEYBOARD
+3V3-STANDBY
RC
SCL-SET
SDA-SET
1. +3V3-STANDBY
2. STANDBY
3. GND
4. GND
5. +12VIN
6. +12VIN
7. +24V-AUDIO-POWER
8. GND
9. LAMP-ON
10. BACKLIGHT-PWM_BL-VS
11. BACKLIGHT-BOOST
12. POWER-OK
13. +24V
GND
1M59 (B09A)
1. AMBI-SPI-CLK-OUT
2. GND
3. AMBI-SPI-SDO-OUT
4. AMBI-SPI-SDI-OUT-GI
5. V-AMBI
6. AMBI-PWM-CLK_B2
7. GND
8. AMBI-SPI-CS-OUTn_R2
9. AMBI-LATCH1_G2
10. V-AMBI
11. AMBI-BLANK_R1
12. AMBI-PROG_B1
13. AMBI-LATCH2_DIS
14. AMBI-TEMP
15. GND_AL
16. GND_AL
17. GND_AL
18. GND_AL
19. GND_AL
20. N.C.
21. +12V_AL
22. +12V_AL
23. +12V_AL
24. +12V_AL
25. +12V_AL
26. +12V_AL
19100_819_110505.eps
110803
�Block Diagrams
9.9
Q552.2E LA
9.
EN 101
Wiring diagram Sundance 42 " - 47 " - 55 "
WIRING DIAGRAM 42 " - 55 " SUNDANCE
LED
POWER
8M84
TEMP. SENSOR
TS
1319
10P
SSB
HDMI HDMI
VGA
AL
USB
HDMI
USB
TUNER
SPDIF
ETHER
NET
HDMI
26P
SD-CARD
READER
3P
4P
51P
1735 1D38
1G51
1M20
8P
2P
1308
(1163)
AL
SCART
1M83
41P
1G50
3139 123 6519.x
(1150)
(5213)
8G50
26P
5P
B
LOUDSPEAKER
1M84
1F24
26P
(1163)
1M59
4P
4P
1M71
14P
1M99
1M99
14P
AMBILIGHT MODULE
8M59
1M95
(1005)
4P
1T02
4P
1M83
8M99
8M95
MAIN POWER SUPPLY
42 " DPS-139AP
47 " DPS-186FP
AMBILIGHT MODULE
(1027)
8M71
1M09
10P
26P
1316
8G51
8308
INLET
TO DISPLAY
41P
LCD DISPLAY
(1004)
TO DISPLAY
51P
LOUDSPEAKER
LOUDSPEAKER
(5216)
CN1
(5216)
CN2
MAINS
SWITCH
8M20
(8318)
IR/LED/CONTROL BOARD
J1
WIFI MODULE
(1108)
8P
(1115)
1D38 (B03A)
1. LEFT-SPEAKER
2. GND-AUDIO
3. RIGHT-SPEAKER
1G51 (B06B)
1. +VDISP
2. +VDISP
3. +VDISP
4. +VDISP
|
|
51. N.C.
1M71 (B09A)
1.
2.
3.
4.
SCL-BL
GND
SDA-BL
+3V3
1F24 (B01C)
1.
2.
3.
4.
5.
+5V
USB-WIFI-DDn
USB-WIFI-DDP
GND
GND
2012-Mar-16 back to
div. table
1M95 (B03C)
1735 (B03A)
1.
2.
3.
4.
LEFT-SPEAKER
GND-AUDIO
GND-AUDIO
RIGHT-SPEAKER
1M99 (B03C)
1. GND_AL
2. +12V_AL
3. GND_AL
4. +12V_AL
1M20 (B09A)
1.
2.
3.
4.
5.
6.
7.
8.
9.
LIGHT-SENSOR
LED-1
LED-2
GND
KEYBOARD
+3V3-STANDBY
RC
SCL-SET
SDA-SET
1. +3V3-STANDBY
2. STANDBY
3. GND
4. GND
5. +12VIN
6. +12VIN
7. +24V-AUDIO-POWER
8. GND
9. LAMP-ON
10. BACKLIGHT-PWM_BL-VS
11. BACKLIGHT-BOOST
12. POWER-OK
13. +24V
GND
1M59 (B09A)
1. AMBI-SPI-CLK-OUT
2. GND
3. AMBI-SPI-SDO-OUT
4. AMBI-SPI-SDI-OUT-GI
5. V-AMBI
6. AMBI-PWM-CLK_B2
7. GND
8. AMBI-SPI-CS-OUTn_R2
9. AMBI-LATCH1_G2
10. V-AMBI
11. AMBI-BLANK_R1
12. AMBI-PROG_B1
13. AMBI-LATCH2_DIS
14. AMBI-TEMP
15. GND_AL
16. GND_AL
17. GND_AL
18. GND_AL
19. GND_AL
20. N.C.
21. +12V_AL
22. +12V_AL
23. +12V_AL
24. +12V_AL
25. +12V_AL
26. +12V_AL
19100_818_110505.eps
110708
�Block Diagrams
9.10
Q552.2E LA
9.
EN 102
Block Diagram Video
VIDEO
B01A
COMMON INTERFACE
B02
1P00
17
51
52
7F01
74LVC245APW
20
VIDEO OUT - LVDS
7S00
PNX85537EB
+3V3
68P
PCMCIA
B06B
PNX85500
+5VCA
18
1G50
1
B02A VIDEO STREAM
2
B02F LVDS
CONDITIONAL
ACCESS
MDO(0-7)
CA-MDO(0-7)
BUFFER
7R02
STV6110A
9R03-2
TS-DVBS-DATA
9R03-4
9R04
B10A
DVBT2
DVBT2-IFN
DVBT2-IFP
1T01
TH2627
3
2
1F75
AGC AMPLIFIER 7
IF-P-DVBT2
3F79-1
4
2F78
3
6
IF-P-DVBT2
3F79-4
B04D
AD12
26
1
DRX2DRX1+
25
24
7
AVI-B
7
20
AV1-CVBS
DRX1DRX0+
23
RXD
22
DRXC+
19
16
20
ARX2+
72
3
ARX2ARX1+
71
70
ARX1ARX0+
8
69
RXA
68
4
6
7
AV1-STATUS
7E09-1
16
B02G
CONTROL
10
R-VGA
2
G-VGA
B-VGA
H-SYNC-VGA
3
13
14
11
AF16 VGA_R
AD16
VGA_G
AE16
VGA_B
AB18
HSYNC_IN
AC18
VSYNC_IN
V-SYNC-VGA
OPTIONAL
VGA
CONNECTOR
1P03
19
18
HDMI 2
CONNECTOR
BRX2+
8
3
1
2
1
BRX2BRX1+
7
6
BRX1BRX0+
5
RXB
4
9
10
BRX0BRXC-
+5V-USB1
1P08
1
USB_DN
USB_DP
NAND_CE1
NAND_RDY1
NAND_WP_
7FL5
CY7C65631
AV3-PR
AC15
2
Y
NAND-CE1n
E21
F21 NAND-RDY1n
NAND-WPn
A21
AV3-Y
AE15
1E03
2
AV3-PB
AD15
17
16
CRX1CRX0+
15
14
9
10
CRX0CRXC-
RXC
12
12
11
+3V3-HDMI
9,27,64
4
+5V
13
22
1F24
1
SIDE USB
CONNECTOR
2
3
4
5
USB-WIFI-DDn
USB-WIFI-DDP
+3V3
DDR2-VREF-CTRL2
DDR2-VREF-CTRL3
SSB 3139 123 6519.x
DDR
PR_R_C1
DDR2-D(0-31)
Y_G1
PB_B1
7B00
H5PS1G83E
7B02
H5PS1G83E
SDRAM
128Mx8
7B03
H5PS1G83E
SDRAM
128Mx8
7B01
H5PS1G83E
SDRAM
128Mx8
B02C HDMI_DV
13
CRXC+
2
3
USB2-DM
USB2-DP
6
14
A2
V1
SIDE USB
CONNECTOR
+5V-USB2
1P07
1
9
10
5
DQ
18
CRX2CRX1+
USB
HUB
21
9
7
19
VCC33
62
TXC_P
63
TXC_N
60
TX0_P
61
TX0_N
58
TX1_P
59
TX1_N
56
TX2_P
57
TX2_N
HDMIA-RXC+
HDMIA-RXCHDMIA-RX0+
HDMIA-RX0HDMIA-RX1+
HDMIA-RX1HDMIA-RX2+
HDMIA-RX23S0W
+3V3
W25
RXC_A_P
W26
RXC_A_N
V25
RX2_A_P
V26
RX2_A_N
U25
RX1_A_P
U26
RX1_A_N
T25
RX0_A_P
T26
RX0_A_N
W24
RREF
VDDL
VREF
CRX2+
17
NAND
FLASH
SDRAM
128Mx8
3
1
2
FLASH
XIO-D(00-07)
B05A
2
1E08
EXT 3
PB
1
19
18
4
VCC
12,37
VREF_1
VREF_2
2
3
USB1-DM
USB1-DP
9F25
7F20
H27U4G8F2DTR
1P02
HDMI 1
CONNECTOR
R25
B02A FLASH
1E04
1
4
6
7
9F26
USB-DM
USB-DP
R26
B01B
B02B MEMORY
ANALOGUE EXTERNALS B
PR
2
12
B04B
3
BRXC+
USB HUB
B02E CONROL
XIO_D
1
65
4
6
7
B01C
1E05
66
ARXC-
B02G
CONTROL
1
+VDISP
VGA
67
12
B01I
15
ARX0ARXC+
CVBS1_OUT
3
2
18
5
9
10
AF11
CVBS-MON-OUT1
HDMI
SWITCH
1
1
2
7E06
EF
21
SCART1
1
AC13
AV1_R
AE13
AV1_G
AD13
AV1_B
AB15
CVBS_Y1
15
AV1-BLK
1P04
19
18
19
20
DRXC-
7E05
EF
11
21
12
AV1-R
AV1-G
4
A1 E2
A
A1 E2
A1 E2
VDDL
VREF
DRX0-
IF_AGC
40
VDDL
VREF
9
10
EXT 1
6
19
18
DRX2+
3
1
2
1
15
11
4
6
7
TUNER_N
1E01
1P05
HDMI 3
CONNECTOR
AF12
TUNER_P
ANALOGUE EXTERNALS A
*7EC1
SII9187BC
SII9287BC
HDMI SIDE
CONNECTOR
PNX-IF-N
PNX-IF-AGC
B04A
HDMI
BANDPASS
FILTER
AE12
24M
HDMI
PNX-IF-P
OUT
4 IN
AGC CONTROL
7F70
PX4
LOUT4
VCC
2
SELECT-SAW
B02E
CONTROL
B01H
TO DISPLAY
SSB 3104 313 6519.x
2F74
SAW 36MHZ17
PX3
LOUT3
B02I ANALOG VIDEO
7F75
UPC3221GV
5
2
TS-FE-DATA
1
TUN-IF-N
1
64
7
49
40
3 2
11
1
2F90
I2C
4
1
TS-FE-VALID
4
TS-FE-SOP
3
5 TS-FE-CLOCK
1
4 5F73
DVBT2
CHANNEL
DECODER
3 2
TUN-IF-P
1G51
51
4
10
N.C.
D(16-23)
IF-OUT2
3
41
N.C.
1FL5
IF-OUT1
5F70
RF_AGC
RF IN
+5V-TUN-PIN
RF-AGC
49
50
IF-AGC
TUNER
TS-FE-DATA
50
53
MAIN HYBRID
TUNER
3
R23 TNR_SER1_MIVAL
R22
TNR_SER1_SOP
T22
TNR_SER1_MICLK
T21 TNR_SER1_DATA
7FJ0
CXD2820R
7FJ1
B01F
PX2
11
16
TS-FE-VALID
TS-FE-SOP
TS-FE-CLOCK
VDDL
VREF
16M
1R10
QM
AGC
TS-DVBS-VALID
TS-DVBS-SOP
TS-DVBS-CLOCK
73
122
12
2
31
IM
XTAL
QP
9R03-1
78
75
74
7
D(24-31)
20
32
18
30
IP
19
SAT IN
LOUT2
DVB-S
CHANNEL
8
DECODER
21
D(8-15)
DVB-S
TUNER
4
TO DISPLAY
7R01
STV0903BAC
D(0-7)
1R01
MDI
PNX85537
DVBS-FE
PX1
LOUT1
CA-MDI(0-7)
B07A
3
MD0
A1 E2
DDR2-A(0-14)
+1V8
DDR2-VREF-DDR
*6000 SERIE MUX SII9187 NON INSTAPORT
7000 SERIE MUX SII9287 INSTAPORT
19100_811_110214.eps
110414
2012-Mar-16 back to
div. table
�Block Diagrams
9.11
Q552.2E LA
9.
EN 103
Block Diagram Audio
AUDIO
B02
1P00
17
7F01
74LVC245APW
20
ADAC_1
AGC
TS-DVBS-DATA
11
16
9R04
9R03-4
B10A
1T01
TH2627
+5V-TUN-PIN
MAIN HYBRID
TUNER
1
IF-OUT1
IF-OUT2
10
11
4 5F73
TUN-IF-P
3
TUN-IF-N
2F90
1
2
1
5F70
RF IN
1F75
5
4
2
2F74
2F78
B04D
B04A
50
IF-P-DVBT2
B03C
B02D
AE12
AF12
PNX-IF-N
3EA7-1
AUDIO-OUT-L
1
1
1
1
2
19
18
26
3
HDMI SIDE
CONNECTOR
DRX2+
AP-SCART-OUT-R
3EA7-4
AUDIO-OUT-R
7
DRX2DRX1+
25
24
DRX1DRX0+
23
RXD
22
DRX0-
21
4
6
7
9
10
DRXC+
DRXC-
11
20
1P04
7S05
3
ADAC(5)
AE6
5
ADAC(6)
AF6 ADAC_6
ADAC_5
1
2
19
18
HDMI 3
CONNECTOR
AE10 AIN1_L
AUDIO-IN1-R
AF10
15
ARX2+
ARX2ARX1+
71
70
ARX1ARX0+
B04B
69
68 RXA
67
12
ARX0-
6
AUDIO IN
L+R
AUDIO-IN3-L
4
AE9
AUDIO-IN3-R
AF9
AIN3_L
2
OPTIONAL
AUDIO-IN4-L
AD9
3
VGA (OR DVI)
AUDIO
SPEAKER R
A-STBY
1D38
1
5D03
B01J
HEADPHONE
2
AUDIO-IN4-R
AC9
AB19
TEMP SENSOR + HEADPHONE
7EE0-2
B03A
A-PLOP
RESET-AUDIO
B04A
HEADPHONE
AMPLIFIER
5
ADAC3
ADAC(3)
2
AD6
ADAC(4)
6
IN-1
VO_2
1
AMP1
2
7
AMP2
3
B01C
IN-2
VDD
8
HEADPHONE
OUT 3.5mm
+3V3
USB HUB
+5V-USB1
1P08
1
B02E CONROL
USB_DN
USB_DP
R26
9F26
USB-DM
USB-DP
R25
2
3
USB1-DM
USB1-DP
9F25
4
B01B
7FL5
CY7C65631
FLASH
B02A FLASH
7F20
H27U4G8F2DTR-BC
17
USB
HUB
2
3
USB2-DM
USB2-DP
6
4
NAND_CE1
NAND_RDY1
NAND_WP_
XIO-D(00-07)
NAND-CE1n
E21
F21 NAND-RDY1n
NAND-WPn
A21
9
7
19
NAND
FLASH
VCC
AIN4_R
21
+5V
13
22
21,37
USB-WIFI-DDn
USB-WIFI-DDP
14
+3V3
1
USB 1 SIDE
CONNECTOR
+5V-USB2
1P07
1
9
10
5
18
XIO_D
AIN4_L
1328
SHUTDOWN
VO_1
AF7
1
ADAC4
AIN3_R
1E09
65
ARXC-
B04E
1E08
66
ARXC+
A-PLOP
ANALOGUE EXTERNALS B
72
3
9
10
AIN1_R
21
7E01
1
4
6
7
IF_AGC
AUDIO-IN1-L
A-PLOP
4
7D03
STANDBY &
PROTECTION
TUNER_N
6
19
RIGHT-SPEAKER
15
SD
7EE1
TPA6111A2DGN
SCART1
HDMI
SWITCH
B04E
PO_6
2
16
20
12
7
DETECT2
2
TUNER_P
PNX85500: AUDIO
1P05
1
7D11
MAINS SWITCH
DETECT
7EE0-1
B02D AUDIO
AP-SCART-OUT-L
SPEAKER L
3
4 MUTE
SPEAKER
WOOFER
AD12
1E01-1
3
2
3
PNX-IF-P
BANDPASS
FILTER
IF-P-DVBT2
IN-R
TS-FE-DATA
7
ANALOGUE EXTERNALS A
*7EC1
SII9187BCNU
SII9287BCNU
6
1735
1
LEFT-SPEAKER
22
B04E
OUT-R
B02I ANALOG VIDEO
6 3F79-4
A-PLOP
AUDIO-MUTE-UP
TS-FE-VALID
4
TS-FE-SOP
3
5 TS-FE-CLOCK
PNX-IF-AGC
HDMI
PO_7
AC19
SSB 3139 123 6519.x
AGC AMPLIFIER 7 3F79-1
SELECT-SAW
B02E
CONTROL
HDMI
DVBT2
CHANNEL
DECODER
OUT
4 IN
AGC CONTROL
SAW 36MHZ17
B02G STANDBY
VCC
3
7F70
RESET-USBn
42
USB 2 SIDE
CONNECTOR
1F24
1
2
3
4
5
TO WIFI MODULE
(OPTIONAL)
B02G
1P03
3
2
BRXC-
3
7S09
2
&
1
B02B MEMORY
SPDIF-OUT-PNX
AF5
SEL-HDMI-ARC
AF18
SPDIF_OUT
5
P0_4
VCC33
CRX2+
18
3
CRX2CRX1+
17
16
CRX1CRX0+
15
RXC
14
CRX0-
13
CRXC+
12
CRXC-
11
4
6
7
9
10
12
14
ARC-eHDMI+
5EC2
HDMIA-RX0+
HDMIA-RX0HDMIA-RX1+
HDMIA-RX1HDMIA-RX2+
HDMIA-RX2-
eHDMI+
3S0W
+3V3
W24
7B00
H5PS1G83EFR
SDRAM
128Mx8
B02C HDMI_DV
W25
RXC_A_P
W26
RXC_A_N
V25
RX2_A_P
V26
RX2_A_N
U25
RX1_A_P
U26
RX1_A_N
T25
RX0_A_P
T26
RX0_A_N
HDMIA-RXC+
HDMIA-RXC-
62
TXC_P
63
TXC_N
60
TX0_P
61
TX0_N
58
TX1_P
59
TX1_N
56
TX2_P
57
TX2_N
DDR
DDR2-D(0-31)
B02G STANDBY
8
SSB 3139 123 6495.x
9,27,64
B05A
DQ
4
SPDIF-OUT
1
1
1
2
1E07
1
+3V3-HDMI
1P02
HDMI 1
CONNECTOR
SSB 3139 123 6519.x
+3V3
A1 E2
7B02
H5PS1G83EFR
SDRAM
128Mx8
A1 E2
7B03
H5PS1G83EFR
SDRAM
128Mx8
A1 E2
7B01
H5PS1G83EFR
SDRAM
128Mx8
VDDL
VREF
BRX0BRXC+
12
SPDIF-OPT
VDDL
VREF
9
10
DIGITAL
AUDIO
OUT
+3V3
D(24-31)
5
RXB
4
SSB 3139 123 6519.x
2
1
3
VDDL
VREF
BRX1BRX0+
4
6
7
1E10
D(16-23)
7
6
VDDL
VREF
BRX2BRX1+
D(8-15)
8
D(0-7)
19
18
HDMI 2
CONNECTOR
BRX2+
3
1
2
1
19
18
B01H
49
7F75
UPC3221GV
2
A-PLOP
7FJ0
CXD2820R
DVBT2-IFP
TUNER
8
10
A-STBY
DVBT2
DVBT2-IFN
B01F
TS-FE-DATA
AE7
7D15
R23
TNR_SER1_MIVAL
R22
TNR_SER1_SOP
T22
TNR_SER1_MICLK
T21
TNR_SER1_DATA
OUT-L
-AUDIO-R
1
QM
9R03-2
TS-FE-VALID
TS-FE-SOP
TS-FE-CLOCK
ADAC(2)
+24V-AUDIO-POWER
3 2
16M
1R10
73
122
12
2
31
IM
XTAL
QP
9R03-1
TS-DVBS-VALID
TS-DVBS-SOP
TS-DVBS-CLOCK
5D07
10,12 5D08
1,3
PVCC_L
IN-L
4
20
32
18
30
78
75
74
7
19
SAT IN
ADAC_2
DVB-S
CHANNEL
8
DECODER
IP
21
5
+AUDIO-L
PVCC_R
7R01
STV0903BAC
DVB-S
TUNER
4
14
12
ADAC(1)
AD7
MDI
1
1R01
CLASS D
POWER
AMPLIFIER
7S05
LM324P
3 2
7R02
STV6110A
B02D AUDIO
MD0
CA-MDO(0-7)
BUFFER
1FL5
DVBS-FE
AUDIO
7D10
TPA3123D2PWP
B02A VIDEO STREAM
MDO(0-7)
CA-MDI(0-7)
B07A
B03A
7S00
PNX85537EB
+3V3
68P
CONDITIONAL
ACCESS
PNX85500: AUDIO
4
51
52
PCMCIA
B02D
PNX85500
+5VCA
18
24M
COMMON INTERFACE
PNX85537
B01A
A1 E2
DDR2-A(0-14)
A
+1V8
VREF_1
VREF_2
RREF
A2
V1
DDR2-VREF-DDR
DDR2-VREF-CTRL2
DDR2-VREF-CTRL3
*6000 SERIE MUX SII9187 NON INSTAPORT
7000 SERIE MUX SII9287 INSTAPORT
19100_812_110215.eps
110324
2012-Mar-16 back to
div. table
�Block Diagrams
9.12
Q552.2E LA
9.
EN 104
Block Diagram Control & Clock Signals
CONTROL + CLOCK SIGNALS
SDIO-DAT3
SDIO-CMD
SDIO-CLK
SDIO-DAT0
Pin3
Pin2
5
7
8
B02B MEMORY
DDR2-D(0-31)
DQ
W2
CC_DAT3
W6
CMD
W1
CLK
W5
DAT_0
W4
DAT_1
W3
DAT_2
U6
SDCD
V6
SDWP
7B00
H5PS1G83EFR
7B02
H5PS1G83EFR
SDIO-DAT2
SDIO-CDn
SDIO-WP
Pin6 Pin5
Pin8 Pin7
SDRAM
128Mx8
SDRAM
128Mx8
F8 E8
SD-CARD
CONNECTOR
F8 E8
CLK_N
CLK_P
7E10
LAN8710A-EZK
ETH-RXD
ETH-TXD
ETHERNET
ETH-RXCLK
AA3
20
ETH-TXCLK
AA2
B06C
RXCLK
TXCLK
AMBILIGHT CPLD
SENSE+1V1
PNX-SPI-SDO
B02G
4
6
8
AMBI-LATCH1_G2
9
AMBI-BLANK_R1
AMBI-PROG_B1
AMBI-LATCH2_DIS
11
12
13
32
39
40
AMBI-SPI-SDI-OUT_G1
AMBI-PWM-CLK_B2
AMBI-SPI-CS-OUTn_R2
20
19
28
41
3
23
29
30
31
PNX-SPI-CLK
PNX-SPI-SDI
AMBI-SPI-SDO-OUT
AMBI-TEMP
14
TO AMBILIGHT
MODULE
DVBS-FE
52
B10A
B01F
B01F
B02E
B01A
FLASH
T21
TNR_SER1_DATA
T22
TNR_SER1_MICLK
R22
TNR_SER1_SOP
R23
TNR_SER1_MIVAL
TS-FE-CLOCK
9R03-1
TS-FE-SOP
TS-TS-VALID
DVBT2
7FJ0
CXD2820R
DVBT2-IFN
49
DVBT2-IFP
TS-FE-VALID
4
TS-FE-SOP
3
DVBT2
CHANNEL 5 TS-FE-CLOCK
50
DECODER 7
TS-FE-DATA
RESET-SYSTEMn
COMMON INTERFACE
7F00
MOCLK
CA-MOCLK
K24
62
63
MOVAL
MOSTRT
CA-MOVAL
CA-MOSTRT
L23
L22
VS_2
MOVAL
MOSTRT
MDI
CA-MDI(0-7)
7F01
VCC
12,37
+3V3
MDO(0-7)
COMMON INTERFACE
NAND
FLASH
PCMCIA
CONDITIONAL
ACCESS
GPI0_7
PXCLK54
PNX-SPI-CS-BLn
AC5
V22
MDO
CA-MDO(0-7)
7F02
7F03
B02A FLASH
CA-A(00-14)
XIO-A(0-15)
XIO_A
7F04
7F05
CA-D(0-7)
26
BL_PWM
AD5
BACKLIGHT-PWM
B02E
9GA0
VIO
BACKLIGHT-PWM_BL-VS
B03C
OPTIONAL
B01C
PNX85500: MIPS
USB HUB
+5V-USB1
1P08
1
USB_DN
USB_DP
9F26
USB-DM
USB-DP
R26
R25
2
3
USB-DM1
USB-DP1
9F25
4
RESET-SYSTEMn
SELECT-SAW
AE4
RESET_SYS
U23
GPI0_11
B04C
B01F
7FL5
CY7C65631
ETHERNET + SERVICE
+5V-USB2
1P07
1
9
USB
HUB
10
5
18
2
3
USB-DM2
USB-DP2
6
4
1E06
GPI0_2
GPI0_3
RXD1-MIPS
Y23
2
TXD1-MIPS
Y24
21
UART
SERVICE
CONNECTOR
3
1
SIDE USB
CONNECTOR
SSB 3139 123 6495.x
B01K B02G
17
+5V
13
22
SIDE USB
CONNECTOR
1F24
1
2
3
4
5
USB-DM3
USB-DP3
14
SSB 3139 123 6519.x
XIO_D
XIO-D(00-15)
43
3
VCCIO
B02G
1P00
1
20
7F20
H27U4G8F2DTR
CLK_54_OUT
1
SENSE+1V0-DVBS
TS-FE-DATA
9R04
9R03-2
3 2
TS-DVBS-DATA
73
74 TS-DVBS-CLOCK
MULTI
11
TS-DVBS-SOP
75
STANDARD
7 DEMODULATOR 78 TS-DVBS-VALID
8 FOR SAT DIG TV 62
RESET-DVBS
4
12
1
122
QP
QM
IP
IM
3 2
20
XTAL
4
18
19
21
B02G
9R03-4
24M
32
SATELLITE
TUNER
B08A
B02A VIDEO STREAM
7R01
STV0903BAC
PNX85537
7R02
STV6110A
B01B
1M59
1
AMBI-SPI-CLK-OUT
22
27
CPLD
5
B02E CONTROL
RESET-ETHERNETn
NON DVBS CONNECTOR BOARD
B03D
PNX-SPI-CSBn
4
19
B09A
7GA0
XC9572XL
B03B
SENSE+1V2
25M
1E70
DDR-CLK_N
DDR-CLK_P
N5
N4
B02H POWER
AF1
VDD_1V1
AA15
VDDA_1V2
5
ETHERNET
CONNECTOR
RJ45
F8 E8
DDR2-A(0-13)
RXD
TXD
7
SDRAM
128Mx8
F8 E8
A
ETHERNET + SERVICE
1N00
B07A
SDRAM
128Mx8
7B01
H5PS1G83EFR
1FL5
B04C
SDIO-DAT1
9
10
12
7B03
H5PS1G83EFR
D(24-31)
Pin1
Pin9
1
2
DDR
D(16-23)
1P09
Pin4
B05A
PNX85500
7S00
PNX85537EB
B02E ETHERNET
D(8-15)
B02A
SD-CARD
D(0-7)
B01D
B02G
68
PNX85500: STANDBY CONTROLLER
B01E
PNX85500-CONTROL
XIO-D(00-07)
B02G STANDBY
GPIO_10
9CH0
BOOST-PWM
V23
BACKLIGHT-BOOST
B03C
B06C
DC / DC
1M19
1
LIGHT-SENSOR
2
3
4
TO IR / LED BOARD AND
KEYBOARD CONTROL
5
6
AE26
RC
P5_1
LED2
9U41
P1_0
LED1
LED-2
AD19
AC25
AD26
PWM_0
PWM_1
7U43
+3V3-STANDBY
LED-1
SPI_CLK
P6_5
SPI_CSB
SPI_SDO
SPI_SDI
P3_0
KEYBOARD
7
8
P3_1
P1_7
RESET_IN
P6_4
AE22
AF23
AE23
AF25
6
3
1
5
2
DETECT2
RESET-SYSTEMn
AV1-BLK
B03C
B02E
B04A
AA22
P3_2
P3_3
AB22
AD22
XTAL_IN
P3_5
XTAL_OUT
AV1-STATUS
AE25
LCD-PWR-ONn
AC20
B04A
CADC_2
P1_1
B03H
P2_0
P0_4
P2_2
19
18
1
2
B04D HDMI
4x HDMI
CONNECTOR
TO PIN:
1P02-13
1P03-13 PCEC-HDMI
1P04-13
1P05-13
ARX-HOTPLUG
1P02-19
BRX-HOTPLUG
1P03-19
CRX-HOTPLUG
1P04-19
DRX-HOTPLUG
1P05-19
P2_7
7EC0
EF
CEC-HDMI
AF19
7EC1
SII9187ACNU
SII9287BCNU
31
35
41
45
HDMI
SWITCH
P1_2
B02C HDMI_DV
RX
HDMIA-RX
3S0W
+3V3
W24
P0_1
P0_3
P2_6
P2_3
P0_6
P0_7
+3V3-STANDBY
1F51
3
1 LEVEL SHIFTED
2
FOR
DEBUG USE
4
ONLY
5
FF04
SDM
FF29
SPI-PROG
7S20
NCP303LSN28G
AE17
2
3
INP OUTP
GND
AD18
RESET-USBn
AD21
AF18
AE20
AA18
AE18
SEL-HDMI-ARC
LAMP-ON
RESET-DVBS
RESET-ETHERNETn
AC21
POWER-OK
AF20
AB19
AC19
STANDBY
RESET-AUDIO
AUDIO-MUTE-UP
1
RESET-STBYn
B03C
B01C
B02D
B07A
B04C
B06C
B01E
RES
DC / DC
+12V
+3V3-STANDBY
ENABLE-3V3n
RREF
8
TXD-UP
AF22
AF17
VCC
512K
SDM
RESET-STBYn
SPI-PROG
+3V3-STANDBY
PNX85500: STANDBY CONTROLLER
FLASH
RXD-UP
AE21
AF21
AB20
AA26
1S02
B02G
P5_0
AD23
+5V
PNX-SPI-CLK
PNX-SPI-WPn
PNX-SPI-CSBn
PNX-SPI-SDO
PNX-SPI-SDI
AF24
CONTROL
B03C
CONNECTORS COMP
54M
B09A
7F52
M25P05-AVMN6P
BACKLIGHT-PWM_BL-VS
BACKLIGHT-BOOST
ENABLE-3V3-5V
ENABLE-1V8
DETECT2
B03E
B03B B03D
B02G B03A
1M95
9
10
TO
11 POWER SUPPLY
12
2
B04E
B03A
19100_813_110216.eps
110318
2012-Mar-16 back to
div. table
�Block Diagrams
9.13
Q552.2E LA
9.
EN 105
Block Diagram I2C
I²C
B01E
PNX85500: MIPS
B01J
PNX85500-CONTROL
3S5Z
3S84
3S83
B02I
B02I
3E53-4
3E53-3
3E53-2
3E53-1
3
1
PNX85500: ANALOG VIDEO
47
UART
SERVICE
CONNECTOR
2
EDID
SW
7B01
H5PS1G83EFR
1
2
19
18
3ECA-2
VGA-SCL-EDID-HDMI
48
9FC1
9FC3
VGA-SDA-EDID
VGA-SCL-EDID
9FC4
3R14
3FJH
3FJJ
3T51
3T61
3R01
1E05
12
RES
DQ
TUNER
SDA-TUNER
3F75
TUN-P7
SCL-TUNER
3S61
4_SDA
4_SCL
A
3S60
A23
3S6F
D(0-7)
B24
MEMORY
B01F
3F76
TUN-P6
ERR
18
7
7B03
H5PS1G83EFR
6
1T01
FA2327
D(24-31)
D(16-23)
OPTIONAL
VGA
CONNECTOR
RES
B02B
DDR2-A(0-13)
SDRAM
128Mx8
HDMI
CONNECTOR
SIDE
15
9FC2
3S5V-3
+3V3
DDR2-D(0-31)
7B02
H5PS1G83EFR
3R00
1
2
VGA-SDA-EDID-HDMI
3S5V-1
SDRAM
128Mx8
16
+5V-VGA
AD24
3S6G
SDRAM
128Mx8
1P05
ANALOGUE
VIDEO
D(8-15)
7B00
H5PS1G83EFR
ERR
31
ERR
36
15
+5V-EDID
1E06
DVBT
CHANNEL
DECODER
VGA
VGA_EDID_SDA
VGA_EDID_SCL
3R15
3EC1-3
3EC1-1
DRX-DDC-SCL
AD25
DDR
3FE8
3FE9
3EC3
3EC5
44
ETHERNET + SERVICE
RXD1-MIPS
Y24
HDMI
OPTIONAL
TXD1-MIPS
Y23
SDRAM
128Mx8
DRX-DDC-SDA
B01I
B04C
GPIO_2
GPIO_3
43
DDCA-SCL
HDMI_DV
LNB
CONTROLLER
DIN-5V
HDMI
CONNECTOR 1
+3V3
MAIN
SW
7FJ0
CXD2820R
15
+3V3
DDCA-SDA
Y26
B01H
19
18
3F64
uP
LEVEL SHIFTED
FOR DEBUG
1
USE ONLY
7T50
LNBH23QT
SATELITE
TUNER
RES
10
DDC_A_SCL
16
CRX-DDC-SCL
40
12
30
15
Y25
1P02
CRX-DDC-SDA
1F51
3
RES
DDC_A_SDA
FLASH
XIO_D
3F65
13
29
5
B02C
1
HDMI
CONNECTOR 2
1
B02A
39
DEBUG
ONLY
RES
9
6
3S1H
3S1G
RXD-UP
AF21
1F52
3
SCLT
6
11
P3_1
3F62
MAIN NVM
SW
P3_0
7F20
H27U4G8F2DTR
3F63
TXD-UP
AE21
B05A
DVBT2
15
1
2
ERR
35
+3V3-STANDBY
XIO-D(00-07)
B10A
7R02
STV6110A
3FBF-1
3S2G
FLASH
BRX-DDC-SCL
CIN-5V
RES
SDAT
ERR
28
3FBF-2
AC24
16
18
CHANEL DEC
DVBS
1P03
BRX-DDC-SDA
34
EEPROM
(NVM)
MC_SDA
DEMODULATOR
3FC2
3S2F
33
+3V3RF
97
7R01
STV903BAC
HDMI
CONNECTOR 3
3FC1
AC23
BIN-5V
ERR
23
98
19
18
ERR
53
MC_SCL
FLASH
(4Gx16)
DVBS-SUPPLY
1
2
ERR
15
RES
B01B
ERR
42
7FE0
TC90517FG
15
19
18
STANDBY
SW
6
7F58
M24C64
45
19
16
ARX-DDC-SCL
3ECA-4
PNX-SPI-CSBn
PNX-SPI-SDO
PNX-SPI-SDI
5
+3V3-STANDBY
STANDBY
ARX-DDC-SDA
30
HDMI
MUX
46
1P04
3ECP-1
1
5
2
AF24
SPI_CLK
AE22
P6_5
AF23
SPI_CSB
AE23
SPI_SDO
AF25 SPI_SDI
TEMP
SENSOR
29
3ECP-3
PNX-SPI-WPn
PNX85500: STANDBY
CONTROLER
3S6V
PNX-SPI-CLK
3
512K
6
SCL-UP-MIPS
AIN-5V
54
7EC1
SII9287B
SII9187A
7FD1
LM75BDP
SDA-UP-MIPS
3S6W
FLASH
B02G
B02G
53
2
3ECA-1
3S57
3F60
1_SCL
1
3ECA-3
C26
1_SDA
3F59
C25
3S56
3S69
CONTROL
3S6A
ERR
13
PNX85537
VCC
B08B
DVBS-FE
SCL-SSB
+3V3
8
B07A
TUNER BRAZIL
SDA-SSB
3FD3
3_SCL
+3V3-STANDBY
B01K
HDMI
3ECU-4
3S5Y
A24
3_SDA
3ECU-2
B25
3S6D
B02E
7F52
M25P05-AVMN6P
B04D
TEMP SENSOR +
HEADPHONE
+3V3
7S00
PNX85537EB
3FD4
B02E
PNX85500: CONTROL
3S6E
B01E
MAIN
TUNER
ERR
34
ETHERNET + SERVICE
A25
1G51
ETH-TXD(0)
ETH-TXD(1)
ETH-TXD(2)
ETH-TXD(3)
AA1
AA4
AB1
AB2
20
ETH-TXCLK
AA2
7
AA3
49
LVDS
CONNECTOR
3C83
1M71
3
1T02
3
3124
SDA-TEMP1
3C81
1
1
3123
SCL-TEMP1
+3V3
ERR
14
RXD_2
RXD_3
RXCLK
W21
GPIO_2
TXD_2
TXD_3
3G2Y
+3V3
RXD_0
RXD_1
TXD_0
TXD_1
SCL-DISP
GPIO_3
W22
2
RXD2-MIPS
TXD2-MIPS
1
7S01
PCA9540B
2 CHAN.
MULTIPLEX.
ERR
24
4
ERR
64
3S66
22
23
24
25
50
9S11
3S68
AC1
3G2W
3S65
ETH-RXD(3)
ETH-RXCLK
ETH-RXD(2)
2_SCL
SDA-DISP
3S67
8
Y5
Y6
AB4
9S12
SCL-SET
3S5W
3S80
ETH-RXD(0)
ETH-RXD(1)
VIDEO OUT - LVDS
SDA-SET
2_SDA
11
10
9
ETHERNET
CONNECTOR
RJ45
3S58
3S6B
B26
3S6C
7E10
LAN8710A-EZK
ETHERNET
B06B
+3V3
3S81
B04C
B09A
TS1
DVBS CONNECTOR BOARD
5
7
TEMP SENSOR
8
TXCLK
1
2
RES
9S13
SDA-BL
9S10
SCL-BL
7104
LM75ADP
TEMP
SENSOR
OPTIONAL
2012-Mar-16 back to
div. table
SW
Programmable via USB
19100_814_110217.eps
110309
�Block Diagrams
Q552.2E LA
9.
EN 106
9.14
Supply Lines Overview
SUPPLY LINES OVERVIEW
HDMI SIDE
CONNECTOR
+12V_AL
B01I
3D-LR
STANDBY
GND1
GND1
GND1
+12V3
2
3
4
5
2
3
4
5
6
6
STANDBY
B02G
B01J
+12V
+24V-AUDIO-POWER
7
8
T 3.0A
9
10
9
10
BL-DIM1
11
BL-I-CTRL
12
POK
11
12
LAMP-ON
B02G
BACKLIGHT-PWM_BL-VS
B06C
BACKLIGHT-BOOST
B01E
POWER-OK
B02G
13
13
14
14
+24V
GND1
B03e
1
B04D
12V/1V1
COVERSION
B03e
B03e
+5V-VGA
+1V2
+3V3
+1V8
B03b
3U16
3F01
3S06
DDR2-VREF-CTRL2
+2V5-LVDS
CUA0
+5V5-TUN
+3V3
+3V3
B03e
B02D
+3V3
+5V
+12V
3F32
+2V5
B03e
3S11
+5V-USB2
IN OUT
COM
+24V-AUDIO-POWER
B03c
B01D
3S0Z
SD-CARD
B03E
3F40
+2V5-AUDIO
B02E
+12V
+24V-AUDIO-POWER
5UD3
5UD2
+3V3
5UD1
IN OUT
COM
+24V-AUDIO-VDD
+5V5-TUN
IN OUT
COM
6UD0
+5V
+3V3-STANDBY
B03e
B02G
+3V3
+3V3-STANDBY
PNX85500: STANDBY CONTROLLER
1UM0
B03G
1G03
B03d
9F71
B03c
B02H
+5V-TUN-PIN
B10a
TOSHIBA SUPPLY
+3V3
B03d
+3V3
7FA3
B03e
IN OUT
COM
5FA3
5FA4
+1V2-BRA-VDDC
+1V2-BRA-DR1
+1V2
+1V8
B03c
+2V5
B03c
+2V5-AUDIO
B02d
+2V5-LVDS
B03d
B01k
+3V3
B01k
+3V3-STANDBY
B03e
+2V5-AUDIO
+3V3
+3V3-DVBT2-R
+3V3
+2V5-DVB
IN OUT
COM
VIDEO OUT - LVDS
B03d
+1V2
5FJ3
+2V5-DVBT2-A
5FJ4
+3V3
+VDISP
+2V5-DVBT2-X
+1V2
+1V2-FE
+12V
5FJ5
AMBILIGHT CPLD
+1V2-DVBT2-C
+1V2-DVBT2-M
5FJ7
B06C
+1V2-DVBT2-P
+3V3
5GA1
+12V
VINT
VIO
B01f
+5V-TUN-PIN
+5V-TUN-PIN
SSB 3139 123 6519.x
B06D
SPI-BUFFER
+3V3
B03e
VDISP - SWITCH
+3V3
B03e
+3V3-DVBT2-D
5FK1
B06B
FAN - CONTROL
+3V3
+3V3-STANDBY
+12VD
B07A
+3V3-STANDBY
+12VD
7UU0
+VDISP-INT
DVBS-FE
+1V-DVBS
B08a
B06a
+1V-DVBS
+2V5-DVBS
+2V5-DVBS
B08a
+2V5-LVDS
+3V3
DVBT2
+3V3
7FK1
+3V3
+2V5
B03b
B10A
5FJ2
+3V3
B03H
+1V1
+1V8
B03d
B01G
B03e
5FJ1
+3V3
PNX85500: POWER
+1V1
+1V2
B03b
B06b
+VDISP
T 3.0A
B03e
+5V-TUN
TO
AMBILIGHT
MODULE
+VDISP-INT
5GA0
+3V3
TUNER
5
5FJ6
B09a
B03e
B03c
10
V-AMBI
9FK6
V-AMBI
+5V
+5V-TUN
T 2.0A
DISPLAY INTERFACING-VDISP
B03e
B01F
DDR2-VREF-DDR
+VDISP
T 1.0A
+3V3-STANDBY
1M59
21
1C86
B03b
+1V1
+3V3-STANDBY
ONLY 7000 SERIES
+24V
+1V8
+3V3
5UM1
+1V1
B03b
+5V
B03d
B01,a,c,e,k,
B03c,d,e,
B04a,b,d,
B09a
B06a
+3V3
+3V3-STANDBY
+1V8
TEMPSENSOR + AMBILIGHT
PNX85500: CONTROL
+3V3
T 2.0A
+24V
B03c
B01,a,b,c,d,e,
g,j,k,
B02a,c,d,e,h,
B03c,f,g,h,
B04a,c,d,e,
B06b,c,d,
B08a,B09a,
B10a
+12V
B03F
B03e
+12V_AL
1C87
B03h
+3V3
+3V3-STANDBY
+12V_AL
DDR
+VDISP-INT
+1V1
PNX85500: MIPS
+3V3
B03e
TO
IR/LED
BOARD
+3V3
+3V3-STANDBY
3B20
7UD1
B03c
B01E
B02h
8
DC / DC
5UD0
+3V3-SD
+5V
8
+2V5-REF
+1V1
B03b
B03c
TEMP
SENSOR
(OPTIONAL)
+3V3-STANDBY
+5V
B03f
+3V3
+T
+3V3-STANDBY
B03e
B03c
B03b
7UD0
+3V3
B03e
1M71
4
HEADPHONE
+3V3
B06A
+3V3-ARC
7S08
+T
+3V3
B03c
DIN-5V
+2V5
+3V3
+5V-USB1
+T
3FL2
CIN-5V
+3V3-STANDBY
+12V
7UA0
VOLT.
REG.
PNX85500: AUDIO
+3V3
B03d
B03e
B02h
B04E
B05A
ENABLE-1V8
3UA0
+3V3
1P02
18
B03e
B01f
+3V3
USB HUB
+5V
BIN-5V
+5V-TUN
7UA6
B03c
B03e
1P03
18
B03c
PNX85500: DIGITAL VIDEO IN
B03e
B01C
HDMI 2
CONNECTOR
CONNECTORS COMP
+3V3
1M19 1M20
5
6
+5V5-TUN
B03e
+3V3
+V-LNB
B08a
AIN-5V
B03e
B02C
+12V
+V-LNB
B01h
B02d,h
+5VCA
FLASH
+3V3-DVBS
+12V
B09A
1P04
18
DIN-5V
+2V5
IN OUT
COM
+T
B01B
B08a
7UC0
3U15
DDR2-VREF-CTRL3
+5V
B03e
+3V3
+1V8
3S20
+5V
+5V
B03e
PNX85500: SDRAM
DVBS-SUPPLY
+5V
HDMI 1
CONNECTOR
+12V
B03e
B03c
B02g,h,
B03e,B10a
+3V3
+5V
+3V3
+5V-VGA
HDMI 3
CONNECTOR
+5V
B02B
B08B
B03c
+1V8
B07a
+V-LNB
+3V3-DVBS
+5V-EDID
B03e
COMMON INTERFACE
+3V3-HDMI
B01I
7UA3
+2V5-DVBS
+3V3-STANDBY
B03c
DC / DC
IN OUT
COM
B08b
5EC0
+5V
B07a,B08b
7T01
+3V3
B02h,g,B03e +3V3-STANDBY
B03b
+3V3
B07a
+3V3-DVBS
HDMI
+1V1
5U01
+1V8
+3V3
12 5T04
B03e
PNX85500: NANDFLASH
CONDITIONAL ACCESS
5T01 +1V-DVBS
IN OUT
COM
+3V3
+2V5-BRA
IN OUT
COM
IN OUT
COM
+3V3-ET-ANA
B03e
23
B03D
B02A
B01A
5E08
B02b,h,B03d,
B05a
7FE3
5FE9
5T00
+3V3
B03e
+1V8
5U00
7U04
+3V3-BRA-FLT
+5V-DVBS
7T00
Dual
N-Synchr
Converter
ETHERNET + SERVICE
+3V3
+5V
B08a,B09a
+5V
B04C
12V/1V8
COVERSION
7U02-1
+3V3-BRA
+5V
+3V3
7T02
7U01
+3V3
5FE4
+5V
+3V3
7T03
1 TPS54283PWP
3 5T03
+12V
+1V2-BRA-DR1
5FE7
+24V
B03c
ANALOGUE EXTERNALS B
+5V
12
Dual
Synchronous
7U02-2
Step-Down
Controller
14
+1V2-BRA-VDDC
+3V3
B03e
+3V3
B03e
TUNER BRAZIL
+1V2-BRA-DR1
+3V3
B03e
B03e
+3V3
+1V2-BRA-VDDC
+24V
+3V3
B03e
+3V3-STANDBY
B01g
B03b,d,e,g,
B08b,B09a
+5V
DVBS-SUPPLY
+3V3
+5V
B01g
B02d,B03a
B08A
+3V3
B03e
DC / DC
7U03
TPS53126PW
B03h
7
8
B03B
+12V
B03c
+12VIN
+12VD
+AVCC
+3V3-STANDBY
B01e,B02e,
g,h,B03a,b,h,
B04d,e,B09a
B03h
BL-ON-OFF
TEMP SENSOR + HEADPHONE
+3V3
B01K
1U40
+VSND
GND1
B04d
B03c
B03e
+3V3-STANDBY
+24V-AUDIO-POWER
B04B
+5V-VGA
+12VIN
1M95
1
+24V-AUDIO-POWER
ANALOGUE EXTERNALS A
+24V
1E05
9
VGA
CONNECTOR
B02E
PSU
B04d
B04A
+3V3-STANDBY
VGA
GND_AL
8
9
1M95
1
B03c
AUDIO
+3V3-STANDBY
B03c
3D09
ONLY 8000 SERIES
3V3SB
DIN-5V
B09a
7
8
9
1P05
18
5T02
7
HDMI
6EC1
N.C.
GND1
+12V3
B01H
2
3
4
5
6
B03A
DC / DC
1M99
1
5U02
B03C
1M99
1
GND1
2
+12V3
3
GND1
4
+12V3
5
GND1
6
+12V3
7UU2
LCD-PWR-ONn
+3V3-DVBS
+3V3-DVBS
B08a
B03c
5R00
+3V3-DEMOD
5R01
+3V3-STANDBY
+3V3RF
19100_803_110208.eps
110415
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 107
10. Circuit Diagrams and PWB Layouts
10.1 A 272217190318 PSL
Power Supply Unit with Integrated LED Driver
Power Supply Unit with Integrated Led Driver
A01
1mHL402
8
LED_CN2_A
C414
1mH L401
SB3200
8
LED_CN1_A
POK
0.47uF
D
S
R437
15K
0.47uF
15K
R439
R440
15K
GND1
C428 C429
OPEN
OPEN
15K
R447
C430 C431
OPEN
D
R468G R468H
100
18
300
OPEN
R468F
18
18
S
0
C494
R498
OPEN
OPEN
R448
15K
1nF
10k
OPEN
OPEN
R493
+24V5
ADIM
C493
10nF
R497
R495
OPEN
220k
GND1
POK
R630
VCC
1K
10K
S
3
2
1
S
MK 1000uF/25V
OPEN
GND1
PC501
!
R256
EL817MC
IN4007
!
C210
R254
R253 R253A
EL817MC
GND1
R127
510K 1W
T3.15AH 250V
51K
51K
1nF
220K
C116
C117
47nF
47nF
R123
!
1.5K
56K
PC101
750
7.5V
ZD103
R110
KST2222A
10K
56K
R220
R244
18K
1k
R306
1.5K
AZ431L
R307
120
U206
U207
AS431AN / SMD
C220
1nF
R230
GND1
R309
1K
9.1k
R234
U301
R308
Q101
C109
R231
0.1uF
C303
2.2uF
R109
ZS 22uF/50V
R305
R304 C304
EL817MC
VCC
+24V5
1k
47
U102
AS431A
+12V
EFD2020
R303
D 5
S 7
LNK362
4 FB
S 8
NC 6
3 BP
U101
47uF/50V
R235
100
ZD104
10K
R124
OPEN
MK 1000uF/10V
2.7K
ZD102
RF101L4S
C118
R126 R125
6
GND1
15V
F101
D116
R128
L102A
VA101
AXIAL 6-Hole
AXIAL 6-Hole
L101A
!
2200pF/ 630V
2
0
C306
R302
OPEN
MMSD4148
C115
!
BASE
D115
GND1
R311
ZS47uF/50V
5.1V
D110
OPEN OPEN
OPEN
4.7uH
C301
7
C121
C107
750V 14A
R119
OPEN
Q112A
0.1uF
OPEN
510K
R117
47pF/1kV
KST2907A
R122A ZD110A
1000V 1A
OPEN
U110
C101
MVCC
Q111
43K
R101C
OPEN
R112A
1
BASE
!
LT 450V 4.7uF
Q110A
OPEN
2
1/2W 750k
R120
R101B
MMSD4148
R121
7
8
!
3
C102
STVCC
D114
VCC
SB140
9
8
1
IN4007
ST3V3
10
D107 R105
STVCC
200
OPEN
R118
6
1/2W 750k
4
D301
4
D106A
R113
OPEN
OPEN
R118A
OPEN
CAP002DG
5
ZD110
R122
R112
Q110
OPEN
100nF
T101
3
Q112
OPEN
STVCC
CX101
OPEN
!
L301
5
2 S
330pF
1 S
CY101
GND1
ZD101
P6KE180A
R111
!
330pF
C119
OPEN
COLD
CY102
R117A
!
!
R223
1K
CS1625075MC
1nF/1KV 5mm
GND1
U203
AS431AZ
PC502
TH101
10D9
C209 C215
0
CY105
R284B
D212
5.6K
C206
R251
BFS3550R
!
C208
47u/50V 47u/50V 2.2uF
+12V
C222
1uF
D103
C323
R233
MK 1000uF/25V
3.6k
IN4007
2200pF
10K
1.6uH
SDB1060PI
330pF
!
GND1
L201
CY202
L501
1nF/50V
D102
R221
15K
R431
68K, 2W
33uF/200V
EFD4549
C513
12nF/1kV
10K
10K
R531
C526
D506
C507
C411
7
6
MMSD4148W
33
5
KF5N50FS
100pF/1kV 100/1W
D512
C233A
ZS 50V 47UF
82K
S
R284
Q510
R523
22
0
8
D504 R522
MMSD4148
R527
0
C233
ZS 50V 47UF
0
10
9
R252A R252
R507A
IN4007
GND1
GND1
D210
9
4
G
0.1uF
68
2.2nF
D
68
R284A
R521
11
MK 220uF/35V
R508
3.3K
12K
R507
100K
12
10
LF102
4
+24(AL2_DVBS)
0
!
POK
Q220
KST2222A
D220
MBRF10100CT
12
D101
open
BL-I-CTRL
11
3
CX102
CX103
BL-DIM1(Vsync)
2.7K
330n
!
10nF
R228
470K
MMSD4148
2
1.5K
330pF
BL-ON-OFF
+24V5
C292
22nF
GND1
13
R255
CY103
GND1
C501
KST2907
1
5.6V
ZD503
!
COLD
330pF
104
13
1N4148
47
10K
!
R509
C502
1nF
R627 R626
120 1W
CY104
GND
PFC_STOP
C511
C611
100K
AS431AN / SMD
R242
1.8K
1.8K
C221
1nF
4.7K
GND1
R310
!
PC102
EL817MC
GND1
STANDBY
1K
Q301
C305
KST2907A
0.1uF
Live
1
GND1
2
R101
R501
STK0160
S
R629
8 DIS
22uF/50v
Q604
G
LVG
7 LINE
R513
D
100
VCC
C508
14
IC-SOP-16-L6599
36K
R628
C509
R502
1
C510
0.1uF
4.3K
s
SA101
3
2
TSA601MA1
4
330k
R625
LF103
!
5 STBY
22
MMSD4148
15
C207A
MVCC
NC
6 ISEN
CS1625075MC
GND_SND
16
MK 220uF/35V
OUT
CF
4 RFMIN
14
C207
330pF
HVG
3
C505
T501
10K
220nF
VBOOT
2 DELAY
!
S
D503 R519
R520
R512
330k
750K
330k
C504
D211
KF5N50FS
68
L6599
Q501
L502
68uF/450V
68uF/450V
U501
1uF
D
G
BFS3550R
68uF/450V
VCC
C645
330k
!
C644
R518
C506
1 CSS
R510
VLED
4.3K
R511
R624 R623 R622
!
!
+Vsnd
D
Q221
R222
SDURF1040CT
BFS3510A
C643
+12V
AOD407
GND1
1
3ohm 15D
+12V
GND1
AS431AN / SMD
TH601
GND1
Q222
4.7K
2
GND1
100K
2.2K
4A 600V
3
Standby
100nF
KST2222A
R480
R632
L601
14
3V3stdby
C450
U602
BD601
13
COLD
Q406
C440
10nF
4
LED4K
1-1735446-4
R481
EL817MC
R631
100nF
12
UVLS
47K
PC601
2.7kF
C622
11
BL-I-CTRL
R482
!
HOT
10
+24V5
+12V
1K
9
BL-DIM1(VSYNC)
GND1
GND1
R630A
8
BL-ON-OFF
ISEN2
OPEN
7
GND1
75K
OPEN
GND1
15K
GND1
!
NC
R229
16K
1nF
C404
0.47uF
R436
C401
C427
R456
6
R240
1.6K
C406
LED4A
R243
7.5K
IC-SOP-24-OZ9902
TIMER
15K
+12V
R494
6.8V
C405
R435
15K
R490
5
D
1nF
R496
13
4
+12V
BL-I-CTRL
3
GND1
14
R434
GND1
MDHT3N40
S
15
OZ9902
10K
2
120k
12K
ISEN2
10k
Q405
ZD220
SSTCMP2
R403
10K
C403
PROT2
G
G
1uF
SSTCMP1
1.5k
G
R402
C402
OVP2
1
STANDBY
R492
27K
12
TIMER
ST3V3
R491
16
18
11
ISW2
NC
VREF
D
R455
10
TIMER
ADIM
ISEN1
OPEN
ADIM
LED3K
CN4_1M95
R457
17
D403
GND1
9
NC
SD-53426-15
LED_CN2_K
OPEN
OPEN
15
LED_CN1_K
GND1
18
D405
C423
10k
14
LED3A
GND1
1k
19
GND1
R452
12
10nF
100k
OPEN
ISEN1
GND1
R472
R455I
8 PWM2
2.7
10
C472
2N7002
0
PROT1
R446
ISEN2
13
100
OVP1
7 PWM1
2.7
300
6 SYNC
2.7
8.2K
Q408
G
10K
R455G R455H
10K
2.7
R419
20
1k
R445
21
1.5k
R468E
56K
ISW1
R444
2.7
18
100K
GND
5 RT
R426
R443
10k
2.7
R461
R455F
R407
R442
22
2.7
2.7 F
R471
R467
R468D
4 VREF
R438
BL-DIM1(VSYNC)
DRV2
ENA
82
OPEN
82
23
R477
18
GND1
DRV1
3
VREF
2 VCC
R464 R465 R466
10k
R470
C424
R417
24
1nF
R455E
47K
FAULT
LED2K
9
LED_CN1_A
11
18
1 UVLS
OPEN
R476
1.8K
MDHT3N40
S
C426
10k
GND1
R463
S
U401
R408
GND1
AOD450
NC
8
R474
R468C
2.2uF
R462
Q403
S
NC
LED2A
7
LED_CN2_K
Q404
18
100nF
GND1
C408
100K
G
C425
AOD450
D
G
47nF
3k
R455D
R409
C407
47nF
3k
Q402
D
G
D
NC
6
GND1
R468I
R422
C433
R449
C422
S
47nF
LED1A
LED1K
5
47k
56K
GND1
4
10nF
2N7002
18
VREF
LED_CN1_K
3
ISEN1
C470
Q407
G
47k
18
10K
R416
1uF
Q401
R453
51k
R423
7002
C410
C409
10
R421
R415
2K
R455C
R411
R410
G
8.2K
R468B
47K
VREF
1.8K
R455B
+12V
D
51k
51k
18
R441
R450
R475
R468
100nF
GND1
2
R473
R468A
10K
100K
1
LED_CN2_A
18
100k
R414
1K
C416
R424
CN2_1316
R454
51k
R455A
R413
R451
C413
R412
D401
VREF
UVLS
33uF/200V
5
VLED
BL-ON-OFF
A01
D402
SB3200
5
33uF/200V
10-1-1
Neutral
3
Power Supply Unit with
Integrated Led Driver
AC-inlet
!
CN1_1308
2011-01-19
2722 171 90318
PLDE-P007A
19154_007_120109.eps
120109
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-1-2
Q552.2E LA
10.
EN 108
Layout top
4
Layout top
2011-01-19
2722 171 90318
PLDE-P007A
19154_008_120109.eps
120109
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-1-3
Q552.2E LA
10.
EN 109
Layout bottom
4
Layout bottom
2011-01-19
2722 171 90318
PLDE-P007A
19154_009_120109.eps
120109
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 110
10.2 A 272217190319 - 272217190414 PSL
Power Supply Unit with Integrated LED Driver
LED_CN3_A
C414
R402
56K
R403
56K
C403
1n
C404
470nF
C405
1n
ISEN2
D
S
D
R468G R468H
0
S
R456
10k
R434
13
OZ9902
18K
R432B
68
OPEN
R468I
18
300
18
R432C
12K
18K
R434B 12K R434C 18K
R432A
18K
18
R432
12K
GND1
STANDBY
GND1
GND1
BL-I-CTRL
C434
1nF
R434A
12K
ISEN2
C401
0.47u
R496
R490
OPEN
OPEN
R494
R493
OPEN
+12V
75K
10nF
R497
+12V
ADIM
C493
+24V5
R495
OPEN
GND1
220k
BL-ON-OFF
GND1
BL-I-CTRL
+12V
OPEN OPEN OPEN OPEN
GND1
BL-DIM1(VSYNC)
GND1
C428 C429 C430 C431
VCC
POK
R630A
1k
R630
R482
47K
! PC601
1k
+24V5
UVLS
GND1
R481
10K
EL817MC
HOT
Q406
KST2222A
R631
2.7k
C440
C622
100nF
COLD
R480
100K
10nF
R632
4.7K
GND1
U602
AS431AN / SMD
Q222
AOD407
L503
2
5
D
4.7uH
6
R302
R304
750
2200pF
RF101L4S
51K
R125
51K
220K
510K 2W
C117
7.5V
R306
1.5K
120
D
S
G
R220
G
27K
R223
R233
56KJ 1/8W
R221
R222
R431
68K, 2W
91K
R284
MK 220uF/35V
5.1K
1k
R231
R227
9.1K
18K
R234
1k
GND1
4.7K
R310
U102
AS431A
Q101
R110
KST2907A
KST2222A
C109
1K
0.1uF
C305
GND1
10K
AS431AN / SMD
U207
STANDBY
Q301
VCC
ZS 22uF/50V
C116
47nF
U301
AZ431L
R307
R123
56K
1nF
R124
!
R127
R309
1K
15V
750V 14A
R126
510K
D116
R109
2.2uF
C303
47F
PC102
EL817MC
C118
R128
! VA101
ZD103
C115
ZD102
1
CH040031
5.1V
!
LF101
1
R255
R235
R308
!
ZD104
3
0.1uF
C107
D115
MMSD4148
+24V5
PC101
EL817MC
43K
0.68uF
GND1
+12V
100F
!
R121
T3.15AH 250V
C411
C306
47u/50V
C301
CY202
NC
47uF
1K
1000uF
47pF/1kV
2
AS431AZ
7
4
FB
BP
S
SB140
8
1
0
1000V
LNK362
6
NC
S
7
8
S
Q111
KST2907A
10K
3
MVCC
R120
9
2.7K
D106A
R105
R254
U203
ST3V3
R305
D107
D301
10
4
IN4007
C121
S
C102
450V 4.7uF
MMSD4148
!
R101C
CX101
C210
GND1
C304
0.1uF
ZD101
D114
VCC
U110
4
R256
L301
3
1nF
R113
C209 C215
GND1
T101
EFD2020
5
2
1
C206
1000uF
GND1
! PC501
EL817MC
1.5KF
10D9
P6KE180A
IN4007
1
8
C222
1000uF
3K
C119
C208
+12V
D212
220pF
ZD503
5.6V
R303
TH101
C233A
47u/50V 47u/50V 2.2uF
R251
L501
C513
470nF
U101
2
1.6uH
!
CY501
GND1
D103
C233
ZS 50V 47UF ZS 50V 47UF
GND1
L201
SDB1060PI
12nF/1kV
D506
C507
33uF/200V
EFD4549
BFS3550R
100nF/50V
D220
MMSD4148
6
R531
100pF/1kV 100/1W
C526
10K
10K
4.3K
33
C626
10nF
C207A
7
10K
R527
200
7
!
5
MMSD4148W
!
3
Live
Q510
KF5N50
D101
2W 510k
F101
8
S
R252
R513
0
36K
R502
R507A
C501
R523
Q220
2.7K
D512
1N4148
47
10
MMSD4148W
470KJ 1/8W
KST2222A
GND1
D210
4
G
9
MBRF10100CT
10
9
D
R522
D504
3
C207
10
PFC_STOP
R521
68
KST2907
+24V5
R228
11
MK 220uF/35V
GND
DIS
BFS3550R
LINE
10K
11
L502
LVG
7
R508
3.3KF
R507 12KF
ISEN
IC-SOP-16-L6599
4
6
!
12
2.2nF
R626
L602
C611
1nF
CAP002DG
5
C101
VCC
12
D
2
! PC502
EL817MC
IN4007
R101B
STBY
C508
100nF
1nF
C606
IN4007
D102
!
13
8
CS1615170MA02FF
jumper
14
NC
R509
10nF
C502
R627
1
OUT
GND1
13
Q221
1
1.5K
Q604
STK0160
HVG
CF
RFMIN
T501
14
MMSD4148W 10
R520
330k
R623
330k
R624
330k
100
R625
R628
C645 68uF/450V
470k
C644 68uF/450V
R615
470k
R629
100K
Q603
STK0160
R501
100K
C509
DELAY
3
!
3
2
0.1u
C510
Q501
KF5N50
S
R519
D211
12k
S
100k
R619
LF102
4
470k
C610B
R621
R620
2W 0.12
R633
R614
! CX102
680nF
1nF
C607
15
6
330pF
D503
16
5
C505
MVCC
S
G
120
470pF
C610A
S
10k
R612
C504
220nF
G
68
VBOOT
CSS
2
22uF M 50V
D
D
VCC
U501
L6599
1
750
!
G
R618
C699
2.2nF
!
BFS3550A
C605
10nF
43/2012
FA5591
R603
47K
R602
R605
5
30
!
2W 0.12
SA101
s
TSA601MA1
GND1
CY103
!
4
MMSD4148
100
CY104
470pF
120
R101
COLD
6
S
10nF
R604
68K
C603
470nF
7
3
C608
C604
100nF
22K F
C602
100nF
1
R608
R610
D603
CS1615170MA02FF
!
120
8
2
2
C610
G G
IC-SOP-8
R617
D
R609
U601
1
470k
47pF
R616
47pF
47pF
GND1
! LF103
4
3
R512
2.2K
R622
L603
BFS3550A
10
L601
9
8
7
Q602
MDF11N60
open
R510
1uF
C506
4
VCC
D
CY106
open
!
1
COLD
VCC
2
CY105
!
!
3
3ohm 15D
6
EER2025 170uH
0.47uF
TH601
4
C601
330k
BYV25X-600
5
2
D
R518
4.3K
!
VLED
R511
D602
R253
S3V60
1
0.1uF
4A 600V
SDURF1040CT
56
S3V60
BD601
3
4
BFS3510
D601A
C511
D601
15KJ 1/8W 10KJ 1/8W
C223
2200pF K 50V
S
!
NC
LED4K
53426-1510
CN4_1M95
1
3V3stdby
2
Standby
3
GND1
4
GND1
5
+12V
6
+12V
7
+Vsnd
8
GND_SND
9
BL-ON-OFF
10
BL-DIM1(Vsync)
11
BL-I-CTRL
12
POK
13
+24(AL2_DVBS)
14
GND1
1-1735446-4
ST3V3
120k
Q405
MDHT3N40
1.5K
14
R492
10K
G
15
IC-SOP-24-OZ9902
C406
470nF
R468F
R491
D
R457
18
C402
1uF
SSTCMP2
ISEN1
16
PROT2
LED4A
15
R229
R243
R240
16KF 1/8W
7.5KF 1/8W
2.7KF 1/8W
12
SSTCMP1
NC
14
LED_CN2_K
LED_CN3_K
GND1
OVP2
TIMER
LED3K
13
GND1
17
ISW2
ADIM
NC
12
C292
22nF K 50V
11
LED3A
11
6.8V
10
10
VREF
18
ISEN1
C472
12K J 1/8W
9
ADIM
PROT1
PWM2
GND1
19
OVP1
PWM1
OPEN
LED2K
9
10nF/2012
ZD220
GND1
SYNC
R419 1k
20
R444
1
LED2A
NC
8
100k
0
8
ISW1
R446
R443
1
21
ISEN2
GND1
68
C423
open
GND
LED_CN3_K
LED_CN2_A
2N7002
OPEN
6
7
R452
10k
1k
22
DRV2
RT
OPEN
LED1K
NC
7
8.2K
Q408
G
R472
R455I
5
R467
R466
1
R455G R455H
BL-DIM1(VSYNC)
R426
10K
R407
56K
R471
R445
1
R465
1
300
GND1
ENA
VREF
R464
1
R455F
4
R442
10k
23
S
18
VREF
DRV1
open
C471
18
3
VCC
R417
120
24
FAULT
R476
1.8K
10K
R455E
2
UVLS
R477
C432
1nF
R462
10k
C419
open
10k
18
1
S
R463
Q402
AOD450
18
R408
47K
R438
100K
G
U401
2.2u
S
NC
4
6
R474
18
D
C408
1.5K
GND1
Q403
AOD450
R468
R409
100K
10nF/2012
LED1A
3
5
Q404
MDHT3N40
G
R468E
R470
120
VREF
C407
100nF
2
S
D
G
GND1
R410
10K
D
R461
GND1
C410
47nF
R416
56K
GND1
1
LED_CN3_A
GND1
C422
47nF
R422
3K
S
R468D
R415
2K
LED_CN2_K
R455
BL-ON-OFF
Q401
7002
G
C433
47nF
R449
3K
18
C409
1uF
D
R455D
VREF
+12V
R411
10
R441
47K
ISEN1
C470
2N7002
R455B
GND1
R423
62K
8.2K
Q407
G
18
POK
R448
62K
CN2_1316
R475
1.8K
62K
R468B
UVLS
R473
R450
R455C
C416
100nF
R421
62K
62K
R455A
R413
10K
C413
R451
130K
R414
1K
R454
R468C
D401
SB3200
VREF
R412
130K
D402
SB3200
LED_CN2_A
R424
62K
8
18
L401
150uH
5
VLED
8
33uF/200V
!
A01
L402
150uH
5
R468A
!
33uF/200V
Power Supply Unit with
Integrated Led Driver
A01
2
10-2-1
U206
AS431AN/SMD
R230
C220
1.8K
1nF
GND1
C221
R224
1nF
1.8K
GND1
47nF
Neutral
CN1_1308
Power Supply Unit with
Integrated Led Driver
AC-inlet
2722 171 90319
2722 171 90441
PLDG-P009A
PLDG-P009A (1.1)
4
2011-01-30
19154_004_120109.eps
120313
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-2-2
Q552.2E LA
10.
EN 111
Layout top
Layout top
2722 171 90319
2722 171 90441
PLDG-P009A
PLDG-P009A (1.1)
4
2011-01-30
19154_005_120109.eps
120313
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-2-3
Q552.2E LA
10.
EN 112
Layout bottom
Layout bottom
2722 171 90319
2722 171 90441
PLDG-P009A
PLDG-P009A (1.1)
4
2011-01-30
19154_006_120109.eps
120313
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 113
10.3 A 272217190321 PSL
Power Supply Unit with Integrated LED Driver
Power Supply Unit with Integrated Led Driver
D402
SB3200 DO-201
5
ANODE_R
D401
SB3200 DO-201
ANODE_L
VREF
U401
2
3
4
BL-DIM1(VSYNC)
R407
56K
R426
10K
5
6
UVLS
FAULT
VCC
DRV1
ENA
DRV2
VREF
23
RT
S
R466
OPEN
R464 R464A R465
1
1
1
R465A
1
GND1
9
ADIM
10
11
12
ISW2
R402
10K
C402
1uF
TIMER
C405
1nF
R456
10k
14
C406
0.47uF
C427
1nF
R434 15k
GND1
GND1
R440
15k
R447
15k
GND1
GND1
D
75K
R7_CATHODE
5
R495
CATHODE_R
R6_CATHODE
6
ADIM
C493
10nF
R8_CATHODE
4
R494
R437 15k
R439
15k
C434
OPEN
ANODE_R2
N.C
3
R435 15k
R436 15k
C432
OPEN
1
2
S
ISEN2
C401
0.47uF
ANODE_R
Q405
AOD450
13
ISEN2
N.C
CN3_1319
120K
D
G
15
IC-SOP-24-OZ9902
C403
1nF
C404
0.47uF
R457
1.5K
ISEN1
OZ9902
L8_CATHODE
13
ANODE_L2
20022WR-13BD Yeonho
R492
16
PROT2
SSTCMP2
R403
10K
17
OVP2
SSTCMP1
10K
R455H
0
8
GND1
L7_CATHODE
11
GND1
GND1
18
R5_CATHODE
7
220K
GND1
R4_CATHODE
8
R448
15k
R455
12
7
C423
open
L6_CATHODE
10
R491
CATHODE_L
GND1
R452
10k
L5_CATHODE
9
VREF
L4_CATHODE
8
CATHODE_L
GND1
N.C
12
1k
C471
OPEN
L3_CATHODE
6
7
R472
R471
L1_CATHODE
L2_CATHODE
5
100k
R467
OPEN
1k
ISEN1
ADIM
R445 R446
OPEN OPEN
R444A R444
1
1
GND1
S
N.C
4
10nF
2N7002
ANODE_L1
3
C472
Q408
G
1
2
8.2K
ISEN2
19
PROT1
PWM2
GND1
R419
20
OVP1
PWM1
S
C463
1nF
R463
10k
R443A R443
1
1
C419
OPEN
21
ISW1
SYNC
R442
10k
22
GND
C442
1nF
R417
56
24
R470
56
R476
1.8K
10K
R455I
OPEN
1
VREF
GND1
G
S
C426
1nF
R455G
100
C408
2.2uF
R408
47K
R438
100K
Q402
AOD450
D
R409
100K
R477
BL-I-CTRL
R461
1.5K
R462
10k
R455F
15
C407
100nF
G
R468H
0
GND1
R410
10K
D
G
R422
3K
Q404
AOD450
R468I
OPEN
56K
D
R468F
15
C410
47nF
R416
GND1
C422
47nF
R449
3K
ANODE_L
R474
R468G
100
S
Q403
AOD450/D-PACK
CN2_1316
CATHODE_R
C433
47nF
R468E
12
R421B
51K
R455E
12
BL-ON-OFF
R415
2K
R455D
12
C409
1uF
Q401
7002
R455C
12
R411
10
D
G
10nF
2N7002
GND1
R468D
12
R441
47K
VREF
ISEN1
8.2K
C470
Q407
R450B
51K
R455B
12
C416
100nF
GND1
+12V
R421A
56K
R468B
12
POK
R475
1.8K
G
R468C
12
R414
1K
UVLS
R450A
56K
R455A
12
R413
15K
C413
R451
130K
R421
56K
33uF/200V
VREF
R412
100K
R473
R450
56K
5
R468
12
8
D
L401 EPC1515/150uH
!
S
8
VLED
A01
L402 EPC1515/150uH
!
R468A
12
A01
C414 33uF/200V
10-3-1
R3_CATHODE
9
R2_CATHODE
10
R1_CATHODE
11
+12V
GND1
N.C
R630
VCC
UVLS
! PC601
EL817MC
1K
R630A
1K
1
3SV60
NC
10D9
!
L301
T101
9
SB140
51K
220K
BASE
2.7K
R305
1
3
R127
! F101
T3.15AH 250V
510K 1W
C116
47nF
C117
47nF
R431
68K, 2W
C412
33uF/200V
12K
6.8V
R240
2K
R243
7.5K
R220
27K
R229
16K
C292
22nF
D
G
G
R223
56K
2200pF
0
0
C450
1N
13
R249
0
2.7K
+Vsnd
GND_SND
BL-ON-OFF
BL-DIM1(Vsync)
BL-I-CTRL
POK
+24(AL2_DVBS)
14
GND1
1-1735446-4
R232
1K
18K
2
2.2uF
! PC101
EL817MC
U301
AZ431L
R308
R109
Q101
R110
KST2222A
C109
4
R309
1
U207
AS431ANTR/SMD
U206
AS431ANTR/SMD
1nF
C220
R244
1.8K
GND1
C221
GND1
1K
3
4.7K
2
R242
R310
10K
ZS 22uF/50V
750V 14A
12
+12V
R234
1.5K
4
15V
51K
11
+12V
C303
ZD102
RF101L4S
510K
VA101
U102
AS431A
10
GND1
9.1K
C304
0.1uF
R304
750
R306
OPEN
1.5K
R303
FB
BP
4
3
LNK362
6
5
D
NC
7
S
2
S
U101
S
8
C102
1
100F
VCC
1nF
R124 C118
R125
R128
!
R126
1N
C451
GND1
R231
47F
D116
9
Standby
+24V5
120
R117A
2200pF/ 1KV
47pF/1kV
S
OPEN
D115
MMSD4148
8
3V3stdby
1K
R123
56K
10K
R120
D110
OPEN
EFD2020
OPEN
R118A
7
+24V5
GND1
Q112A
+24V5
POK
R235
7.5V
BASE
OPEN
6
GND1
R307
C101
OPEN
C115
ZD110A
5
MK 1000uF/10V
6
R302
ZD103
OPEN
R101C
OPEN
+12V
C306
47u/50V
C301
0
C121
ZS47uF/50V
5.6V
1
U110
R122A
1000V/1A
4
BL-I-CTRL
7
1
3
BL-DIM1(VSYNC)
4.7uH
R105
2
0.1uF
C107
8
!
OPEN
D107
STVCC
ZD104
2
R119
Q110A
MVCC
Q111
KST2907A
2
BL-ON-OFF
8
1
D106A
OPEN
7
R117
STVCC
43K
R101B
510K 1W
R121
!
4
3
R118
CAP002DG
6
OPEN
CH040031
5
Q112
OPEN
S
MMSD4148
OPEN
OPEN
VCC
IN4007
R113
200
LT 450V 4.7uF
G
D114
Q110
1
GND1
GND1
10
3
2
R112A
1
OPEN
510k 1W
OPEN
R111
STVCC
3
2
LF101
ZD110
R112
4
!
1
D
0.68uF
CN4_1M95
ST3V3
GND1
GND1
ST3V3
D301
5
2
CX101
R122
OPEN
C215
GND1
+12V
U203
AS431BZ
4
!
+12V
+12V
R254
R253
C119
C233A
OPEN
2.2uF
STANDBY
1K
! PC502
EL817MC
P6KE180A 102/1KV
TH101
IN4007
10K
1.5K
R250
0
R256
2
R255
1
3
L504
ZD101
IN4007
NC
15K
C323
R252
! PC501
EL817MC
R251
1.6uH
SDB1060
220pF
GND1
CY101
GND1
R222
82K
! CY202
BFS3550A
D103
ZS 50V 47UF
MK 1000uF/25V MK 1000uF/25V
L502
BFS3550A
0
R620
!
CY102 COLD
C233
ZS 50V 47UF
GND1
D101
IN4007
D102
MMSD4148
C208
L201
C206
CS2540110ME02C
!
C411
S
C222
D212
5.6K
C513
4
PFC_GND
1
Q220
KST2222A
GND1
12nF/1kV
0.1uF
C511
D506
1nF/50V
C507
470K
R285
R531
100
10K
100pF/1kV
R228
D220
10K
C526
3
2
R221
Q510
KF5N50FS
+24V5
D
R286
10
S
KST2907
R233
MMSD4148W
R523
R284
G
R522
MK220uF
D504
9
C207
10
D512
1N4148
56
L503
BFS3550A
D
47
C207A
330pF
10K
R521
11
5.6V
33
100V 10A
EFD4649
MK220uF
R507
9.1K
R508 3.3K
100K
R520
R512
2.2K
C505
C645
68uF/450V
330k
R623
330k
12
R527
C626
10nF
S
Q221
6
13
IC-SOP-16-L6599
C501
2.2nF
Q222
AOD407/D-PACK
D213
7
C210
105K
12K
R619
R613
2W 0.18
LF102
PFC_STOP
100nF
C508
14
8
5
10
C611
1nF
1nF
C606
R613A
4
330k
R628
R625
100
R624
470k
R629
100K
330nF
!
GND
8 DIS
MMSD4148W
15
9
4
MMSD4148W
100k
2W 0.18
R614
2W 0.18
CX102
LVG
7 LINE
47
C502
10nF
S
R627
0.47uF
NC
VCC
S
R519
16
STK0160
R621
1nF
C607
GND1
!
R502
36K
Q603
G
100
OUT
6 ISEN
ZD503
R612
HVG
CF
R509
10K
VCC
C699
2200pF
PFC_GND
D503
VBOOT
5 STBY
S
4.3K
R603
D
C605
10nF
3
R513
FA5591
43k
R605
68k
L6599
2 DELAY
G
GND1
10
3
47
4 RFMIN
5
C603
U501
1 CSS
750K
0.22uF
MVCC
Q604
STK0160
R626
4
470k
6
R510
C504
0.1uF
C510
D
G
1uF
C506
PFC_GND
C509
R501
10k
C610B
S
S
30
R618
6.8k
3
! 470pF
COLD
R641
MMSD4148
10nF
CY104
470pF
!
C604
7
C608
R602
CY103
R604
CS1625075MC
100nF
8
2
120 R101
1
C602
100nF
R642
1
C610
D604
IC-SOP-8
3
43
4
2
C610A
GG
100
470k
R640
U601
LF103
470k
R615
R616
R617
47pF/1KV
D
47pF/1KV
47pF/1KV
D
s
TSA601MA1
SA101
VCC
4.3K
!
22u/50V
R622
GND1
!
C646
!
C644
68uF/450V
VCC
11
D
ZD220
R511
220pF
!
33uF/200V
12
2
Q501
KF5N50FS
R518
Q601
600V 11A
VLED
13
COLD
CY106
SDURF1040CT
T501
1
220pF
!
D211
14
L603
BFS3550A
6
7
8
9
10
CY105
!
L501
BFS3550A
! L601
EER3611 170uH
3ohm 15D
TH602
!
COLD
U602
AS431AN / SMD
4.7K
5
4
3
2
1
! C601
500V 105
HOT
R632
BYV29X-600
2
R480
100K
GND1
D602
330k
68uF/450V
3ohm 15D
TH601
Q406
KST2222A
10nF
C440
1.5K
3SV60
1
3
2.7K
100nF
C622
D601A
4A 600V
3
4
D601
BD601
!
R481
10K
4
2
R631
12
ANODE_R1
20022WR-12BD Yeonho
R482
47K
! PC102
EL817MC
STANDBY
1K
Q301
KST2907A
0.1uF
C305
R230
1.8K
1nF
0
GND1
1
Live
2
GND1
Neutral
3
Power Supply Unit with
Integrated Led Driver
! CN1(1308)
2010-09-10
2722 171 90321
PLDK-P011A
19154_018_120313.eps
120313
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-3-2
Q552.2E LA
10.
EN 114
Layout top
4
Layout top
2011-01-19
2722 171 90321
PLDK-P011A
19154_019_120313.eps
120313
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-3-3
Q552.2E LA
10.
EN 115
Layout bottom
4
Layout bottom
2011-01-19
2722 171 90321
PLDK-P011A
19154_020_120313.eps
120313
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 116
10.4 A 272217190326 PSL
Power Supply Unit with Integrated LED Driver
Power Supply Unit with Integrated Led Driver
ANODE_R
D401
B3100-13-F
ANODE_L
17
16
1K
R469 R470A
11K
12K
1.2k
R467A
R471A
GND1
GND1
R523
S
C526
47pF/1kV
!
L503 CY202
5mm
330pF
5.6V
0
C210A
100nF
RF101L4S 51K
1
2
Neutral
AC-inlet !
CN1(1308)
R127
510K 1W
51K
U102
AS431A
220K
C117
47nF
R128
510K
2
6
LNK362
ZS 22uF/50V
+12V
C306
47u/50V
10K
Q101
KST2222A
R109
R308
1K
R309
! PC102
EL817MC
2.7K
1.5K
R243
7.5K
6.8V
12K
R220
27K
ZD220
R240 R229
3K
15K
D
G
G
R236
18K
R234
1k
SMD
U206
AS431AZ
U207
AS431AZ
R230
1.8K
C220
1nF
R232
1.8K
C221
1nF
GND1
GND1
47
GND1
4.7K
R310
1K
Q301
KST2907A
U301
AZ431L
120
2.2uF
C303
C304
0.1uF
R305
R304
750
R307 R306
1.5KF
! PC101
EL817MC
R231
9.1k
GND1
7.5V
ZD103
5.1V
R110
R258 R253
R235
1k
R123
56K
C109
GND1
NXB 1000uF/10V
100F
VCC
C118
R124 1nF
C116
47nF
C107
0.1uF
15V
D116 R126 R125
! F101
T3.15AH 250V
S 7
NC 6
D 5
D115
MMSD4148
C115
2200pF/ 630V
4.7uH
C301
R302
ZD102
L103
5mm
5mm
L102
! VA101
750V 14A
SB140
7
+12V
GND1
8
1
C209 C215
47uF 2.2uF
R254
C210 1uF 5.6K
GND1
C121
ZS47uF/50V
Q111
KST2907A
R121
1/2W NC
ZD104
! R101A
1K
MVCC
R120
VCC
1000V 1A 0
3 BP
4 FB
MMSD4148
! CX101
100nF
Live
C102
LT 450V 4.7uF
D114
U101
!
CY101 330pF
GND1
S 8
200 D106A
1 S
2 S
COLD
9
3
R105
56K
R233
C206
R256
GND1
C222
C208
47uF
ST3V3
4.3K
!
330pF CY102
4
D107
OPEN
R212
GND1
L201
1.6uH
560uF M 25V
560uF M 25V
SDB1060PI
D301
10
C233
C233A
ZS 50V 47UF ZS 50V 47UF
EFD4649
! PC501
EL817MC
R303
IN4007
IN4007
3
ZD101
LF102
C119
1nF/1KV 5mm
R113 IN4007
MMSD4148
6
L301
5
P6KE180A
4
L101
470K
Q220
KST2222A
D220
GND1
7
C513
15nF/1kV
! T101
EFD1515
C292 R228
+24V5
D101
R223
R221
R222
R431
C411
8
5
D212
R531
100
MMSD4148W
D506
1nF/50V
C507
9
+24V5
22nF
D
S
G
10
4
10K
1N4148
120
Q510
SMK0850F
D
10
MMSD4148W
11
3
L502
5mm
R251
DIS PFC_STOP
9
12
R211
R512
2.2K
8
R521
47
D504 R522
13
1
Q221
KST2907
D210
MBR10100CTF-G1
5.1K
10
14
R257
11
GND
VLED
1.5K
12
LVG
LINE
T501
!
C207A
VCC
ISEN
S
68K/2W
S
GND1
2
R520
STBY
7
G
MMSD4148W
C508
104
C511
0.1uF
0
C626
10nF
2
1
CS1625075MC0213
GND1
1-2041145-4
GND1
390uF M 35V
13
6
OPEN
C501
OPEN
33
PRM 20 1W
+24(AL2_DVBS)
14
C473
33nF
C472
4.7uF
C207
14
NC
R527
D103
POK
13
C450
100nF
U203
AS431AZ
IN4007
D102
12
+24V5
47K
! PC502
EL817MC
!
BL-I-CTRL
POK
ADIM
R255
3.3K
OUT
RFMIN
5
R508
R507 12K
100K
CF
4
ZD503
R627
10nF
C502
10K
R626
330pF
GND1
5mm
L601
! COLD !
CY104
CY103
15
3
R513
C611
1nF
4.3K
R629
100K
BL-DIM1(Vsync)
11
GND1
GND1
10
BL-I-CTRL
R472
MBRF10150CT
L501
10mm
Q501
SMK0850F D
47
D503 R51910
16
HVG
D512
R507A
S
VBOOT
DELAY
R509
36K
R501
Q604
STK0160
CSS
2
0
C509
22uF
U501
L6599
1
C505
330pF
330k
MVCC
R502
D
G
330k
R624 R623
R628
100
VCC
1uF
C506
R532
C510
0.1uF
BL-ON-OFF
9
Q222
AOD407
R518
C504
220nF
330k
R622
SA101
s
TSA601MA1
R625
C645
82uF M 450V
C644
82uF M 450V
!
3ohm 15D
!
R510
750K
330k
LF104
2
4
4.3K
3
470nF/500v
! C101
GND_SND
BL-ON-OFF
GND1
CS1625075MC0213
1
2
TH601
+Vsnd
8
D211
U602
AS431ANTR
!
GND1
COLD
R511
1
+12V
7
BL-DIM1(VSYNC)
390uF M 35V
R480
100K
4.7K
3
4
+12V
6
GND1
68uF/100V
C440
10nF
GND1
5
$$$16705
GND1
Near by IC
Q406
KST2222A
C514
100pF/1kV
! BD601
RS405M
10K
GND1
R481
10K
R632
100nF
R464A
BL-I-CTRL
Q451
2N7002
1.2k
R467A1
GND1
GND1
R482
47K
! PC601
EL817MC
47K
R462A
100nF
GND1
UVLS
Q407A
C471
C515
100pF/1kV
R631
2.7k
C622
R101
U402
10K
HOT
120 1W
R461A
R465A
R630
1.5k
GND1
4
+12V
+12V
150
+12V
3
GND1
+24V5
GND1
VCC
330pF
470
R467B
GND1
GND1
+12V_AL
SBT2907A
3.9K
C494
OPEN
R498
OPEN
GND_AL
4
2041145-4
R463A
C401
0.47uF
R455
1
IC-SOP-24-OZ9902
C403 C404 C405 C406
1nF 0.47uF 1nF 0.47uF
TIMER
GND1
D403
12 SSTCMP2 ISEN2 13
OZ9902
R403
10K
C216100nF CN4_1M95
1
3V3stdby
2
Standby
ST3V3
STANDBY
3
C418
10nF/100V
Q405
AOD450
S
VREF
D405
R402
10K
C402
1uF
C427
1nF
R456
10k
OPEN
TIMER
D
G
OPEN
R457
3.6K
10 TIMER
OVP2 15
11 SSTCMP1
PROT2 14
+12V
10K
ISW2
GND1
2200pF
ISEN1
9 ADIM
ADIM
CN6_1M09
1
GND_AL
2
+12V_AL
GND1
CATHODE_L
R466A
C423
open
GND1
GND1
GND1
R284
18
ANODE_L
20022WR-14BD_YH
620
PROT1
NC
14
ANODE_L
1k
GND1GND1
L5_CATHODE
13
MAINS-OK/TEMP
10K
R419
19
L4_CATHODE
12
300 2.4K
20
7 PWM1
8 PWM2
BL-DIM1(VSYNC)
R452
10k
ISW1
OVP1
L3_CATHODE
11
BL-SPI-SDO_BL-DIM4
OPEN
100K
R426
10K
R444
1
L2_CATHODE
10
BL-SPI-SDO_BL-DIM3
13
AS431ANTR/SMD
R407
56K
R443
1
1k
L1_CATHODE
9
BL-SPI-SDO_BL-DIM2
12
R455I
OPEN
GND1
R438
100K
R471
R446
1
R1_CATHODE
8
+12V
15K
C323
5 RT
6 SYNC
VREF
DRV2 22
GND 21
R467
1
7
CATHODE_L
R252
R442
10k
23
3 ENA
4 VREF
R464 R465 R466
1
1
1
GND1 GND1
R2_CATHODE
CATHODE_R
2.2K / 2W
100
24
C426
1nF
R462
10k
2.2K / 2W
DRV1
Q402
AOD450
C424 S
R445
OPEN
1
C425
OPEN
R463
10k
R3_CATHODE
6
11
R468H
0
FAULT
G
R4_CATHODE
5
GND1
10
S
R5_CATHODE
4
2D/3D
9
S
3
+12V_AL
8
R468I
OPEN
1 UVLS
2 VCC
R408
47K
D
R417
U401
R470
100
GND1
R461
3.6K
C417
10nF/100V
Q404
AOD450
R455B
10
VREF
R409
C408
100K
2.2uF
G
GND1
D
G
Q403
AOD450
R455GR455H
18
0
C407
100nF
D
GND1
GND1
GND_AL
7
R468B
10
GND1
+12V_AL
6
C422
47nF
OPEN
R410
10K
CATHODE_R
CN2-1316
1
ANODE_R
2
NC
ANODE_R
GND_AL
5
C433
47nF
GND1
C410
47nF
R416
56K
BL-ON-OFF
R449
1.5K
3
R468G
18
S
+12V
4
R421A
18K
R422
1.5K
R415
2K
CN5_1M99
1
GND_AL
2
+12V_AL
GND1
R450A
18K
R468
1
G
C409
1uF
GND1
C413
R414
R441
C416
100nF
+12V
R411
10
POK
Q401
7002D
R421
22K
R450
22K
R455A
1
GND1
UVLS
47K
R413
10K
C414
L401
150uH
5
VREF
R412 R451
100K 1K
A01
D402
B3100-13-F
68uF/100V
!
8
VLED
L402
150uH
5
R468A
1
!
8
68uF/100V
A01
1K
10-4-1
STANDBY
0.1uF
C305
GND1
3
Power Supply Unit with
Integrated Led Driver
2011-06-03
2722 171 90326
PLDD-P014A
19154_021_120313.eps
120313
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-4-2
Q552.2E LA
10.
EN 117
Layout top
4
Layout top
2011-06-03
2722 171 90326
PLDD-P014A
19154_022_120313.eps
120313
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-4-3
Q552.2E LA
10.
EN 118
Layout bottom
4
Layout bottom
2011-06-03
2722 171 90326
PLDD-P014A
19154_023_120313.eps
120313
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 119
10.5 A 272217190361 PSL
Power Supply Unit with Integrated LED Driver
Power Supply Unit with
Integrated Led Driver
A01
! L401
200UH
5
LED_CN1_A
8
BFS3510
D401
RF101L4S
D
CS
7 SYNC
10k
PWMO
REF 8
MAP3202
C408A
N.C.
R404
270K
R420
10K
OVP
GND1
C403
6.8nF
GND1
2.2 R410E
2.2 R410F
G
R444
820
C420
1nF
D
2.2 R410B
0
R423 D403
open MMSD4148
FBN
1K
S
C490
100pF
R490
680K
Q402
KF3N40W
R492
100K
Q491
KST2222A
C491
2.2uF
R495
2K
C492
2.2uF
C474
C494
1uF
100nF
13
GND1
14
1-1735446-4
GND1GND1
GND1
CN2-1316
1
LED_CN1_A
C419
OPEN
R424
10k
3
4
5
6
7
LED_CN1_K
SD-53427-07
GND1
1
D102
D103
10D9
C115
1
LNK362
GND1
100F
OPEN
56K F
R123
!
2.7K
R304
PC101
EL817MC
750
R308
U301
AZ431L
2.2uF
R127
510K 1W
R125
R124
51K
51K
220K
C116
47nF
C117
47nF
U102
AS431A
C109
ZS 22uF/50V
R110
10K
Q101
KST2222A
R309
1K
Q301
KST2907A
GND_B
GND1
1K
R307
120
U206
KIA2431AS TSM
D
G
G
ZD220
12K R220
56K
R233
27K
10K
15K
C323
2200pF
R221
R222
U207
KIA2431AS TSM
C220
1nF
GND1
R310
PC102
EL817MC
NC
R284
0
R244
18K
R306
1.5K
R230
1.8K
4.7K
!
R231
9.1k
R234
1k
0.1uF
47
R109
R235
1k
R305
C304
C303
VCC
+12V
47u/50V
EFD2020
R303
S 7
D 5
NC 6
3 BP
2 S
4 FB
S 8
U101
1 S
Q112A
OPEN
MK 1000uF/10V
+24V5
ZD101
P6KE180A
ZD110A
GND1
C306
R311
3.3k
R302
OPEN
OPEN
R112A
OPEN
R118A
OPEN
R117A
R112
R122A
6
C121
ZS47uF/50V
4.7uH
C301
7
15V
VA101
R126
1nF
510K
RF101L4S
C118
R128
D116
750V 14A
Live
OPEN
1
1000V 1A 0
ZD102
2200pF/ 630V
!
Q110A
D106A
SB140
8
3
LF101 2
1
CH040031
F101
T3.15AH 250V
C102
LT 450V 4.7uF
STVCC
BASE
D115
MMSD4148
OPEN OPEN
R105
7.5V
OPEN
D110
200
ZD103
! CX101
R119
D107
STVCC
5.1V
R117
R113 IN4007
0.1uF
C107
ZD104
100nF
OPEN
R111
C101 47pF/1kV
MVCC
Q111
KST2907A
10K
BASE
U110
43K
! R101C
1/2W 750k
1
MMSD4148
R120
2
8
D114
VCC
R121
7
OPEN
3
OPEN
4
6
OPEN
R118
5
9
4
ST3V3
D301
10
3
1nF/1KV 5mm
2
ZD110
R122
Q110
OPEN
L301
T101
R253
!
5
Q112
OPEN
OPEN
STVCC
1/2W NC
R101A
CAP002DG
2.2k
GND1
!
!
1K
TH101
IN4007
R223
S
PC502
EL817MC
IN4007
GND1
U203
AS431AZ
!
IN4007
+12V
R254
1uF
C119
4
C210
560
R255
3.6kF
1.5K
2
!
R431
R256
C208
C209 C215
47u/50V 47u/50V 2.2uF
10K
PC501
EL817MC
R253A
3
47K, 2W
GND1
!
C233A
50V 47uF
0
101
C233
50V 47uF
0
5.6V
! CY106
C206
1000uF
C222
1000uF
LF102
CS1625075MD
R101B
130K
CY202
330pF
D212
MMSD4148
2.7K
!
470K
Q220
KST2222A
D220
GND1
L201
1.6uH
SDB1060PI
L501
+24V5
0
6
C513
12nF/1kV
R251
R531
C526
100pF/1kV 100/1W
R284A
7
EFD4549
R284B
5
2.2k
R212
Q510
KF5N50FS
R252A R252
S
R228
GND1
R211
8
MMSD4148W
D506
ZD503
C411
D210
9
4
BFS3550R
1nF/50V
C507
33uF/200V
MBRF10100CT
10
G
R523
Q221
KST2907
C292
22nF K 50V
D
11
3
C207
L502
BFS3550R
12
2
1.5K
68
10K
R512
2.2K
L602
33
1
D101
4
Q222
AOD407
GND1
13
10K
1N4148
D512
T501
MK 220uF/35V
MMSD4148 22
D211
!
! CX102
!
!
GND1
VLED
MK 220uF/35V
3.3K
8 DIS PFC_STOP 9
47
C501
2.2nF
D
68
D504 R522
C511
0.1uF
10nF
C502
R521
GND 10
7 LINE
R508
100K
R507 12K
R501
LVG 11
R527
100nF
1/2W 750k
39K
R471
D
S
100K
R465
D
10K
S
GND1
14
R520
NC 13
VCC 12
R509
CY103
470pF
OUT 14
5 STBY
R513
GND_B
BFS3550A
COLD
HVG 15
3 CF
Q501
KF5N50FS
S
MMSD4148 22
C508
104
IC-SOP-16-L6599
R507A
Q604
STK0160
C611
1nF
GND1
2 DELAY
330pF
6 ISEN
10K
!
22u/50V
4.3K
!
CY104
470pF
C509
0.1u
C510
S
R629
100K
C505
G
68
D503 R519
VBOOT 16
1 CSS
GND_B
0
G
1
U501
L6599
GND_B
MVCC
36K
D
1uF
C506
4 RFMIN
R502
R628
100
R627 R626
s
SA101
TSA601MA1
2
120 1W
R101
3
330k
R622
R625
! LF103
CS1625075MD
D
R518
C504
220pF
330k
VCC
C645
68uF
R510
750K
330k
R624 R623
!
!
C644
68uF
GND1
SDURF1040CT
330k
2
!
GND1 GND1
GND1
S
4.3K
C643
68uF
GND1
R511
! TH601
4
GND1
1
3ohm 15D
C414
OPEN
C416
1uF
GND1
BFS3510
4
1K
100K
C415
OPEN
FBP
R472
Q413
2N7002
0
Q412
2N7002
G
10K
150K
G
U602
AS431AN / SMD
L601
3
COLD
R480
R632
4.7K
4A 600V
BL-I-CTRL
R469
C207A
C622
100n
R456
Q406
KST2222A
C440
10nF
BD601
R458
R482
47K
R481
10K
PC601
EL817MC
R459
!
R631
2.7k
R464
100K
R630A
1k
HOT
R630
1k
R483
10k
10K
R460
+12V
VCC
R470A
5.1K
R468
VREF
R470
100K
EN
!
Anode 1+
NC
Cathode 1NC
Anode 2+
NC
Cathode 2-
2
R445
820
GND1
12
+24V5
C473
100nF
R443
820
R446
820
11
POK
S
R489
D
PWMO
VREF
C413 C409
1nF
OPEN
R488
LED_CN1_K
9
10
BL-I-CTRL
Q492
2N7002
G
1.5K
GND1
R442
820
8
BL-ON-OFF
BL-DIM1(VSYNC)
R455F
43
R455G R455H
100
0
R455I
OPEN
PWMO 9
6 RT
GND1
BL-DIM1(VSYNC)
7
GND1
R455E
56
OVP 10
5 CS
R419
R455C
56
PWMI 11
6
+24V5
POK
R491
5
+12V
R493
100K
4
+12V
R494
1K
3
GND1
VREF
OVP
3V3stdby
Standby
GND1
GND1
+12V
+12V
+Vsnd
GND_SND
BL-ON-OFF
BL-DIM1(Vsync)
BL-I-CTRL
POK
+24(AL2_DVBS)
GND1
2
GND1
GND1
R455D
56
COMP 12
R455A
56
R405
110K
GND1
3 GATE
4 GND
R415
10
C406
330pF
FBP
FBP 13
2 VCC
C410
10nF
R455B
56
GATE
C402
1uF
GND1
CS
R403
10
R417
33k
2.2 R410
+12V
C408
GND1
FBN
FBN 14
1 EN
2.2 R410A
C401
100nF
U401
R402
100K
2.2uF
R401
10K
R432
82k
R433
2.7k
C407
1N
2.2 R410C
2.2 R410D
EN
R455
56
BL-ON-OFF
1
ST3V3
STANDBY
R434
82k
C405
OPEN
R414
10k
CN4_1M95
R430
82k
R229
16K
S
C404
R409 D402
1 MMSD4148
Q401
KF5N50DS
R240
2K
G
R243
7.5K
R416
100
GATE
6.8V
L410
VLED
33uF/300V
A01
2
10-5-1
C221
1nF
R242
1.8K
GND1
STANDBY
0.1uF
C305
GND1
Neutral
4
AC-inlet
! CN1_1308
Power Supply Unit with
Integrated Led Driver
2011-03-08
2722 171 90361
PLDE-P017A B
19154_001_120109.eps
120109
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-5-2
Q552.2E LA
10.
EN 120
Layout top
4
Layout top
2011-03-08
2722 171 90361
PLDE-P017A B
19154_002_120109.eps
120109
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-5-3
Q552.2E LA
10.
EN 121
Layout bottom
4
Layout bottom
2011-03-08
2722 171 90361
PLDE-P017A B
19154_003_120109.eps
120109
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 122
10.6 A 272217190418 PSL
Power Supply Unit with Integrated LED Driver
Power Supply Unit with Integrated Led Driver
A01
L410
BFS3510A
D402
SB3200 DO-201
L402
!
ANODE_R
VLED
EPC1515/55uH
! L401
EPC1515/55uH
7
2D/3D
8
GND1
R427B
51K
9
25uF/200V
C453A
C453B
25uF/200V
C453
ANODE_R
R464
BL-I-CTRL
10K
Add : Shift nearby IC
Q451
2N7002
GND1
N.C
3
R8_CATHODE
4
R7_CATHODE
5
R6_CATHODE
6
R5_CATHODE
7
R4_CATHODE
8
R3_CATHODE
R2_CATHODE
10
R1_CATHODE
11
N.C
R472
1.1k
GND1
2
GND1
12K
GND1
R468
100nF
22K
Q407
C471
R465
Add : Shift nearby IC
R461
C418
OPEN
GND1
N.C
ANODE_L2
20022WR-13BD Yeonho
CN3_1319
1
ANODE_R2
9
1K
GND1
L8_CATHODE
10K
GND1
ISEN2
R471
GND1
C461
OPEN
L7_CATHODE
13
SBT2907A
U402
ADIM
47K
C472
150
GND1
GND1
R457G100 FR457H
0
R458IOPEN
GND1
C414
OPEN
R457F 15
GND1
1n
R432
10k
R457E 15
C406
10n
C418A
1K
R457D 12
R248 C490
3K
1n
R425
ISEN1
R457C 12
R403 C405
1n
30K
C427
OPEN
C401
1nF/250V
Q404
AOD450/D-PACK
S
R457B 12
R456
10k
D
G
R433 1k
VREF
R467
R435
GATE2
C408A
1N
open
PDIMO2
S
L6_CATHODE
MAINS-OK/TEMP
OPEN
47K
25uF/200V
25uF/200V
C413
C413B
25uF/200V
C413A
Q405
AOD450/D-PACK
G
R429 1k
C402
1nF/250V
R457 12
PDIMO1
CS2
GATE2 11
D
CATHODE_R
R457A 12
open D4148W
D404 D4148W
R434
L5_CATHODE
10
12
13
R469 R470
GND1
CATHODE_L
BL-SPI-SDO_BL-DIM4
R463
GND1
BL-SPI-SDO_BL-DIM3
12
R462
GND1
N.C
8
BL-SPI-SDO_BL-DIM2
11
C480
OPEN
R466
C408
OPEN
L4_CATHODE
7
OVP2
L3_CATHODE
6
+12V
10
3.9K
CS2
L2_CATHODE
5
150
R450B 1
R450 1
R450A 1
R448 1
R449 1
R447 1
R446 1
R446A 1
R446B 1
R445 1
R423
L1_CATHODE
4
9
C462
2.2n
N.C
3
100K
12
ADIM
GND1
GND1
CN2_1316
1
ANODE_L1
ANODE_L
2
OPEN
13
C404
10n
GND1
R427A
51K
GND1
R455G100 FR455H
0
R455IOPEN
GND1
+12V_AL
S
R424
10k
CATHODE_L
R455F 15
NC
CS2
R430
R455E 15
GND1
R420 100
C422
OPEN
D411
PWM
IC-SOP-20-MAP3222
C403
1n
GND_AL
6
OVP2
R402
30K
1n
GND1
G
OVP1
GND1
R455D 12
C460A
1N
CS1
D Q403
AOD450/D-PACK
GND1
R455B 12
C422A
R422
3K
GATE2
R421B
51K
C460
OPEN
R455C 12
R410
2k
C461A
1n
14
9 GATE1
10 PGND
C416
OPEN
ADIM
8 CS1
GATE1
430
15
7 PDIMI1
CS1
PWM
ISEN2
16
PDIMI2
6 OVP1
PWM
R440
BL-DIM1(VSYNC)
OVP2
5 COMP1
GND1
VREF
PDIMO2
15
R421A
51K
150
R455A 12
OVP1
5
4 PGOOD COMP2 17
C441 R428
1N
GND1
20
18
R419
C442
2.2n
R455 12
GND1
GND1
ISEN2
+12V_AL
R427
56K
+12V
1K
POK
S
R442
10k
2 PDIMO1 PDIMO2 19
3 ISEN1
C417
10n
GND1
R417 100
U401
ISEN1
100K
R416
10K
G
R443 1
47K
R414
Q409
3.9K
R413
R415
BL-ON-OFF
GATE1
Q402
AOD450/D-PACK
D
D4148W
R444 1
15
PDIMO1
D403 D4148W
R426
11
SBT2907A
+12V
SGND
R421
56K
D410
R418
1 VCC
GND_AL
4
25uF/200V
MMSD4148
C415
2.2uF
+12V_AL
3
ANODE_L
Q408
2N7002
2
+12V
D401
SB3200 DO-201
D414
UVLS
CN5_1M99
1
GND_AL
GND1
2K
A01
AS431ANTR/SMD
10-6-1
CATHODE_R
C473
4.7uF
GND1
33nF
GND1
GND1
ANODE_R1
20022WR-12BD Yeonho
12
GND1
Connect to IC GND directly
UVLS
+12V
CN6_1M09
GND_AL
1
GND1
COLD
D116
1
Live
Neutral
R127
510K 1W
R126
R125
R124
RF101L4S
750V 14A
2
! F101
T5AH 250V
51K
51K
220K
C116
47N
U102
AS431A
47F
3
10K
2.7K
R305
S
R431
D
G
6.8V
ZD220
R220
12K
G
56K
27K
R233
R223
2200pF
10K
15K
C323
R222
R251
5.6K
10K
1.5K
C210
1uF
R255
GND1
GND1
4
5
6
7
GND1
0
3
+24V5
R285
R253A R253
+24V5
GND1
R231
9.1K
R234
R231A
1K
0
8
9
BL-ON-OFF
10
BL-DIM1(VSYNC)
11
12
13
3V3stdby
Standby
GND1
GND1
+12V
+12V
+Vsnd
GND_SND
BL-ON-OFF
BL-DIM1(Vsync)
BL-I-CTRL
POK
14
+24(AL2_DVBS)
GND1
1-1735446-4
C451
1N
C450
1N
GND1
GND1
R232
18K
AS431ANTR/SMD
U207
R232A
0
U206
AS431ANTR/SMD
1nF
C220
R230
1.8K
GND1
1
1K
1.5K
5.6V
7.5V
R308
U301
AZ431L
120
56K
R123
ZS 22uF/50V
R110
R304
750
2
R109
4
2
GND1
1
2.2u
C303
Q101
KTN2222A
1
R235
1K
0
LNK362
NC 6
D 5
4 FB
3 BP
S 7
S 8
U101
VCC
C109
C118
22nF
510K
! VA101
R128
C101 47pF/1kV
D115
MMSD4148
C115
2200pF/ 1KV
ZD103
jumper
U110
CN4_1M95
STANDBY
GND1
EFD1515
! PC101
EL817MC
GND1
+24V5
1000uF/10V NXB
100
15V
1
6
3
0.1uF
C107
ZD104
! R101C
C306
47u/50V
R302
ZD102
8
MVCC
Q111
SBT2907A
1K
2
R121
3
7
4.3K
4
6
2
+12V
BL-I-CTRL
POK
+12V
C301
4
R120
CAP002DG
VCC
4.7uH
7
0
C121
ZS47uF/50V
R650
22
1
5
!
R101B
510k 1W
1 S
D114
2 S
MMSD4148
3
8
1
D106A
D107
C102
LT 450V 10uF
680nF
! LF101
SB140
3
R105
R307 R306
200
! CY101
! CX101 NC
ST3V3
C304
0.1uF
R311
GND1
2
U203
AS431BZ
9
D301
1000V 1A
R243
7.5K
+12V
1K
L301
10
4
TH101
C233
C233A
ZS 50V 47UF OPEN
+12V
R254
GND1
5
R240
2K
ST3V3
T101
1.5K
PRM 20 1W
10D9
R113 IN4007
CH040031
R256
2
2.2K
R303
IN4007
JW17
MMSD4148
R229
16K
2.2uF
C215
1
3
! PC502
EL817MC
!
470K
Q220
KST2222A
D220
1.6uH
R252
4
BFS3550A
COLD
4
D212
SDB1060
2.7K
R527
ZD101 C119
P6KE180A
102/1KV
+24V5
R228
C208
C208A
ZS 50V 47UF OPEN
0
GND1
C206A
560uF
L201
C206
560uF
56
R513
15nF/1kV
C513
! PC501
EL817MC
1nF/50V
C507
D
GND1
R531
C526
100pF/1kV 100/1W
1N4148 D506
0.1uF
1N4148
C511
! CY202
220pF
33
Q221
KST2907
D212A
SDB1060
L502
BFS3550A
C626
10nF
R221
10K
82K
C207B
S
L504
D102
D213
100V 10A
EFD4649
C207A
390uF 35V NXB
R284
L503
S
6
D512
47
2.2nF
C501
C292
Q222
AOTF409 /TO-220F
22nF K 50V
7
C207
390uF 35V NXB
10
MMSD4148W
D
BFS3550A
C514
OPEN
C512
OPEN
OPEN
8 DIS PFC_STOP 9
IC-SOP-16-L6599
R523
8
390uF 35V NXB
47
D504 R522
D213A
100V 10A
9
5
C515
OPEN
GND 10
10K
Q510
MDF11N60
G
R521
LVG 11
7 LINE
R508
3.3K
R520
R511
4.3KF
100K
R507
12K
C509
R501
R502
36K C502
10nF
VCC 12
6 ISEN
R509
C611
1nF
1nF
C606
5 STBY
0
0.1u
C510
Q604
STK0160
NC 13
4 RFMIN
R539
GND1
10
4
C222
560uF
Q603
STK0160
R629
100K
PFC_GND
IN4007
5
0-2041145-5
GND1
11
S
10
MMSD4148W
100nF
C508
OUT 14
3 CF
331
NC
GND1
GND1
3
5.6V
S
VBOOT 16
2 DELAY HVG 15
C505
220nF
G
47
D503 R519
1 CSS
ZD503
D
G
C506
1uF R510
750K
D
6.8K
R612
100 R621
VCC 1nF
C607 100k
D103
4
2
Q501
MDF11N60
R518
D502
OPEN U501
L6599
OPEN
R512
C504 2.2K
MVCC
22u/50V
D
G
R517
R538
OPEN
+12V
3
VLED
68K, 2W
14
12
Q500
C646
C645
82uF/450V
C644
82uF/450V
82uF/450V
330k
330k
!
330k
330k
R622
470k
R615
470k
470k
R617 R616
2.2nF
IN4007
D101
! CY102
NC
2
D211
SDURF1040CT
! T501
! LF102
4
3
2
1
CS2524200MC02CF
+12V
68uF/100V
L501
BFS3550A
OPEN
C411
R630
L603
BFS3550A
L604
C612B
!
S
R619
R613A
S
2W 0.12
R613
2W 0.12
R614
2W 0.12
! CX102
680nF
R516
OPEN
C520
OPEN
PFC_GND
7.5K
R642
R603
43
C699
COLD
GND1
C612A
100
5
FA5591
C605
1uF
PFC_GND
470k
6
4
D
G
R618
3
C608
10nF
D4148 30
R640
12K
7
R602
43k
C603 R604
68k
470nF
! CY104
470pF
8
2
10k
1
C610B 47pF/1KV
U601
! LF103
4
3
C610 47pF/1KV
D604 R641
C610A 47pF/1KV
PFC_GND
C612
S
Q601
MDF11N60
10k
R645
C602
1uF
120 1W
R101
SA101
s
TSA601MA1
100
! CY103
470pF
VCC
G
GND1
R624 R623
D
R643
R628
100
R625
30
D4148
!
R626
220pF
C604 R605
100nF 120k
U602
AS431AN / SMD
R530
OPEN
47pF/1KV
22
R651
HOT
+12V_AL
2041145-4
CN7_1MP1
1
+12V
1
47pF/1KV
BFS3550A
Q602
MDF11N60
D605 R644
CY105
2
1
CS2524200MC02CF
R480
100K
13
47pF/1KV
4
220pF
3
! L601
PQ38B12 120uH
COLD!
10n
C440
2
VCC
TH602
3ohm 15D
! CY106
R632
4.7K
BYV29X-600
! C601
820N 500V
3
GND_AL
4
D211A
GND1
D602
2
2
Q406
KST2222A
+12V_AL
3
R481
10K
4
68uF/100V
C412
3SV60
1
2
+12V
R482
! PC601 47K
EL817MC
R631
2.7K
100n
C622
3SV60
1
1
3ohm 15D
TH601
D601A
R627
3
4
D601
! BD601
10A 600V
1K
R630A
1K
VCC
R244
1.8K
GND1
R309
1nF
C221
2
! PC102
EL817MC
4.7K
R310
1K
Q301
SBT2907A
C117
47N
0.1uF
C305
STANDBY
GND1
3
GND1
Power Supply Unit with
Integrated Led Driver
! CN1(1308)
2011-06-07
2722 171 90326
PLDK-P021A
19154_024_120313.eps
120313
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-6-2
Q552.2E LA
10.
EN 123
Layout top
4
Layout top
2011-06-07
2722 171 90326
PLDK-P021A
19154_025_120313.eps
120313
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-6-3
Q552.2E LA
10.
EN 124
Layout bottom
4
Layout bottom
2011-06-07
2722 171 90326
PLDK-P021A
19154_026_120313.eps
120313
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 125
10.7 A 272217190477 PSL
10-7-1
Power Supply Unit with Integrated LED Driver
Power Supply Unit with Integrated Led Driver
A01
200UH
VLED
5
TP138
!
A01
TP228
D401
LED_CN1_A
8
L401
RF101L4S
R416
100
TP222
2
JW2
D
TP128
GND1
TP167
C440
10n
R480
100K
R632
4.7K
GND1
GND1 GND1
GND1
GND1
TP111
TP115
100nF
NC
GND1
R127
510K 1W
C116
47n
C117
47n
C109
TP70
ZS 22uF/50V
R110
10K
27K
R233
2
JW19
1
TP118
JW5
2
R229
16K
TP172
TP107
12K
R240
R243
7.5K
G
G
R220
56K
TP109
R223
TP112
10K
R221
R222
NC
R284
2.2k
R212
2.2k
TP102
TP100
1
560
TP175
10K
1
2 2
GND1
1
JW14
JW15
2
R251
R252
JW54
R211
1
R253
1K
2
JW21
2.7K
1
JW61
2
1.5K
TP103
C210TP176
R254
1uF
+12V
GND1
TP90
TP105
1.5K
TP173
TP108
TP106
R231
9.1K
R234
1k
R227
18K
U206
AS431AZ
GND1
2
JW10
JW12
SMD
U207
AS431AZ
R230
C220
1nF
1.8K
1
STANDBY
2
SMD
TP87
1K
0.1uF
C305
GND1
R235
1K
1
4.7K
KST2907A
+24V5
+12V
TP89
GND1
R309
TP86
Q301
Q101
KST2222A
D
S
TP85
TP88
U102
AS431A
2
JW25
GND1
TP101
PC102
EL817MC
R310
VCC
TP98
2
JW29
U203
AS431AZ
120
U301
AZ431L
47F
!
1K
TP79
15K
C323
2200pF K 50V
47K, 2W
1
1
C411JW9
R426
MK 220uF/35V
2
1
3.6K
1
JW18
2
C303
TP83
2.2u
R308
R109
1
C208
C209 C215
47u/50V 47u/50V 225J
C306
47u/50V
2.7K
R305
C304
0.1uF
R304TP174
750
R307 R306
2
JW16
1
1.5K
JW49
TP81
PC101
EL817MC
TP84
R123
56K
TP56
ZD103
5.6V
7.5V
D 5
NC 6
LNK362
3 BP
2 S
4 FB
S 7
S 8
U101
1 S
JW41
2
1
TP76
4.7uH
!
1
220K
C301
1000uF
TP80
100F
JW17
51K
R302
2
51K
BASE
Q112A
OPEN
6
1000V 1A 0
C121
ZS47uF/50V
TP61
10K
R124
R118A TP68
OPEN
SB140
TP78
RF101L4S
R125
ZD110A
OPEN
2
C233
C233A
ZS 50V 47UF OPEN
ST3V3
7
15V
JW43
R126
TP203
R122A
TP245 OPEN
1
MMSD4148
R224
1.8K
C221
1nF
GND1
TP1
Neutral Live
2
2
Q110A
OPEN
R105
D301
8
TP64
D107
D106A
2JW53
C118
1nF
TP73
EY1
EY2 EY3
1
1
1
TP224
STVCC
9
4
TP62
STVCC
ZD102
TP52
F101
T3.15AH 250V
D116
C102
LT 450V 10uF
R117A
OPEN
510K
TP74
EY4
MVCC
D115
MMSD4148
2200pF/ 630V
750V 14A !
R256
GND1
3
TP60
R113 IN4007
470K
Q220
KST2222A TP117
D220
L301
TP82
EY28
10
R303
JW52
2
JW7
GND1
! PC501
T101
EFD2020
0.1uF
C107
ZD104
BASE
OPEN
C115
! VA101EY6
EY5
D110
43K
OPEN
Q111
KST2907A
R128
1
2
JW37
C101 47pF/1kV
OPEN
TP71
R119
2
JW64
R121
R117
TP75
R101C
U110
R120
!
1
OPEN
2
jumper
33uF/200V
2
470pF
bead
C206
1000uF
TP77
5
200
OPEN
1
1
TP250
JW13
TP26
R520
10K
L502
L602
bead
C222
1000uF
D212
TP104
EY53
GND1
1
TP99
R255
2
2
TP58
R112A
2
MMSD4148
R118
3
D114
OPEN
JW63
VCC
4
6
2
SDB1060PI
10nF EY48
C513
! CY202
R228
2
L201
1.6uH
TP97
JW48
2 1
TH101
TP67
Q110
OPEN
CH040031
CAP002DG
1
JW62
EY47
!
C119
1uF
TP57
1
Q112
OPEN
OPEN
STVCC
C207A
C514
100p/1kV
EY46
6
JW51
1
10D9
1
TP247
ZD110TP54
TP55
R112
1
5
R122
OPEN
TP72
TP244
TP69
EY50
2
C207
7
+24V5
TP113
GND1
EFD4549
EL817MC
3
EY51
TP96
JW60
2
1
! LF101EY49
EY52
2
CX101
4
2
JW20
D210TP95
EY27
8
5
11
JW4
9
4
5.6V
1nF/50V
C507
S
10
EY38
bead
C515
100p
Q510
KF5N50
R531
C526
100pF/1kV 100/1W
MMSD4148W
D506
ZD503
TP45
4.3K
TP216
10K
1
JW47
R627 R626
C626
10nF
R523
TP38
10K
R527
33
2
1
120
47
C501
2.2nF
MBRF10100CT
C292
22nF K 50V
D
TP110
Q221
KST2907
TP94
11
3
L503
D
G
10
MMSD4148W
D512
TP40
1N4148
2
2
R509
GND1
EY41
12
EY45
EY37
JW42
47
D504 R522
TP39
13
EY40
TP178
8 DIS PFC_STOP 9
TP34
1
TP32
IC-SOP-16-L6599
EY39
14
1
MK 220uF/35V
R521
T501
JW6
3.3K
R508
GND 10
C511
0.1uF
103
C502
LVG 11
7 LINE
R513
36K
0
R502
TP31
TP43
22uF 50V
VCC 12
6 ISEN
2
!
1
R507 12K
TP30
C509
R507A
TP248
TP42
TP50
330k
1
JW44
1 2
JW55
0.1u
C510
R501
100K
2
470k
R512
2.2K
C505
330pF TP208
330k
R622
TP187
330k
TP186
330k
R624 R623
1
JW36
1 2
TP19
JW46
2
R628
100
TP11
R625
470k
C645
68uF/450V
470k
470k
C644
68uF/450V
R615
TP241
IN4007
R111
IN4007
OPEN
D103
TP53
!
TP249
5 STBY
TP46
MMSD4148W
C508
104
NC 13
2
JW8
D211TP92
TP51
IN4007
D102
GND1
0.68uFEY7
EY8
8
MVCC
1nF
C606
ZD101
! CY102
NC
7
OUT 14
4 RFMIN
S
VLED
1
TP93
! PC502
EL817MC
NC
R101B
Q603
STK0160
P6KE180A
COLD
! CY101
!
2 DELAY
Q501
KF5N50
10
HVG 15
3 CF
TP47
G
47TP177 TP28
D503 R519
TP207
VBOOT 16
1 CSS
D
R518
1
D101
510k
SDURF1040CT
TP3
CS2540110ME02C
TP246
C611
102
JW39
EY10
2
S
R620 R619
2W 0.12
R633
3
EY9
R629
100K
TP49
C504
220nF
Q604
STK0160
S
2
100k
! LF102EY11
TP2
D
R621
EY12
4
D
U501
L6599
G
2W 0.12
R612
100
1nF
C607
R510
750K
12k
2
JW58
CX102
330nF
TP242
TP243
TP13
1
TP29
EY33
G
R618
2
JW56
VCC
EY13
!
D
S
1
C699
2.2nF
EY32
!
EY31
TP181
GND1
EY14
TP91
TP27
TP33
1uF
C506
0
C605
10nF
EY30
!
TP12
FA5591
TP14
C603
470nF
TP17
5
C610B 47p/1kV
1
TP16
4
MMSD4148 10
10k
6
S
R610
3
R602
43K
C608
103
G
G
100
R608
TP179
D603
7
D
R617 R616
1
9
2
R603
TP15 43
TP20
CY103
470pF
R604
6.8K
TP180
!
C604
100nF
R605
68K
1
COLD
U601
IC-SOP-8 TP21
8
1
TP24
TC930080S
VCC
EY29
Q602
MDF11N60
TP22
100nF
C602
TP23
JW57
TP7
R609
TP5
R614
s
TSA601MA1
SA101
TP6
EY18
2
120 1W
R101
3
EY17
1
LF103
EY15
EY16
CY104
471
8
TP66 TP206
4
!
EY43
EY23
2
!
10
TP65 6
VCC
TP4
2
TP8
L601
EER3611 400uH
GND1
TP25
L603
1
JW50
100pF
C610A 47p/1kV
2
! CY106
COLD
7
EY34
100pF
!
EY25
4.3K
BYV29X-600
1-1735446-4
Q222
AOD407
TP48
R511
D602
2
TP18
EY35
EY44
3
2
TH601
3ohm 15D
EY26
5
EY20
C601
820n
4
!
S3V60
TP10
2
JW38
14
GND1GND1
TP251
EY36
S3V60
1
EY24
! CY105
1
JW3
JW40
2
C610 47p/1kV
BD601
RS405M
EY22
D601A
1
13
GND1
ZD220
L501
Axi bead
bead
3
4
12
+24V5
C473
100nF
S
TP9
EY19
11
BL-I-CTRL
POK
C474
AC
GND1
10
GND1
U602
AS431AN / SMD
D601
9
TP116
BL-DIM1(VSYNC)
FBP
C416
NC
D416
JW33
C415
OPEN
TP122
5.1KF
D
Q413
2N7002
8
BL-ON-OFF
R472
10k
S
TP121
GND1
R469
A
C414
OPEN
TP119
Q412
2N7002
G
TP123
7
GND1
150K
G
0
D
10KF
R456
1K
R464
100KF
R465
COLD
TP114
S
Q406
KST2222A
BL-I-CTRL
TP120
R459
TP136
JW35
R482
TP168
47K R481
10K
TP202
R460
R468
TP37
R483
10k
100KF
TP35
TP36
R631
2.7k
C622
100n
! PC601
EL817MC
1
2
R630A
1k
HOT
R630
1k
R458
+12V
VCC
10KF
EN
R470A
6
+24V5
100KF
5
+12V
VREF
4
+12V
C419
NC
3
C
R424
10k
3V3stdby
Standby
GND1
GND1
+12V
+12V
+Vsnd
GND_SND
BL-ON-OFF
BL-DIM1(Vsync)
BL-I-CTRL
POK
+24(AL2_DVBS)
GND1
2
GND1
6.8V
JW23
GND1
!
1
STANDBY
2
GND1
TP41
TP237
2
JW1
1
TP63
JW59
1
TP130
S
CN4_1M95
ST3V3
TP135
1
TP125
EY21
7
GND1
TP210
R470
C420
1N
6
C494
1uF
130KF
GND1
R446
820
R443
820
R445
820
TP126
TP127
1
2
JW11
1
2.2 R410E
2.2 R410F
1
2
2.2 R410D
2.2 R410B
JW65
2.2
2.2 R410C
R410
2.2 R410A
2
R444
820
FBN
C409 C403
1nF 6.8n
R495
2K
C492
2.2uF
R471
C413
1uF
R490
680K
Q402
KF3N40W
C491
2.2uF
39KF
C408
2.2u
GND1
S
C490
100PF
5
SD-53427-07
1
R404 TP219
270K
G
TP226
R423 D403
open MMSD4148
VREF
R492
100K
Q491
KST2222A
4
TP238
LED_CN1_K
2
1
100K
D
PWMO
OVP
R489
0
Q492
2N7002
G
1.5K
TP59
R488
3
2
JW32
2
MAP3202
LED_CN1_K
R442
820
R491
TP129
JW24
REF 8
R420
10K
TP44
R455
56
R455A
56
R455B
56
R455C
56
R455D
56
R455E
56
R455F
150
R455G R455H
5.1
39
R455I
OPEN TP236
7 SYNC
1
2
PWMO 9
GND1
Anode 1+
NC
Cathode 1NC
Anode 2+
NC
Cathode 2-
2
TP229
POK
TP131
TP223
TP232
1
6 RT
R405
110K
GND1
10k
PWMO
2
GND1
R494
1K
R493
100K
GND1
BL-DIM1(VSYNC)
TP200
R415
10
C406
330p
TP220
JW27
R419
OVP 10
TP225
PWMI 11
5 CS
C410
10N
TP209
4 GND
TP218
TP213
COMP 12
JW22
3 GATE
1
2
R417
33k
FBP
TP124
TP211
1uF
GND1
CS
FBP 13
TP214
GATE
C402
R403
10
FBN
FBN 14
1
LED_CN1_A
VREF
R433
3k
C407
1N
TP215
2 VCC
1
JW28
TP212
1 EN
GND1
TP235
2
+12V
EN
1
C401JW34
100nF
U401
R402
100K
JW31
2
R401
10K
1
BL-ON-OFF
CN2-1316
R434
75k
OVP
C405
OPEN
R414
10k
TP217
R432
75k
1
TP221
CS
TP198
R430
82k
TP134
Q401
KF5N50DS
S
TP227
G
R409 D402
10 MMSD4148
C404
JW26
2K
D
TP233 TP234
33uF/300V
TP230
GATE
2
TP231
1
3
Power Supply Unit with
Integrated Led Driver
CN1(1308)
! AC-inlet
2011-03-08
2722 171 90477
PLDC-P015A
19154_027_120313.eps
120313
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-7-2
Q552.2E LA
10.
EN 126
Layout top
4
Layout top
2011-03-08
2722 171 90477
PLDC-P015B
19154_028_120313.eps
120313
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-7-3
Q552.2E LA
10.
EN 127
Layout bottom
4
Layout bottom
2011-03-08
2722 171 90477
PLDC-P015B
19154_029_120313.eps
120313
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 128
10.8 B01 313912364954
Common Interface
Common Interface
+3V3
3F01
+5VCA
0R3
CA-MOVAL
CA-MOSTRT
IF01
3F02
CA-MOCLK
1
3F03-1
IF02
8
100R
7
100R
CA-CD2n
3EN1
3EN2
G3
CA-DATAENn
2
100R
3F03-2 2
3
4
5
6
7
8
9
IF03
4
CA-CD1n
2
18
MOCLK
17
16
15
14
13
12
11
1
MOVAL
MOSTRT
CA-DATADIR
MOVAL
10
19
MDO1
RES
MDO2
20
100n
MDO3
3EN1
3EN2
G3
3F04-1 1
8 100R
2
IF06
CA-MDO1
CA-MDO2
CA-MDO3
CA-MDO4
CA-MDO5
CA-MDO6
CA-MDO7
3F04-3 3
3F05-1 1
3F05-3 3
3F04-2
6 100R
3F04-4
8 100R
3F05-2
6 100R
3F05-4
2
7 100R
4
5 100R
2
7 100R
4
3
4
5
6
7
8
9
5 100R
1
1
2
18
MDO0
2
MDO5
17
16
15
14
13
12
11
MDO1
MDO2
MDO3
MDO4
MDO5
MDO6
MDO7
3F08-2
3F10-1
MDO6
MDO7
3F10-2
3F12
CA-RDY
10
IF07
CA-WAITn
+3V3
CA-INPACKn
2F03
15-BIT ADDRESS
3EN1
3EN2
G3
18
XIO-A01
XIO-A02
XIO-A03
XIO-A04
XIO-A05
XIO-A06
XIO-A07
CA-VS1n
1
1
2
CA-ADDENn
2
17
16
15
14
13
12
11
19
CA-A00
3
4
5
6
7
8
9
CA-A01
CA-A02
CA-A03
CA-A04
CA-A05
CA-A06
CA-A07
10
XIO-A00
CA-WP
100n
20
7F02
74LVC245A
RES
10K
2 3F11-2 7
10K
3 3F11-3 6
10K
4 3F11-4 5
10K
8 3F11-1 1
10K
1
20
17
16
15
14
13
12
11
2
CA-ADDENn
2
1
19
CA-A08
3
4
5
6
7
8
9
CA-A09
CA-A10
CA-A11
CA-A12
CA-A13
CA-A14
10
XIO-A09
XIO-A10
XIO-A11
XIO-A12
XIO-A13
XIO-A14
RES
100n
3EN1
3EN2
G3
18
+3V3
2F05
8-BIT DATA
18
XIO-D01
XIO-D02
XIO-D03
XIO-D04
XIO-D05
XIO-D06
XIO-D07
17
16
15
14
13
12
11
1
2
1
CA-DATADIR
19
CA-DATAENn
2
3EN1
3EN2
G3
XIO-D00
RES
100n
20
7F04
74LVC245A
CA-D00
3
4
5
6
7
8
9
CA-D01
CA-D02
CA-D03
CA-D04
CA-D05
CA-D06
CA-D07
+3V3
2F06
CONTROL
7F05
74LVC245A
XIO-D09
XIO-D08
XIO-OEn
XIO-WEn
XIO-D14
XIO-D15
CA-WAITn
18
RES
100n
3EN1
3EN2
G3
XIO-D11
1
2
19
+5VCA
+3V3
1P00
CA-CD1n
MDO3
MDO4
MDO5
MDO6
MDO7
CA-CE2n
CA-VS1n
CA-IORDn
CA-IOWRn
CA-MISTRT
CA-MDI0
CA-MDI1
CA-MDI2
CA-MDI3
+5VCA
CA-MDI4
CA-MDI5
CA-MDI6
CA-MDI7
MOCLK
CA-RST
CA-WAITn
CA-INPACKn
CA-REGn
MOVAL
MOSTRT
MDO0
MDO1
MDO2
CA-CD2n
CA-REGn
3
4
5
6
7
8
9
CA-MIVAL
CA-MICLK
CA-A12
CA-A07
CA-A06
CA-A05
CA-A04
CA-A03
CA-A02
CA-A01
CA-A00
CA-D00
CA-D01
CA-D02
CA-WP
CA-ADDENn
2
1
17
16
15
14
13
12
11
IF08
+5VCA
2F04
XIO-A08
+3V3
CA-D03
CA-D04
CA-D05
CA-D06
CA-D07
CA-CE1n
CA-A10
CA-OEn
CA-A11
CA-A09
CA-A08
CA-A13
CA-A14
CA-WEn
CA-RDY
+3V3
7F03
74LVC245A
IF04
8
10K
7
10K
3F10-3
3
6
10K
3F10-4
4
5
10K
MDO4
IF05
CA-MDO0
3F08-1
1 3F09-1 8
10K
2 3F09-2 7
10K
3F09-3
3
6
10K
3F09-4
4
5
10K
MDO0
+3V3
2F02
+3V3
8
10K
7
10K
3F08-3
3
6
10K
3F08-4
4
5
10K
2
MOSTRT
7F01
74LVC245A
1
B01A
100K
3F07-4
5
10K
3F07-2
2
7
10K
3F07-3
3
6
10K
3F07-1
1
8
10K
1
CA-ADDENn
MOCLK
10
22u 16V
RES 2F01
+T
19
3F06
CA-RST
RES
100n
20
7F00
74LVC245A
1
+5V
2F00
TRANSPORT STREAM FROM CAM
20
B01A
CA-CE1n
CA-CE2n
CA-OEn
CA-WEn
CA-IORDn
CA-IOWRn
XIO-D10
71
72
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
1X07
REF EMC HOLE
1X04
EMC HOLE
1X08
REF EMC HOLE
1X01
REF EMC HOLE
92789-055LF
4
SPB SSB TV550
2K11 4DDR EU
10
10-8-1
2010-12-10
3139 123 6495
19100_001_110114.eps
110114
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 129
Flash
Flash
B01B
12
7F20
H27U4G8F2DTR-BC
Φ
37
100n
100n
2F21
2F20
+3V3
VCC
[FLASH]
4G × 16
3F20-1 1
8
3F20-3 3
6
3F21-1 1
8
3F21-3 3
6
100R
3F20-2
100R
3F20-4
100R
3F21-2
100R
3F21-4
2
7
4
5
100R
2
7
100R
4
5
100R
3F22-2
+3V3
XIO-OEn
XIO-WEn
NAND-WPn
2
3F23
3F22-4
4
100R
3F22-3 3
10K
3F22-1 1
5 100R
16
17
9
8
18
19
7
7
6
100R
8
100R
IF22
3F24
+3V3
NC
2K2
CLE
ALE
CE
RE
WE
WP
R
B
IF23
3F19
VSS
13
NAND-RDY1n
0
1
2
3
IO
4
5
6
7
IF21
NAND-CE1n
NAND-CLE
NAND-ALE
29
30
31
32
41
42
43
44
100R
1
2
3
4
5
6
10
11
14
15
20
21
22
23
24
25
26
27
28
33
34
35
38
39
40
45
46
47
48
36
XIO-D00
XIO-D01
XIO-D02
XIO-D03
XIO-D04
XIO-D05
XIO-D06
XIO-D07
10K
B01B
+3V3
10-8-2
Q552.2E LA
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_002_110114.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 130
USB Hub
B01C
USB Hub
B01C
IF44
100n
2F25
+3V3
26
11
IF42
7
10K
IF32
+3V3
3F30
3 3F31-3 6
10K
IF41
12K IF40
IF39
4 3F31-4 5
31
30
27
35
22
24
25
100n
100n
2F33
100n
2F32
100n
2F31
100n
2F30
1u0
2F29
2F28
IF35
34
OSC1
USBDP_DN1|PRT_DIS_P1
USBDM_DN1|PRT_DIS_M1
BC_EN1|PWRTPWR1
13
2
1
12
USB-DP2
USB-DM
9F26
USB-DM2
RES 9F29
USB-DP3
RES 9F30
3F37
9F25
USB-DM3
10K
IF36
RESET
OSC2
USBDP_DN2|PRT_DIS_P2
USBDM_DN2|PRT_DIS_M2
BC_EN2|PWRTPWR2
SUSP_IND|LOCAL_PWR|NON_REM0
TEST
DP
USBUP
DM
VBUS_DET
OSC3
USBDP_DN3|PRT_DIS_P3
USBDM_DN3|PRT_DIS_M3
BC_EN3|PWRTPWR3
RBIAS
SDA|SMBDATA|NON_REM1
SCL|SMBCLK|CFG_SEL0
HS_IND|CFG_SEL1
NC
17
4
3
16
USB-OC2n
USB-DP2
USB-DM2
+5V
IF37
19
7
6
18
USB-OC3n
USB-DP3
USB-DM3
4
8
9
20
21
GND_HS
3F34-4
FF33
+5V-USB2
100K
3 3F34-3 6
USB-OC2n
10K
VIA
38
39
40
41
IF31
28
XTALOUT
37
USB-DP
USB-DM
3F31-2
XTALIN|CLKIN
USB-DP
0R3
32
+3V3
3F32
IF30
RESET-USBn
33
VDD_3V3
Φ
USB HUB
+T
IF33
IF34
2
36
23
15
5
10
29
1u0
CR PLL
FILT
10p
2F35
3F35
7F25
USB2513B-AEZG
3
24M
10p
4
2
1
1F25
14
3F28
+3V3
1M0
2F26
100n
2F27
IF43
10K
2F34
10-8-3
Q552.2E LA
+3V3
3F36
2
USB-OC3n
100K
3F34-2
7
100K
10K
1
3F34-1
8
SIDE USB
100K
1P08
USB-DM2
USB-DP2
+5V-USB2
FF36
FF37
5
FF32
6
1
2
3
4 IF45
5401
FF38
USB-DM3
USB-DP3
+5V
FF39
FF30
FF31
RES
1F24
1
2
3
4
5
6
502382-0570
7
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_003_110114.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 131
SD Card
SD-Card
B01D
3F40
+3V3
+T
22u 16V
B01D
2F40
10-8-4
Q552.2E LA
FF45
+3V3-SD
0R3
+3V3
4
3F41-4
IF47
5
47K
3
SDIO-DAT3
3F41-3
6
SDIO-DAT3
SDIO-CMD
2
3F44-2
FF47
7
SDIO-CMD
100R
3
47K
SDIO-CLK
SDIO-CLK
10K
1
3F44-1
FF48
+3V3-SD
8
FF49
100R
2 3F41-2 7
SDIO-DAT0
1 3F41-1 8
1 3F42-1 8
1P09-1
6
100R
3F45 RES
47K
3F43-3
SDIO-DAT0
SDIO-DAT1
SDIO-DAT2
47K
SDIO-DAT1
SDIO-DAT2
47K
2 3F43-2 7
FF41
100R
1 3F43-1 8
3 3F44-3 6
100R
FF42
3F42-2
FF46
SCDA7A0200
1P09-2
7
SDIO-CDn
SDIO-CDn
FF44
SDIO-WP
SDIO-WP
FF50
47K
3 3F42-3 6
14
16
FF43
100R
2
13
15
1
2
3
4
5
6
7
8
9
10
11
12
SCDA7A0200
47K
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_004_110114.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 132
PNX85500 Control
PNX85500 Control
+3V3-STANDBY
B01E
+3V3-STANDBY
Q
IF50
5
D
512K
FLASH C
BACKLIGHT-BOOST
7F53 RES
PDTA114EU
PNX-SPI-SDO
IF52
6
10K
RES
10K
3F67
Φ
3F66
IF53
1
S
PNX-SPI-CSBn
IF54
3
W
7
HOLD
+5V
PNX-SPI-CLK
PNX-SPI-WPn
+3V3-STANDBY
FF29
VSS
IF55
BOOST-PWM
IF61
47K
2
+3V3
+3V3
3F68 RES
PNX-SPI-SDI
3F52
8
7F52
M25P05-AVMN6
VCC
IF51
+3V3
100n
RES
100p
2F52
2F49
+3V3-STANDBY
10K
7F54-1 RES
BC847BPN(COL) 6
7F54-2 RES
BC847BPN(COL)
SPI-PROG
IF56
4
IF57
2
1
4
FF04
5
IF62
SDM
3
FF58
1K0
RES
RES
3F69
10K
2F53
MAIN NVM
+3V3
RES
9CH0
10K
3F54
3F53
1u0
B01E
DEBUG ONLY
IF58
2F58 RES
IF59
Φ
(8K × 8)
EEPROM
1
2
3
0
1
2
WC
ADR
SDA
100R
FF62
FF63
SCL
3F63
4
100R
SCL
1
2
3
SDA
5
7
6
5
FF55
3F59
100R
3F60
SCL-UP-MIPS
FF56
SDA-UP-MIPS
100R
4
3F58
RES
1F52
3F62
SDA-SSB
8
7F58
FF61
SCL-SSB
100n
10K
10-8-5
Q552.2E LA
FF57
LEVEL
DEBUG / RS232 INTERFACE
TXD-UP
RXD-UP
RESET-STBYn
SPI-PROG
FF65
FF66
100R
SHIFTED
RES
1F51
3F64
FF64
3F65
100R
7
6
1
2
3
4
5
UP
FOR
DEBUG
USE ONLY
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_005_110114.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-8-6
Q552.2E LA
10.
EN 133
Tuner
Tuner
B01F
B01F
IF10
IF11
3F81
1
3F78
4
470n
2
5F70
TUN-IF-P
5F73
3
1p0
15p
2F70 RES
2F62
IF13
IF14
2F64
IF15
15p
IF-
10n
IF+
10n
2F90
IF86
TUN-IF-N
2F63
680n
2F66
10n
1K0
2F92
3F72
220R
220R
10n
+5V-TUN-PIN
BA591
6F72
4K7
9F06
*
3F71
9F05
47n
2F85
100p
*
IF12
5F66
3F80
+5V-TUN-PIN
* For BR NIM Tuner Only
3K3
FF82
5
8
PNX-IF-N
IF72
RES 2F95
100n
2F93
FF81
*
IF79
FF01
IF-AGC
*
AF73
3F77
4K7
IF-AGC
FF75
*
IF82
PNX-IF-AGC
100p
* 9F04
TUN-IF-N
TUN-IF-P
RES 2F96
FF00
2F61
2F60
100n
AF71
AF70
2F65 RES
2F73
*
*
*
220R
820R
AGC CONTROL
3F79-4
IF16
330n
3F82 RES
VAGC
4
RES 5F76
4
10n
IF80
5F74
2F79
*
AF72
3F79-1
220R
10n
IF78
10n
X7251M
36M17
1
2F82
6
IF76
2p2
2F77
OUTPUT2
2F75
RES
2F76
INPUT2
2F72
9F02
9F03
1
VCC
3
IF74
7
2F80
IF81
IF77
OUTPUT1
5F71
5
4
INPUT1
GND2
O1
O2
GND
RES 2F9D
RES 2F9C
RES 2F9B
RES 2F9A
RES 2F99
RES 2F98
RES 2F97
2F91 RES
ATB2012
10n
IF89
15p
47R
2F86
3F75
15p
47R
IF87
SCL-TUNER
IF88
SDA-TUNER
IF90
SELECT-SAW
2F94
TUN-P6
TUN-P7
7F70
PDTC114EU
10n
3F76
RES
2F84
* For EU Hybrid Tuner Only
9F71
5F72 RES
+5V-TUN-PIN
+5V-TUN
22u
30R
2F88
4n7
RES 2F59
4n7
RES 2F81
*
IF73
2
*
*
FF74
FF76
TUN-P6
TUN-P7
I
ISWI
2F74
GND1
6p8
6p8
6p8
6p8
6p8
6p8
6p8
1
2
3
TUN-P1
10n
10n
2F78
IF75
*
+5V-TUN-PIN
7F75
UPC3221GV-E1
1F75
PNX-IF-P
2F71
9F01
9F00
NC
IF_OUT2
13
12
IF_OUT1
11
4MHZ_REF
14
10
B+_TUN
9
I2C_SDA
8
I2C_ADR
5
TUN
RF_AGC
4
B+_LNA
3
RF_IO
2
1
16
I2C_SCL
TUNER
15
7
*
6
FF71
1T01
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_006_110114.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 134
Toshiba Supply
Toshiba supply
B01G
+1V2-BRA-DR1
+3V3
5FA3
30R
2
10u
OUT
5FA4
IN
2FA4
3
100n
7FA3
LD1117DT12
30R
2FA3
+1V2-BRA-VDDC
FFAF
1
COM
100n
B01G
2FA2
10-8-7
Q552.2E LA
FFA2
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_007_110114.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 135
HDMI
HDMI
B01H
HDMI CONNECTOR SIDE
1P05
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
FFB5 21
23
DRX2+
DIN-5V
DRX2DRX1+
DRX1DRX0+
DRX0DRXC+
DRXCPCEC-HDMI
FFB1
FFB2
FFB3
FFB4
20
22
DRX-DDC-SCL
DRX-DDC-SDA
DRX-DDC-SCL
DRX-DDC-SDA
47K
B01H
1 3FBF-1 8
10-8-8
Q552.2E LA
2 3FBF-2 7
DIN-5V
47K
DIN-5V
DRX-HOTPLUG
FFB6
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_008_110114.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 136
VGA
VGA
B01I
3FC5
CDS4C12GTA
12V
RES 6FC1
1FC1
100p
RES 2FC1
FFC1
CDS4C12GTA
12V
RES 6FC2
1FC2
100p
G-VGA
18R
1FC3
RES 6FC3
FFC4
100p
RES 2FC3
FFC3
CDS4C12GTA
12V
3FC7
B-VGA
18R
FFC5
V-SYNC-VGA
4K7
3FC3
CDS4C12GTA
12V
1FC4
FFC6
1216-02D-15L-2EC
H-SYNC-VGA
9FC6
RES 6FC4
9FC5
47p
CDS4C12GTA
12V
RES 6FC6
47p
2FC6
3FC4
4K7
VGA-SDA-EDID-HDMI
9FC2
10K
RES
3FC2
CDS4C12GTA
12V
RES 6FC5
1FC5
9FC1
FFC8
VGA-SDA-EDID
RES
9FC3
FFC9
47p
RES 6FC7
10K
CDS4C12GTA
12V
RES
3FC1
47p
2FC5
FFC7
VGA-SCL-EDID-HDMI
9FC4
RES
VGA-SCL-EDID
RES 6FC8
1FC6
47p
+5V-VGA
CDS4C12GTA
12V
17
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
2FC4
VGA
CONNECTOR
3FC6
RES 2FC2
1E05
R-VGA
18R
FFC2
2FC7
B01I
2FC8
10-8-9
Q552.2E LA
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_009_110114.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 137
Temp sensor & headphone
Temp sensor & headphone
B01J
A2
1K0
3FD2
9FD2 RES
9FD1 RES
100n
IFD5
5
RES
+VS
SCL
IFD3
6
A1
9FD5
2
SDA
1K0
1
8
2FD1
1K0
IFD4
IFD1
7
A0
4
100R
100R
OS
1K0
3FD7
SCL-SSB
3FD4
3
3FD6
SDA-SSB
IFD2
7FD1
LM75BDP
GND
3FD3
LTST-C190KGKT
RES
3FD1
+3V3
RES
RES
1329
4
1
2
3
5
502382-0370
1328
MSJ-035-12D-B-AG-PBT-BRF
FFDA
AMP1
2
3
1
22n
FFDB
22n
2FDD
CDS4C12GTA
12V
2FDC
RES
6FD3
CDS4C12GTA
12V
1FD3
6FD2
1FD2
RES
1
1K0
1K0
3FDG-1
3FDG-2
7
8
AMP2
2
B01J
6FD1
10-8-10
Q552.2E LA
FFDC
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_010_110114.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 138
Tuner Brazil
B01K
Tuner Brazil
B01K
5FE0
IF63
IF64
+1V2-BRA-VDDC
+2V5-BRA
+3V3-BRA-FLT
1u0
100n
2FF1
100n
2FF0
100n
2FE5
100n
2FE4
2FE3
1u0
2FE0
30R
AGND
5FE3
IF65
IF66
+3V3-BRA-FLT
5FE4
+3V3-BRA
1u0
100n
2FF6
100n
2FF5
100n
2FF4
100n
2FF3
1u0
2FF2
30R
2FE6
30R
AGND
5FE5
IF67
IF68
+1V2-BRA-DR1
IF48
5FE7
+3V3-BRA
+3V3
1u0
100n
2FF9
100n
2FF8
2FF7
1u0
2FE8
30R
30R
5FE8
IF69
+2V5-BRA
7FE3
LD3985M25
1u0
100n
2FG1
25M4
4
5FE9
1
+5V
30R
18p
2
3
2FG3
2FG2
1FE0
2FG0
30R
1
18p
3
IN
OUT
INH
BP
FF03
5
+2V5-BRA
4
10n
2FG6
2FG7
AGND
100n
2FG8
10n
100n
IF17
IF18
30
29
BFE2
28
27
BFE3
100n
2FH6
100n
24
25
2FH7
2FG9
100n
26
AGND
39
AGND
O
0
XSEL
1
PBVAL
RERR
RLOCK
P
ADI_AI
N
RSEORF
P
ADQ_AI
N
SBYTE
SLOCK
P
AD_VREF
N
SRCK
AD_VREF
SRDT
DTCLK
STSFLG1
21
58
53
54
55
1n5
3FG6-4
5
33R
TS-BR-VALID
1
9F27-1
8
*
3FG6-3
3
6
33R
TS-BR-SOP
2
9F27-2
7
*
7
11
SCL-SSB
SDA-SSB
3FE8
100R
3FE9
IF49
100R
45
46
STSFLG0
SYRSTN
AGCI
0
SLADRS
1
CKI
SCL
SDA
AGND
PLLVSS
10K IF29
0
TSMD
1
*
TS-FE-CLOCK
*
TS-FE-DATA
DFE8
DFE9
5FG0
3FG7
3FG6-2
60
TN
SCL
SDA
33R
2
7
TS-BR-CLOCK
33R TS-BR-DATA
9F28
4
9F27-4
5
30R
5FG2
DFF1
30R
9
3FE5
18K
10
51
1u0
TS-FE-SOP
DFE7
DFF2
IF28
IF-AGC
AGND
42
6
5
12
14
3FG2-1
RESET-SYSTEMn
10K
3FG2-2
10K
3FG4-2
4K7
3FG4-1
4K7
VSS
+3V3-BRA-FLT
4
15
33
37
44
47
50
57
62
3FE7
AGCCNTR
17
1
41
10K
S_INFO
AD_DVSS
3FE6
AGCCNTI
31
8
DTMB
AD_AVSS
+3V3-BRA-FLT
10n
TS-FE-VALID
DFE6
61
38
4
IF27
40
2
AGND
59
52
2FH4
* To be drawn near PNX85500
2FH3
2FH5
1u0
43
FIL
2FH2
VDDS
DR2VDD
Φ
34
48
13
35
49
64
20
16
36
56
63
VDDC
10n
2FG4
IF+
IF-
X
2FH8
3
2
I
DR1VDD
18
PLLVDD
19
32
AGND
AD_AVDD
AGND
AD_DVDD
AGND
22
COM
7FE0
TC90517FG
23
10-8-11
Q552.2E LA
AGND
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_011_110208.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 139
10.9 B02 313912364954
NANDflash - conditional access
PNX85500: NANDflash - conditional access
B02A
7S00-5
PNX85500
FLASH
J25
J26
H21
H22
H23
H24
H25
H26
G21
G22
G23
G24
G25
G26
F22
F23
IS25
00
01
02
03
04
05
06
07
XIO_A
08
09
10
11
12
13
14
15
XIO-D00
XIO-D01
XIO-D02
XIO-D03
XIO-D04
XIO-D05
XIO-D06
XIO-D07
XIO-D08
XIO-D09
XIO-D10
XIO-D11
XIO
B22
OE_
C22
WE_
XIO-OEn
XIO-WEn
CLK_BURST
CE1_
CE2_
NAND RDY2
RDY1
WP_
INPACK
XIO-D14
XIO-D15
B21
IS26
INPACK
3S15
10K
+3V3
E21
D21
A20
F21
A21
NAND-CE1n
NAND-RDY1n
NAND-WPn
9S08
10K
RES
D22
ALE
C21
NAND
CLE
XIO-A00
XIO-A01
XIO-A02
XIO-A03
XIO-A04
XIO-A05
XIO-A06
XIO-A07
XIO-A08
XIO-A09
XIO-A10
XIO-A11
XIO-A12
XIO-A13
XIO-A14
XIO-A15
D25
D26
C24
D23
C23
B23
A22
E22
F24
F25
F26
E23
E24
E25
E26
D24
00
01
02
03
04
05
06
07
XIO_D
08
09
10
11
12
13
14
15
3S1V
NAND-ALE
NAND-CLE
10K
3S1W
+3V3
IS00
7S00-11
PNX85500
3S01-1
33R
3S01-3 6
8
3S01-2 2
3 33R
33R 5 3S02-4 4
33R
7 3S02-2 2
33R 3S02-1 1
3 33R
6
3S02-3
33R 5 3S01-4 4
33R
CA-MDI0
CA-MDI1
CA-MDI2
CA-MDI3
CA-MDI4
CA-MDI5
CA-MDI6
CA-MDI7
1
P21
7 P22
P23
P24
P25
8 P26
N21
N22
CA-ADDENn
J22
CA-DATADIR
K25
CA-DATAENn
K26
3S03
CA-MICLK
N23
10R
L25
CA-MOCLK
N24
3S31
CA-MIVAL
33R
N25
CA-MOSTRT
L22
CA-MOVAL
L23
J21
CA-RDY
L24
CA-RST
L26
VIDEO_STREAM
0
1
2
3
MDI
4
5
6
7
0
1
2
3
MDO
4
5
6
7
10K
3S1X
+3V3
N26
M21
M22
M23
M24
M25
M26
L21
CA-MDO0
CA-MDO1
CA-MDO2
CA-MDO3
CA-MDO4
CA-MDO5
CA-MDO6
CA-MDO7
ADD_EN
VS
K23
1
K24
2
CD
DATA_DIR
K21
1
K22
2
DATA_EN
I
MCLK
O
9S00
CA-VS1n
CA-MOCLK
CA-CD1n
CA-CD2n
CA
+3V3
MISTRT
MIVAL
TS-FE-DATA
3S1R
MOSTRT
TS-FE-CLOCK
3S1S
MOVAL
TS-FE-VALID
3S1T
OOB_EN
TS-FE-SOP
3S1U RES
560R
560R
RES
560R
560R
RDY
J24
+3V3
RST
VCCEN
VPPEN
T21
DATA
T23
ERR
T22
TNR_SER1 MICLK
R23
MIVAL
R22
SOP
TS-FE-DATA
TS-FE-DATA
3S23
TS-FE-CLOCK
TS-FE-VALID
TS-FE-SOP
TS-FE-CLOCK
3S24
TS-FE-VALID
3S28
TS-FE-SOP
J23
RES
9S01
CA-MISTRT
470R
3S29 RES
TS-FE-ERR
470R
470R
RES 470R
100n
7S02
5
33R
B02A
3S04
2S09
10-9-1
1
4
2
3
4
74LVC1G08GW
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_012_110209.eps
110209
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 140
SDRAM
PNX85500: SDRAM
B02B
F3
C2
F2
C3
B4
F1
C1
E1
F4
B2
E5
C5
A4
G5
B3
F5
U3
P2
U2
P3
N1
U1
P1
T1
V4
R5
U5
P5
N3
V3
R4
V5
3S07
180R 1%
180R 1%
DDR2-VREF-CTRL2
2S12
N
P
DQS0
N
P
DQS1
N
P
DQS2
N
P
DQS3
N
P
CASB
CKE
CSB
ODT
PCAL
RASB
WEB
VREF
1
2
N5
N4
DDR2-CLK_N
DDR2-CLK_P
3S30
10R
3S33
10R
E2
E3
DDR2-DQS0_N
DDR2-DQS0_P
D3
D4
DDR2-DQS1_N
DDR2-DQS1_P
R1
R2
DDR2-DQS2_N
DDR2-DQS2_P
T3
T4
DDR2-DQS3_N
DDR2-DQS3_P
K3
K4
L5
M4
M1
M5
H3
DDR2-CAS
DDR2-CKE
DDR2-CS
DDR2-ODT
DDR2-RAS
DDR2-WE
A2
V1
DDR2-CKE
3S6Q
10K
DDR2-ODT
3S6P
10K
RES
DDR2-VREF-CTRL2
DDR2-VREF-CTRL3
3S0V
FS01
DDR2-VREF-CTRL3
CLK
2S24
FS02
100u 2.0V
3S06
180R 1%
180R 1%
3S20
+1V8
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
DQ
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
M0
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A13
DDR2-A14
1%
DDR2-D0
DDR2-D1
DDR2-D3
DDR2-D2
DDR2-D6
DDR2-D5
DDR2-D4
DDR2-D7
DDR2-D8
DDR2-D9
DDR2-D10
DDR2-D11
DDR2-D12
DDR2-D13
DDR2-D14
DDR2-D15
DDR2-D16
DDR2-D17
DDR2-D19
DDR2-D18
DDR2-D22
DDR2-D23
DDR2-D20
DDR2-D21
DDR2-D24
DDR2-D30
DDR2-D26
DDR2-D25
DDR2-D28
DDR2-D31
DDR2-D27
DDR2-D29
0
1
DM
2
3
J1
J3
K1
G4
L3
G3
L2
H5
L1
J5
J2
M3
J4
M2
K5
IS42
261R
D1
D5
R3
T5
0
1
2
3
4
5
6
7
A 8
9
10
11
12
13
14
100p
DDR2-DQM0
DDR2-DQM1
DDR2-DQM2
DDR2-DQM3
MEMORY
0
1 BA
2
100n
2S25
DDR2-BA2
H1
H2
G1
DDR2-BA0
DDR2-BA1
100n
2S17
7S00-8
PNX85500
100p
2S20
B02B
3S22
10-9-2
Q552.2E LA
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_013_110209.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 141
Digital video in
PNX85500: Digital video in
B02C
7S00-6
PNX85500
HDMI_DV
HDMIA-RX2+
HDMIA-RX2-
T25
T26
HDMIA-RX1+
HDMIA-RX1-
U25
P
RX1_A
U26
N
P
RX0_A
N
DDC_A
Y26
SCL
Y25
SDA
HDMIA-RX0+
HDMIA-RX0HDMIA-RXC+
HDMIA-RXC+3V3
V25
P
RX2_A
V26
N
HOT_PLUG_A
DDCA-SCL
DDCA-SDA
W25
P
RXC_A
W26
N
IS10
T24
IS01
3S0W
W24
RREF
12K
10u
B02C
RES
2S2E
10-9-3
Q552.2E LA
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_014_110209.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-9-4
Q552.2E LA
10.
EN 142
Audio
B02D
PNX85500: Audio
B02D
3S0Z
+2V5-AUDIO
3S53-1
+24V-AUDIO-POWER
4R7
100R
220n
2S3J
2S2S
10u RES
1u0 RES
2S34
2
100n
2S2T
100u 4V
1u0
2S41
3S36-1
2S2G
1u0
3S3G-2
2
7
4
IS1S
AB9
POS
VR_AADC
AB8
NEG
3S3G-4
100n
DBS8
AE5
7S05-3
LM324 8
3S39
-AUDIO-R
100R
ADAC(3)
ADAC(4)
3S36-3
10K
6
10K
3S36-4
2S2H
ADAC(5)
33R
3S3U
4
5
47p
ADAC(6)
+24V-AUDIO-VDD
33R
SPDIF_OUT
2S3D
AF5
56R
4
33R
3
AE1
1
AF2
VREF_AADC
2
AE3
I2S_OUT_SD 3
AF3
AC8
VCOM_AADC
4
3S3F
5
3S3H
AD8
IS1A
10
33R
AD4
OSCLK
AD1
SCK
AD2
WS
I2S_OUT
IS03
ADAC(2)
SPDIF_IN1
1n0
IS1B
AF8
L
AIN5
AE8
R
AD7
AE7
AF7
AD6
AE6
AF6
1n0
2S38
2S2L
8
11
1n0
2S39
3S10
100R
1
9
1n0
2S3A
1u0
ADAC(2)
33R
1n0
2S3B
7
6
1n0
2S3C
AD9
L
AIN4
AC9
R
2S32
IS07
3
ADAC(5)
4
7S05-1
LM324
1
AUDIO-OUT-L
2
11
3S37
3S6L
10K
22K
2S2K
+3V3
47p
+3V3-ARC
+24V-AUDIO-VDD
3S11
IS1L
1R0
5
ADAC(6)
4
IS06
7S05-2
LM324 7
AUDIO-OUT-R
6
14
7S09-1
74LVC00APW
1
IS1D
&
3
2
1 3S18-1 8
IS1G
SPDIF-OUT
220R
100n
3S18-2
+3V3
2S3K
7
SPDIF-OUT-PNX
2
+3V3
3S34
7S09-3
74LVC00APW
9
&
6
14
+3V3-ARC
&
8
180R
IS1K
3S6M
2S3M
IS44
eHDMI+
100n
68R
3S25
7
+3V3
10
2S3L
100n
5
+3V3-ARC
7S09-4
74LVC00APW
12
14
SEL-HDMI-ARC
IS1E
22K
2S2J
47p
+3V3-ARC
7S09-2
74LVC00APW
4
3S32
10K
&
11
+3V3
13
7
SPDIF-OUT-PNX
11
220R
IS19
1
2
3
ADAC
4
5
6
3S3G-3
6
7
10K
10K
7
ADAC(1)
3
3S18-3
3S17-2
33R
7
IS1Q
1 3S3G-1 8
IS1N
AC6
P
AB6
ADACR
N
AE9
L
AIN3
AF9
R
1u0
2
3S36-2
3
8
3S13-2
22K
2S33
10u
2S3G
2
8
10K
100n
2S3H
AUDIO-IN4-R
22K
AD10
L
AC10
AIN2
R
3S17-1
10u
2S3E
1
2S3F
AUDIO-IN4-L
+AUDIO-L
11
47p
1u0
14
3S13-1
3S38
100R
+24V-AUDIO-VDD
2S36
AUDIO
AE10
AC7
L
P
AF10
AB7
AIN1
ADACL
R
N
2S30
1u0
1
7S05-4
LM324 14
13
10K
220R
6
10K
22K
IS1P
4
IS02
7S00-2
PNX85500
2S31
1u0
3
3S17-3
6
4R7
2S42
1u0
5
10K
7
22K
+2V5
12
ADAC(1)
2
2S2Y
3S17-4
5
3S13-3
3
COM
4S14
100n
AUDIO-IN3-R
INH
IS13
3
IS1M
2S3Q
4
4
IS0R
3S13-4
BP
FS03
1
1u0
IS0V
3S51
3S16-4 5
4
10K
IN
2S2Z
6
10K
AUDIO-IN3-L
2S2R
100R
1u0
3S16-3 3
OUT
4
2S2V
22K
5
IS12
3S53-4
7
10K
7
100R
10K
AUDIO-IN1-R
IS1J
2 3S12-2
2
3S16-2
FS08
10u
22K
7S08
LD3985M25
100R
3S53-3
1u0
8
3S19
AUDIO-IN1-L
2S2W
1 3S16-1 8
10K
IS1H
3S12-1
9S06
RES
1
+24V-AUDIO-VDD
+3V3
3S53-2
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_015_110209.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-9-5
Q552.2E LA
10.
EN 143
MIPS
PNX85500: MIPS
B02E
B02E
+3V3
7S00-3
PNX85500
CONTROL
10K
3S62
IS04
GPIO6
PNX-SPI-CS-BLn
+3V3
GPIO6
PNX-SPI-CS-BLn
BOOST-PWM
SELECT-SAW
+3V3
FS64
SELECT-SAW
5K6
3S64
3S55
10K
TRSTN
TMS
TCK
TDO
TDI
RESET_SYS
BL_PWM
10K
CLK_54_OUT
3S83
+3V3
RXD1-MIPS
3D-VS
10K
3S84
+3V3
10K
3S60
1
100R
B24
SDA
A23
4
SCL
R26
DN
R25
USB
IS4Z R24 DP
RREF
USB-DM
USB-DP
B25
SDA
A24
SCL
1
100R
2 3S5W
SDA-SET
SCL-SET
SDA-SET
SCL-SET
3S6C
4K7
3S5Z
SDA-SSB
SCL-SSB
SDA-SSB
SCL-SSB
3S6E
2K2
3S61
SDA-TUNER
SCL-TUNER
2
2
1
100R
2
AA25
AA24
AA23
AB26
AB25
EJTAG-TRSTn-PNX85500
EJTAG-TMS-PNX85500
EJTAG-TCK-PNX85500
EJTAG-TDO-PNX85500
EJTAG-TDI-PNX85500
3S00
AE4
3S6A
4K7
4K7
3S6D
FS53
2K2
3S6F
3S6G
4K7
FS49
FS50
FS51
FS52
EJTAG-DETECTn
3S6B
SDA-TUNER
SCL-TUNER
FS44
EJTAG-TRSTn-PNX85500
EJTAG-TMS-PNX85500
EJTAG-TDO-PNX85500
EJTAG-TCK-PNX85500
EJTAG-TDI-PNX85500
2K2
10 9
1
2
3
4
5
6
7
8
FOR FACTORY
USE ONLY
2K2
3S6K
EJTAG-TRSTn-PNX85500
EJTAG-TMS-PNX85500
EJTAG-TCK-PNX85500
EJTAG-TDO-PNX85500
EJTAG-TDI-PNX85500
1
10K
8 3S6H-1
10K
3
6 3S6H-3
2
10K
10K
+3V3
FS57
+3V3-STANDBY
BM08B-SRSS-TBT
7 3S6H-2
5 3S6H-4
4
10K
RESET-SYSTEMn
33R
AD5
BACKLIGHT-PWM
AC5
IS14
+3V3
TXD1-MIPS
3S72
3S4A
BACKLIGHT-PWM
+3V3
IS40
PXCLK54
47R
100R
IS15
3D-VS-DISP
3S4B
100R
RES
RES
+3V3
2S89
100n
+3V3
3
RES 3S21
+3V3
10K
10K
FS10 TXD2-MIPS
FS11 RXD2-MIPS
3
1
100R
1 3S5Y 2
100R
SDA-UP-MIPS
SCL-UP-MIPS
7S01
PCA9540B
SC0
VDD
SC1
SCL-SET
1
SCL
SDA-SET
2
SDA
INP
FIL
I2 C
-BUS
CTRL
5
3S65
SCL-DISP
1
4K7
1
4K7
3S67
1
4K7
3S68
2
1
4K7
SCL-DISP
2
3S66
8
SCL-BL
SD0
4
SDA-DISP
SD1
7
SDA-BL
SCL-BL
SDA-DISP
SDA-BL
2
2
VSS
6
+3V3
+3V3
3S80
3S81
10K
9S09
RES
1F10
3S69
SDA-UP-MIPS
SCL-UP-MIPS
2 3S57
10K
BOOST-PWM
+3V3
IS17
1
100R
3S58
1
2
100R
B26
SDA
A25
2
SCL
GPIO_0
GPIO_1
GPIO_2
GPIO_3
GPIO_4
GPIO_5
GPIO_6
GPIO_7
GPIO_10
GPIO_11
2
3S27
3D-LR
DS52
10K
3S82
Y21
IS16 Y22
Y23
Y24
W21
W22
W23
V22
V23
U23
3S56
10K
+3V3
BOOTMODE
3D-LR
RXD1-MIPS
TXD1-MIPS
RXD2-MIPS
TXD2-MIPS
1
100R
3S6J
10K
3S40
C25
SDA
C26
SCL
3S26
1
BOOTMODE
RES 10K
IS05
3S45
+3V3
FS31
9S10
IS08
SCL-BL
SDA-SET
IS09
9S11
FS2W
SCL-DISP
9S12
SCL-SET
FS2Y
SDA-DISP
9S13
SDA-BL
7S00-4
PNX85500
ETHERNET
ETH-RXCLK
AA3
ETH-RXD(0)
ETH-RXD(1)
ETH-RXD(2)
ETH-RXD(3)
Y5
0
Y6
1
AB4
RXD ETH
2
AC1
3
IS50
RXCLK
ETH-RXDV
ETH-RXER
AC2
RXDV
Y4
RXER
SDIO-DAT3
SDIO-CLK
SDIO-CMD
SDIO-DAT0
SDIO-DAT1
SDIO-DAT2
SDIO-CDn
SDIO-WP
W2
W1
W6
W5
W4
W3
U6
V6
TXCLK
0
1
2
3
TXEN
TXER
COL
CRS
MDC
MDIO
TXD
ETH
CC_DAT3
CLK
CMD
0
SDIO
1 DAT
2
SDCD
SDWP
AA2
ETH-TXCLK
AA1
AA4
AB1
AB2
AA5
AB3
AC3
Y2
Y3
Y1
ETH-TXD(0)
ETH-TXD(1)
ETH-TXD(2)
ETH-TXD(3)
ETH-TXEN
ETH-TXER
ETH-COL
ETH-CRS
ETH-MDC
ETH-MDIO
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_016_110209.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-9-6
Q552.2E LA
10.
EN 144
Video out - LVDS
B02F
PNX85500: Video out - LVDS
B02F
7S00-7
PNX85500
PX1APX1A+
A7
B7
PX1BPX1B+
C8
B8
PX1CLKPX1CLK+
9S90
9S91
LVDS
N
A
P
A
B
N
B
P
C10
N
B10
CLK
P
PX1CPX1C+
A9
B9
PX1DPX1D+
N
P
N
P
CLK
D7
E7
PX3APX3A+
E8
D8
PX3BPX3B+
E10
N
D10
P
9S94
9S95
PX3CLKPX3CLK+
C
N
P
D9
E9
PX3CPX3C+
A11
N
B11
D
P
D
D11
N
E11
P
PX3DPX3D+
PX1EPX1E+
C12
N
B12
E
P
E
E12
N
D12
P
PX3EPX3E+
PX2APX2A+
A14
N
B14
A
P
A
D14
N
E14
P
PX4APX4A+
PX2BPX2B+
C15
N
B15
B
P
B
E15
N
D15
P
PX4BPX4B+
CLK
E17
N
D17
P
C
D16
N
E16
P
PX4CPX4C+
D
D18
N
E18
P
PX4DPX4D+
E
E19
N
D19
P
PX4EPX4E+
PX2CLKPX2CLK+
PX2CPX2C+
PX2DPX2D+
PX2EPX2E+
9S92
9S93
LOUT1 LOUT3
N
C
P
C17
N
B17
CLK
P
A16
B16 N
C
P
A18
B18 N
D
P
C19
B19 N
E
P
LOUT2 LOUT4
9S96
9S97
PX4CLKPX4CLK+
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_017_110209.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-9-7
Q552.2E LA
10.
EN 145
Standby controller
PNX85500: Standby controller
B02G
POL
+1V1
B02G
2S13
100n
1u0
2S10
30R
RES
5S04
IS3B
10K
+3V3-STANDBY
3S1H
10K
3S1G
RXD-UP
TXD-UP
10K
3S2A
RXD-UP
TXD-UP
DETECT2
RESET-SYSTEMn
AV2-BLK
AV1-BLK
KEYBOARD
LIGHT-SENSOR
AV1-STATUS
AV2-STATUS
10K
RES
RESET-SYSTEMn
3S1J
100K
RES
KEYBOARD
2S4E
100n
3S1L
10K
SPI-PROG
AC17
AF26
VDD_XTAL
PSEN
MC
SPI-PROG
PNX-SPI-WPn
AF22
4
P6
AE22
5
RESET-STBYn
AB24
EA
IS3F
AC23
SDA
AC24
SCL
3S2F
100R
100R
100R
3S2K
3S2H
100R
3S43
10K 3S42
10K
PSEN
SDA-UP-MIPS
SCL-UP-MIPS
LED1
LED2
AE23
SDO
AF25
SDI
AF24
SPI
CLK
AF23
CSB
AB17
0
AA18
1
AD18
2
AE18
3
AF18
P0
4
AA19
5
AB19
6
AC19
7
ALE
PSEN
3S2G
10K
EA
ALE
AC26
3S44
IS3E
IS3D
AB23
AD26
0
PWM AC25
1
AD23
0
AE26
1
AE25
P5
2
AE24
3
10K
RES
3S1K
ALE
AE21
0
AF21
1
AA22
2
AB22
P3
3
AC22
4
AD22
5
DETECT2
EA
RES
SDA-UP-MIPS
SCL-UP-MIPS
3S6V
4K7
RES
LED1
LED2
3S6W
3S1P
10K
IS2V
CTRL-DISP
RESET-DVBS
RESET-USBn
RESET-ETHERNETn
SEL-HDMI-ARC
RESET-AVPIP
RESET-AUDIO
AUDIO-MUTE-UP
RES
3S41
10K
PNX-SPI-SDO
PNX-SPI-SDI
PNX-SPI-CLK
PNX-SPI-CSBn
IS2Z
4K7
RES
10K
RES 3S3Y
10K
CTRL-DISP
RESET-DVBS
RESET-USBn
RESET-ETHERNETn
SEL-HDMI-ARC
RESET-AVPIP
RESET-AUDIO
AUDIO-MUTE-UP
10K
3S2L
RES
10K
RES
10K
3S2S
RES
3S3W
4K7
3S46
3S47
+3V3-STANDBY
3S2M
RES
3S49
10K
4K7
+3V3-STANDBY
+3V3-STANDBY
7S20
NCP303LSN28
2
FS45
1
IS2U
5
INP
OUTP
CD
1K0
10K
3S3T
STANDBY
AA26
1 3S2V 2
RES 3S3S
RESET_IN
+3V3-STANDBY
10p
AF17
FS0Z
RESET-STBYn
1
NC GND
3
10K
AC20
0
AD20
1
AE20
2
AF20
3
AA21
P2
4
AB21
5
AC21
6
AD21
7
XTAL_OUT
AE17
4
3S3P
LCD-PWR-ONn
EJTAG-DETECTn
LAMP-ON
STANDBY
FAN-CTRL1
FAN-CTRL2
POWER-OK
ENABLE-3V3n
XTAL_IN
10p
2S4F
100n
10K
LCD-PWR-ONn
EJTAG-DETECTn
LAMP-ON
STANDBY
FAN-CTRL1
FAN-CTRL2
POWER-OK
ENABLE-3V3n
2
4
1
2S4K
3S3M
RES
10K
3S3N RES
10K
3S3Q RES
10K
3S3R
10K RES
7S00-9
PNX85500
9S0E
3S3L
10K
AD19
0
AE19
1
AF19
2 P1
AA20
3
AB20
7
2S4G
3
1
RES
+3V3-STANDBY
RC
TACHO
CEC-HDMI
BACKLIGHT-PWM-ANA-DISP
SDM
DS50
9S0D
3S1E
10K
RC
TACHO
CEC-HDMI
BACKLIGHT-PWM-ANA-DISP
SDM
AD17
10K
3S1D
27K
RES
10K
RES
3S1F
VDDA_ADC2V5
2S4D
1n0
3S1B
3S1C
VSS_XTAL
+3V3-STANDBY
VDDA_1V1_DCS
AA17
IS20
54M
100n
1S02
9S24
1u0
2S11
RES
2S37
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_018_110209.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 146
Power
PNX85500: Power
B02H
5S80
IS3Q
100n
2S5A
RES 10u
2
+1V1
1
B02H
2S6A
10-9-8
Q552.2E LA
30R
5S81
2S5B
RES 10u
1
100n
2S6B
2
+2V5
30R
5S82
IS3S
100n
100n
2S68
+3V3
+2V5
2S5D
VDD_3V3_SBY
2S4M
10u
VSSA_USB
VDDA_2V5_VADC
VDDA_2V5_VDAC
VDDA_3V3_USB
10u
100n
100n
2S4Y
10u
2S50
100n
2S4Z
6.3V
10u
100n
+1V2
30R
c000
SENSE+1V2
Y17
D13
POL
T20
Y13
+2V5-AUDIO
Y10
100n
VDDA_2V5_USB
30R
R21
R20
VSSA_2V5_LVDS_BG
VDDA_2V5_LVDS_BG
AA7
+2V5
30R
5S84
AA9
2S46
VDDA_2V5_DCS
5S95
Y12
RES 1u0
2S4W
+1V1
IS3L
2S52
VDDA_2V5_ADAC
5S83
B13
2S51
VDDA_2V5_AADC
2S6P
1
100n
100n
2S6C
10u
2S4U
2S4V
Y19
Y18
AA15
Y15
VDDA_1V2
AA13
VDDA_2V5
30R
+3V3-STANDBY
IS3K
VDDA_1V1_LVDS_PLL
+3V3
2
2
100n
2S6N
1
2
2S6F
1
100n
1 2S6G 2
5S85
W20
P20
M20
K20
V7
Y8
VDD_1V1
100n
2S4N
C7
C9
C11
C14
C16
C18
2S4P
+2V5-LVDS
N6
N7
VDD_2V5_LVDS
100n
2S45
+2V5-AUDIO
5S87
+2V5
1u0
2S56
100n
2S55
30R
5S88
30R
10u
100n
2S57
2S5M
+2V5-LVDS
5S89
100n
2S58
1
10u
2
2
100n
2S6K
1
2S6H
+2V5
30R
5S90
+2V5
10u
100n
100n
2S53
2S4T
30R
2SHW
5S92
+3V3
1u0
100n
2S59
2
1
100n
2S6L
2S6M
2
IS58
1
VDD_1V1_DDR
220u 6.3V
U22
VDD_2V5
VDD_3V3
1
1
100n
2S6D
100n
2S6E 2
2
30R
U20
U21
HDMI_VDDA_3V3_TERM
C13
1u0
2S21
100n
2
1
2S5P
V20
V21
HDMI_VDDA_2V5
VSSA_1V1_LVDS_PLL
J7
30R
HDMI_VDDA_1V1
VDD
A13
2S29
220u 2.5V
5
100n
4
100n
2S5J-4
7
2
1
3
5S94
+1V1
10u
RES
VSS
2S4S
VSS
VSS
M7
N2
N20
P10
P12
P14
P16
P18
P4
P6
P7
T10
T12
T14
T16
T18
T2
T6
T7
U4
V10
V12
V14
V16
V18
V2
Y20
VDD_1V8
U24
V24 HDMI_AGND
100u
2S23
5
100n
4
6
3
100n
2S5H-3
2
8
100n
2S5J-2
5
6
100n
2S5J-1
100n
2S5J-3
4
3
100n
2S5H-4
8
100n
2S5H-2
5
6
8
AA16
AA8
Y11
Y14
Y16
Y9
VSS
G14
G16
G18
G2
G20
G8
H4
H6
H7
J20
K10
K12
K14
K16
K18
K2
K6
K7
L20
L4
M10
M12
M14
M16
M18
M6
A1
A10
A12
A15
A17
A19
A26
A3
A8
B1
B20
C20
C4
D2
D20
E13
E20
E4
F10
F12
F14
F16
F18
F20
F8
G10
G12
100n
2S5K-4
6
100n
2S5K-3
7
100n
2S5K-2
2
1
2S5K-1
8
4
1
100n
2S5H-1
100n
2S5G-4
100n
2S5G-3
3
100n
2S5G-2
2
2S5G-1
1
22u
22u
2S4R
100n
2S4Q
100n
2S27
2S28
100n
2S43
7
7
+1V1
AF1
AE2
AD3
AC4
AB5
H20
F11
G11
F13
G13
F15
G15
F17
G17
F19
G19
J9
J11
J13
J15
J17
L9
L11
L13
L15
L17
N9
N11
N13
N15
N17
R9
R11
R13
R15
R17
U9
U11
U13
U15
U17
J6
AA6
Y7
W7
F9
G9
30R
5S93
L6
L7
R6
R7
U7
A5
A6
B5
B6
C6
D6
E6
F6
G6
F7
G7
7S00-10
PNX85500
VSSA
RES 10u
c001
SENSE+1V1
7S00-12
PNX85500
100n
2S5C
2
100n
2S67
100n
2S66
100n
2S65
100n
2S64
100n
2S63
100n
2S62
100n
2S61
100u
2S60
2S26
+1V8
30R
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_019_110209.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 147
Analog video
PNX85500: Analog video
B02I
2S87
AV1-CVBS
Y-SVHS
47R
22n
3S5B
Connectivity
2S8A
3S59
47R
22n
56R
B02I
3S05
10-9-9
Q552.2E LA
2S7J
AV1-R
2S22
3S4J
56R
22n
C-SVHS
22n
EU: SCART1
CVBS-MON-OUT1
22n
560R
3S5E
2S7K
AV1-B
56R
-
3S4L
AP:
3S08
560R
47p
2S7H
2S40
IS4V
22n
8K2
IS4W
3S09
56R
3S4K
AV1-G
2S7M
YPBPR1-SYNCIN1
10n
2S7L
56R
3S4P
AV3-Y
22n
2S7N
AP:
56R
YPBPR1
YPBPR1
3S4R
AV3-PR
EU:
22n
7S00-1
PNX85500
ANALOG_VIDEO
2S7P
2S8G
AV2-CVBS
∗
9S18
22n
AB14
AF14
AE14
AC14
AD14
2S7R
AV4-Y
22n
SCART2
YPBPR2
9S19
EU:
AP:
AF15
AE15
AC15
AD15
AF16
AD16
AE16
AB18
AC18
AF4
AD24
AD25
AF11
AE11
AB10
AA11
AC16
AB16
AB13
AB12
AA12
AA10
AD12
AB11
AE12
AF12
IS5E
3S5S
10K
IS5D
IS5F
IS5G
IS5H
IS5J
3S75
BS15
PNX-IF-AGC
10K
BS10
IS11
3S76
PNX-RF-AGC
47K
9S20
10n
2S76
AA14
2S7U
2S14
BS13
AGND
22n
2S15
22n
AD11
AC11
+CVBS
AV4-PR
2S16
22n
22n
22n
IS5C
2S18
22n
AC12
AF13
2S19
CVBS_Y1 ATV_CVBS_Y3
R
C3
B AV1
G
CVBS_Y7
C7
SYNCIN1
Y_G1
CVBS1_OUT
PR_R_C1
CVBS2_OUT
PB_B1
RESREF
CVBS_Y2
CURREF
SYNCIN2
Y_G2
1
PR_R_C2
2
PB_B2
3
REF
4
R
5
G VGA
6
B
HSYNC_IN
IF_AGC
RF_AGC
IN
VSYNC
OUT
P
SCL VGA_EDID
TUNER N
SDA
10n
AB15
AC13
AD13
AE13
22n
2S75
56R
3S4T
AV3-PB
2S77
PNX-IF-P
10n
2S7E
AV4-PB
9S21
22n
2S78
∗ 319803104790 - RST SM0402 47R PMS Col R at 9S18 for Brazil
PNX-IF-N
10n
2S84
56R
3S50
R-VGA
22n
2S85
56R
3S52
G-VGA
22n
2S86
100R
2
3S5V-2
7
5
100R
100R
3S5V-4
4
5
7
100R
8
100R
3S5T-2
3S5T-1
2
1
H-SYNC-VGA
4
AP: VGA
22n
3S5T-4
56R
EU: VGA
3S54
B-VGA
3 3S5T-3 6
V-SYNC-VGA
100R
VGA-SCL-EDID
VGA-SDA-EDID
RES
RES
3
1
3S5V-3
100R
3S5V-1
6
8
100R
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_020_110209.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 148
10.10 B03 313912364954
Audio
B03A
7D03-1
BC847BS(COL)
6
3D09
+24V-AUDIO-POWER
+24V-AUDIO-POWER
FD14
1
Audio
+AVCC
B03A
220R
3
6
3D02-3
5
3
7D15-2
BC847BS(COL)
4
4K7
ID18
6
IN
5
L
2D16
ID29
ID30
1u0
AUDIO-MUTE-UP
1
3
2D22
220n
3D14-1
220n
1
2D26
RES
8
7
3D14-2
22K
2
6
3
R
BSR
R
OUT
L
0
GAIN
1
BSL
16
ID32
2D10
15
5D05
ID06
220R
5D01
ID09
ID31
2D09
2D12
22u
ID05
ID08
5D04
22u
22
21
5D02
ID10
220n
ID07
220R
RIGHT-SPEAKER
35V 220u
2D11
LEFT-SPEAKER
35V 220u
220n
11
7
4
2
1u0
7D10-1
TPA3123D2PWP
PVCC
CLASS-D
AUDIO AMP
R
18
17
2D17
Φ
3D14-3
22K
5
3D14-4
22K
2D08
4
ID19
GND-AUDIO
L
AVCC
47n
4K7
1u0
GND-AUDIO
10
12
2D23
ID15
19
20
2D29
3D02-1
8
1
FD03
220n
2D19
GND-AUDIO
+AUDIO-L
22K
7D15-1
BC847BS(COL)
1
220u 35V
2
4K7
ID28
2D07
7 3D02-2 2
220u 35V
FD08
47n
4
6
4K7
1u0
A-PLOP
ID27
2D24
ID14
2D20
2D28
3D02-4
FD01
5
-AUDIO-R
GND-AUDIO
220n
2D05
10u 35V
22K
220R
5D08
5D07
ID12
220n
3D16
ID11
2D06
2
4R7
VCLAMP
BYPASS
MUTE
SD
ID37
PGND
2D21
220n
1
2D27
RES
8
3D10-1
220n
7
3D10-2
22K
2
4n7
4DETECT2
GND-AUDIO
GND-AUDIO
26
27
28
29
LEFT-SPEAKER
VIA
VIA
VIA
VIA
37
36
35
34
GND-AUDIO
10n
GND-AUDIO
GND-AUDIO
GND-AUDIO
40
39
38
2D03
7D10-2
TPA3123D2PWP
V_NOM
2D14
GND-AUDIO
5
47K
100p
GND-AUDIO
3D01-4
5
3D10-3
22K
GND-AUDIO
+3V3-STANDBY
ID35
7D11-2
BC847BS(COL)
4
3
RES 2D31
ID34
3D10-4
22K
EMC 4n7
6
25
CD10
1D50
3
5
4K7
EMC
RES 2D30
22K
MAINS SWITCH DETECT
GND_HS
4
2
7D11-1
BC847BS(COL)
1
3D15
6
+3V3-STANDBY
3D01-3
47K
6
R
23
24
L
8
9
AGND
13
14
FD09
A-STBY
3
VIA
1D38
30
31
32
33
1735
LEFT-SPEAKER
3
100K
6
3D06-2
7
100K
100K
10n
4
RIGHT-SPEAKER
ID33
GND-AUDIO
3D06-4
2041145-3
2041145-4
5
100K
4
1
2
3
2
8 3D06-1 1
RIGHT-SPEAKER
FD02
1
2
3
4
2D02
V_NOM
3D06-3 FD07
GND-AUDIO
10n
2D13
GND-AUDIO
2D01
220R
3 7D03-2
BC847BS(COL)
FD05
FD06
5D03
1D52
10-10-1
5
10u
4
SPB SSB TV550
2K11 4DDR EU
GND-AUDIO
2010-12-10
3139 123 6495
19100_021_110209.eps
110209
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-10-2
Q552.2E LA
10.
EN 149
DC/DC
DC/DC
B03B
B03B
5U03 RES
30R
5U02
FU05
IU22
+12V
1u0
2U20
10u
10u
7 8
IU10
12V/1V8 CONVERSION
1
2
3R3
3U11
2U19
2U25
7U02-1
SI4952DY
10u
10u
2U23
2U24
30R
FU02
2U21
5U00
FU03
+1V8
2
22u
47u
2U16
1
47R
2U15
8
7
47R
3U23-1
3U23-2
3u6
5 6
IU23
4
1n0
2U17
3
IU09
47R
6
4
7U02-2
SI4952DY
3
47R
3U23-3
5
220p
3U23-4
IU11
IU15
IU08
5 6 7 8
IU12
4
3U14
IU07
GND-SIG
20
VIN
3U28
GND-SIG
18
19
FU04
1u0
2U05
10u
6
10K
100n
2U14
RES 100u 2.0V
22u
2U13
IU17
IU25
GND
+1V1
IU18
1u0
2U10
GND-SIG
1n0
2U09
GND-SIG
3U21
FU00
SENSE+1V1
IU19
GND-SIG
2U07
RES 100p
22K
3U10
GND-SIG
FU08
100n
1% 330R
1% 1K0
CU00
5K6
FU09
IU04
3U19
3U22
1K0 1%
3U09
330R 1%
1K0 1%
3U08
+1V8
100p RES
IU20
RES
2U29
3U17
3U18
100R 1%
2U08
10K
V5FILT
VREG5
7
17
47u
1
2
2U12
TEST
10R
RES
1
TRIP
2
22
15
3U20
1
2
+1V1
47R
PGND
FU01
2u0
47R
3U24-1
1
VFB
2
5U01
FU06
24
13
3U24-2
1
2
47R
SW
12V/1V1 CONVERSION
1
12
3U24-4
1
VO
2
1 2 3
47R
3U24-3
21
16
1
2
4
IU14
1n0
IU02
DRVH
2U06
3U00
3U01
3U03
12K
1
EN
2
5 6 78
IU16
23
14
2U11
22K
GND-SIG
1
2
2U04
3
1
2
+3V3-STANDBY
5
8
IU01
DRVL
7U04
SI4778DY
6U00
1n0 RES
2U03
IU03
4
9
+1V1
+1V8
1
VBST
2
220p
STPS2L30A
3
10
ENABLE-1V8
3R3
2U01
100n
2
11
IU24
GND-SIG
3U02
3U05
7U03
TPS53126PW
IU13
10R
2U02
100n
7U00
BC847BW
3R3
2U22
IU06
IU05
RES
1 2 3
3R3
10u
2U00
10R
3U04
1n0
3U27
2U18
7U01
SI4778DY
IU21
CU01
CU02
CU03
CU04
CU05
GND-SIG
GND-SIG
GND-SIG
GND-SIG
GND-SIG
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_022_110210.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 150
DC/DC
B03C
DC/DC
B03C
+3V3-STANDBY
+3V3
RES 10K
+5V +3V3-STANDBY
3U75
3U74
RES 10K
LED-2
IU43
*
3U69
RES 10K
optionally 1M99 is a 9 pin connector
10K
3U68
9U41
IU44
3U41
IU45
9U42
RES
LED-1
LED2
3U59
LED2
10K RES
10K RES
7U42 RES
BC847BW
*
IU47
7U43
BC847BW
+3V3
3U70
LED1
3U53
LED1
10K
10K
1M99
3U56
3U44
FU07
3D-LR
100p
2U71
BL-SPI-CSn
BL-SPI-CLK
+3V3-STANDBY
3U71
STANDBY
7U48-2
BC857BS(COL)
5
10K 6
5
100R
2U68
3U62-4
3U83-2
2
100K
IU40
100R
100R
FU53
3U42
FU55
100p
1n0
10n
2U45
RES 10K
3U61
10K
2
2
7
5
4K7
22K
4
8
3U60-1
IU57
1
ENABLE-3V3n
22K
IU52
8
2
Items
If 1M99
is not mounted
If 1M99
is mounted
For non-Amblight sets
yes
no
no
4U01
yes
no
no
2U44
Dream Catcher
3U43
1M95
0R
open
13 POLE
100p
100R
14 POLE
2U46
4U00
2U44
100K
3U65
1n0
5
Optional table for 4U00 and 4U01
POWER-OK
1K0
2U53
IU50
3U60-4
7U41-2
BC847BS(COL)
BACKLIGHT-BOOST
IU55
3U64
DETECT2
BACKLIGHT-PWM_BL-VS
3U43
IU62
6
1
7U41-1
BC847BS(COL)
1
ENABLE-1V8
FU72
3
10K
LAMP-ON
100R
4U01
RES
4U00
RES
7
3U73
3K3
3U45
FU51
10K
3U62-1
10K
FU76
3U60-2
IU63
+3V3-STANDBY
FU73
22K
4
IU56
3U62-2
3U80
2U55
3U81
3 3U60-3 6
3U63
+3V3
GND-AUDIO
IU49
6
7U40-1
BC847BPN(COL)
1
1K0
3U72
100p
RES
2U49
+24V
3
IU61
2
10n
+24V-AUDIO-POWER
FU67
2U50
FU66
GND_AL
7
6
100K
22K
IU51
T 3.0A 32V
3U62-3
3
+12V
+12VIN
FU52
+12VIN
1U40
2U54
6U40
10n
1u0 RES
+3V3-STANDBY
**
IU48
3U83-3
RES 10K
1-2041145-4
FU58
FU59
FU60
FU61
FU63
FU75
BZX384-C6V2
10n
FU62
3
4
5
1n0
RES
1
2
3
4
5
6
7
8
9
10
11
12
13
14
7U40-2
BC847BPN(COL)
4
1u0
2U47
1M95
ENABLE-3V3-5V
6
2
BL-SPI-SDO
4
RES 100p
100R
RES
3U67
100R
RES
100R
3U84
RES
3U76
MAINS-OK
RES 100R
2U43
RES 100p
2U52
2U51
RES 100p
100p RES
2U72
1n0
2U48
1n0
RES 2U56
1-2041145-3
RES 2U57
3U66
FU56
FU57
FU74
FU68
7U48-1
BC857BS(COL)
5
100K
IU41
100R
+12VIN
3U83-4
8
FU54
4
100K
10K
1
+3V3
FU50
1
GND_AL
1K0 RES
+12V_AL
3U83-1
FU49
100n
GND_AL
IU64
3U82
FU48
3
GND_AL
1
2
3
4
5
6
7
8
9
10
11
12
13
2U58
10-10-3
Q552.2E LA
Core Range
+12VD
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_023_110210.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 151
DC/DC
B03D
DC/DC
+3V3
B03D
*
7UC0
LF25ABDT
+12V
1
IN
3
OUT
2
1u0
2UA4
*
2K2
3UA0
COM
FUA0
+2V5-REF
R
7UA0
TS2431
K
1
A
2
3
FUA4
+2V5
CUA0
IUB6
+2V5-LVDS
+5V-TUN
2
3UB0
2
IUA5
3
22R
4
FUA3
3U15-2
100R
3U15-3
100R
3U15-4
+1V2
+5V
1
3U16-1
8
+3V3
100R
7
2
6
3
5
4
3U16-2
100R
3U16-3
100R
3U16-4
100R
7
6
5
100R
1u0
2UB1
470R
2
470R
3UB7-3
3
3UB7-4470R
5
4
IUB4
2
1u0
7UA3
PHD38N02LT
2UB0
7UA7-1
BC847BS(COL)
3U13
*
+3V3
8
100R
6
3UB7-2
7
2UB8
7UA7-2
4
BC847BS(COL)
3U15-1
IU26
1
470R
1
+5V
2UB2
5
*
+1V8
RES 1u0
3UB6-1
1
8
1K0
3UB7-1
8
1
+2V5-REF
7
1K0 IUB2
3UB6-3
3
6
6
1K0
3UB6-4
4
5
1K0
IUB5
3 1
7UA6
BC817-25W
3U12
IUB3
330R
1%
2
+12V
3UB6-2
330R
1%
+5V5-TUN
22u
*
NOT FOR 5000 SERIES
ENABLE-1V8
5
3UB1
+12V
RES
7UA4
TS431AILT
5
RES
2
A
K
NC
REF
470R
NC
3
470R
3U26-2
7
3
4
3U26-3
470R
3U26-4
IUB1
1
3UB3
RES
3UB5
470R
+3V3
BP
+5V-TUN
4
COM
1 3U26-1 8 RES
2
INH
5
1u0
470R
3U29-4
3
OUT
100n
2UB6
4
5
3UB2
IN
2UB5
3 3U29-3 6 RES
2
1
+5V5-TUN
470R
IU30
7UA5
LDS3985M50
2
7
RES
1u0
5
+3V3
470R
3U29-2
8
2UB7
6
RES
7U06-1
BC847BS(COL)
1
2
3U29-1
4K7
1
3U25-1
3
RES
7U06-2
BC847BS(COL)
4
30R
1
IU29
RESERVED
5UA0
1K0
4K7
3U25-2
6
100K RES
IUA6
SENSE+1V2
4
3U25-3
2
3
7
100K RES
100K RES
3U25-4
100K RES
4
8
10-10-4
Q552.2E LA
3UB4
100K
IUB0
1K0
2UB3
+5V
6
5
RES
22n
2UB4
330p
RES
RES
470R
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_024_110210.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 152
DC/DC
DC/DC
B03E
5UD0
IUD0
+12V
FUD3
6
4n7
3UD2
33K
1%
22u
100n
IU27
3U06
120K
RES
12
68K
3UD1
1%
3UD0
15
13
VIA
10
2
7U05-1
BC847BS(COL)
RES 1
10K
2UD7
IUD6
7UD0-2
ST1S10PH
RES 2U27
+1V1
220u 16V
SS36
RES 2UE9
+5V
3u6
3
VFB
GND
P HS
A
6UD0
IUD7
2UD6
SYNC
5UD1
22u
5
VIN
IUD3
7
SW
2UD4
INH
9
2
8
RES 1n0
2UD3
ENABLE-3V3-5V
22u
2UD5
SW
1
A
10u
2UD2
10u
2UD1
10u
2UD0
7UD0-1
ST1S10PH
6
+5V5-TUN
30R
4
B03E
14
11
5UD3
+3V3
7U05-2
RES
4
3U07
100n
IU28
RES
33K
1%
12
1M0
3UD5
3UD4
VIA
10
5
15
13
IUD2
7UD1-2
ST1S10PH
BC847BS(COL)
10K
3
RES 2U28
2UE4
22u
22u
2UE3
2UE2
+1V1
220u 16V
4
FUD2
3u6
3
VFB
GND
P HS
8
A
5UD2
1% 100K
SYNC
IUD4
7
SW
VIN
4n7
3UD3
5
INH
2UE1
2
9
ENABLE-3V3-5V
SW
A
1
7UD1-1
ST1S10PH
10u
14
11
∗
7UD2
LD1117DT25
3
IN
S1D
OUT
2
+2V5
2UE6
1
100n
2UE5
COM
22u 16V
IUD5
+5V
(∗) FOR 5000 SERIES ONLY
(∗∗) NOT FOR 5000 SERIES
7UD3
LD1117DT33
IN
OUT
2
+3V3
2UE8
100n
COM
22u 16V
3
1
6UD1
2UE7
10u
2UD9
10u
30R
6
IUD1
2UE0
∗∗
+12V
2UD8
10-10-5
Q552.2E LA
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_025_110210.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-10-6
Q552.2E LA
10.
EN 153
Temperature sensor & AmbiLight
B03F
Temperature sensor & AmbiLight
B03F
5UM1
IUM0
1UM0
+3V3
30R
FUM0
V-AMBI
T 1.0A 63V
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_026_110210.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 154
Fan control
Fan control
B03G
+12V
+12V
1K0
FAN-CTRL1
IUS3 3US5-3
3
6
8
IUT1
100n
7US1-1
LM339P
14
2US3
3
10K 7
10K
9
3US5-2
3US7
+12V
2
3US2
1 3US4-1 8
+3V3
10K
IUS6
10K
7US2
BC807-25W
12
+12V
IUS7
3
IUT2
7US1-2
LM339P
13
IUS4 3US5-4
5
4
10
FAN-CTRL2
10K
22R
BC807-25W
7US3
IUS8
12
3US6
IUS9
47R
11
1
+12V
3US3
10K
3US5-1
8
3US9
+3V3
FAN-DRV
+3V3
3
10K
7US1-3
LM339P
2
10K
3US4-3
3
5
4
+12V
6
IUS5
3US4-4
5
+12V
4
12
TACH01
RES
+12V
3
7
2
10K
7
+12V
3US4-2
9US0
TACH02
7US1-4
LM339P
1
6
IUS0
12
B03G
10K
10-10-7
Q552.2E LA
TACHO
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_027_110210.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 155
Vdisp switch
Vdisp switch
B03H
1 9UU0-1
RES
2 9UU0-2
RES
3 9UU0-3
RES
4 9UU0-4
RES
1 9UU1-1
RES
2 9UU1-2
RES
3 9UU1-3
RES
4 9UU1-4
RES
7UU0
SI4835DDY
3
7
6
FUU0
5
47R
IUU1
3UU0-2
7
2
6
2
IUU2
1u0
+3V3-STANDBY
47K
47K
3UU0-1
3UU0-3
2
3
6
7UU2-1
PUMD12
1
22n
2UU2
1
47K RES
2UU1
3UU1
+VDISP-INT
3UU3-2
IUU3
7
47K RES
7UU3 RES
BC847BW
1
IUU0
8
3
1
IUU4 3UU3-3 IUU5 3UU3-4
6
3
4
5
47K RES
2
VDISP-SWITCH
2UU0
5
3UU3-1
5
FUU1
3UU2
+3V3
47K RES
RES 100n
8
7
6
RES
7UU1
SI3441BDV
+12VD
4
PUMD12
7UU2-2
8
47K
B03H
8
10-10-8
Q552.2E LA
+3V3
4K7 RES
LCD-PWR-ONn
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_028_110210.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 156
10.11 B04 313912364954
Analogue externals A
Analogue externals A
B04A
FE70
3E37-4
AP-SCART-OUT-R
IE67
2EA4
AUDIO-OUT-L
470R 1
FEA0
7E01-1 6
1n0
2E87
1E00
CDS4C12GTA
12V
RES 6E01
100p
2E01
IEC0
3EA7-1
5 100R 4
8
1u0 16V
AP-SCART-OUT-L
IEC1
2
1
PUMH7
IE22
IEC2
3EA7-4
IE68
2EA5
AUDIO-OUT-R
470R 4
FEA1
7E01-2 3
1n0
2E88
1E31
CDS4C12GTA
12V
5
RES 6E03
1K0
100p
2E06
4
RES
FE71
3E07-4
AUDIO-IN1-R
5
1u0 16V
AP-SCART-OUT-R
5
4
PUMH7
RES
FE72
3E37-1
AP-SCART-OUT-L
IE23
1n0
2E90
1E53
IE05
1n0
10
13
**
**
4E02
RES
IE96
18
19
FE84
1
3EB6-1
3E06
5K6
IE92
7E05
BC847BW
20
3EB6-4
RES
3E45
2E98
39p
2E97
18K
4
MTJ-505H-01 NI LF
RES
3E48
3E37-2
68R
2 100R 7
GND_A
6
3E37-3
100p
*
RES 2E75
3
1E22
CDS4C12GTA
12V
RES
75R
3E43
6E29
2
1
2
1K0
6
7
1K0 6
3EA7-2
2 470R 7
3EA7-3
100p
2E44
1E25
RES 6E32
CDS4C12GTA
12V
3E62
27R
100R
3E07-2
3E07-3
3
IE52
AV1-CVBS
4K7
18p
CVBS-OUT-SC1
68R
470R
** 4E01
FE85
IE48
7E09-1
PUMH7
4K7
3E73
39K
1u0
1
2
3E19
1
IE91
8
5
100n
2E24
4K7
CVBS-MON-OUT1
470R
21
3E44
3E18 2
2EB3
2E74
100p
2E12
17
IE17
RES 9E06
+3V3
AV1-BLK
10u
+5V
16
9E09
FE83
* EU
5E80
15
FE82
1E19
CDS4C12GTA
12V
RES
RES 6E28
18R
4E03
RES
14
FE81
150p
2E86
1u8
IE59
12
RES 9E05
18R
5E76 3E79BEC5
IE55
2u2
IE14
RES 9E07
IE16
AV1-R
3EB3
RES
IE08
RES 9E08
9E10
3E78
2E81
11
9E55
9E54
IE70
BC847BPN(COL)
820R
** 4E04
IE51
AV2-BLK
4p7
2
IE60
1
1 3EB1 2
8
2E99
1
100p
2E14
1E18
CDS4C12GTA
12V
150p
RES
7E06-1
3 BC847BPN(COL)
7
9
AP
YPBPR1-PR
6
100n
18R
5
FE80
RES 6E26
1u8
**
7E06-2
2
3E77
2E84
150p
2E83
5E74
4E05
6
FE74
FE75
IE54
IE61
4
** 4E06
5
330R
100p
2E18
1E55
CDS4C12GTA
12V
RES 6E22
3E76 18R
4K7
3E32
9E53
IE89
**
4
FE73
+3V3
IE13
3
3E31
12K
AV1-G
1K0
2
AV1-STATUS
9E52
3EA1
1
* EU
IE18
YPBPR1-SYNCIN1
IE90
1E01
9E01
2E15
100p
(AV1)
1E12
150p
RES
CDS4C12GTA
12V
18R
2E80
150p
2E79
1u8
1R0
SCART1
5E73 3E75
BEC3
AP
3EA2
3E17
2E91
1E54
AV2-STATUS
+5V
2EB1
IE53
RES 6E23
AV1-B
* EU
100n
3E74 18R
CDS4C12GTA
12V
6E09
RES
9E51
A-PLOP
2K2
RES
1K0 8
100p
9E50
2E04
1
YPBPR1-PB
3E24
3E07-1
AUDIO-IN1-L
AP
CDS4C12GTA
12V
RES 6E07
100p
2E10
8 100R 1
150p
3 470R 6
*
1X06
EMC HOLE
2
3
3EB6-2
470R
3EB6-3
7
6
470R
1X02
REF EMC HOLE
100p
RES 2E76
1E23
CDS4C12GTA
12V
CVBS-OUT-SC1
RES 6E30
B04A
2E85
10-11-1
GND_A
4
* 3139803190010 - RSI SM 0402 JUMP 0R05 Col at 2E44 & 2E75 for Brazil
SPB SSB TV550
2K11 4DDR EU
** Provision for ESD
2010-12-10
3139 123 6495
19100_029_110210.eps
110210
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 157
Analogue externals B
Analogue externals B
B04B
GND_A
GND_A
3E89
CDS4C12GTA
12V
RES 6E46
30R
AV2-CVBS
IE75
1E07
MTJ-032-68B-46-NI-FE
1
FE59
2E22
IE73
5E06
2
FE41
AV3-PB
YPBPR1-PB
IE76
9E58
3E90
IE77
AV3-PR
18R
CDS4C12GTA
12V
1E39
100p
FE42
IE74
9E57
EU
RES 6E52
RES
2E68
1
∗∗4E22
IE15
SPDIF-OUT
18R
FE48
MTJ-032-21B-42 NI FE
2
1E04
AV3-Y
27R
CDS4C12GTA
12V
RES 6E51
1E28
100p
1
2E67
∗∗4E21
3E88
9E04
EU
2
1E03
IE72
YPBPR1-SYNCIN1
AP
FE51
MTJ-032-21B-45 NI FE (PBT)
3E87
18R
CDS4C12GTA
12V
RES 6E40
1E43
100p
2E27
1
GREEN
IE71
9E29
10p
1E44
EU
FE54
MSP-305H-BBB-732-03 NI
2
∗ 1E08-3
∗∗ 4E20
B04B
SPDIF out
YPBPR
YPBPR1-PR
GND_A
YPBPR AUDIO
+3V3
CDS4C12GTA
12V
3E97
MSP-305H-BBB-732-03 NI
6
∗ 1E08-1
FE50
RES
1E32
AUDIO-IN3-R
IE31
1K0
MSP-305H-BBB-732-03 NI
4
2E72
9E11
9E18
RES
RES
9E13
9E20
RES
RES
9E21
9E22
RES
RES
AP-SCART-OUT-R
AV1-STATUS
AUDIO-IN1-R
AV1-BLK
AP-SCART-OUT-L
AUDIO-IN1-L
9E23
9E24
9E25
9E26
9E27
9E28
RES
RES
RES
RES
RES
RES
IE09
AUDIO-IN4-L
1K0
100p
2E35
CDS4C12GTA
12V
3E21
RES 6E19
V_NOM
1n0
1E37
2E36
RES
RES
AUDIO-IN3-R
AV1-B
FE02
2
3
1
9E17
9E14
AUDIO-IN3-L
1K0
VGA ( OR DVI ) AUDIO
1E09
MSJ-035-29D PPO
RES
RES
AV3-PB
TXD1-MIPS
100p
CDS4C12GTA
12V
RES 6E38
1E42
1n0
GND_A
9E19
9E12
IE29
3E96
∗ 1E08-2
3
RES
∗∗ 4E24 WHITE
AV3-PR
RXD1-MIPS
FE49
100p
GND_A
2E71
1E29
1n0
FE43
AV3-Y
AV1-CVBS
RES
RES
CVBS-OUT-SC1
AV1-R
RES 6E06
RES
2E39
5
RED
9E15
9E16
AUDIO-IN3-L
AV1-G
∗∗ 4E23
2E40
FE01
RES 3E58
+T
6
5
4
RES 3E56
RES 3E57
+5V
0R3
100R
100R
IE34
IE35
RES 3E36
RES 3E41
100R
IE36 RES 3E38 100R RXD2-MIPS
3D-VS
100R
TXD2-MIPS
3D-LR
FE53
FE52
BZX384-C5V1
RES 6E18
BZX384-C5V1
BZX384-C5V1
RES 6E17
RES 6E16
BZX384-C5V1
RES 6E15
1E79
100p
RES 2E26
100p
RES 2E25
1E78
100n
RES 2E23
100p
RES 2E21
1E76
100p
FE46
FE45
1E77
FE47
FE44
RES 2E20
7
100p
100R
100R
RES
1ECB
1481-702-06S-51
3
2
1
AUDIO-IN4-R
1K0
2E38
CDS4C12GTA
12V
RES 3E54
RES 3E55
8
31
IE10
3E20
RES 6E20
V_NOM
1n0
1E38
2E37
FE03
9
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
32
DF50-30DP
1E75
10-11-2
Q552.2E LA
∗ 242202606017 - SOC CINCH V 3P 1L3 YEWHRDY at 1E08 for BRZ
FOR 3D
∗∗ Provision for ESD
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_030_110210.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 158
Ethernet & Service
Ethernet & Service
B04C
7
3E53-2
IE49
47R
RXD1-MIPS
+3V3-ET-ANA
5
3E53-4
IE50
3
4
47R
6E43
+3V3
IE38
IE32
3E30
47R
3E53-3
FE56
1
8
6
1E06
2
3
1
FE57
MSJ-035-29D PPO (PHT)
FE58
RES
1E71
10u
2E48
100n
2E49
4n7
100n
2E53
2E52
1
2
3
TXD1-MIPS
RXD1-MIPS
25M
11
10
9
8
3E70
RES
10K
15
3E71
RES
9E43
10K
21
ETH-TXEN
22
23
24
25
18
ETH-TXD(0)
ETH-TXD(1)
ETH-TXD(2)
ETH-TXD(3)
ETH-TXER
17
16
ETH-MDC
ETH-MDIO
1K5
1
27
12
IO
provision for BUH
P
RX
N
RST
TX
0
MODE
1
RMIISEL
PHYAD2
RXD & lt; 0:3 & gt;
P
N
TXCLK
RXDV
COL
CRS_DV
MODE2
RXER
RXD4
0
PHYAD
1
RXCLK
TXEN
0
1
2 TXD
3
4
INT
TXER
REGOFF
1
LED
2
INTSEL
CRS
RBIAS
31
30
ETH-RXP
ETH-RXN
29
28
ETH-TXP
ETH-TXN
20
ETH-TXCLK
26
ETH-RXDV
IE63
13
ETH-RXER
3E64
10K
IE64
7
+3V3
RES
3E65
ETH-RXCLK
10K
+3V3
RES
3
10K
3E34
10K
3E72
2
14
3E68
RES
3E35
RES
ETH-REGOFF
10K
+3V3
ETH-INTSEL
10K
+3V3
9E42
ETH-CRS
32
IE39
MDC
MDIO
VSS
+3V3
33
3E51
1A 2A
VDD
12K1
1%
19
CLKIN
1
XTAL
2
3E40
IE26
ETH-RXD(0)
ETH-RXD(1)
ETH-RXD(2)
ETH-RXD(3)
ETH-COL
6
10p
2E54
CR
5
4
3E69
RES
10K
4
502382-0370
7E10-1
LAN8710A-EZK
2E55
10K
10K
3E33
10p
10K
3E67 RES
3E66 RES
5
RESET-ETHERNETn
UART
SERVICE
CONNECTOR
47R
IE33
1M0
1E70
NX3225GA
+3V3
IE06
6E44
100n
100n
2E66
2E62
10u
2E63
30R
3E53-1
2
1E86
TXD1-MIPS
+3V3-ET-ANA
1E85
IE07
5E08
+3V3
BZX384-C5V1
B04C
BZX384-C5V1
10-11-3
Q552.2E LA
7E10-2
LAN8710A-EZK
34
35
36
37
VIA
+3V3-ET-ANA
+3V3-ET-ANA
ETH-TXP
FE27
22R
FE60
ETH-TXN
FE28
4
ETH-RXP
FE29
1E88
3 ACM2012 2
ETH-RXN
FE31
4
1
FE30
FE61
22n
2E60
5
CDA5C16GTH
16V
6E47-4
4
CDA5C16GTH
16V
RES
6
6E47-3
3
CDA5C16GTH
16V
RES
7
6E47-2
2
1
CDA5C16GTH
16V
RES
RES
6E47-1
RES 27n
9 11
10 12
FE34
5450-323-183-H3
RES
15p
RES 15p
2E59
0 ohm
RES
5E04
2E58
RES
15p
3E39
2E09
RES 27n
RES 15p
0 ohm
3E29
15p
2E57
RES
RES
5E03
2E08
RES 27n
5E02
2E07
RES 15p
0 ohm
3E28
15p
2E56
RES
RES
RES 27n
RES 15p
2E05
3E27
RES
0 ohm
5E01
8
1
1
2
3
4
5
6
7
8
FE32
3E65
PHYADD(1) = 1
PHYADD(1) = 0
3E66
PHYADD(2) = 1
PHYADD(2) = 0
3E67
RMII mode selected
MII mode selected
3E68
Internal 1.2V reg. disabled
Internal 1.2V reg. enabled
3E69
MODE(0) = 0
MODE(0) = 1
3E70
MODE(1) = 0
MODE(1) = 1
MODE(2) = 0
MODE(2) = 1
INTERRUPT FUNCTION
INTERRUPT FUNCTION
ENABLED ON
nINT/TXER/TXD4 SIGNAL
1N00
PHYADD(0) = 0
DISABLED ON
ETHERNET CONNECTOR
PHYADD(0) = 1
3E72
3E26
3E64
1E87
3 ACM2012 2
POP
3E71
22R
3E98
Resistor
49R9
1%
3E99
3E95
49R9
1%
3E25
49R9
1%
3E22
49R9
1%
CONFIGURATION RESISTOR SETTINGS
EMPTY
nINT/TXER/TXD4 SIGNAL
ETH-INTSEL
ETH-REGOFF
FE33
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_031_110210.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 159
HDMI
HDMI
B04D
ARX2+
FEC3
MICOM-VCC33
ARX1ARX0+
3ECH
ARXCARXC+
BRX2+
ARX0ARX0+
67
68
BRX2BRX1+
ARX1ARX1+
69
70
BRX1BRX0+
ARX2ARX2+
71
72
AIN-5V
BIN-5V
BRX-HOTPLUG
47K
3ECM-3
6
2
3ECN-2
10R
7
100K
1u0
BRX-DDC-SDA
BRX-DDC-SCL
IE43
35
36
33
34
2ECN
BRXCBRXC+
BIN-5V
47K
BRX-HOTPLUG
BIN-5V
BRX2BRX2+
HDMI CONNECTOR 1
2
CIN-5V
3ECM-2
7
3
3ECN-3
10R
CRX-DDC-SDA
CRX-DDC-SCL
CRX2+
1u0
4
+3V3-STANDBY
1
DIN-5V
3ECM-1
8
4
3ECN-4
10R
15
16
17
18
5EC2
IE45
2ECQ
45
46
43
44
DRXCDRXC+
10p
2ECC
21
22
DRX1DRX1+
23
24
DRX2DRX2+
ARC-eHDMI+
19
20
DRX0DRX0+
30R
CIN-5V
5
100K
1u0
DRX-DDC-SDA
DRX-DDC-SCL
eHDMI+
22K
RES
7EC0
BC847BW
3ECD
3ECA-4
47K
3E23
RES
7E02
BC847BW
13
14
CRX2CRX2+
5
47K
CRX-HOTPLUG
3ECA-3
CIN-5V
20
22
11
12
DRX-HOTPLUG
CRX-DDC-SCL
CRX-DDC-SDA
3
FECM
FECN
39
40
2ECP
CRX1CRX1+
6
FECK
FECL
41
42
CRX0CRX0+
CIN-5V
CRX0CRXC+
CRXCPCEC-HDMI
ARC-eHDMI+
CRX-DDC-SCL
CRX-DDC-SDA
IE44
CRXCCRXC+
CRX1CRX0+
FECA
7
8
6
100K
CRX2CRX1+
FECJ
5
6
CRX-HOTPLUG
1P02
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
21
23
3
4
BRX1BRX1+
1
20
22
3ECA-1
FECE
FECF
1
2
BRX0BRX0+
BRX-DDC-SCL
BRX-DDC-SDA
8
BRX-DDC-SCL
BRX-DDC-SDA
25
26
IEC6
100n
2EC3
CEC_D
6
3
49
10K
8
DSCL4
DSDA4
N
R0X0
P
10u
RES 2ECW
38
37
R4PWR5V
N
R0XC
P
48
47
VGA-SCL-EDID-HDMI
VGA-SDA-EDID-HDMI
51
9EC2
RES
CEC-HDMI
N
R0X1
P
N
R0X2
P
TX2
N
P
TX0
N
P
TXC
DSDA1
DSCL1
N
P
TX1
(CBUS) HPD1
R1PWR5V
N
P
7
3ECA-2
BRXCPCEC-HDMI
3
BIN-5V
2
BRX0BRXC+
DSDA0
DSCL0
+5V-EDID
N
R1XC
P
N
R1X0
P
57
56
HDMIA-RX2HDMIA-RX2+
59
58
HDMIA-RX1HDMIA-RX1+
61
60
HDMIA-RX0HDMIA-RX0+
63
62
HDMIA-RXCHDMIA-RXC+
3ECJ RES
N
R1X1
P
TPWR_CI2CA
N
R1X2
P
CEC_A
(CBUS) HPD2
R2PWR5V
INT
55
50
52
4K7
IE12
FECR
RES
3ECK
MICOM-VCC33
4K7
9EC3
RES
FECY
PCEC-HDMI
3ECL RES
+3V3
4K7
DSDA2
DSCL2
N
R2XC
P
CSCL
CSDA
N
R2X0
P
RSVDL
N
R2X1
P
54
53
10
28
N
R2X2
P
(CBUS) HPD3
R3PWR5V
DSDA3
DSCL3
N
R3XC
P
VIA
N
R3X0
P
N
R3X1
P
3EC3
3EC5
100R
100R
SCL-SSB
SDA-SSB
10p
29
30
(CBUS) HPD0
R0PWR5V
10K
3ECP-3
2ECM
31
32
1
1u0
ARX-DDC-SDA
ARX-DDC-SCL
IE42
65
66
HDMI CONNECTOR 2
FECC
FECD
+3V3
30R
10p
RES 2ECY
10R
8
100K
RES 2ECX
5
1
3ECN-1
3ECP-1
4
AIN-5V
3ECM-4
SBVCC33
1
47K
8
3EC1-1
ARX-HOTPLUG
ARX-HOTPLUG
MICOM_VCC33
9
27
64
VCC33
AIN-5V
20
22
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
FECG 21
23
100n
100n
2EC7
2EC6
6
47K
3EC1-3
3
7EC1
SII9187B
ARX-DDC-SCL
ARX-DDC-SDA
FEC4
FEC5
RES
5EC3
FEC7
+3V3-HDMI
ARXCPCEC-HDMI
ARX-DDC-SCL
ARX-DDC-SDA
SII9187B = 0xB2
FECB
AIN-5V
ARX0ARXC+
FEC1
FEC2
I2C Address
10K
1u0
10u
2ECV
2EC0
FEC0
ARX2ARX1+
1P03
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
100R
IEC4
9EC0
CEC-HDMI
IEC5
N
R3X2
P
7EC1
3ECN
3ECF
NON-INSTAPORT
PCEC-HDMI
9187A
4 × 3K3
3K3
NON-INSTAPORT
9187B
4 × 100K
100K
INSTAPORT
9287B
4 × 100K
100K
73
EPAD
3ECE
22K
IEC7
FECW
+3V3-STANDBY
6EC1
+5V
+5V-VGA
BAT54
IE11
3ECG
3ECF
4R7
FECP
220u 16V
RES 2EC1
HDMI CONNECTOR 3
1P04
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
FEC6 21
23
30R
2EC2
5EC0
+3V3
100n
B04D
100n
2EC8
10-11-4
Q552.2E LA
FECZ
100K
DDCA-SDA
IE65
2
3ECU-2
7
+3V3
10K
2ECU
DDCA-SCL
IE66
4 3ECU-4 5
10K
1u0
4
+5V-EDID
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_032_110210.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 160
Headphone
Headphone
B04E
+3V3-STANDBY
5
4
PUMD12
7EE0-2
A-PLOP
3
6
A-STBY
FEE0
RESET-AUDIO
2
7EE0-1
PUMD12
1
2EE0
6
8
5
22K
3EE1-3
3EE1-4
2
4
22K
3EE1-2
22K
3
47p
3EE1-1
7
1
22K
2EE5
7EE1
TPA6111A2DGN
100n
2EE1
47p +3V3
8
3
IEE2
ADAC(4)
2EE3
1u0
IEE1
2EE4
1u0
8
3EE0-1
10K
IEE3
1
2
5
3EE0-4
4
10K
6
IEE4
5
2EE2
3
AMPLIFIER
A-PLOP
3 3EE0-3 6
1
2EE6
1
IN-
IEE7
4
3EE2-3
33R
3EE2-4
6
FE36
VO
SHUTDOWN
BYPASS
2
VIA
GND GND_HS
2EE7
7
IEE8
2
4V 100u
10
11
AMP1
5
33R
4V 100u
2
4
1u0
IEE6
1
1
3EE2-2
33R
3EE2-1
FE35
7
AMP2
8
33R
9
IEE0
ADAC(3)
Φ
VDD
IEE5
10K
22K
B04E
RES 3EE3
10-11-5
Q552.2E LA
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_033_110210.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 161
10.12 B05 313912364954
DDR
3B28
240R
DDR2-CLK_P
DDR2-CLK_N
DDR2-BA2
DDR2-ODT
DDR2-CLK_P
DDR2-CLK_N
DDR2-CKE
DDR2-CS
DDR2-RAS
DDR2-CAS
DDR2-WE
DDR2-DQM2
F9
E8
F8
F2
G8
F7
G7
F3
B3
RES
240R
3B01
3B23
0
1
2
3
4
5
6
7
DQS
NU|RDQS
2
6 3B02-3
33R 3
8 3B02-1
33R
3B02-2 2
5
3B02-4 4
33R
8
33R
C8
3
C2
D7
1
D3
D1
D9 3B00-4 4
B1
B9 3B00-1 1
B7
A8
3B00-2
7
33R
6 3B00-3
33R
7
33R
5
33R
3B12
33R
3B13
2B44
RES
0
1 BA
2
2p2
DDR2-D16
DDR2-D17
DDR2-D18
DDR2-D19
DDR2-D20
DDR2-D21
DDR2-D22
DDR2-D23
DDR2-DQS2_P
DDR2-DQS2_N
33R
A2
H8
H3
H7
J2
J8
J3
J7
K2
K8
K3
H2
K7
L2
L8
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A13
G2
G3
G1
DDR2-BA0
DDR2-BA1
DDR2-BA2
DDR2-ODT
ODT
3B03
CK
CKE
CS
RAS
CAS
WE
DM|RDQS
VSS
NC
L3
L7
DDR2-A14
VSSQ
VSSDL
DDR2-CLK_P
DDR2-CLK_N
DDR2-CKE
DDR2-CS
DDR2-RAS
DDR2-CAS
DDR2-WE
DDR2-DQM3
F9
E8
F8
F2
G8
F7
G7
F3
B3
RES
240R
3B24
33R
2B17
100n
2B37
100p
VDD
VDDL
VDDQ
E2
A9
C1
C3
C7
C9
E1
A1
E9
L1
H9
100n
100n
2B16
100n
2B15
100n
2B14
100n
2B13
100n
2B12
100n
2B11
100n
2B10
47u
2B09
E2
A9
C1
C3
C7
C9
E1
DQ
A3
E3
J1
K9
33R
2B41
2B36
100p
2B08
100n
G2
G3
G1
SDRAM
B05A
VREF
Φ
0
1
2
3
4
5
6 A
7
8
9
10
11
12
13
SDRAM
DQ
0
1
2
3
4
5
6
7
DQS
C8
C2
3B05-3
D7
3B04-3
D3
D1
3B04-4
D9
B1
B9
3B04-1
3
3
4
1
B7
A8
2B45
0
1 BA
2
NU|RDQS
3B04-2
2
7
33R
6
6 33R
33R 2
7 3B05-2
33R
1
8 3B05-1
33R
5
5 3B05-4
33R
4
8
33R
33R
3B15
RES
2p2
3B14
33R
DDR2-D24
DDR2-D25
DDR2-D26
DDR2-D27
DDR2-D28
DDR2-D29
DDR2-D30
DDR2-D31
DDR2-DQS3_P
DDR2-DQS3_N
33R
A2
ODT
CK
CKE
CS
RAS
CAS
WE
DM|RDQS
VSS
+1V8
NC
L3
L7
DDR2-A14
VSSQ
VSSDL
A7
B2
B8
D2
D8
DDR2-CLK_N
Φ
0
1
2
3
4
5
6 A
7
8
9
10
11
12
13
DDR2-VREF-DDR
E7
240R
7B03
EDE1108AGBG-1J-F
VREF
VDDQ
A3
E3
J1
K9
DDR2-CLK_P
VDDL
A7
B2
B8
D2
D8
3B27
VDD
E7
DDR2-CLK_P
DDR2-CLK_N
H8
H3
H7
J2
J8
J3
J7
K2
K8
K3
H2
K7
L2
L8
DDR2-BA0
DDR2-BA1
3B22
240R
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A13
A1
E9
L1
H9
7B02
EDE1108AGBG-1J-F
AT T-POINT
+1V8
DDR2-VREF-DDR
100n
100n
2B07
100n
2B06
100n
2B05
100n
2B04
100n
2B03
100n
2B02
100n
2B01
+1V8
2B40
B05A
DDR
47u
2B00
10-12-1
+1V8
DDR2-VREF-DDR
3B25
33R
DQ
0
1
2
3
4
5
6
7
DQS
B7
A8
2B46
0
1 BA
2
NU|RDQS
2
5
33R
7
33R
5
33R
8
33R
3B17
RES
2p2
3
1
3
3B07-2
7
33R
6 3B07-3
33R
8 3B08-1
33R
6 3B08-3
33R
3B16
33R
DDR2-D0
DDR2-D1
DDR2-D3
DDR2-D2
DDR2-D4
DDR2-D5
DDR2-D6
DDR2-D7
DDR2-DQS0_P
DDR2-DQS0_N
33R
A2
H8
H3
H7
J2
J8
J3
J7
K2
K8
K3
H2
K7
L2
L8
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A13
G2
G3
G1
DDR2-BA0
DDR2-BA1
DDR2-BA2
DDR2-ODT
ODT
3B09
CK
CKE
CS
RAS
CAS
WE
DM|RDQS
VSS
NC
VSSDL
L3
L7
DDR2-A14
VSSQ
DDR2-CLK_P
DDR2-CLK_N
DDR2-CKE
DDR2-CS
DDR2-RAS
DDR2-CAS
DDR2-WE
DDR2-DQM1
RES
240R
3B26
33R
F9
E8
F8
F2
G8
F7
G7
F3
B3
2B35
100n
2B39
100p
VDD
VDDL
VDDQ
E2
A9
C1
C3
C7
C9
E1
A1
E9
L1
H9
100n
100n
2B34
100n
2B33
100n
2B32
100n
2B31
100n
2B30
100n
2B29
100n
2B28
47u
2B27
2B43
2B26
100n
2B38
100p
E2
E1
SDRAM
C8
C23B08-4 4
D7
D3 3B08-2 2
D1
D9 3B07-4 4
B1
B9 3B07-1 1
VREF
Φ
0
1
2
3
4
5
6 A
7
8
9
10
11
12
13
SDRAM
DQ
0
1
2
3
4
5
6
7
DQS
C8
C2
3B11-3 3
D7
3B10-3 33R 3
D3
D1
D93B10-4 4
B1
B9 3B10-1 1
B7
A8
2B47
0
1 BA
2
NU|RDQS
6
6 33R
2 3B10-2 7
33R
2
1
5 3B11-1
33R
4
8
33R
3B19
RES
2p2
7 3B11-2
8 33R
33R
5 3B11-4
33R
3B18
33R
DDR2-D8
DDR2-D14
DDR2-D10
DDR2-D11
DDR2-D12
DDR2-D13
DDR2-D9
DDR2-D15
DDR2-DQS1_P
DDR2-DQS1_N
33R
A2
ODT
CK
CKE
CS
RAS
CAS
WE
DM|RDQS
VSS
NC
VSSDL
L3
L7
DDR2-A14
VSSQ
A7
B2
B8
D2
D8
180R 1%
3B21
DDR2-CLK_P
DDR2-CLK_N
DDR2-CKE
DDR2-CS
DDR2-RAS
DDR2-CAS
DDR2-WE
DDR2-DQM0
F9
E8
F8
F2
G8
F7
G7
F3
B3
Φ
E7
180R 1%
3B20
FB00
DDR2-VREF-DDR
RES
240R
3B06
7B01
EDE1108AGBG-1J-F
VREF
A3
E3
J1
K9
DDR2-BA2
DDR2-ODT
VDDQ
A7
B2
B8
D2
D8
G2
G3
G1
DDR2-BA0
DDR2-BA1
VDDL
E7
+1V8
VDD
0
1
2
3
4
5
6 A
7
8
9
10
11
12
13
A3
E3
J1
K9
H8
H3
H7
J2
J8
J3
J7
K2
K8
K3
H2
K7
L2
L8
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A13
A1
E9
L1
H9
7B00
EDE1108AGBG-1J-F
A9
C1
C3
C7
C9
100n
100n
2B25
100n
2B24
100n
2B23
100n
2B22
100n
2B21
100n
2B20
100n
2B19
47u
2B18
2B42
DDR2-VREF-DDR
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_034_110210.eps
110210
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 162
10.13 B06 313912364954
Display interfacing-Vdisp
Display interfacing-Vdisp
B06A
1G03
T 3.0A 32V
5G01
FG0H
1G00
+VDISP-INT
100n
T 3.0A 32V
RES
2G43
+VDISP
30R
RES
5G02
30R
RES
22u
RES
B06A
2G44
10-13-1
RES
3G28
2K2
IG11
RES
6G00
LTST-C190KGKT
For Development use only
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_035_110210.eps
110210
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 163
Video out - LVDS
Video out - LVDS
B06B
100n
FG2J
2G95
100n
FG30
FG31
FG32
FG33
FG11
FG1J
PX3DPX3D+
PX3EPX3E+
FG1K
FG1L
FG1M
FG1N
PX4APX4A+
PX4BPX4B+
PX4CPX4C+
FG12
FG13
FG14
PX4CLKPX4CLK+
FG18
PX4DPX4D+
PX4EPX4E+
FG15
FG16
FG17
FG19
FG1A
FG1B
FG1Q
FG1P
47p
47p
2G26
47p
2G25
47p
2G24
2G7A
47p
47p
2G79
47p
47p
2G78
2G76
47p
FG35
FG2R
FG2K
FG04
FG2L
FG2M
PX1APX1A+
PX1BPX1B+
PX1CPX1C+
FG2E
FG2F
FG1Y
FG1Z
FG20
FG21
PX1CLKPX1CLK+
FG22
FG23
PX1DPX1D+
PX1EPX1E+
FG24
FG25
FG26
FG27
PX2APX2A+
PX2BPX2B+
PX2CPX2C+
FG28
FG29
FG2A
FG2B
FG2C
FG2D
PX2CLKPX2CLK+
FG1R
FG1S
PX2DPX2D+
PX2EPX2E+
FG1T
FG1U
FG1W
FG1V
2G28
2G29
47p
47p
FG2P
RES 9G0G
FG2N
+VDISP
1G50
TO DISPLAY
EMC 100n
RES 2G9C
PX3CLKPX3CLK+
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
FG1C
FG1D
FG1E
FG1F
FG1G
FG1H
100R
100R
100R
100R
100R
100R
EMC 100n
RES 2G9E
PX3APX3A+
PX3BPX3B+
PX3CPX3C+
47p
47p
47p
47p
RES 3G38
RES 3G37
RES 3G2Z
RES 3G36
RES 3G30
RES 3G31
BACKLIGHT-BOOST
3D-LR
3D-VS-DISP
CTRL-DISP
CTRL-DISP
EMC
RES 2G9F
2G96
2G99
2G97
2G98
CTRL-DISP
100n
2G94
60 61
58 59
56 57
54 55
52 53
FG34
FG2H
FG2G
100n
100n
100R
100R
100R
2G91
2G93
RES 3G32
3G2W
3G2Y
SDA-DISP
SCL-DISP
FI-RE41S-HF
50
51
48
49
46
47
45
44
42
43
EMC 100n
RES 2G9D
100n
FI-RE51S-HF
2G27
CTRL-DISP
2G92
2G75
47p
2G77
RES 3G35
RES 3G34
RES 3G33
5
6
7
8
RES
10K
10K
+VDISP
10K
+3V3
9G0K-4
9G0K-3
9G0K-2
9G0K-1
B06B
4
3
2
1
10-13-2
Q552.2E LA
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
1G51
TO DISPLAY
1X05
REF EMC HOLE
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_036_110210.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 164
AmbiLight CPLD
AmbiLight CPLD
B06C
B06C
5GA0
FGA0
+3V3
VINT
5GA1
100n
100n
2GA2
2GA1
1u0
2GA0
30R
DEBUG ONLY
FGA1
+3V3
VIO
+3V3
100n
10K
RES
10p
RES
IGA2
IXO4_19
IXO4_20
IXO4_21
IXO4_22
IXO4_23
IXO4_27
IXO4_28
9GA1 RES
3GA1
4
3G10-4
2
3G10-2
19
20
21
22
23
27
28
3G12
3
3G11-3
RES
47R
5
33R
3
7 3G10-3
33R
3G13
10R
1
6 3G10-1
33R
TCK
TDI
TDO
TMS
IGA3
GCK2
+3V3
3
5
GCK3
+3V3
AMBI-PROG_B1
AMBI-BLANK_R1
6
33R
6
AMBI-SPI-CS-EXTLAMPSn
AMBI-SPI-CLK-OUT
AMBI-SPI-SDI-OUT_G1
AMBI-SPI-SDO-OUT
AMBI-LATCH2_DIS
33R
8
33R
2
GTS1
3
5
GTS2
7GA2-2
BC847BS(COL)
4
4
17
25
330R 3
3GA6-1
FGA3
+3V3
SD51022
BACKLIGHT-PWM
9GA0
6GA3
FGA5
FGA2
LTST-C190KGKT
FGA4
6GA2
FGA6
LTST-C190KGKT
1
2
3
4
5
6
6GA1
100R
100R
100R
100R
LTST-C190KGKT
8
7
6
5
6GA0
1
2
3
4
LTST-C190KGKT
8
2GA4
7
3GA2-1
3GA2-2
3GA2-3
3GA2-4
330R 2
RES
1G36
1
2
3
4
5
6
7GA2-1
BC847BS(COL)
1
3GA6-2
DEBUG ONLY
8
7
6
2
6
+3V3
GSR
RES
1G35
7GA1-1
BC847BS(COL)
1
+3V3
GND
+3V3
7GA1-2
BC847BS(COL)
4
3GA6-3
IXO2_29
IXO2_30
IXO2_31
IXO2_32
IXO2_37
IXO2_38
PNX-SPI-CSBn
BACKLIGHT-PWM
3D-LR
3D-VS-DISP
BL-SPI-SDO
BL-SPI-SDI
BL-SPI-CSn
BACKLIGHT-PWM_BL-VS
BL-SPI-CLK
3GA6-4
IXO2_36|GTS1
IXO2_34|GTS2
IXO2_33|GSR
IGA1
CPLED2
5 330R 4
11
9
24
10
5
6 100R
7 100R
8 100R
100R
330R 1
29
30
31
32
37
38
4
3
2
1
CPLED3
5
6
7
8
12
13
14
16
18
10p
33R
2
33R
IXO3_5
IXO3_6
IXO3_7
IXO3_8
IXO3_12
IXO3_13
IXO3_14
IXO3_16
IXO3_18
10p
2G19 RES
1
3G14
7
33R
3G11-2
10p
10p
2G12 RES
10p
2G11 RES
2G10 RES
10K
8
3G11-1
IXO1_2
IXO1_3
IXO1_39
IXO1_40
IXO1_41
IXO1_42
10p
2G18 RES
36
34
33
GTS1
GTS2
GSR
AMBI-SPI-CS-OUTn_R2-R
AMBI-PWM-CLK_B2
AMBI-SPI-CS-OUTn_R2
AMBI-LATCH1_G2
AMBI-TEMP
CPLED3
CPLED2
3G15
33R
3GA5-4
3GA5-3
3GA5-2
3GA5-1
SD51022
AMBI-SPI-CLK-OUT-R
AMBI-SPI-SDI-OUT_G1-R
AMBI-SPI-SDO-OUT-R
10p
2G16 RES
3GA3
GCK3
GTS1
GTS2
GSR
VCCIO
10p
2G15 RES
PNX-SPI-CS-BLn
PNX-SPI-SDO
PNX-SPI-SDI
PNX-SPI-CLK
2
3
39
40
41
42
VCCINT Φ
IXO1_43|GCK1
IXO1_44|GCK2
IXO1_1|GCK3
10p
2G14 RES
43
44
1
2G13 RES
PXCLK54
GCK2
GCK3
15
35
7GA0
XC9572XL-10VQG44C0100
VIO
1
2
3
4
5
6
+3V3
26
VINT
2GA6
3GA4
RES
1G37
10p
2G17 RES
2GA5
1u0
2GA3
30R
100n RES
10-13-3
Q552.2E LA
BACKLIGHT-PWM_BL-VS
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_037_110210.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 165
SPI buffer
SPI buffer
B06D
+3V3
+3V3
20
3GE2
3EN1
3EN2
G3
PNX-SPI-CLK
PNX-SPI-SDO
PNX-SPI-CSBn
7GE0
74LVC245A
1
IGE0
19
3
2
1
2
17
16
15
14
13
12
11
3GE0-3
47R
3
4
5
6
7
8
9
3GE1-3 6
3
47R RES
3GE3
47R
3GE4
6
BL-SPI-CLK
1
3GE0-1
5
8
47R
4 3GE1-4
47R RES
BL-SPI-SDO
AMBI-SPI-CLK-OUT-R
AMBI-SPI-SDO-OUT-R
PNX-SPI-SDI
RES
47R
10
AMBI-SPI-SDI-OUT_G1-R
BL-SPI-SDI
18
7GE1
PDTC114EU
10K
100n
B06D
2GE0
10-13-4
Q552.2E LA
PNX-SPI-CLK
7
9GE0-2
2
BL-SPI-CLK
PNX-SPI-SDO
6
9GE0-3
3
BL-SPI-SDO
9GE1
BL-SPI-SDI
9GE2
PNX-SPI-CS-BLn
∗
∗∗
IGE1
5 9GE0-4
PNX-SPI-SDI
∗
∗∗4
BL-SPI-CSn
Buffer
Direct
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_038_110210.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 166
10.14 B07 313912364954
DVBS-FE
DVBS-FE
B07A
7R01-1
STV0903BAC
100n
10n
2R15
100n
2R14
10n
2R09
GNDA
+3V3-DEMOD
GND_HS
10n
10n
2R52
10n
2R51
100n
2R50
100n
2R49
100n
2R48
2R47
100n
2R46
22u
2R16
VIA
VDD3V3
2
3
100n
2R17
+1V-DVBS
11
12
VDDA2V5
8
7
IM
IP
60
56
RES 2R21
DISECQ-DET
F22-DISECQ-TX
128
20
126
NC
107
NC
IR04
47p
97
98
3R00 IR03
19
18
1n0
RES 2R22
SCL-SSB
SDA-SSB
100R
RES 2R23
3R01
100R
47p
SCLT
SDAT
RESET-DVBS
9R00
RES
3R11
+3V3-DVBS
10K
IR02
62
58
26
23
24
29
27
FR02
FR03
FR04
FR05
FR06
FR07
Φ
MAIN
XTALI
XTALO
VS
AGCRF1
I2C-ADDRESS : D0
DIRCLK
CLKI
CLKI2
CLKOUT27
N
I1
P
N
Q1
P
0
1
2
3
D
4
5
6
7
CLKOUT
STROUT
DPN
ERROR
0
CS
1
DISEQCIN1
DISEQCOUT1
FSKRX_IN
FSKRX_OUT
NC
SCL
SDA
SCLT
1
SDAT
RESETB
STDBY
TCK
TDI
TDO
TMS
TRST
0
COMP
1
1
2
3
4
5
6
GPIO 7
8
9
10
11
12
13
52
SENSE+1V0-DVBS
63
64
65
67
68
70
71
73
74
75
78
79
82
83
84
86
87
89
90
91
94
95
108
109
111
115
116
119
120
AGC
2R53
1K0
47n
* To be drawn near PNX85500
3R03
3R04
3R05
3R06
47R
47R
47R
47R
NC
NC
TS-DVBS-DATA 4
TS-DVBS-CLOCK
TS-DVBS-SOP 2
TS-DVBS-VALID 1
NC
NC
9R03-4 * 5
9R04 *
9R03-2 * 7
9R03-1 * 8
TS-FE-DATA
TS-FE-CLOCK
TS-FE-SOP
TS-FE-VALID
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
40
41
101
50
49
47
46
44
43
37
35
34
32
30
55
FR00
3R02
16
IR05
3R07
120K
DISECQ-RX
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
100n
2R26
100n
2R25
100n
2R24
100n
100n
2R19
+2V5-DVBS
2R18
VDDA1V0
5
9
13
114
118
123
127
NC
QM
QP
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
VDD1V0
21
38
54
76
80
92
96
106
+3V3-DEMOD
30R
NC
59
104
103
100
129
IR00
5R00
+3V3-DVBS
NC
124
6p8
10n
100n
2R13
10n
2R12
100n
2R11
10n
2R06
2R05
2R08
100n
2R07
+1V-DVBS
XTAL
1
4
6
10
14
113
117
121
125
2R20 RES
100n
10n
2R10
100n
2R03
10n
2R02
100n
2R01
2R00
100n
2R04
+1V-DVBS
Φ
POWER_VIA
1K0
15
17
22
25
28
31
33
36
39
42
45
48
51
53
57
61
66
69
72
77
81
85
88
93
99
102
105
110
112
+1V-DVBS
122
3R10
7R01-2
STV0903BAC
10K
B07A
3R13
10-14-1
+3V3RF
3R12
IR06
NC
16
23
24
XTAL_CMD
SCL
SDA
SYN
XTAL_OUT
IP
IN
Φ
SATELLITE
TUNER
I2C-ADDRESS : C6
QP
QN
RF_OUT
AGC
AS
NC
5R01
1
+3V3RF
IR01
+3V3-DVBS
VIA
4
RF_IN
18
19
10u
2R40
1K0
100p
3
3R08-3
21
20
7
34
35
36
37
38
39
40
41
42
XTAL
2
3R08-2
NC
4
6 3R08-4
100R
1
7 3R08-1
100R
5
100R
QP
QM
8
100R
IP
IM
SYN HS
29 33
0p56
2R62
3R09
32
100p
2R45
1n0
2R29
SM15T
FR01
6R00
LNB-RF1
GND
RF LNA LT MIX DIG BB VCO
5
3
9 10 15 17 25 26
27n
5R02
10n
2R28
2R27
220u 6.3V
27p
10u
2R61
28
1R01
2R43
1n0
1n0
2R35
1n0
2R34
1n0
2R33
VCO
10p
10p
9R02
RES
27
10p
2
AGC
22
2R55
12
13
IR08
14
MIX DIG BB
VSS
XTAL_IN
1 2
1
11
2R56
31
10p
2R39
8
10p
NC
16M
2R38
IR07
SCLT
SDAT
6
LNA LT
10p
7R02
STV6110AT
3 4
30
10K
3R15 RES
10K
3R14 RES
10p
2R54
+3V3RF
2R41
1R10
NX3225GA
2R37
+3V3RF
1n0
2R32
2R31
4R7
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_039_110210.eps
110210
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 167
10.15 B08 313912364954
DVBS supply
DVBS supply
B08A
5T00
IT00
6
A
4
VFB
+1V-DVBS
GND
P HS
8
9
3T00 RES
15
14
IT24
SENSE+1V0-DVBS
4n7
3T21
100n
2T06
11
+3V3-DVBS
4n7
2T36
1%
12
3K3
VIA
IT20
47K
1K0 1%
2T10 RES
IT02
13
10
3T03
FT06
IT18
2u0
22K
3T02
7T00-2
ST1S10PH
5T01
3
22u
SYNC
IT01
7
SW
VIN
RES 3T01
5
RES 1n0
2T03
INH
22u
2T05
A
1
2
+2V5-DVBS
2T04
7T00-1
ST1S10PH
22u
22u
2T02
22u
2T01
2T00
30R
SW
+5V-DVBS
1K0 1%
LD3985M25
7T01
INH
30R
BP
FT07
5
4
+2V5-DVBS
IT19
COM
2
100n
2T07
5T02
OUT
1u0
IN
3
1u0
1
2T39
IT03
2T08
BAS316
10n
6T02 RES
BAS316
BAS316
2T09
6T00 RES
6T01 RES
+5V-DVBS
7T02
LD1117DT33
OUT
FT08
2
+3V3-DVBS
16V
IN
2T12
100n
2T11
COM
1
22u
3
+24V
100u 35V
IT05
5T03
FT00
220n
2T17
47n
2T16
2T13
2T14
3R3
220n
IT04
100u 35V
2T15
3T04
7T04-1
BC847BS(COL)
1
10K
4u7
RES 2T22
4u7
RES 2T38
10u
1n0
IT11
RES 2T37
10u
2T24
2T23
6T04
SS24
22R
3T11
33u
100u 25V
+V-LNB
IT17
1n0
IT12
GND_HS
3T29
3T08
5T04
IT32
15
4
10u
2
2T35
IT21
10K
IT09
2T26
1n0
2T25
GND
3T10
3R3
47n
13
12
6
8
16
17
18
19
20
21
22
23
24
25
26
ILIM2
SEQ
BP
100K
3T06
3T07
BOOT2
SW2
EN2
FB2
IT27
IT08
+3V3
IT26
VIA2
6
IT10
2T20
PVDD2
2T27
9
10
11
IT07
+24V
BOOT1
SW1
EN1
FB1
Φ
1K0
1n0
2T21
PVDD1
2
3
5
7
14
7T03
TPS54283PWP
IT25
IT06
1
22R
3T05
22u
6T03
SS24
33u
220u 16V
2T19
2T18
+5V-DVBS
10K
IT29
3T23
IT13
33K
2T41
RES
2T28
1n0
FT04
RES
+V-LNB
4u7
RES
3T24
SENSE+1V0-DVBS
15K
220p
2T40
2T31 RES
RES
2T29
47K
5%
RES
47K
3T16
3K3
5%
3T15
IT14
2T30 RES
3T17
7T04-2
BC847BS(COL)
4
22n
3T12
3K3
5
IT23
22n
3T14
2K2
BZX384-C
13V
1K0
IT22
6T05
+24V
3T13
3
IT15
3T25
3K3
V0-CTRL
330K
3T28
100K
RES 10n
RES
IT16
RES 10K
100n
RES
3T26
2T43
RES 2T34
IT30
2T42
22n
RES
3T19
33K
3K3
5%
3T18
18K
5%
22u
22u
2T33 RES
22n
3T20
RES 3T09
+5V-DVBS
2T32 RES
B08A
RES
3T31
10-15-1
4
SPB SSB TV550
2K11 4DDR EU
FT05
2010-12-10
3139 123 6495
19100_040_110210.eps
110210
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-15-2
Q552.2E LA
10.
EN 168
DVBS supply
B08B
DVBS supply
B08B
+12V
+3V3-DVBS
+12V
3T22
220R
22u
RES
5T50
100R
3T50
100n
2T51
2T50
RES
100u 35V
IT50
IT28
220n
2T52
V0-CTRL
IT60
5T52
6T50
220n
2T53
BAT54 COL
18
NC
BYP
A_GND
7T50-2
LNBH23Q
34
35
36
2K2
DISECQ-DET
IT64
6T54 RES
RES
7T51
BC817-25W
IT68
BAS316
IT69
IT59
9T52 RES
VIA
VIA
IT55
10n
10u
3T58 RES
2T62 RES
1R0
2T60
2K2
STPS2L30A
6T51
+3V3-DVBS
10K
2T61
20
3T57 RES
RES
VUP
1
2
3
7
8
16
17
23
24
25
26
31
32
IT66
IT67
150R
VCTRL
11
3T62
22R
TTX
15R
3T59 RES
VCC_L
EXTM
470n
VIA
DISECQ-RX
39
40
VIA
37
38
2T59
470n
15
2T58
100u 35V
IT58
DSQOUT
DSQIN
22
3T27
27
2T57
470n
RES
VOTX
LNB-RF1
3T53
21
3T54 RES
IT57
5T51
DETIN
22K
1n0
14
30
30R
2T56
100u 35V
2T55
12
13
+V-LNB
VORX
4
3T52
IT54
29
IT63
9T51
IT65
RS1D
RES
9T50
RES
ADDR
28
IT52
220u
RES
IT56
F22-DISECQ-TX
6T53
STPS2L30A
6T52
RS1D
6T55
10K
ISEL
GND_HS
DISECQ-DET
10
10K 3T55 RES
2T54 RES
IT61
IT62
10K
3T56 10n
IT53
LX
P_GND
LNB-RF1
100R
SCL
SDA
5
3T60 RES
+12V
9
6
3T61
SDA-SSB
Φ
33
100R
IT51
41
42
SCL-SSB
VCC
3T51
19
7T50-1
LNBH23Q
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_041_110210.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 169
10.16 B09 313912364954
Connectors comp
Connectors comp
5C55
30R
1M59
3C70
100R
FC79
100n
2C70
FC81
GND_AL
NC
FC83
FC82
1C86
AMBI-POWER
+24V
+12V_AL
100n
RES
2C95
1C87
100n
FC84
2C94
T 2.0A 63V
27
2C96
T 2.0A 63V
RES
28
3C76
100p
IC73
RC
100R
2C78
IC74
3C77
100p
47n RES
LED-2
TO
LED PANEL
100R
FC90
FC91
FC92
FC93
2C79
3C78
FC94
+5V
100p
100R
LED-1
2C80
100p
FC95
KEYBOARD
1
2
3
4
5
6
7
8
FC89
+3V3-STANDBY
IC75
1M19
FC88
100n
FC78
2C77
2C81
FC77
FC76
100R
2C93
6C02
V-AMBI
AMBI-BLANK_R1
AMBI-PROG_B1
AMBI-LATCH2_DIS
AMBI-TEMP
100p
3C79
10R
100p
FH34SJ-26S-0.5SH(50)
2C82
100n
RES
RES
FC75
3C75
LIGHT-SENSOR
6C05
FC74
AMBI-SPI-CS-OUTn_R2
AMBI-LATCH1_G2
2C76
FC87
RES
BZX384-C5V6
FC73
AMBI-PWM-CLK_B2
BZX384-C5V6
FC72
V-AMBI
6C03 RES
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
FC71
BZX384-C5V6
FC70
AMBI-SPI-CLK-OUT
AMBI-SPI-SDO-OUT
AMBI-SPI-SDI-OUT_G1
B09A
+3V3
100K
RES
B09A
3C74
10-16-1
GND_AL GND_AL
1M21 RES
FAN-CTRL1
+3V3
FC61
∗
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
RES 3C90
10K
∗RES 3C91
100R
RES
RES
47R
10K
FAN-DRV
1u0
100R
3C97
47R
1u0
2C91
TEMPERATURE
SENSOR
RXD2-MIPS
47R
2C90
2041145-4
3C96
RES
10p
∗RES 3C93
TXD2-MIPS
3C95
47R
RES
10p
2C89 RES
+3V3
∗ RES 3C92
SDA-SET
3C94
10p
2C88 RES
FC64
FC98
9C00
RES
9C01
RES
9C02
RES
9C03
RES
10p
2C87 RES
FC86
FC97
SCL-SET
1
2
3
4
+3V3-STANDBY
+5V
2C86 RES
100R
RES 3C83
100R
19
20
FH52-18S-0.5SH
FC99
∗ HOTEL TV
RES 5C53
+12V
30R
T 1.0A 63V
30R
IC78
Dreamcatcher
1u0
RES 5C54
+3V3
RES
1C85
FAN-CTRL2
FC96
RES 3C82 100R
FC63
RES
1M71
RES 2C85
SDA-BL
FC85
100R
RES 3C81
100p
TACH02
RES 3C80
100p
RES 2C84
SCL-BL
FC62
RES 2C83
TACH01
RESERVED
4
SPB SSB TV550
2K11 4DDR EU
2010-12-10
3139 123 6495
19100_042_110210.eps
110210
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 170
10.17 313912364954 SSB Layout
2G43
5UD3
2UE4
9UU1 9UU0
5T01
3GA6
1G37
2UU2
5G02
2T19
2T33
6GA1
2UD9
3U26
2UD6 6UD0
3US2
3US3
IUS6
IUS9
2UD4 2UD5
7GA2
1G00
1X08
3US9 3US6
2U15
3UD3
2UE2
5U01
5C53
2UE1
3UD4
2UE3
5C54
2U16
3UD5
2UE6
1C85
3U29
IU15
2UD8
7US3
6U00
IU17
2US3
3U24
7US2
2U09
2C85
2U18
IU18
3C93
3C82
IUT1
IUS5
2U17
3C90
2C83
2C84
2U11
3C91
3C83
3C92
5U00
IU23
3C80
IUD2
2T00
2T18
5UD0
IUD4
7UD1
IUT2
2T32
IUD1
5T03
2T01
2T12
6GA2
2UD2
6GA3
2UD1
6GA0
2U27
3UD2
3U06
2UD7
3UD0
2U28
3U07
7UD0
3US7
3C81
5UD1
2UE0
3US5
7US1
7U05
5UD2
9US0
3US4
3U23
7U01 7U04 7U02
7UU0
1M71
IUS4
2UE9
IUS3
IU57
3UD1
5U02
5U03
2U19
2U25
2U23
2U24
2UE8
7UD3
2UE7
2U20
2UD3
2T22
7T03
7T00
5T00
3U81
IUD0
2UD0
2T17 5T04
2T11
3C70
2C70
2C96
2G13
3G12
3G13
2C95
3G10
3G14
3G11
6T03
2T14
1C87
1C86
1UM0
5UM1
2U56
3U56
3U44
2U43
2U50
3U84
2U52
2U51
3U67
2U72
3U76
2U48
2U54
3U71
2U47
2U68
2U49
3U45
2D30
2U53
2U45
3U43
2U44
2U58
4U00
3U64
2C94
5C55
3U42
3U65
4U01
2U46
1M59
1M99
CXXX
3U66
1M95
7T02
Overview top side
3GA5
1P00
7GA1
1X07
5G01
1G36
2G44
1G03
3GA2
3G15
6G00
3G28
1G35
IG11
2GA4
7GA0
3B11
IGA3
3B18
IGA2
3S3Y
3S28
3S24
3S29
9F27
3B00
3S1C
5D07
2R28
9R02
2R45
2R33
2R32
2R29
3R14
3R15
5R02
2R31
2R55
1R01
7R02
3R09
2R38
2R35
1R10
2R40
2R61
2R39
2R62
2R43
1X04
6T55
2T50
3S1B
9F28
3S2A
3S3R
3S3N
3S1L
3B13
2S4D
3S3T
3T22
3S1K
3S1J
3B12
2R27
2R37
3S3S
2S4E
3B23
2B44
3S23
3S62
3S21
3S3Q
3S03
9S01
7R01
2R34
2T57
3S02 3S01
3B02
7S00
2S09
3S04
7S02
3S31
7B02
2R46
3R06
3R08
3R05
9S00
2D20
1X05
3R04
3B17
2R54
2R20
3R03
3B25
3B16
2B46
7B00
5R01
2R56
9S93
3B08
9S90
7F20
3B07
2D05
5D08
2D19
2G96
9S92
3B10
2G99
9S91
2S4P
2G97
2R41
IGA1
2G98
3R12
3B19
2F01
7B01
3GA1
3B26
2B47
1G50
9GA0
7T50
2T55
2T56
6T52
3S3L
2S87
3S4A
3S84
1E31
5T50
2F29
3F36
3F37
1P08
1F25
1E25
2F32
2F9D
2F35 3F28 2F34
5F73
9F04
1FD3
2FDD
2FDC
3F65
3FDG
1FD2
3E21
IE10
2F9A
2E37
3E20
6FD3
6FD2
9C03
9C02
1T01
1E38
6EC1
2F98
9E15
1E09
6E20
1E43
1E42
6E16
3E41
3E38
6E15
6E17
2F97
1P02
1ECB
3FC3
3FC5
3FC6
2FC2
3FC1
2FC6
2FC1
9FC5
6FC7
6FC5
6FC3
6FC4
6FC2
6FC1
6FC6
6FC8
1P05
2FC8
1FC1
1P03
9FC4
1FC3 1FC4 1FC2
1FC5
1P04
9FC6
2FC3
2FC7
3FC2
1FC6
2FC5
1E78
1E75
1E77
1E76
1E07
1E79
2FC4
2ECC
9FC3
1N00
3FC7
2E25
3E56
2E20
3E54
2E26
2E23
1E44
3E58
3FC4
3ECM
3E57
5EC2
1F52
3F623F63
2F60
IEE3
9EC3
1329
IE35
2F81
2ECP
2EC1 7EC1
IE36
2ECN
2ECM
3E55
3ECF
3E36
2E67
4E24
4E21
7EE1
2EE1
3ECN IE42
IEE6
2EE2
6E18
IE34
2E21
3EE2
9E17 3E89
9E50
3ECP
3EC5
9E57
6E51
6E46
2EE4
3EE3
4E20
2EE7
IEE4
IEE5
3EC3
2EE5
2C88
2EE0
3C96
2C89
2E22
3C97
2C81
2EE3
3EE0
3C95
3EE1
3C94
2C87
5E06
2C90
2C86
IE11
1328
2F99
2ECU
IC74
6C05
2C91
1E03 1E04
1E08
2E05
5E01
3E27
1E88
2E60
6E47
2EE6
3C79
3E26
6C03
3E98
5E08
3C77
1E87
2E07 5E02
3E28
2E62
IC75
3C78
2C78
2C82
1E29
2E57 2E56
2C80
3ECG
3E25 3E22
1E39
2E66
2C93
1E37
1E28
3C74
6C02
3C76
3E40
2C76
3E34 3E68
3E35
3E72
2E63
7EE0
IE07
2G77
2C77
1F51
2F86
3F75
6E19
2E35
2E36
2E54
2G75
3C75
2F88
2F9B
IE09
3F64
2E27
9F71
4E23
4E22
3E96
6E38
1X06
2E40
2E71
2E39
6E40
5F72
1E32
3E87
3E88
9E52 9E29
2E38
2G76
2E55
9E13
7E10
3E30
3E33
2G27
2E72
9E11
1E70
3E51
3G38
2G78
6E06
2G24
3E97
9E04
3E65
2F93
2E53
2E52
2G25
2G26
3E66
3E69
2G79
3E67
3E70
2E49
2E48
3E64
9E42
3E71
9E43
2F9C
2G7A
1X02
7F25
5F70
IF86
2F91
3F72
2F92 2F94
2F90 3F71
7F70
2F33
3F31
1E85
1E06
1E22
1E54
6F72 3F78
9F05 9F06
1E55
2G28
1E18
1E01
5D05
2G29
1F75
9F00 9F01
1E23
1E19
1F24
IF61
IF89
4E01
9E21
4E03
9E22
1E12
7F58
9E18
9E05
4E02
6E26
4E04 2E14
1E86
1E53
5E74
2E84 3E77 3E76
6E22
1E00
2E83
1E71
3E31
3F59
3F60
2F58
3F58
2S4M
9E20
9E24 3E32
4E05 2E18
1P09
3S83
BS13
1F10
3S12
2F40
2S77
2S78
3S59
2S7L
2S7P
2S7N
2S7U
2S8G
9S18
9S20
3S4T
3S4P
2S7R
9S19
3S4R
2S7E
9S21
BS10
3S4J 2S7J
2S7K
2S7H
3S4L
3S4K
3S3W
2S7M
3S6H
3S42
2S2Z
2S2Y
2S30
2S33
IS13
2S2W
2S2V
2S31
3E17
3S13
2S41
5D02 5D01
2S32
4S14
7S08
3S6J
3S53
2S2S
3S26
2D09
2S34
3S2M
3S3G
2S2R
2S2T
3S3M
3S43
3S44
3S3U
9S06
3S3H
DBS8
1S02
5T51
6T51
6T53
2S4G
2D06
2D12 2D11
DS50
5T52
3S3F
BS15
3B14
3B04
2B45
2D07
2S4F
3B15
3S27
2D10
IF62
3B05
2D24
2D17
2D23
7B03
7D10
5D04
1G51
IS14
3S81
3S80
3S52
3S54
3S50
3B24
3S00
1D52
2D08
1735 1D38
1D50
3S6K
3S4B
1M21
1M19
10-17-1
1X01
1E05
4
LAYOUT
SSB TV550 2K11 4DDR EU
2011-01-27
3139 123 6495
19100_800_110127.eps
110217
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 171
Overview bottom side
2G17
IUM0
2G16
2G12
2G14
2G10
2G15
FU61
FU66
FU63
FU75
IU03
IU49
FU73
IU62
FU07
7U06
3UB6
IU26
3U13
3F41
AF72
FF56
IF53
2UB3
3UB4
7U41
3U02
2U00
CU02
CU01
2UU0
FC99
7UU2
FG1C
FG33
9G0K
2G94
2G95
3D06
2D16
3D01
3D16
CD10
2G9D
2F79
3F77
3FE5
2D21
3E24
2E10
ID07
6E01
9E27
FE72
2G91
3FE7
2FF3
3FG2
2FE6
2E88
FG20
FG1Y
FG1Z
FG2E
3G34
6E03
FG2F
IE26
IE22
IE64
FE50
3G30
IE63
IE38
FE49
3G36
IE29
FG2L
3G2Z
IE31
FG2R
FG2K
FE73
4E06
IE73
2FE4
IE32
3G37
FG2G
3G2Y
FG35
3G2W
DFE7
FG04
IE33
BFE2
3G32
FG34
FG2H
3G35
IE39
DFE6
FE31
FC89
2FG6
IF17
2FG4
FE34
FE33
FE29
IF18
FE42
FC87
DFF2
2FH3
3E29
5FA4
2FF9
FE27
2FA4
IF69
2FG1
2FH4
2FF1
2FA3
5E03 5E04
3E39
FC88
FC90
IEE8
FE02
FFAF
FE30
FECZ
2ECX
2EC3
FECY
5EC3
FECR
9E58
2ECY
FEC7
IE76
IE45
FEC3
3ECJ
IE43
2EC7
FE53
3ECL
2ECQ
FE46
FE44
2ECW
2FA2
FE47
FE45
FE52
FE01
FE48
IE44
2EC2
FFA2
3ECH
FE03
FECB
FE59
2C79
FC91
FE61
FC92
IE77
FE60
FE51
3E90 9E19
9E54
IE74
IE75
2E68
FFB5
6E52
IEE0
7FA3
FE28
IC73
IEE7
5FA3
3E99
2E58 2E59
2E08
2FF4
3FE8
3FE9
2FG0
2FF2
2FF7
3E95
FE32
2FF8
IF68
FF61
FF63
7FE3
FF62
2FE3
IF67
DFF1
IF49
5FE5
FF03
2E09
2FE8
FF81
5FE8
2F84 3F76
FG24
FG22
3G33
9E28 3E07 2E06
IE23 2E04
9E25
IE71
FE54
IE51
2E91
6E09
IE14
9E07
9E10
2E75
6E29
3E43
FE82
IE72
9E26
FE71
IE06
DFE8
7E09
3E73
IE48
2E24
7FE0
BFE3
2E44
3E62
FE84
IE52
6E32
9E16
IE16
3FG7
2FH7
2FH2
FG29
FG25
FG21
IF29
DFE9
FFDB
FG28
FG23
5FG0
3FG4
2FF5
2FF0
2FH6
2FG7
2F59
9G0G
FG26
2FG8
FF76
2D22
2D26
FG2B
ID08
FG2M
2FH5
2FG9
FF74
FG1R
FG2A
3G31
2FE0
IF65
5FE9
FG1T
FG1S
FG2D
FG27
3E44
5FE0
5FE3
FFDA
3D14
ID06
3FG6
2FG3
IF63
IF48
5FE7
IE50
FG1U
FG2C
IF82
1FE0
2FG2
5FE4
FF00
FFDC
FG1W
FG1V
FG2P
IF27
2FE5
IF28
FF82
2F61
7D03
3D09
2B36
2E90
2E15
6E43
2F75
IF74
3F80
3F81
5FG2
IF66
FF64
3FBF
3D10
ID05
IEC1
FE70
FE74
9E23
6E23
FEA1
3E37
FEA0
6E07
9E51
3E74
2E87
BEC5
2E86
9E53
3E79
9E55
IE08
BEC3
7E01
3E53
IE49
IF64
2FF6
FFC9
3D02
2B12
2B11
2B02
2B03
2B07
2B06
2S42
FE81
2E80
3E75
9E08
3EA7 2E01
IEC2
FE75
FE58
AF70
FFB1
CU04
CU03
2D31
3B21
2B26
2B14
2B16
2S24
IS50
3S51
3S39
2E85
6E28
9E09
2E12
2E76
9E06
FE43
2E99 2E98 3E19
3E48
FE80
IEC0
IE68
2E79
5E73
5E76
IE17
IE92
6E30
3EB6
IE96
IE55
3E78
FE83
FE85
FE56
IF76
6E44
2F66
5F66
IF78
IF14
IF41
FFB6
3U80
2B39
2B38
2B23
2B19
3B20
3S07
2S17
2S26
3S6Q
2S4R
2S4Q
C001
2S3E
2S39
2S3A
2S3B
2S2H
2S2G
7E05
2E74
3E18
9E01
3EA1
IE60
IE91
3E45
2E97
IE59
IE13
FG2N
IF12
2F63
2F64
2FH8
FF65
2E81
5E80
IE61
3EB1
9E12
9E14
2EB3
IF15
2F25
3F30
FF66
2UB4
FG0H
C000
3S1D
IE89
FE57
3F35
9F03
9F02
AF71
2F28
IF33
3S49
IE53
2EB1
IF73
7F75
IF10
IF11
IF13
IF34
IF44
IE15
2EA4
2EA5
IE18
IE90
2F96
IE70
2F78
2F74
FF75
2F30
FF01
IF30
IF32
FD06
3S0Z
IF80
IF59
2F71
IF77
2F85
9F25
9F26
2D14
2D13
ID10
IF81
FF71
IF39
FF36
2D01
5D03
FD14
3F79
FF57
IF75
IF31
FD05
ID32
ID09
ID31
IF54
IF90
FF37
2B41
IS1D
3EA2
IF40
ID28
2B00
3B03
5F71
IF58
3F52
IF36
IF42
2F31
ID29
IS12
2F49
3F34
2F27
2F26
IF43
ID19
FS57
3EB3
IF72
IF37
ID37
FS52
7E06
IF52
ID15
ID30
ID18
2B01
3S38
FS53
2F95
3E06
IF35
3S36
IS0R
3B28
2D27
7F52
IF50
IF79
2F52
3F32
IF45
FF33
IS1H
7D15
3FE6
FF32
IS11
5F74
2F73 2F80
2F72 2F82
2F77
2F76 AF73
FF55
FF29
3S5E
IS1P
3S3P
2F65
3F82
FF30
FF39
9F30
9F29
FF38
2F62
2F70
3F43
FF41
7S05
IS02
5F76
FD08
2D29
FD09
IS07
IS1Q
IF16
FD01
FD02
IS1J
2D28
ID27
IS03
FS03
FF46
2B27
2B29
3S47
IF47
2S3J
3S16 3S17
IE54
3F40
IS0V
FF42
2S3C
2S3D
3S32
3S34
IE67
2S2J
3S05
FS50
3S37
IS06
IE05
FF48
2S38
2S16
2S8A
IS5C
ID33
2B09
FD03
IS1S
3S5B
IS5G
3B01
2B40
IS1N
IS4V
9S24
IS3E
2D02
ID14
FS08
IS1M
IS2V
3S20
2S68
2S3F
3S08
IS5J
IS44
FF45
3S6P
2S60
5S93
2S23
2S45
2S3G
2S3H
3S09
3S10
2S2L
IS19
FD07
ID11
2B13
2S36
3F45
FF49
2B25
3S06
2S5P
2S4S
2S64
2S5J
5S89
5S90
2S53
2S50
3S75
2S40
2S19
IS2Z
IS3F
FS49
FS44
IS1A
IS1B
IS5H
3S46
3S2S
2B17
3S22
IS4W
2S18
FS11
3S5V
IS3D
2S22
3S25
2S85
2S86
2S84
2S76
2S75
3S5S
ID12
2B37
FS02
2S6G
IS5E
5S84
2S13
IS3B
3S2L
3S1H
IS42
2B15
2S46
IS20
3S18
2S3M
IS1K
3D15
2B10
3S0V
2S20
2S51
3S76
IS5D
3S1G
3S5T
3S11
3S6M
IS1E
FF50
FF44
IS1G
3S19
2S52
2S37
2S55
2S11
2S4V
2S15
3S40
2S10
FS45
7S09
2S6E
2S6D
2SHW
IS3L
ID35
7D11
ID34
2S65
IS5F
FS10
3B22
2S6N
2S4U
DS52
2B18
3S30
5S87
5S81
2S5K
2S43
5S95
IS4Z
FG31
3S33
3S6L
IS2U
2S21
5S83
FG32
2G9C
3B06
2D03
2S4Y
2S5G
FS51
3F42
2S4W
FG30
2B24
2B20
3S72
9S09
5S94
2S2K
3S55
2S25
2S67
2S63
5S88
2S5H
2S6P
2S6F
5S92
2S5A
2S59
2S6M
2S28
5S82
2S58
2S6K
2S6H
2S5C
2S6A
3S0W
3S64
3S45
2S4K
3S2H
FS0Z
2S3Q
3F44
2S6B
9S0D
IF51
FF04
IT51
IS1L
FF47
IS01
IS16
3S1P
IT67
3T53
FF43
2S5B
3S2K
3S41
9S0E
IT54
IS05
FC95
2S3K
IT53
6T50
3T62
IT69
2S3L
2T58
3T60
3T52
2T37
2T60
3T55
IT61
2T53
IT60
IT62
3T58
2T54
IT57
2S6L
2S27
2S4T
7S20
7T51
IS3S
2S6C
3S2V
IT68
IT50
5S80
IS10
FS64
3S1F
3T50
3T27
3T61
2S5D
3S1R
3S1U
3S1T
3S82
IS04
9R04
3T54
2T51
IT65
2T38
3S1S
IT28
2S57
IS3Q
5S04
2R22
2T61
2T52
3T51
IT59
9R03
2T59
6T54 9T52
IT58
IT64
3T59
2T62
5S85
2S14
2R21
3T56
9T50
9T51
IT63
3T57
IT52
3S69
3S6V
2S62
IS3K
2S5M
3S1E
IS58
IT66
IT55
3S6W
3F06
IR04
2R09
3S1X
2R15
2R26
2R25
3S6A
IR03
3R01
IS25
3S1W
2S56
3S57
3S56
3S2F
2S4Z
2R23
3S2G
3R00
IT56
IS26
3S5Y
2R52
2R17
3S6D
2R51
2R14
2B22
3S6F
3S5Z
2R08
IR00
2B42 3B27
3S15
3S60
3S6E
IS40
5R00
2S66
2S61
3S1V
FG1F
FG1D
2G93
FS01
2S4N
IF88
FR01
9S08
FG1E
2G92
2B21
3S5W
IS00
2B31
2B04
3S6C
IF87
3S6G
2R16
2B35
2B33
9S94
9S95
9S96
9S97
2S89 3S58
3S6B
9C00
FG1G
2B28
3S68
9C01
3S61
2R07
2R24
2UB1
5GA1
2GE0
3S67
9S12
2S29
3F20
3F19
FG1L
FG1J
FG1H
3B09
2B08
3GE3
3S66
9S10
9S13
IS08
9S11
3S65
2R13
2R00
IR01
FG1K
FG11
2S2E
IR06
IF22
FG1M
2G9F
2S12
3R13
2R06
2R05
2R03
2R04
2R12
2R49
2R50
FG12
FG1N
2GA1
IS09
2R11
FR07
FG14
FG13
2B34
FB00
3GE4
FS31
7S01
3F22
3F12
FG16
FG15
2B32
FGA0
2R01
2R19
2UB2
2GA3
2GA5
7GE0
2GA0
3GA3
3F21
2R10
IF23
2F20
2F21
FG18
FG17
2B43
2B30
3F23
IF21
3R11
FG1A
FG19
5GA0
3GA4
2GA6
3GE2
3F24
2R48
2R02
2R18
CUA0
FGA3
2F03
9GE1
FG1Q
FG1B
FGA1
IGE0
FF31
IR07
FG2J
FG1P
IS15
9R00
IR08
FUU0
FGA5
7GE1
3R10
3UU0
3GE0
IS17
FR02
7UU3
FUU1
2G9E
3GE1
2GA2
3F07
FR03
IUU3
FGA4
IGE1
FR06
7UU1
3UU3
IUU4
FGA6
7F02
IF07
FR04
IUU2
IUU5
IUU0
9GE2
FR05
IUD5
FUA3
IUU1
3F05
3R02
FUD2
2UE5
9GA1
2R53
2UB6
IUB1
9GE0
FR00
IC78
2U14
FU03
FGA2
IF05
6R00
FC97
3UU2
IUB6
7UA5
3F03
2U29
IU40
2UB0
5UA0
3U41
7UA3
IU44
3U15
7U42
FC98
3U21
IU19
2U10
FUA4
2UB7
2UB5
3F02
3F01
2F02
7F01
3F10
IR02
7U48
3U20
IU01
IUB2
3U12
7UA6
7UD2
IU47
IU43
9U41
IUB3
7U43
3U59
FUD3
IU21
CU05
7UC0
IUB4
IUB5
3U16
IU30
6UD1
3U70
IU45
3U69
IF03
IR05
3U03
3UB1
2U71
FU00
2U13 2U12
2UB8
7UA7
3U74
7F00
2F00
3F11
2F06
7F05
IF02
IF01
3R07
7UA4
3UB2
3UA0
9U42
3U75
3U53
IF08
3F04
FC96
2U04
IU64
3UB7
3U68
IF06
FU06
IU14
IU25
IU02
IU29
IF04
FU05
2U05
IU09
3U61
3U83
2UA4
3F08
IU07
IU12
FU02
IU50
3U82
IU41
3U25
3F09
7U03
IU10
FU04
IUB0
3UB5
IUA6
IU06
2U02
3UB0
IUA5
IUS7
IF55
2R47
3UB3
7UA0
3U17
IU20
2UU1
2F04
7F03
FUA0
3U18
3U14
IU61
IU52
3U19
2U08
3U09
IU04
IU13
IUS8
7F04
IFD1
3FD6
9FD1
6FD1
3FD7
9FD5
3F53
2FD1
IFD3
3U60
FU76
IU08
3U63
FS2Y
3U10
2U07
3U22
IU16
IU11
FC63
2B05
FF58
3F54
3F66
9FD2
9CH0
IFD5
7F53
3F67
3FD1
7F54
IF57
3FD2
3F69
2F53
IF56
IFD2
7FD1
IFD4
3F68
3FD3
3FD4
2F05
FC62
FU62
2U03
IU24
2U21
FU72
IUD7
FS2W
FU55
CU00
3U27
IU63
IU28
FU53
IU55
FU08
FU09
3U01
3UU1
FC86
2U01
IU05
3U04
3U73
IUD6
IU48
3U62
IU27
FU52
IU56
3U00
2U55
FC85
FU51
FU67
2U06
FU01
IU22
3U05
IUD3
IT06
IT16
FU60
3U72
6U40
2U22
IU51
FU68
2U57
FU59
FU74
FU57
IUS0
7U00
FU56
FU58
3U08
FU54
3U28
3T20
FU50
FC61
FC64
7U40
3T04
3T05
2T31
IT15
FU49
IT05
1U40
3T31
3T14
3T17
3T07
3T08
6T05
FC79
3U11
IT14
3T24
2T21
2T28
FC70
FC72
IT21
IT17
FUM0
FC71
FC78
FU48
IT07
2T25
IT13
2G11
2T26
2T27
2T16
2T15
IT25
FT05
3T12
2T29
2T23
2T24
IT08
FC73
2G19
FC76
FC82
IT04
2T13
IT26
IT27
3T29
FT00
7T04
3T06
2T40
IT32
2G18
FC77
IT23
IT22
FC74
FC75
FC84
FC83
IT12
3T13
2T34
3T09 3T15
3T19 3T16
3T18
3T23
IT29
IT11
2T20
IT10
2T35
3T25
3T28
3T26
2T42
2T07
IT30
FT04
3T10
IT09
2T43
IT03
6T02
IT24
6T00
2T10 2T36
FT06
6T04
FT08
FT07
3T11
3T03
5T02
3T00 3T21
7T01
2T09
2T39
2T08
3T02
6T01
2T05
IT18
2T04
3T01
IT02
IT20
2T06
2T30
IT19
2T03
2T41
2T02
FC81
IT00
IT01
FC93
FEE0
3ECK
FC94
IE12
IEE1
FE41
9EC2
FFC7
9FC1
2EC8
FFC2
5EC0
IE65
IE66
FEC0
3ECU
FE36
2EC6
FFC5
FFB4
FFC4
2EC0
FFC3
FFB3
2ECV
IEE2
FFC1
FFC6
IEC7
FECA
FECW
FFC8
IEC6
IEC5
9EC0
3ECE
FECJ
7EC0 7E02 3E23
FE35
FEC2
3ECD
FFB2
9FC2
10-17-2
Q552.2E LA
IEC4
FECE
FEC4
FEC5
FEC1
FECM
3ECA
FECF
3EC1
FECD
FEC6
FECK
FECL
FECP
FECC
FECN
FECG
4
LAYOUT
SSB TV550 2K11 4DDR EU
2011-01-27
3139 123 6495
19100_801_110127.eps
110127
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 172
10.18 B01 393912364955
Common Interface
Common Interface
B01A
+3V3
2F00
TRANSPORT STREAM FROM CAM
19
CA-MOVAL
CA-MOSTRT
3F03-1
IF02
3
4
5
6
7
8
9
8
100R
IF03
2
CA-DATAENn
2
18
MOCLK
17
16
15
14
13
12
11
1
MOVAL
MOSTRT
CA-DATADIR
CA-ADDENn
MOCLK
MOVAL
10
MOSTRT
MDO0
+3V3
2F02
19
MDO1
RES
MDO2
100n
20
7F01
74LVC245A
1
MDO3
3EN1
3EN2
G3
MDO4
IF05
CA-MDO0
3F04-1 1
2
8 100R
IF06
CA-MDO1
CA-MDO2
CA-MDO3
CA-MDO4
CA-MDO5
CA-MDO6
CA-MDO7
3F04-3 3
3F05-1 1
3F05-3 3
3F04-2
6 100R
3F04-4
8 100R
3F05-2
6 100R
3F05-4
2
5 100R
2
7 100R
4
3
4
5
6
7
8
9
7 100R
4
5 100R
1
2
18
MDO0
MDO5
17
16
15
14
13
12
11
MDO1
MDO2
MDO3
MDO4
MDO5
MDO6
MDO7
MDO6
MDO7
CA-RDY
10
IF07
CA-WAITn
+3V3
CA-INPACKn
2F03
15-BIT ADDRESS
3EN1
3EN2
G3
18
XIO-A01
XIO-A02
XIO-A03
XIO-A04
XIO-A05
XIO-A06
XIO-A07
CA-WP
CA-VS1n
1
1
2
CA-ADDENn
2
17
16
15
14
13
12
11
19
CA-A00
3
4
5
6
7
8
9
CA-A01
CA-A02
CA-A03
CA-A04
CA-A05
CA-A06
CA-A07
10
XIO-A00
RES
100n
20
7F02
74LVC245A
XIO-A09
XIO-A10
XIO-A11
XIO-A12
XIO-A13
XIO-A14
1
20
17
16
15
14
13
12
11
2
CA-ADDENn
2
1
19
CA-A08
3
4
5
6
7
8
9
CA-A09
CA-A10
CA-A11
CA-A12
CA-A13
CA-A14
10
18
RES
100n
3EN1
3EN2
G3
XIO-A08
+3V3
2F05
8-BIT DATA
17
16
15
14
13
12
11
1
2
CA-DATADIR
CA-DATAENn
CA-D00
3
4
5
6
7
8
9
CA-D01
CA-D02
CA-D03
CA-D04
CA-D05
CA-D06
CA-D07
10
18
XIO-D01
XIO-D02
XIO-D03
XIO-D04
XIO-D05
XIO-D06
XIO-D07
1
19
2
3EN1
3EN2
G3
XIO-D00
RES
100n
20
7F04
74LVC245A
+3V3
2F06
CONTROL
7F05
74LVC245A
XIO-D09
XIO-D08
XIO-OEn
XIO-WEn
XIO-D14
XIO-D15
CA-WAITn
18
RES
100n
3EN1
3EN2
G3
XIO-D11
1
2
19
1
+3V3
3F08-1
8
10K
7
10K
3F08-3
3
6
10K
3F08-4
4
5
10K
2
3F08-2
1 3F09-1 8
10K
2 3F09-2 7
10K
3F09-3
3
6
10K
3F09-4
4
5
10K
1
IF04
3F10-1
8
10K
7
10K
3F10-3
3
6
10K
3F10-4
4
5
10K
2
3F10-2
3F12
10K
2 3F11-2 7
10K
3 3F11-3 6
10K
4 3F11-4 5
10K
3F11-1 1
8
10K
+3V3
IF08
+5VCA
+3V3
1P00
CA-CD1n
MDO3
MDO4
MDO5
MDO6
MDO7
CA-CE2n
CA-VS1n
CA-IORDn
CA-IOWRn
CA-MISTRT
CA-MDI0
CA-MDI1
CA-MDI2
CA-MDI3
+5VCA
CA-MDI4
CA-MDI5
CA-MDI6
CA-MDI7
MOCLK
CA-RST
CA-WAITn
CA-INPACKn
CA-REGn
MOVAL
MOSTRT
MDO0
MDO1
MDO2
CA-CD2n
CA-REGn
3
4
5
6
7
8
9
CA-MIVAL
CA-MICLK
CA-A12
CA-A07
CA-A06
CA-A05
CA-A04
CA-A03
CA-A02
CA-A01
CA-A00
CA-D00
CA-D01
CA-D02
CA-WP
CA-ADDENn
2
1
17
16
15
14
13
12
11
5
10K
7
10K
3F07-3
3
6
10K
3F07-1
1
8
10K
3F07-2
+5VCA
2F04
7F03
74LVC245A
B01A
100K
3F07-4
CA-D03
CA-D04
CA-D05
CA-D06
CA-D07
CA-CE1n
CA-A10
CA-OEn
CA-A11
CA-A09
CA-A08
CA-A13
CA-A14
CA-WEn
CA-RDY
+3V3
20
22u 16V
100R
+T 0R3
1
7
4
CA-CD2n
2
100R
3F03-2 2
+5VCA
CA-CD1n
3EN1
3EN2
G3
CA-CE1n
CA-CE2n
CA-OEn
CA-WEn
CA-IORDn
CA-IOWRn
XIO-D10
71
72
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
1X07
REF EMC HOLE
1X04
EMC HOLE
1X08
REF EMC HOLE
1X01
REF EMC HOLE
92789-055LF
5
10
3F01
+5V
IF01
3F02
CA-MOCLK
3F06
CA-RST
RES
100n
20
7F00
74LVC245A
1
RES 2F01
10-18-1
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_001_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 173
Flash
Flash
B01B
12
7F20
H27U4G8F2DTR-BC
Φ
37
100n
100n
2F21
2F20
+3V3
VCC
[FLASH]
4G × 16
3F20-1 1
8
3F20-3 3
6
3F21-1 1
8
3F21-3 3
6
100R
3F20-2
100R
3F20-4
100R
3F21-2
100R
3F21-4
2
7
4
5
100R
2
7
100R
4
5
100R
3F22-2
+3V3
XIO-OEn
XIO-WEn
NAND-WPn
2
3F23
3F22-4
4
7
100R
3F22-3 3
10K
3F22-1 1
5 100R
6
8
16
17
9
8
18
19
7
100R
100R
IF22
3F24
+3V3
NC
2K2
CLE
ALE
CE
RE
WE
WP
R
B
IF23
3F19
VSS
13
NAND-RDY1n
0
1
2
3
IO
4
5
6
7
IF21
NAND-CE1n
NAND-CLE
NAND-ALE
29
30
31
32
41
42
43
44
100R
1
2
3
4
5
6
10
11
14
15
20
21
22
23
24
25
26
27
28
33
34
35
38
39
40
45
46
47
48
36
XIO-D00
XIO-D01
XIO-D02
XIO-D03
XIO-D04
XIO-D05
XIO-D06
XIO-D07
10K
B01B
+3V3
10-18-2
Q552.2E LA
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_002_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 174
USB Hub
B01C
USB Hub
B01C
IF44
100n
2F25
+3V3
26
11
IF31
IF32
+3V3
3F30
3 3F31-3 6
10K
IF41
12K IF40
IF39
4 3F31-4 5
28
31
30
27
35
22
24
25
100n
100n
2F33
100n
2F32
100n
2F31
100n
2F30
1u0
2F29
2F28
36
23
15
5
10
29
IF35
OSC1
USBDP_DN1|PRT_DIS_P1
USBDM_DN1|PRT_DIS_M1
BC_EN1|PWRTPWR1
13
2
1
12
USB-DP2
USB-DM
9F26
USB-DM2
RES 9F29
USB-DP3
RES 9F30
3F37
9F25
USB-DM3
10K
IF36
RESET
OSC2
USBDP_DN2|PRT_DIS_P2
USBDM_DN2|PRT_DIS_M2
SUSP_IND|LOCAL_PWR|NON_REM0
BC_EN2|PWRTPWR2
TEST
DP
USBUP
DM
VBUS_DET
OSC3
USBDP_DN3|PRT_DIS_P3
USBDM_DN3|PRT_DIS_M3
BC_EN3|PWRTPWR3
RBIAS
SDA|SMBDATA|NON_REM1
SCL|SMBCLK|CFG_SEL0
HS_IND|CFG_SEL1
NC
17
4
3
16
USB-OC2n
USB-DP2
USB-DM2
+5V
IF37
19
7
6
18
USB-OC3n
USB-DP3
USB-DM3
8
9
20
21
4
GND_HS
3F34-4
FF33
+5V-USB2
100K
3 3F34-3 6
USB-OC2n
10K
VIA
38
39
40
41
USB-DP
USB-DM
7
10K
XTALOUT
37
2
IF42
XTALIN|CLKIN
USB-DP
0R3
32
+3V3
+T
IF30
RESET-USBn
33
VDD_3V3
Φ
USB HUB
3F32
IF33
IF34
3F31-2
34
1u0
CR PLL
FILT
10p
2F35
3F35
7F25
USB2513B-AEZG
3
24M
10p
4
2
1
1F25
14
3F28
+3V3
1M0
2F26
100n
2F27
IF43
10K
2F34
10-18-3
Q552.2E LA
3F36
+3V3
2
USB-OC3n
100K
3F34-2
7
100K
10K
1
3F34-1
8
SIDE USB
100K
1P08
USB-DM2
USB-DP2
+5V-USB2
FF36
FF37
5
FF32
6
1
2
3
4 IF45
5401
FF38
USB-DM3
USB-DP3
+5V
FF39
FF30
FF31
RES
1F24
1
2
3
4
5
7
6
502382-0570
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_003_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 175
SD Card
SD-Card
B01D
3F40
FF45
+3V3
+T
22u 16V
B01D
2F40
10-18-4
Q552.2E LA
+3V3-SD
0R3
+3V3
4
3F41-4
IF47
5
47K
SDIO-DAT3
3
3F41-3
6
SDIO-DAT3
2
3F44-2
SDIO-CMD
FF47
7
100R
3
SDIO-CMD
3F43-3
1P09-1
6
FF48
100R
47K
3F45 RES
SDIO-CLK
3F44-1
+3V3-SD
SDIO-CLK
1
SDIO-DAT0
2 3F43-2 7
10K
8
FF49
100R
2 3F41-2 7
SDIO-DAT0
47K
1 3F41-1 8
1 3F42-1 8
47K
SDIO-DAT1
SDIO-DAT2
SDIO-DAT1
SDIO-DAT2
47K
FF41
100R
1 3F43-1 8
3 3F44-3 6
100R
FF42
3F42-2
FF46
SCDA7A0200
1P09-2
7
SDIO-CDn
SDIO-CDn
FF44
SDIO-WP
SDIO-WP
FF50
47K
3 3F42-3 6
14
16
FF43
100R
2
13
15
1
2
3
4
5
6
7
8
9
10
11
12
SCDA7A0200
47K
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_004_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 176
PNX85500 Control
PNX85500 Control
B01E
+3V3-STANDBY
Q
IF50
512K
FLASH
5
D
BACKLIGHT-BOOST
7F53 RES
PDTA114EU
PNX-SPI-SDO
IF52
6
C
10K
RES
10K
3F67
Φ
3F66
IF53
1
S
PNX-SPI-CSBn
IF54
3
W
7
HOLD
+5V
PNX-SPI-CLK
PNX-SPI-WPn
+3V3-STANDBY
FF29
VSS
IF55
BOOST-PWM
IF61
47K
2
+3V3
+3V3
3F68 RES
PNX-SPI-SDI
3F52
8
7F52
M25P05-AVMN6
VCC
IF51
+3V3
100n
RES
2F52
100p
+3V3-STANDBY
10K
+3V3-STANDBY
2F49
7F54-1 RES
BC847BPN(COL) 6
7F54-2 RES
BC847BPN(COL)
SPI-PROG
IF56
4
IF57
2
1
4
FF04
5
IF62
SDM
3
FF58
1K0
RES
RES
3F69
10K
1u0
2F53
MAIN NVM
+3V3
RES
9CH0
10K
3F54
3F53
DEBUG ONLY
IF58
2F58 RES
3F58
IF59
Φ
(8K × 8)
EEPROM
1
2
3
0
1
2
SCL
ADR
SDA
100R
FF62
FF63
WC
RES
1F52
3F62
SDA-SSB
8
7F58
FF61
SCL-SSB
100n
3F63
4
100R
SCL
1
2
3
SDA
5
7
6
5
FF55
3F59
100R
3F60
SCL-UP-MIPS
FF56
SDA-UP-MIPS
100R
4
B01E
10K
10-18-5
Q552.2E LA
FF57
LEVEL
DEBUG / RS232 INTERFACE
TXD-UP
RXD-UP
RESET-STBYn
SPI-PROG
FF65
FF66
100R
SHIFTED
RES
1F51
3F64
FF64
3F65
100R
7
6
1
2
3
4
5
UP
FOR
DEBUG
USE ONLY
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_005_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-18-6
Q552.2E LA
10.
EN 177
Tuner
Tuner
B01F
B01F
IF10
IF11
3F81
1
1p0
15p
2F65 RES
2F70 RES
2F62
IF14
2F64
IF15
15p
IF-
10n
IF+
10n
* For BR NIM Tuner Only
3K3
3F78
470n
4
2
5F70
TUN-IF-P
5F73
IF13
2F90
IF86
3
2F63
680n
2F66
220R
220R
TUN-IF-N
IF12
5F66
10n
1K0
2F92
3F72
BA591
4K7
6F72
*
3F71
9F05
9F06
47n
2F85
100p
*
+5V-TUN-PIN
10n
+5V-TUN-PIN
5
8
FF82
3F80
IF72
RES 2F95
TUN-P6
TUN-P7
100n
2F93
FF81
PNX-IF-N
IF79
FF01
IF-AGC
*
3F77
4K7
IF-AGC
FF75
*
IF82
PNX-IF-AGC
100p
2F61
* 9F04
TUN-IF-N
TUN-IF-P
RES 2F96
FF00
2F60
RES 2F59
4n7
100n
AF71
AF70
*
AF73
820R
AGC CONTROL
*
*
*
220R
IF16
330n
3F82 RES
VAGC
4
RES 5F76
4
10n
3F79-4
5F74
220R
IF80
*
AF72
3F79-1
2F82
2F79
2F73
9F03
1
10n
IF78
10n
X7251M
36M17
IF76
2p2
2F77
6
2F75
RES
2F76
OUTPUT2
INPUT2
2F72
9F02
1
VCC
3
IF74
7
2F80
IF81
IF77
OUTPUT1
5F71
5
4
INPUT1
GND2
O1
O2
GND
RES 2F9D
RES 2F9C
RES 2F9B
RES 2F9A
RES 2F99
RES 2F98
RES 2F97
FF76
4n7
*
IF73
2
*
*
FF74
RES 2F81
I
ISWI
2F74
GND1
6p8
6p8
6p8
6p8
6p8
6p8
6p8
1
2
3
2F91 RES
ATB2012
10n
IF89
47R
2F86
3F75
15p
47R
IF87
SCL-TUNER
IF88
SDA-TUNER
IF90
SELECT-SAW
2F94
TUN-P6
TUN-P7
7F70
PDTC114EU
10n
3F76
15p
RES
2F84
* For EU Hybrid Tuner Only
9F71
5F72 RES
+5V-TUN-PIN
+5V-TUN
* Remarks
Item No.
1T01
2F61
2F62
9F02
9F03
9F04
9F05
9F06
2F73
2F82
2F72
2F80
2F77
5F71
5F74
Component
Europe
Brazil
TH26X3
FA23X7
4u7
RES
5p6
10p
Used
RES
Used
RES
RES
Used
RES
Used
RES
Used
1p0
RES
1p0
RES
15p
12p
15p
12p
18p
22p
560n
680n
820n
680n
22u
30R
2F88
TUN-P1
10n
10n
2F78
IF75
*
+5V-TUN-PIN
7F75
UPC3221GV-E1
1F75
PNX-IF-P
2F71
9F01
9F00
NC
IF_OUT2
13
12
11
4MHZ_REF
IF_OUT1
14
10
B+_TUN
9
I2C_SDA
8
I2C_ADR
4
5
TUN
RF_AGC
B+_LNA
3
RF_IO
2
1
16
I2C_SCL
TUNER
15
7
*
6
FF71
1T01
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_006_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 178
Toshiba Supply
Toshiba supply
B01G
+1V2-BRA-DR1
+3V3
30R
2
10u
OUT
30R
IN
5FA4
3
100n
7FA3
LD1117DT12
2FA4
5FA3
+1V2-BRA-VDDC
FFAF
1
2FA3
COM
100n
B01G
2FA2
10-18-7
Q552.2E LA
FFA2
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_007_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 179
HDMI
HDMI
B01H
HDMI CONNECTOR SIDE
1P05
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
FFB5 21
23
DRX2+
DIN-5V
DRX2DRX1+
DRX1DRX0+
DRX0DRXC+
DRXCPCEC-HDMI
FFB1
FFB2
FFB3
FFB4
20
22
DRX-DDC-SCL
DRX-DDC-SDA
DRX-DDC-SCL
DRX-DDC-SDA
47K
B01H
1 3FBF-1 8
10-18-8
Q552.2E LA
2 3FBF-2 7
DIN-5V
47K
DIN-5V
DRX-HOTPLUG
FFB6
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_008_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 180
VGA
VGA
B01I
3FC5
CDS4C12GTA
12V
RES 6FC1
100p
1FC1
RES 2FC1
FFC1
CDS4C12GTA
12V
RES 6FC2
100p
1FC2
G-VGA
18R
100p
RES 6FC3
FFC4
1FC3
RES 2FC3
FFC3
CDS4C12GTA
12V
3FC7
B-VGA
18R
FFC5
V-SYNC-VGA
4K7
3FC3
CDS4C12GTA
12V
RES 6FC4
FFC6
1216-02D-15L-2EC
H-SYNC-VGA
9FC6
47p
9FC5
1FC4
CDS4C12GTA
12V
RES 6FC6
47p
2FC6
3FC4
4K7
VGA-SDA-EDID-HDMI
9FC2
10K
RES
3FC2
CDS4C12GTA
12V
RES 6FC5
47p
9FC1
FFC8
VGA-SDA-EDID
RES
9FC3
FFC9
47p
RES 6FC7
10K
CDS4C12GTA
12V
RES
3FC1
1FC5
2FC5
FFC7
VGA-SCL-EDID-HDMI
9FC4
RES
VGA-SCL-EDID
RES 6FC8
1FC6
47p
+5V-VGA
CDS4C12GTA
12V
17
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
2FC4
VGA
CONNECTOR
3FC6
RES 2FC2
1E05
R-VGA
18R
FFC2
2FC7
B01I
2FC8
10-18-9
Q552.2E LA
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_009_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 181
Temp sensor & headphone
Temp sensor & headphone
B01J
A2
1K0
3FD2
9FD2 RES
9FD1 RES
100n
IFD5
5
RES
A1
SCL
IFD3
6
9FD5
+VS
SDA
IFD1
7
A0
1K0
2
8
2FD1
1K0
IFD4
OS
4
100R
100R
1
1K0
3FD7
SCL-SSB
3FD4
3
3FD6
SDA-SSB
IFD2
7FD1
LM75BDP
GND
3FD3
LTST-C190KGKT
RES
3FD1
+3V3
RES
RES
1329
5
4
1
2
3
502382-0370
1328
MSJ-035-12D-B-AG-PBT-BRF
FFDA
AMP1
2
3
1
22n
FFDB
22n
2FDD
CDS4C12GTA
12V
2FDC
RES
6FD3
CDS4C12GTA
12V
1FD3
1FD2
6FD2
RES
1
1K0
1K0
3FDG-1
3FDG-2
7
8
AMP2
2
B01J
6FD1
10-18-10
Q552.2E LA
FFDC
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_010_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 182
Tuner Brazil
B01K
Tuner Brazil
B01K
5FE0
IF63
IF64
+2V5-BRA
+1V2-BRA-VDDC
+3V3-BRA-FLT
1u0
100n
2FF1
100n
2FF0
100n
2FE5
100n
2FE4
2FE3
1u0
2FE0
30R
AGND
5FE3
IF66
IF65
+3V3-BRA-FLT
5FE4
+3V3-BRA
30R
1u0
100n
2FF6
100n
2FF5
100n
2FF4
100n
2FF3
2FF2
1u0
2FE6
30R
AGND
5FE5
IF68
IF67
+1V2-BRA-DR1
IF48
5FE7
+3V3-BRA
+3V3
1u0
100n
2FF9
100n
2FF8
2FF7
1u0
2FE8
30R
30R
5FE8
IF69
+2V5-BRA
7FE3
LD3985M25
5FE9
1
+5V
30R
18p
2FG3
2FG2
25M4
4 2
1u0
3
100n
2FG1
1FE0
2FG0
30R
1
18p
3
IN
OUT
INH
BP
FF03
5
+2V5-BRA
4
10n
2FG6
2FG7
AGND
2FG9
100n
2FG8
10n
100n
IF17
IF18
30
29
BFE2
28
27
BFE3
100n
2FH6
100n
24
25
2FH7
100n
26
AGND
39
AGND
0
XSEL
1
PBVAL
RERR
RLOCK
P
ADI_AI
N
RSEORF
P
ADQ_AI
N
SBYTE
SLOCK
P
AD_VREF
N
SRCK
AD_VREF
SRDT
DTCLK
STSFLG1
21
58
53
54
55
3FG6-4
5
33R
TS-BR-VALID
1
9F27-1
8
*
3FG6-3
3
6
33R
TS-BR-SOP
2
9F27-2
7
*
7
11
SCL-SSB
SDA-SSB
3FE8
100R
3FE9
IF49
100R
45
46
STSFLG0
SYRSTN
AGCI
0
SLADRS
1
CKI
SCL
SDA
AGND
PLLVSS
10K IF29
0
TSMD
1
*
TS-FE-CLOCK
*
TS-FE-DATA
DFE8
DFE9
5FG0
3FG7
60
3FG6-2
TN
VSS
SCL
SDA
33R
2
7
9F28
TS-BR-CLOCK
33R TS-BR-DATA
4
9F27-4
5
30R
5FG2
DFF1
30R
9
3FE5
18K
10
51
1u0
TS-FE-SOP
DFE7
DFF2
IF28
IF-AGC
AGND
42
6
5
12
14
3FG2-1
RESET-SYSTEMn
10K
3FG2-2
10K
3FG4-2
4K7
3FG4-1
4K7
+3V3-BRA-FLT
4
15
33
37
44
47
50
57
62
3FE7
AGCCNTR
17
1
41
10K
S_INFO
AD_DVSS
3FE6
AGCCNTI
31
8
DTMB
AD_AVSS
+3V3-BRA-FLT
10n
TS-FE-VALID
DFE6
61
38
4
IF27
40
2
AGND
1n5
59
52
2FH4
* To be drawn near PNX85500
2FH3
2FH5
1u0
43
FIL
2FH2
VDDS
DR2VDD
34
48
16
36
56
63
22
13
35
49
64
Φ
DR1VDD
O
VDDC
10n
2FG4
IF+
IF-
X
2FH8
3
2
I
PLLVDD
19
18
32
AGND
AD_AVDD
AGND
AD_DVDD
AGND
20
COM
7FE0
TC90517FG
23
10-18-11
Q552.2E LA
AGND
4
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_011_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 183
10.19 B02 393912364955
NANDflash - conditional access
PNX85500: NANDflash - conditional access
B02A
7S00-5
PNX85500
FLASH
J25
J26
H21
H22
H23
H24
H25
H26
G21
G22
G23
G24
G25
G26
F22
F23
IS25
00
01
02
03
04
05
06
07
XIO_A
08
09
10
11
12
13
14
15
XIO-D00
XIO-D01
XIO-D02
XIO-D03
XIO-D04
XIO-D05
XIO-D06
XIO-D07
XIO-D08
XIO-D09
XIO-D10
XIO-D11
XIO
B22
OE_
C22
WE_
XIO-OEn
XIO-WEn
CLK_BURST
CE1_
CE2_
NAND RDY2
RDY1
WP_
INPACK
XIO-D14
XIO-D15
B21
IS26
INPACK
3S15
10K
+3V3
E21
D21
A20
F21
A21
NAND-CE1n
NAND-RDY1n
NAND-WPn
9S08
10K
RES
D22
ALE
C21
NAND
CLE
XIO-A00
XIO-A01
XIO-A02
XIO-A03
XIO-A04
XIO-A05
XIO-A06
XIO-A07
XIO-A08
XIO-A09
XIO-A10
XIO-A11
XIO-A12
XIO-A13
XIO-A14
XIO-A15
D25
D26
C24
D23
C23
B23
A22
E22
F24
F25
F26
E23
E24
E25
E26
D24
00
01
02
03
04
05
06
07
XIO_D
08
09
10
11
12
13
14
15
3S1V
NAND-ALE
NAND-CLE
10K
3S1W
+3V3
IS00
7S00-11
PNX85500
3S01-1 8
33R
3S01-3 6
CA-MDI0
CA-MDI1
CA-MDI2
CA-MDI3
CA-MDI4
CA-MDI5
CA-MDI6
CA-MDI7
1
7 3S01-2 2
3 33R
33R 5 3S02-4 4
33R
7 3S02-2 2
33R 8 3S02-1 1
6
3 33R
3S02-3
33R 5 3S01-4 4
33R
P21
P22
P23
P24
P25
P26
N21
N22
CA-ADDENn
J22
CA-DATADIR
K25
K26
CA-DATAENn
3S03
CA-MICLK
N23
10R
L25
CA-MOCLK
N24
3S31
CA-MIVAL
33R
N25
CA-MOSTRT
L22
CA-MOVAL
L23
J21
L24
CA-RDY
VIDEO_STREAM
0
1
2
3
MDI
4
5
6
7
0
1
2
3
MDO
4
5
6
7
10K
3S1X
+3V3
N26
M21
M22
M23
M24
M25
M26
L21
CA-MDO0
CA-MDO1
CA-MDO2
CA-MDO3
CA-MDO4
CA-MDO5
CA-MDO6
CA-MDO7
ADD_EN
VS
K23
1
K24
2
CD
DATA_DIR
K21
1
K22
2
DATA_EN
I
MCLK
O
9S00
CA-VS1n
CA-MOCLK
CA-CD1n
CA-CD2n
CA
+3V3
MISTRT
MIVAL
TS-FE-DATA
3S1R
MOSTRT
TS-FE-CLOCK
3S1S
MOVAL
TS-FE-VALID
3S1T
OOB_EN
TS-FE-SOP
3S1U RES
560R
560R
RES
560R
560R
RDY
J23
RES
9S01
CA-MISTRT
J24
+3V3
RST
VCCEN
VPPEN
T21
DATA
T23
ERR
T22
TNR_SER1 MICLK
R23
MIVAL
R22
SOP
TS-FE-DATA
TS-FE-DATA
3S23
TS-FE-CLOCK
TS-FE-VALID
TS-FE-SOP
TS-FE-CLOCK
3S24
TS-FE-VALID
3S28
TS-FE-SOP
L26
CA-RST
470R
3S29 RES
TS-FE-ERR
470R
470R
RES 470R
100n
7S02
5
33R
B02A
3S04
2S09
10-19-1
1
4
2
3
5
SPB SSB TV550
2K11 4DDR EU
74LVC1G08GW
2011-04-27
4
2010-12-10
3139 123 6495
19104_012_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 184
SDRAM
PNX85500: SDRAM
B02B
F3
C2
F2
C3
B4
F1
C1
E1
F4
B2
E5
C5
A4
G5
B3
F5
U3
P2
U2
P3
N1
U1
P1
T1
V4
R5
U5
P5
N3
V3
R4
V5
180R 1%
3S07
180R 1%
DDR2-VREF-CTRL2
2S12
N
P
DQS0
N
P
DQS1
N
P
DQS2
N
P
DQS3
N
P
CASB
CKE
CSB
ODT
PCAL
RASB
WEB
1
VREF
2
N5
N4
DDR2-CLK_N
DDR2-CLK_P
3S30
10R
3S33
10R
E2
E3
DDR2-DQS0_N
DDR2-DQS0_P
D3
D4
DDR2-DQS1_N
DDR2-DQS1_P
R1
R2
DDR2-DQS2_N
DDR2-DQS2_P
T3
T4
DDR2-DQS3_N
DDR2-DQS3_P
K3
K4
L5
M4
M1
M5
H3
DDR2-CAS
DDR2-CKE
DDR2-CS
DDR2-ODT
DDR2-RAS
DDR2-WE
A2
V1
DDR2-CKE
3S6Q
10K
DDR2-ODT
3S6P
10K
RES
DDR2-VREF-CTRL2
DDR2-VREF-CTRL3
3S0V
FS01
DDR2-VREF-CTRL3
CLK
2S24
FS02
100u 2.0V
180R 1%
3S06
180R 1%
3S20
+1V8
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
DQ
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
M0
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A13
DDR2-A14
IS42
261R
DDR2-D0
DDR2-D1
DDR2-D3
DDR2-D2
DDR2-D6
DDR2-D5
DDR2-D4
DDR2-D7
DDR2-D8
DDR2-D9
DDR2-D10
DDR2-D11
DDR2-D12
DDR2-D13
DDR2-D14
DDR2-D15
DDR2-D16
DDR2-D17
DDR2-D19
DDR2-D18
DDR2-D22
DDR2-D23
DDR2-D20
DDR2-D21
DDR2-D24
DDR2-D30
DDR2-D26
DDR2-D25
DDR2-D28
DDR2-D31
DDR2-D27
DDR2-D29
0
1
DM
2
3
J1
J3
K1
G4
L3
G3
L2
H5
L1
J5
J2
M3
J4
M2
K5
1%
D1
D5
R3
T5
0
1
2
3
4
5
6
7
A 8
9
10
11
12
13
14
100p
DDR2-DQM0
DDR2-DQM1
DDR2-DQM2
DDR2-DQM3
MEMORY
0
1 BA
2
100n
2S25
DDR2-BA2
H1
H2
G1
DDR2-BA0
DDR2-BA1
100n
2S17
7S00-8
PNX85500
100p
2S20
B02B
3S22
10-19-2
Q552.2E LA
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_013_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 185
Digital video in
PNX85500: Digital video in
B02C
7S00-6
PNX85500
HDMI_DV
HDMIA-RX2+
HDMIA-RX2-
T25
T26
HDMIA-RX1+
HDMIA-RX1-
U25
P
RX1_A
U26
N
P
RX0_A
N
HDMIA-RX0+
HDMIA-RX0HDMIA-RXC+
HDMIA-RXC+3V3
Y26
SCL
Y25
DDC_A
SDA
V25
P
T24
RX2_A
V26
N
HOT_PLUG_A
W25
P
RXC_A
W26
N
DDCA-SCL
DDCA-SDA
IS10
IS01
3S0W
W24
RREF
12K
10u
B02C
RES
2S2E
10-19-3
Q552.2E LA
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_014_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 186
Audio
B02D
PNX85500: Audio
B02D
3S0Z
+2V5-AUDIO
3S53-1
+24V-AUDIO-POWER
4R7
100R
AF5
100n
56R
DBS8
AE5
1u0
2S41
4R7
2S42
220n
2S3J
2S2S
10u RES
1u0 RES
100u 4V
10
4
IS1S
3S3G-4
5
4
7S05-3
LM324 8
3S39
-AUDIO-R
100R
11
ADAC(3)
33R
ADAC(4)
33R
3
3S36-3
10K
6
5
10K
3S3H
ADAC(5)
33R
3S3U
3S36-4
2S2H
4
47p
ADAC(6)
+24V-AUDIO-VDD
33R
SPDIF_OUT
2S3D
3S3F
1
9
3S3G-2
2
7
AE1
1
AD8
AF2
VREF_AADC
2
AE3
I2S_OUT_SD 3
AC8
AF3
VCOM_AADC
4
IS1A
IS03
ADAC(2)
SPDIF_IN1
1n0
IS1B
1u0
AD7
AE7
AF7
AD6
AE6
AF6
AD4
OSCLK
AD1
SCK
AD2
WS
I2S_OUT
AB9
POS
VR_AADC
AB8
NEG
ADAC(2)
33R
1n0
2S38
2S2L
AF8
L
AIN5
AE8
R
6
1n0
2S39
3S10
100R
3S3G-3
1n0
2S3A
1u0
3S36-1
2S2G
ADAC(1)
3
1n0
2S3B
1
2
3
ADAC
4
5
6
AD9
L
AC9
AIN4
R
2S32
IS07
3
ADAC(5)
4
7S05-1
LM324
1
AUDIO-OUT-L
2
11
3S37
3S6L
10K
22K
2S2K
+3V3
47p
+3V3-ARC
+24V-AUDIO-VDD
3S11
IS1L
1R0
5
ADAC(6)
4
IS06
7S05-2
LM324 7
AUDIO-OUT-R
6
1 3S18-1 8
IS1G
SPDIF-OUT
220R
3S18-2
100n
2
+3V3
3S34
6
14
&
&
8
+3V3
10
2S3L
180R
100n
5
IS1K
3S6M
2S3M
IS44
eHDMI+
100n
68R
IS1E
+3V3-ARC
7S09-3
74LVC00APW
9
3S25
SEL-HDMI-ARC
22K
2S2J
47p
+3V3-ARC
7S09-2
74LVC00APW
4
3S32
10K
220R
2S3K
6
3
+3V3
3S18-3
&
2
3
7S09-1
74LVC00APW
1
IS1D
7
SPDIF-OUT-PNX
7
SPDIF-OUT-PNX
11
+3V3-ARC
7S09-4
74LVC00APW
12
14
IS19
8
&
11
+3V3
13
7
7
10K
10K
7
14
3S17-2
7
10u
2S3G
22K
33R
7
IS1Q
3S13-2
1 3S3G-1 8
IS1N
1u0
AC6
P
AB6
ADACR
N
AE9
L
AF9
AIN3
R
1u0
2
100n
2S3H
2
2S33
8
10u
2S3E
AUDIO-IN4-R
22K
AD10
L
AC10
AIN2
R
3S17-1
8
10K
3S36-2
47p
1n0
2S3C
2S30
14
3S13-1
1
+AUDIO-L
+24V-AUDIO-VDD
7
6
10K
1u0
1
3S38
100R
11
10K
2S36
AUDIO
AC7
AE10
L
P
AB7
AIN1
ADACL
AF10
R
N
1u0
IS1P
7S05-4
LM324 14
13
7S00-2
PNX85500
2S31
22K
AUDIO-IN4-L
3S51
1u0
5
10K
3
3S17-3
IS02
2
2S2Y
3S17-4
6
4
12
ADAC(1)
100n
22K
IS0V
5
3S13-3
3
+2V5
IS1M
2S3Q
AUDIO-IN3-R
4S14
1u0
10K
4
4
IS0R
3S13-4
AUDIO-IN3-L
3
2S2Z
6
10K
3S16-4 5
4
10K
INH
IS13
2S34
1u0
3S16-3 3
BP
FS03
1
COM
2S2T
100R
IN
2
2S2V
22K
OUT
4
3S53-4
7
10K
5
IS12
220R
2
3S16-2
7
FS08
2S2R
IS1J
2 3S12-2
3S19
AUDIO-IN1-R
100R
100n
22K
100R
3S53-3
1u0
8
10u
2S2W
1 3S16-1 8
10K
IS1H
3S12-1
7S08
LD3985M25
9S06
RES
1
AUDIO-IN1-L
+24V-AUDIO-VDD
+3V3
3S53-2
2S3F
10-19-4
Q552.2E LA
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_015_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-19-5
Q552.2E LA
10.
EN 187
MIPS
PNX85500: MIPS
B02E
B02E
+3V3
7S00-3
PNX85500
CONTROL
RES 3S21
+3V3
10K
3S62
10K
10K
FS10 TXD2-MIPS
FS11 RXD2-MIPS
IS04
GPIO6
PNX-SPI-CS-BLn
+3V3
GPIO6
PNX-SPI-CS-BLn
BOOST-PWM
SELECT-SAW
+3V3
FS64
SELECT-SAW
5K6
3S64
3S55
10K
TRSTN
TMS
TCK
TDO
TDI
RESET_SYS
BL_PWM
10K
CLK_54_OUT
3S83
+3V3
RXD1-MIPS
3D-VS
10K
3S84
+3V3
10K
1
100R
B24
SDA
4
A23
SCL
R26
DN
R25
USB
IS4Z R24 DP
RREF
USB-DM
USB-DP
3S60
1
100R
2 3S5W
SDA-SET
SCL-SET
2
3S5Z
SDA-SSB
SCL-SSB
3S61
SDA-TUNER
SCL-TUNER
2
1
100R
2
AA25
AA24
AA23
AB26
AB25
EJTAG-TRSTn-PNX85500
EJTAG-TMS-PNX85500
EJTAG-TCK-PNX85500
EJTAG-TDO-PNX85500
EJTAG-TDI-PNX85500
3S00
AE4
RES
1F10
3S69
SDA-UP-MIPS
SCL-UP-MIPS
3S6A
4K7
4K7
3S6D
SDA-SSB
SCL-SSB
2K2
3S6G
FS53
2K2
4K7
3S6E
SDA-TUNER
SCL-TUNER
2K2
3S6F
3S6C
4K7
FS49
FS50
FS51
FS52
EJTAG-DETECTn
3S6B
SDA-SET
SCL-SET
FS44
EJTAG-TRSTn-PNX85500
EJTAG-TMS-PNX85500
EJTAG-TDO-PNX85500
EJTAG-TCK-PNX85500
EJTAG-TDI-PNX85500
10 9
1
2
3
4
5
6
7
8
FOR FACTORY
USE ONLY
2K2
3S6K
EJTAG-TRSTn-PNX85500
EJTAG-TMS-PNX85500
EJTAG-TCK-PNX85500
EJTAG-TDO-PNX85500
EJTAG-TDI-PNX85500
1
10K
8 3S6H-1
10K
3
6 3S6H-3
10K
2
10K
FS57
+3V3-STANDBY
+3V3
BM08B-SRSS-TBT
7 3S6H-2
5 3S6H-4
4
10K
RESET-SYSTEMn
33R
AD5
BACKLIGHT-PWM
AC5
IS14
+3V3
TXD1-MIPS
3S72
3S4A
BACKLIGHT-PWM
+3V3
IS40
PXCLK54
47R
100R
IS15
3D-VS-DISP
3S4B
100R
RES
RES
+3V3
2S89
100n
+3V3
3
10K
1
100R
1 3S5Y 2
100R
B25
SDA
3
A24
SCL
SDA-UP-MIPS
SCL-UP-MIPS
7S01
PCA9540B
VDD
1
SCL
SDA-SET
2
SDA
INP
FIL
I2 C
-BUS
CTRL
5
SCL-DISP
SC1
SCL-SET
SC0
8
SCL-BL
SD0
4
SDA-DISP
SD1
7
SDA-BL
SCL-DISP
SCL-BL
SDA-DISP
SDA-BL
2
3S65
1
4K7
1
4K7
3S67
2
1
4K7
3S68
2
1
4K7
2
3S66
VSS
6
+3V3
+3V3
3S80
3S81
9S09
2 3S57
10K
BOOST-PWM
+3V3
IS17
1
100R
3S58
1
2
100R
B26
SDA
2
A25
SCL
GPIO_0
GPIO_1
GPIO_2
GPIO_3
GPIO_4
GPIO_5
GPIO_6
GPIO_7
GPIO_10
GPIO_11
2
3S27
3D-LR
DS52
10K
3S82
Y21
IS16 Y22
Y23
Y24
W21
W22
W23
V22
V23
U23
3S56
10K
+3V3
BOOTMODE
3D-LR
RXD1-MIPS
TXD1-MIPS
RXD2-MIPS
TXD2-MIPS
1
100R
3S6J
10K
3S40
C25
SDA
C26
SCL
3S26
1
BOOTMODE
RES 10K
IS05
3S45
+3V3
FS31
9S10
IS08
SCL-BL
SDA-SET
IS09
9S11
FS2W
SCL-DISP
9S12
SCL-SET
FS2Y
SDA-DISP
9S13
SDA-BL
7S00-4
PNX85500
ETHERNET
ETH-RXCLK
AA3
ETH-RXD(0)
ETH-RXD(1)
ETH-RXD(2)
ETH-RXD(3)
Y5
0
Y6
1
AB4
RXD ETH
2
AC1
3
ETH-RXDV
ETH-RXER
SDIO-DAT3
SDIO-CLK
SDIO-CMD
SDIO-DAT0
SDIO-DAT1
SDIO-DAT2
SDIO-CDn
SDIO-WP
IS50
RXCLK
TXCLK
0
1
AC2
TXD
RXDV
2
Y4
RXER
3
ETH
TXEN
W2
CC_DAT3
TXER
W1
CLK
COL
W6
CMD
CRS
W5
0
MDC
W4
SDIO
1 DAT
MDIO
W3
2
U6
SDCD
V6
SDWP
AA2
ETH-TXCLK
AA1
AA4
AB1
AB2
AA5
AB3
AC3
Y2
Y3
Y1
ETH-TXD(0)
ETH-TXD(1)
ETH-TXD(2)
ETH-TXD(3)
ETH-TXEN
ETH-TXER
ETH-COL
ETH-CRS
ETH-MDC
ETH-MDIO
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_016_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-19-6
Q552.2E LA
10.
EN 188
Video out - LVDS
B02F
PNX85500: Video out - LVDS
B02F
7S00-7
PNX85500
PX1APX1A+
A7
B7
PX1BPX1B+
C8
B8
PX1CLKPX1CLK+
9S90
9S91
N
A
P
LVDS
A
B
N
B
P
C10
N
B10
CLK
P
PX1CPX1C+
A9
B9
PX1DPX1D+
N
P
N
P
CLK
D7
E7
PX3APX3A+
E8
D8
PX3BPX3B+
E10
N
D10
P
9S94
9S95
PX3CLKPX3CLK+
C
N
P
D9
E9
PX3CPX3C+
A11
N
B11
D
P
D
D11
N
E11
P
PX3DPX3D+
PX1EPX1E+
C12
N
B12
E
P
E
E12
N
D12
P
PX3EPX3E+
PX2APX2A+
A14
N
B14
A
P
A
D14
N
E14
P
PX4APX4A+
PX2BPX2B+
C15
N
B
B15
P
B
E15
N
D15
P
PX4BPX4B+
CLK
E17
N
D17
P
C
D16
N
E16
P
PX4CPX4C+
D
D18
N
E18
P
PX4DPX4D+
E
E19
N
D19
P
PX4EPX4E+
PX2CLKPX2CLK+
PX2CPX2C+
PX2DPX2D+
PX2EPX2E+
9S92
9S93
N
C
P
LOUT1 LOUT3
C17
N
B17
CLK
P
A16
B16 N
C
P
A18
B18 N
D
P
C19
B19 N
E
P
LOUT2 LOUT4
9S96
9S97
PX4CLKPX4CLK+
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_017_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-19-7
Q552.2E LA
10.
EN 189
Standby controller
PNX85500: Standby controller
B02G
POL
+1V1
B02G
2S13
100n
1u0
2S10
30R
RES
5S04
IS3B
10K
+3V3-STANDBY
3S1H
10K
3S1G
RXD-UP
TXD-UP
10K
3S2A
RXD-UP
TXD-UP
DETECT2
RESET-SYSTEMn
AV2-BLK
AV1-BLK
KEYBOARD
LIGHT-SENSOR
AV1-STATUS
AV2-STATUS
10K
RES
RESET-SYSTEMn
3S1J
100K
RES
KEYBOARD
2S4E
100n
3S1L
10K
SPI-PROG
AC17
AF26
PSEN
MC
SPI-PROG
PNX-SPI-WPn
AF22
4
AE22
P6
5
EA
IS3F
AC23
SDA
AC24
SCL
100R
3S2G
100R
3S2K
3S2H
100R
3S43
10K 3S42
10K
PSEN
SDA-UP-MIPS
SCL-UP-MIPS
LED1
LED2
AE23
SDO
AF25
SDI
AF24
SPI
CLK
AF23
CSB
AB17
0
AA18
1
AD18
2
AE18
3
AF18
P0
4
AA19
5
AB19
6
AC19
7
ALE
PSEN
3S2F
100R
10K
EA
ALE
AC26
3S44
IS3E
IS3D
AB23
AD26
0
PWM AC25
1
AD23
0
AE26
1
AE25
P5
2
AE24
3
10K
RES
3S1K
ALE
AE21
0
AF21
1
AA22
2
AB22
P3
3
AC22
4
AD22
5
DETECT2
EA
RES
SDA-UP-MIPS
SCL-UP-MIPS
3S6V
4K7
RES
LED1
LED2
10K
IS2V
CTRL-DISP
RESET-DVBS
RESET-USBn
RESET-ETHERNETn
SEL-HDMI-ARC
RESET-AVPIP
RESET-AUDIO
AUDIO-MUTE-UP
RES
3S41
10K
PNX-SPI-SDO
PNX-SPI-SDI
PNX-SPI-CLK
PNX-SPI-CSBn
IS2Z
3S6W
4K7
3S1P
RES
10K
RES 3S3Y
10K
CTRL-DISP
RESET-DVBS
RESET-USBn
RESET-ETHERNETn
SEL-HDMI-ARC
RESET-AVPIP
RESET-AUDIO
AUDIO-MUTE-UP
10K
3S2L
3S2S
RES
3S3W
4K7
RES
10K
RES
10K
10K
3S46
+3V3-STANDBY
3S47
3S2M
RES
3S49
4K7
+3V3-STANDBY
+3V3-STANDBY
7S20
NCP303LSN28
2
FS45
1
IS2U
5
INP
OUTP
CD
1K0
10K
3S3T
STANDBY
1 3S2V 2
10K
RES 3S3S
AC20
0
AD20
1
AE20
2
AF20
3
AA21
P2
4
AB21
5
AC21
6
AD21
7
RESET-STBYn
AB24
FS0Z
RESET-STBYn
1
NC GND
3
3S3P
LCD-PWR-ONn
EJTAG-DETECTn
LAMP-ON
STANDBY
FAN-CTRL1
FAN-CTRL2
POWER-OK
ENABLE-3V3n
AA26
4
10K
LCD-PWR-ONn
EJTAG-DETECTn
LAMP-ON
STANDBY
FAN-CTRL1
FAN-CTRL2
POWER-OK
ENABLE-3V3n
RESET_IN
100n
3S3M
RES
10K
3S3N RES
10K
3S3Q RES
10K
3S3R
10K RES
XTAL_OUT
+3V3-STANDBY
10p
AF17
2S4K
10K
1
AE17
10p
2S4F
9S0E
3S3L
2
4
RES
+3V3-STANDBY
RC
TACHO
CEC-HDMI
BACKLIGHT-PWM-ANA-DISP
SDM
7S00-9
PNX85500
XTAL_IN
2S4G
3
1
9S0D
3S1E
10K
RC
TACHO
CEC-HDMI
BACKLIGHT-PWM-ANA-DISP
SDM
DS50
VDD_XTAL
10K
3S1D
27K
RES
10K
RES
3S1F
AD17
3S1C
AD19
0
AE19
1
AF19
2 P1
AA20
3
AB20
7
VDDA_ADC2V5
2S4D
1n0
3S1B
VSS_XTAL
+3V3-STANDBY
VDDA_1V1_DCS
AA17
IS20
54M
100n
1S02
9S24
1u0
2S11
RES
2S37
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_018_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 190
Power
B02H
100n
2S5A
RES 10u
2
+1V1
1
B02H
5S80
IS3Q
PNX85500: Power
2S6A
10-19-8
Q552.2E LA
30R
5S81
2S5B
RES 10u
1
100n
2S6B
2
+2V5
30R
5S82
IS3S
100n
+3V3
+2V5
VDD_3V3_SBY
2S5D
2S4M
1
10u
2S4P
100n
2S4N
VSSA_USB
VDDA_2V5_VADC
VDDA_2V5_VDAC
VDDA_3V3_USB
10u
100n
100n
2S4Y
10u
2S50
100n
2S4Z
6.3V
10u
100n
+1V2
30R
c000
SENSE+1V2
Y17
D13
POL
T20
Y13
+2V5-AUDIO
Y10
100n
VDDA_2V5_USB
30R
R21
R20
100n
2S45
+2V5-AUDIO
5S87
+2V5
1u0
2S56
100n
2S55
30R
5S88
30R
10u
100n
2S57
2S5M
+2V5-LVDS
+2V5
100n
2S58
30R
1
10u
2
100n
2S6K
1
2S6H
2
5S89
5S90
+2V5
10u
100n
100n
2S53
2S4T
2SHW
30R
5S92
1u0
100n
2S59
2
+3V3
30R
1
1
100n
2S6L
2
IS58
2S6M
VDD_1V1_DDR
VSSA_1V1_LVDS_PLL
VDDA_2V5_LVDS_BG
AA7
+2V5
30R
5S84
AA9
2S46
VDDA_2V5_DCS
5S95
Y12
RES 1u0
2S4W
+1V1
IS3L
2S52
VDDA_2V5_ADAC
5S83
B13
2S51
VDDA_2V5_AADC
2S6P
1
100n
100n
2S6C
Y19
Y18
AA15
Y15
VDDA_1V2
AA13
VDDA_2V5
30R
+3V3-STANDBY
IS3K
VDDA_1V1_LVDS_PLL
+3V3
2
2
100n
2S6N
1
2
W20
P20
M20
K20
V7
Y8
10u
2S4U
VDD_1V1
5S85
2S4V
VDD_3V3
C7
C9
C11
C14
C16
C18
2S6F
VDD_2V5_LVDS
+2V5-LVDS
N6
N7
100n
1 2S6G 2
VDD_2V5
U22
1
HDMI_VDDA_3V3_TERM
220u 6.3V
U20
U21
100n
2S6D
100n
2S6E 2
2
30R
1
V20
V21
HDMI_VDDA_2V5
VSSA_2V5_LVDS_BG
1u0
2S21
100n
2
2S5P
1
HDMI_VDDA_1V1
VDD
C13
J7
30R
VDD_1V8
A13
2S29
220u 2.5V
100n
5
100n
2S5J-4
4
1
3
5S94
+1V1
10u
RES
VSS
2S4S
VSS
VSS
M7
N2
N20
P10
P12
P14
P16
P18
P4
P6
P7
T10
T12
T14
T16
T18
T2
T6
T7
U4
V10
V12
V14
V16
V18
V2
Y20
AF1
AE2
AD3
AC4
AB5
H20
F11
G11
F13
G13
F15
G15
F17
G17
F19
G19
J9
J11
J13
J15
J17
L9
L11
L13
L15
L17
N9
N11
N13
N15
N17
R9
R11
R13
R15
R17
U9
U11
U13
U15
U17
J6
AA6
Y7
W7
F9
G9
U24
V24 HDMI_AGND
100u
2S23
5
100n
100n
2S5H-4
100n
2S5H-3
3
2
2
100n
2S5J-1
100n
2S5J-2
7
8
4
5
6
100n
2S5J-3
6
7
8
3
4
100n
2S5K-4
100n
2S5K-3
2
100n
2S5K-2
2S5K-1
1
AA16
AA8
Y11
Y14
Y16
Y9
VSS
G14
G16
G18
G2
G20
G8
H4
H6
H7
J20
K10
K12
K14
K16
K18
K2
K6
K7
L20
L4
M10
M12
M14
M16
M18
M6
A1
A10
A12
A15
A17
A19
A26
A3
A8
B1
B20
C20
C4
D2
D20
E13
E20
E4
F10
F12
F14
F16
F18
F20
F8
G10
G12
4
6
8
100n
2S5H-2
6
5
1
100n
2S5H-1
100n
2S5G-4
3
100n
2S5G-3
7
2
100n
2S5G-2
2S5G-1
1
22u
22u
2S4R
100n
2S4Q
100n
2S27
2S28
100n
2S43
8
7
+1V1
30R
5S93
L6
L7
R6
R7
U7
A5
A6
B5
B6
C6
D6
E6
F6
G6
F7
G7
7S00-10
PNX85500
VSSA
RES 10u
c001
SENSE+1V1
7S00-12
PNX85500
100n
2S5C
2
100n
2S68
100n
2S67
100n
2S66
100n
2S65
100n
2S64
100n
2S63
100n
2S62
100n
2S61
100u
2S60
2S26
+1V8
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_019_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 191
Analog video
PNX85500: Analog video
B02I
2S87
AV1-CVBS
Y-SVHS
2S8A
47R
3S5B
22n
56R
Connectivity
3S59
47R
22n
3S05
B02I
2S7J
AV1-R
C-SVHS
2S22
3S4J
56R
22n
22n
EU: SCART1
CVBS-MON-OUT1
22n
560R
3S5E
2S7K
AV1-B
56R
-
3S4L
AP:
3S08
560R
47p
2S7H
2S40
IS4V
22n
8K2
IS4W
3S09
56R
3S4K
AV1-G
2S7M
YPBPR1-SYNCIN1
10n
2S7L
56R
3S4P
AV3-Y
22n
2S7N
AP:
56R
YPBPR1
YPBPR1
3S4R
AV3-PR
EU:
22n
7S00-1
PNX85500
ANALOG_VIDEO
2S7P
2S8G
AV2-CVBS
*
9S18
22n
AB14
AF14
AE14
AC14
AD14
2S7R
AV4-Y
22n
SCART2
YPBPR2
9S19
EU:
AP:
AF15
AE15
AC15
AD15
AF16
AD16
AE16
AB18
AC18
AF4
AD24
AD25
AF11
AE11
AB10
AA11
AC16
AB16
AB13
AB12
AA12
AA10
AD12
AB11
AE12
AF12
IS5E
3S5S
10K
IS5D
IS5F
IS5G
IS5H
IS5J
3S75
BS15
PNX-IF-AGC
10K
BS10
IS11
3S76
10n
2S76
AA14
PNX-RF-AGC
47K
9S20
22n
2S14
BS13
AGND
2S7U
2S15
22n
AD11
AC11
+CVBS
AV4-PR
2S16
22n
22n
22n
IS5C
2S18
22n
AC12
AF13
2S19
CVBS_Y1 ATV_CVBS_Y3
R
C3
B AV1
G
CVBS_Y7
C7
SYNCIN1
Y_G1
CVBS1_OUT
PR_R_C1
CVBS2_OUT
PB_B1
RESREF
CVBS_Y2
CURREF
SYNCIN2
Y_G2
1
PR_R_C2
2
PB_B2
3
REF
4
R
5
G VGA
6
B
HSYNC_IN
IF_AGC
RF_AGC
IN
VSYNC
OUT
P
SCL VGA_EDID
TUNER N
SDA
10n
AB15
AC13
AD13
AE13
22n
2S75
56R
3S4T
AV3-PB
2S77
PNX-IF-P
10n
2S7E
AV4-PB
9S21
22n
2S78
PNX-IF-N
10n
2S84
56R
3S50
R-VGA
22n
2S85
56R
3S52
G-VGA
22n
2S86
7
100R
100R
3S5V-4
3S5V-2
2
100R
4
8
5
7
5
3 3S5T-3 6
2
V-SYNC-VGA
4
1
100R
3S5T-1
H-SYNC-VGA
100R
AP: VGA
22n
3S5T-2
EU: VGA
3S5T-4
56R
B-VGA
3S54
10-19-9
Q552.2E LA
100R
VGA-SCL-EDID
VGA-SDA-EDID
RES
RES
3
1
3S5V-3
100R
3S5V-1
6
8
100R
5
* 319803104790 - RST SM0402 47R PMS Col R at 9S18 for BRZ
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_020_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 192
10.20 B03 393912364955
Audio
Audio
B03A
+AVCC
7D03-1
BC847BS(COL)
3D09
+24V-AUDIO-POWER
FD14
1
+24V-AUDIO-POWER
6
B03A
220R
3
6
3D02-3
3
5
7D15-2
BC847BS(COL)
4
4K7
ID19
ID18
6
5
18
17
2D16
GND-AUDIO
2D17
ID29
11
7
4
2
1u0
ID30
1u0
AUDIO-MUTE-UP
1
3
AVCC
47n
4K7
1u0
ID37
L
Φ
IN
L
2D22
220n
3D14-1
220n
1
2D26
RES
8
7
3D14-2
22K
2
3
7D10-1
TPA3123D2PWP
R
PVCC
BSR
CLASS-D
AUDIO AMP
R
3D14-3
22K
6
5
3D14-4
22K
22K
GND-AUDIO
10
12
2D23
ID15
19
20
2D29
3D02-1
8
1
FD03
2D08
4
GND-AUDIO
+AUDIO-L
220n
2D19
4
7D15-1
BC847BS(COL)
1
220u 35V
2
4K7
ID28
2D07
7 3D02-2 2
47n
220u 35V
FD08
3D02-4
6
4K7
1u0
A-PLOP
ID27
2D24
ID14
2D20
2D28
5
FD01
GND-AUDIO
220n
2D05
10u 35V
22K
-AUDIO-R
220R
5D08
5D07
ID12
220n
3D16
ID11
2D06
2
4R7
R
OUT
L
0
GAIN
1
BSL
16
ID32
2D10
5D05
ID06
5D01
ID09
ID31
2D09
2D12
220R
22u
ID05
ID08
ID07
RIGHT-SPEAKER
35V 220u
5D04
22u
22
21
5D02
ID10
220n
15
2D11
220R
LEFT-SPEAKER
35V 220u
220n
VCLAMP
BYPASS
MUTE
SD
PGND
5
5
2D21
220n
3D10-1
220n
1
2D27
RES
8
7
3D10-2
22K
2
3D10-3
22K
3
4n7
DETECT2
GND-AUDIO
GND-AUDIO
26
27
28
29
LEFT-SPEAKER
VIA
VIA
VIA
GND-AUDIO
VIA
37
36
35
34
GND-AUDIO
10n
GND-AUDIO
GND-AUDIO
40
39
38
2D03
7D10-2
TPA3123D2PWP
V_NOM
2D14
GND-AUDIO
3D01-4
47K
100p
GND-AUDIO
4
3D10-4
22K
GND-AUDIO
+3V3-STANDBY
ID35
7D11-2
BC847BS(COL)
4
5
RES 2D31
ID34
1D50
3
4
EMC 4n7
6
25
RES 2D30
CD10
22K
MAINS SWITCH DETECT
GND_HS
EMC
4K7
47K
2
7D11-1
BC847BS(COL)
1
3D15
6
+3V3-STANDBY
3D01-3
6
R
23
24
L
8
9
AGND
13
14
FD09
A-STBY
3
VIA
30
31
32
33
1735
LEFT-SPEAKER
3
100K
6
7
100K
100K
10n
4
RIGHT-SPEAKER
ID33
GND-AUDIO
3D06-4
2041145-3
2041145-4
5
100K
4
1
2
3
2
8 3D06-1 1
RIGHT-SPEAKER
10n
2D13
3D06-2
FD02
1D38
1
2
3
4
2D02
V_NOM
3D06-3 FD07
GND-AUDIO
2D01
220R
GND-AUDIO
3 7D03-2
BC847BS(COL)
FD05
FD06
5D03
1D52
10-20-1
5
10u
5
GND-AUDIO
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_021_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-20-2
Q552.2E LA
10.
EN 193
DC/DC
B03B
DC/DC
B03B
5U03 RES
30R
5U02
FU05
IU22
+12V
1u0
2U20
10u
10u
7 8
IU10
12V/1V8 CONVERSION
1
2
3R3
3U11
2U19
2U25
7U02-1
SI4952DY
10u
10u
2U23
2U24
30R
FU02
2U21
5U00
FU03
22u
47u
2U16
1
47R
2U15
8
7
3U23-2
47R
3U23-1
47R
3u6
5 6
IU23
4
1n0
2U17
3
IU09
2
4
7U02-2
SI4952DY
3
3U23-4
47R
3U23-3
5
220p
6
+1V8
IU11
IU15
IU08
5 6 7 8
IU12
4
3U14
IU07
GND-SIG
20
VIN
3U28
GND-SIG
18
19
FU04
1u0
10u
2U05
2U04
6
10K
100n
2U14
RES 100u 2.0V
22u
IU17
IU25
GND
+1V1
IU18
1u0
2U10
GND-SIG
1n0
2U09
GND-SIG
3U21
FU00
SENSE+1V1
IU19
GND-SIG
2U07
RES 100p
22K
3U10
GND-SIG
FU08
100n
1% 330R
1% 1K0
CU00
5K6
FU09
IU04
3U19
3U22
1K0 1%
3U09
330R 1%
1K0 1%
3U08
+1V8
100p RES
IU20
RES
2U29
3U17
3U18
100R 1%
2U08
10K
V5FILT
VREG5
7
17
2U13
1
2
47u
TEST
2U12
1
TRIP
2
22
15
10R
RES
1
2
+1V1
3U20
PGND
FU01
2u0
47R
1
VFB
2
5U01
FU06
24
13
47R
3U24-1
1
2
3U24-2
SW
12V/1V1 CONVERSION
1
12
47R
1
VO
2
1 2 3
47R
3U24-3
1
2
5 6 78
4
IU14
3U24-4
DRVH
23
14
1n0
IU02
1
EN
2
2U06
3U00
3U01
3U03
12K
GND-SIG
21
16
1
2
2U11
22K
3
1
2
+3V3-STANDBY
5
8
IU01
DRVL
7U04
SI4778DY
IU16
6U00
1n0 RES
2U03
IU03
4
9
+1V1
+1V8
1
VBST
2
220p
STPS2L30A
3
10
ENABLE-1V8
3R3
2U01
100n
2
11
IU24
GND-SIG
3U02
3U05
7U03
TPS53126PW
IU13
10R
2U02
100n
7U00
BC847BW
3R3
2U22
IU06
IU05
RES
1 2 3
3R3
10u
2U00
10R
3U04
1n0
3U27
2U18
7U01
SI4778DY
IU21
CU01
CU02
CU03
CU04
CU05
GND-SIG
GND-SIG
GND-SIG
GND-SIG
GND-SIG
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_022_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-20-3
Q552.2E LA
10.
EN 194
DC/DC
DC/DC
B03C
B03C
+3V3-STANDBY
+3V3
RES 10K
+5V +3V3-STANDBY
3U75
3U74
RES 10K
LED-2
IU43
3U59
LED2
10K RES
IU47
7U43
BC847BW
10K RES
+3V3
3U70
LED1
3U53
LED1
10K
10K
**
+12V_AL
4
FU07
3D-LR
100K
IU41
100R
100p
2
BL-SPI-SDO
BL-SPI-CSn
+3V3-STANDBY
3U71
STANDBY
7U48-2
BC857BS(COL)
5
5
100R
3U62-4
7
6
3U83-2
2
100K
IU40
100K
100R
FU53
3U42
3U61
RES 10K
10K
2
2
7
8
5
5
22K
3U60-4
4
IU50
4K7
IU62
7U41-2
BC847BS(COL)
4
10K
2
3U60-1
IU57
ENABLE-3V3n
1
22K
IU52
BACKLIGHT-PWM_BL-VS
3U43
3
6
1
7U41-1
BC847BS(COL)
1
8
LAMP-ON
DETECT2
RES 10K
1n0
RES
100R
7
3U73
+3V3-STANDBY
3K3
3U45
FU51
10K
6
3U62-1
ENABLE-1V8
FU72
IU63
10K
FU76
3U60-2
3U80
2U55
IU56
FU73
22K
3U63
GND-AUDIO
3U81
3 3U60-3 6
3U62-2
1
1K0
3U72
100p
RES
2U49
+24V
+3V3
IU49
6
7U40-1
BC847BPN(COL)
2
10n
+24V-AUDIO-POWER
FU67
2U50
FU66
3
IU61
22K
IU51
T 3.0A 32V
3U62-3
3
+12V
+12VIN
FU52
BACKLIGHT-BOOST
100R
4U01
RES
4U00
RES
FU55
IU55
3U64
POWER-OK
Optional table for 4U00 and 4U01
10n
2U46
1n0
2U45
100p
2U44
100K
Items
3U65
1n0
GND_AL
2U53
1K0
**
+12VIN
1U40
2U54
BZX384-C6V2
10n
1u0 RES
+3V3-STANDBY
6U40
FU58
FU59
FU60
FU61
FU63
FU75
2U58
1-2041145-4
IU48
3U83-3
5
10n
FU62
3
4
4
1u0
2U47
1
2
3
4
5
6
7
8
9
10
11
12
13
14
7U40-2
BC847BPN(COL)
10K
2U68
1M95
ENABLE-3V3-5V
BL-SPI-CLK
4
RES 100p
100R
RES
3U67
100R
RES
3U84
100R
RES
3U76
MAINS-OK
RES 100R
2U43
RES 100p
2U52
2U51
RES 100p
100p RES
2U72
1n0
2U48
1n0
RES 2U56
1-2041145-3
RES 2U57
3U66
FU56
FU57
FU74
FU68
2U71
+12VIN
7U48-1
BC857BS(COL)
5
8
3U44
FU54
3U83-4
6
10K
3U83-1
+3V3
FU50
1
GND_AL
1K0 RES
3U56
FU49
**
1
GND_AL
IU64
3U82
FU48
**
100n
GND_AL
1
2
3
4
5
6
7
8
9
10
11
12
13
LED2
7U42 RES
BC847BW
*
1M99
3U41
100K
3U69
9U42
RES
LED-1
To be connect directly to 1M59 with 3mm Track width
**
IU44
IU45
3
*
RES 10K
optionally 1M99 is a 9 pin connector
10K
3U68
9U41
If 1M99
is not mounted
If 1M99
is mounted
For non-Amblight sets
4U00
yes
no
no
4U01
yes
no
no
2U44
Dream Catcher
Core Range
3U43
1M95
0R
open
13 POLE
100p
100R
14 POLE
+12VD
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_023_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-20-4
Q552.2E LA
10.
EN 195
DC/DC
B03D
DC/DC
+3V3
B03D
*
7UC0
LF25ABDT
+12V
1
IN
3
OUT
2
1u0
2UA4
*
2K2
3UA0
COM
FUA0
+2V5-REF
R
7UA0
TS2431
K
1
A
2
3
FUA4
+2V5
CUA0
IUB6
+5V5-TUN
+2V5-LVDS
2
*
+3V3
8
+5V
1
3U16-1
100R
3UB0
2
2
1u0
2UB0
7UA3
PHD38N02LT
IUB4
IUA5
3
22R
4
FUA3
3U16-2
+3V3
100R
3U15-3
100R
3U15-4
7
2
3
6
4
5
100R
3U16-3
100R
3U16-4
7
6
5
100R
100R
1u0
2UB1
8
100R
3U15-2
+1V2
470R
2
470R
3UB7-3
6
3
3UB7-4470R
5
4
3UB7-2
3U15-1
IU26
7UA7-1
BC847BS(COL)
3U13
7
2UB8
7UA7-2
4
BC847BS(COL)
1
+5V
1
470R
*
+1V8
2UB2
5
22u
+2V5-REF
7
1K0 IUB2
3UB6-3
3
6
6
1K0
3UB6-4
4
5
1K0
IUB5
3 1
RES 1u0
3UB6-1
1
8
1K0
3UB7-1
8
1
3UB6-2
330R
1%
2
+12V
7UA6
BC817-25W
3U12
IUB3
330R
1%
+5V-TUN
*
NOT FOR 5000 SERIES
ENABLE-1V8
5
+12V
RES
7UA4
TS431AILT
5
RES
2
A
K
NC
REF
470R
NC
3
470R
3U26-2
7
3
4
3U26-3
470R
3U26-4
IUB1
1
3UB3
RES
3UB5
470R
+3V3
BP
+5V-TUN
4
COM
1 3U26-1 8 RES
2
INH
5
1u0
470R
3U29-4
3
OUT
100n
2UB6
4
5
3UB2
IN
2UB5
3 3U29-3 6 RES
2
1
+5V5-TUN
470R
IU30
7UA5
LDS3985M50
2
RES
7U06-1
BC847BS(COL)
1
7
RES
1u0
5
+3V3
470R
3U29-2
8
2UB7
6
8
3
RES
7U06-2
BC847BS(COL)
4
2
3U29-1
4K7
1
3U25-1
RESERVED
5UA0
1K0
30R
1
IU29
SENSE+1V2
4K7
7
3U25-2
6
IUA6
4
3U25-3
2
3
100K RES
100K RES
3UB1
100K RES
100K RES
4
3U25-4
3UB4
100K
IUB0
1K0
2UB3
+5V
6
5
RES
22n
2UB4
RES
330p
RES
470R
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_024_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 196
DC/DC
DC/DC
B03E
5UD0
IUD0
+12V
33K
1%
3U06
120K
22u
RES
12
68K
3UD1
1%
3UD0
VIA
10
4n7
3UD2
15
13
7UD0-2
ST1S10PH
IU27
10K
2UD7
IUD6
2
7U05-1
BC847BS(COL)
RES 1
RES 2UE9
6
100n
+1V1
RES 2U27
SS36
220u 16V
SW
8
A
FUD3
+5V
3u6
3
VFB
GND
P HS
6UD0
IUD7
2UD6
SYNC
5UD1
22u
5
IUD3
7
SW
VIN
22u
2UD5
INH
9
2
4
RES 1n0
2UD3
ENABLE-3V3-5V
2UD4
1
A
10u
2UD2
10u
2UD1
10u
7UD0-1
ST1S10PH
6
+5V5-TUN
30R
2UD0
14
11
5UD3
FUD2
+3V3
7U05-2
RES
4
3U07
100n
IU28
RES
33K
1%
12
1M0
3UD5
3UD4
VIA
10
5
15
13
IUD2
7UD1-2
ST1S10PH
BC847BS(COL)
10K
3
RES 2U28
+1V1
220u 16V
2UE4
22u
22u
2UE3
2UE2
3u6
3
VFB
GND
P HS
8
4
A
5UD2
1% 100K
SYNC
IUD4
7
SW
VIN
4n7
3UD3
5
INH
2UE1
2
9
ENABLE-3V3-5V
SW
A
1
7UD1-1
ST1S10PH
10u
14
11
7UD2
LD1117DT25
3
IN
S1D
OUT
2
+2V5
2UE6
1
100n
2UE5
COM
22u 16V
IUD5
(*) FOR 5000 SERIES ONLY
(**) NOT FOR 5000 SERIES
7UD3
LD1117DT33
IN
OUT
2
+3V3
100n
COM
22u 16V
3
2UE8
6UD1
+5V
1
*
2UE7
10u
2UD9
30R
6
IUD1
2UE0
* *
+12V
10u
B03E
2UD8
10-20-5
Q552.2E LA
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_025_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-20-6
Q552.2E LA
10.
EN 197
Temperature sensor & AmbiLight
B03F
Temperature sensor & AmbiLight
B03F
5UM1
IUM0
1UM0
+3V3
30R
FUM0
V-AMBI
T 1.0A 63V
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_026_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 198
Fan control
Fan control
B03G
+12V
+12V
1K0
FAN-CTRL1
IUS3 3US5-3
6
3
8
IUT1
100n
7US1-1
LM339P
14
2US3
3
10K 7
10K
9
2
3US7
+12V
3US5-2
3US2
1 3US4-1 8
+3V3
10K
IUS6
10K
7US2
BC807-25W
12
+12V
IUS7
11
3
IUT2
7US1-2
LM339P
13
IUS4 3US5-4
5
4
10
FAN-CTRL2
10K
22R
BC807-25W
7US3
IUS8
12
3US6
IUS9
47R
3US3
1
+12V
10K
3US5-1
8
3US9
+3V3
FAN-DRV
+3V3
3
10K
10K
3US4-3
7US1-3
LM339P
2
3
5
4
+12V
6
IUS5
3US4-4
5
+12V
4
12
TACH01
RES
+12V
3
7
2
10K
7
+12V
3US4-2
9US0
TACH02
7US1-4
LM339P
1
6
IUS0
12
B03G
10K
10-20-7
Q552.2E LA
TACHO
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19100_027_110210.eps
110211
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 199
Vdisp switch
Vdisp switch
B03H
1 9UU0-1
RES
2 9UU0-2
RES
3 9UU0-3
RES
4 9UU0-4
RES
1 9UU1-1
RES
2 9UU1-2
RES
3 9UU1-3
RES
4 9UU1-4
RES
7UU0
SI4835DDY
3
8
7
6
FUU0
5
47R
IUU1
3UU0-2
7
2
6
2
IUU2
1u0
+3V3-STANDBY
6
47K
47K
3UU0-1
3UU0-3
2
3
7UU2-1
PUMD12
1
22n
2UU2
1
47K RES
2UU1
3UU1
+VDISP-INT
3UU3-2
IUU3
7
47K RES
7UU3 RES
BC847BW
1
IUU0
5
3
1
IUU4 3UU3-3 IUU5 3UU3-4
4
5
6
3
47K RES
2
VDISP-SWITCH
2UU0
5
3UU3-1
6
FUU1
3UU2
+3V3
47K RES
RES 100n
8
7
RES
7UU1
SI3441BDV
+12VD
4
PUMD12
7UU2-2
8
47K
B03H
8
10-20-8
Q552.2E LA
+3V3
4K7 RES
LCD-PWR-ONn
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_028_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 200
10.21 B04 393912364955
Analogue externals A
Analogue externals A
B04A
FE70
3E37-4
AP-SCART-OUT-R
IE67
2EA4
AUDIO-OUT-L
8 470R 1
FEA0
7E01-1 6
1n0
2E87
1E00
CDS4C12GTA
12V
RES 6E01
100p
2E01
IEC0
3EA7-1
5 100R 4
1u0 16V
AP-SCART-OUT-L
IEC1
2
1
PUMH7
IE22
IEC2
3EA7-4
IE68
2EA5
AUDIO-OUT-R
5 470R 4
FEA1
7E01-2 3
1n0
2E88
1E31
CDS4C12GTA
12V
5
RES 6E03
1K0
100p
2E06
4
RES
FE71
3E07-4
AUDIO-IN1-R
1u0 16V
AP-SCART-OUT-R
5
4
PUMH7
RES
FE72
3E37-1
AP-SCART-OUT-L
IE23
1n0
2E90
1E53
IE05
1n0
100p
13
**
**
4E02
RES
IE96
18
FE84
1
3EB6-1
5K6
4K7
18p
2E98
39p
2E97
18K
4K7
3E73
39K
1u0
1
2
3EB6-4
CVBS-OUT-SC1
68R
5
**
4E01
RES
3E45
4
470R
100n
2E24
4K7
3E19
1
IE92
7E05
BC847BW
20
FE85
RES
3E48
MTJ-505H-01 NI LF
IE48
100n
IE91
8
470R
19
21
3E44
3E18 2
2EB3
2
2E74
100p
2E12
17
IE17
RES 9E06
+3V3
GND_A
6
3E37-2
68R
2 100R 7
3
100p
1E22
3E37-3
*
RES 2E75
RES
75R
3E43
1
CDS4C12GTA
12V
2
7E09-1
PUMH7
6E29
AV1-BLK
CVBS-MON-OUT1
+5V
16
9E09
FE83
* EU
10u
15
FE82
1E19
CDS4C12GTA
12V
RES 6E28
RES
4E03
RES
14
RES 9E05
18R
18R
IE59
12
FE81
150p
2E86
1u8
2u2
IE14
9E10
5E76 3E79BEC5
IE55
3EB3
10
IE16
AV1-R
2E81
1
100p
2E14
RES
IE08
RES 9E08
IE51
AV2-BLK
5E80
11
9E55
3E78
BC847BPN(COL)
820R
** 4E04
2E99
4p7
IE70
IE60
1 3EB1 2
1
8
RES 9E07
AP
9E54
7E06-1
2
7
9
1E18
CDS4C12GTA
12V
150p
RES
YPBPR1-PR
6
3 BC847BPN(COL)
FE80
RES 6E26
1u8
18R
**
7E06-2
5
6
FE74
3E77
2E84
150p
2E83
5E74
4E05
330R
100p
2E18
FE73
IE61
4
** 4E06
5
FE75
IE54
IE89
**
4
1E55
CDS4C12GTA
12V
RES 6E22
3E76 18R
4K7
3E32
9E53
+3V3
IE13
3
3E31
12K
AV1-G
3E06
2
AV1-STATUS
9E52
1K0
1
* EU
IE18
AP
IE90
1E01
3EA1
2E15
1E12
(AV1)
9E01
RES
CDS4C12GTA
12V
150p
2E80
150p
2E79
18R
1R0
SCART1
5E73 3E75
BEC3
1u8
YPBPR1-SYNCIN1
3EA2
3E17
1E54
2E91
AV2-STATUS
+5V
2EB1
IE53
RES 6E23
AV1-B
* EU
100n
3E74 18R
CDS4C12GTA
12V
6E09
RES
9E51
9E50
A-PLOP
2K2
RES
1K0 8
100p
2E04
1
AP
3E24
3E07-1
AUDIO-IN1-L
YPBPR1-PB
CDS4C12GTA
12V
RES 6E07
100p
2E10
8 100R 1
150p
1X06
EMC HOLE
1X02
REF EMC HOLE
2
100R
3E07-2
1K0
6
7
3E07-3
100p
RES 6E32
2E44
3
27R
1E25
AV1-CVBS
3E62
CDS4C12GTA
12V
IE52
1K0 6
3EA7-2
2 470R 7
3EA7-3
*
GND_A
2
3
3EB6-2
470R
3EB6-3
3 470R 6
7
6
470R
100p
RES 2E76
1E23
CDS4C12GTA
12V
CVBS-OUT-SC1
RES 6E30
B04A
2E85
10-21-1
* 3139803190010 - RSI SM 0402 JUMP 0R05 Col at 2E44 & 2E75 for BRZ
** Provision for ESD
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_029_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 201
Analogue externals B
Analogue externals B
B04B
SPDIF out
YPBPR
GND_A
GND_A
3E89
CDS4C12GTA
12V
2E22
30R
AV2-CVBS
IE75
1E07
MTJ-032-68B-46-NI-FE
1
FE59
2
FE41
AV3-PB
YPBPR1-PB
IE76
9E58
3E90
IE77
AV3-PR
18R
CDS4C12GTA
12V
FE42
RES
IE74
9E57
EU
RES 6E52
1E39
100p
2E68
1
** 4E22
IE73
5E06
18R
FE48
MTJ-032-21B-42 NI FE
2
1E04
IE15
SPDIF-OUT
27R
CDS4C12GTA
12V
1E28
100p
2E67
1
** 4E21
3E88
9E04
EU
2
1E03
AV3-Y
YPBPR1-SYNCIN1
AP
FE51
MTJ-032-21B-45 NI FE (PBT)
IE72
18R
RES 6E46
3E87
10p
1E44
IE71
9E29
CDS4C12GTA
12V
RES 6E40
4E20
RES 6E51
**
1E43
100p
1
GREEN
2E27
*
EU
FE54
MSP-305H-BBB-732-03 NI
2
1E08-3
YPBPR1-PR
GND_A
YPBPR AUDIO
+3V3
CDS4C12GTA
12V
*
3E97
MSP-305H-BBB-732-03 NI
6
1E08-1
FE50
RES
1E32
AUDIO-IN3-R
IE31
1K0
GND_A
100p
100p
CDS4C12GTA
12V
RES
RES
9E11
9E18
RES
RES
9E13
9E20
RES
RES
9E21
9E22
RES
RES
AP-SCART-OUT-R
AV1-STATUS
AUDIO-IN1-R
AV1-BLK
AP-SCART-OUT-L
AUDIO-IN1-L
9E23
9E24
9E25
9E26
9E27
9E28
RES
RES
RES
RES
RES
RES
IE09
AUDIO-IN4-L
1K0
100p
2E35
CDS4C12GTA
12V
3E21
RES 6E19
V_NOM
1n0
1E37
2E36
9E17
9E14
AUDIO-IN3-R
AV1-B
2E72
AV3-PB
TXD1-MIPS
FE02
2
3
1
RES
RES
AUDIO-IN3-L
1K0
VGA ( OR DVI ) AUDIO
1E09
MSJ-035-29D PPO
9E19
9E12
IE29
3E96
RES 6E38
1E42
**
3
RES
4E24 WHITE
AV3-PR
RXD1-MIPS
FE49
MSP-305H-BBB-732-03 NI
4
1E08-2
RES
RES
2E71
GND_A
*
RES 6E06
FE43
RES
9E15
9E16
CVBS-OUT-SC1
AV1-R
1E29
1n0
2E39
RED
AV3-Y
AV1-CVBS
AUDIO-IN3-L
AV1-G
5
** 4E23
1n0
+T
6
5
4
RES 3E56
RES 3E57
+5V
RES 3E58
0R3
100R
100R
IE34
IE35
RES 3E36
RES 3E41
100R
IE36 RES 3E38 100R RXD2-MIPS
3D-VS
TXD2-MIPS
3D-LR
100R
FE53
FE52
BZX384-C5V1
RES 6E18
BZX384-C5V1
BZX384-C5V1
RES 6E17
RES 6E16
BZX384-C5V1
RES 6E15
1E79
100p
RES 2E26
100p
RES 2E25
1E78
100n
RES 2E23
100p
RES 2E21
1E76
100p
FE46
FE45
1E77
FE47
FE44
RES 2E20
7
100p
100R
100R
RES
1ECB
1481-702-06S-51
3
2
1
AUDIO-IN4-R
1K0
2E38
CDS4C12GTA
12V
RES 3E54
RES 3E55
8
31
IE10
3E20
RES 6E20
V_NOM
1n0
1E38
2E37
FE03
9
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
32
DF50-30DP
FE01
1E75
B04B
2E40
10-21-2
Q552.2E LA
* 242202606017 - SOC CINCH V 3P 1L3 YEWHRDY at 1E08 for BRZ
FOR 3D
** Provision for ESD
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_030_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 202
Ethernet & Service
Ethernet & Service
B04C
IE07
5E08
+3V3
+3V3-ET-ANA
7
3E53-2
IE49
1
2
47R
RXD1-MIPS
3E53-4
IE50
3
4
6E43
IE38
IE32
3E30
47R
3E53-3
FE56
8
6
1E06
2
3
1
FE57
MSJ-035-29D PPO (PHT)
FE58
RES
1E71
10u
2E48
100n
2E49
4n7
100n
2E53
2E52
1
2
3
TXD1-MIPS
RXD1-MIPS
25M
15
3E71
RES
21
ETH-TXD(0)
ETH-TXD(1)
ETH-TXD(2)
22
23
24
25
18
ETH-TXD(3)
ETH-TXER
1K5
1
6
12
ETH-RXER
3E64
10K
IE64
7
RES
ETH-RXCLK
3E65
10K
10K
3E34
10K
3E72
2
3E68
RES
3E35
RES
ETH-REGOFF
10K
+3V3
ETH-INTSEL
10K
+3V3
9E42
14
CRS
+3V3
RES
3
REGOFF
1
LED
2
INTSEL
+3V3
ETH-CRS
32
IE39
MDC
MDIO
VSS
+3V3
33
3E51
ETH-RXDV
IE63
13
RBIAS
17
16
ETH-MDC
ETH-MDIO
ETH-TXCLK
26
RXER
RXD4
0
PHYAD
1
RXCLK
0
1
2 TXD
3
4
INT
TXER
ETH-TXP
ETH-TXN
20
RXDV
TXEN
ETH-RXP
ETH-RXN
29
28
P
N
TXCLK
COL
CRS_DV
MODE2
10K
ETH-TXEN
TX
0
MODE
1
RMIISEL
PHYAD2
RXD & lt; 0:3 & gt;
10K
9E43
provision for BUH
31
30
P
RX
N
RST
11
10
9
8
3E70
RES
IO
12K1
1%
19
1A 2A
VDD
3E40
IE26
ETH-RXD(0)
ETH-RXD(1)
ETH-RXD(2)
ETH-RXD(3)
ETH-COL
27
10p
2E54
10p
CR
CLKIN
1
XTAL
2
5
4
3E69
RES
10K
4
502382-0370
7E10-1
LAN8710A-EZK
2E55
10K
10K
3E33
10K
3E67 RES
3E66 RES
5
RESET-ETHERNETn
UART
SERVICE
CONNECTOR
47R
IE33
1M0
1E70
NX3225GA
+3V3
IE06
6E44
47R
+3V3
BZX384-C5V1
+3V3-ET-ANA
5
3E53-1
1E86
TXD1-MIPS
1E85
100n
100n
2E66
2E62
10u
2E63
30R
BZX384-C5V1
B04C
7E10-2
LAN8710A-EZK
34
35
36
VIA
VIA
40
41
42
VIA
37
38
39
CONFIGURATION RESISTOR SETTINGS
Resistor
+3V3-ET-ANA
POP
EMPTY
+3V3-ET-ANA
FE27
ETH-TXN
FE28
4
ETH-RXP
FE29
1E88
3 ACM2012 2
ETH-RXN
FE31
4
PHYADD(2) = 0
3E67 (RES)
RMII mode selected
MII mode selected
FE30
FE61
Internal 1.2V reg. disabled
Internal 1.2V reg. enabled
3E69 (RES)
22n
9 11
10 12
2E60
5
CDA5C16GTH
16V
6E47-4
4
CDA5C16GTH
16V
RES
6
3
6E47-3
CDA5C16GTH
16V
RES
7
6E47-2
2
8
1
6E47-1
RES
CDA5C16GTH
16V
RES
1
MODE(0) = 0
MODE(0) = 1
3E70 (RES)
FE34
MODE(1) = 0
MODE(1) = 1
3E71 (RES)
1
2
3
4
5
6
7
8
MODE(2) = 0
MODE(2) = 1
INTERRUPT FUNCTION
INTERRUPT FUNCTION
5450-323-183-H3
DISABLED ON
nINT/TXER/TXD4 SIGNAL
15p
2E59
ENABLED ON
nINT/TXER/TXD4 SIGNAL
RES
5E04
RES 27n
PHYADD(2) = 1
3E72
1
RES 15p
2E09
15p
3E39
0 ohm
RES
RES 27n
RES 15p
2E58
0 ohm
2E08
15p
3E29
RES
RES
5E03
RES 27n
RES 15p
2E57
RES
RES
0 ohm
5E02
2E07
3E28
15p
2E56
RES
5E01
RES 27n
RES 15p
2E05
3E27
PHYADD(1) = 0
1N00
FE60
RES
PHYADD(1) = 1
3E68 (RES)
22R
22R
3E98
3E26
3E99
49R9
1%
49R9
1%
3E95
49R9
1%
3E25
3E22
ETH-TXP
1E87
3 ACM2012 2
PHYADD(0) = 0
3E65 (RES)
ETHERNET CONNECTOR
PHYADD(0) = 1
3E66 (RES)
49R9
1%
3E64 (RES)
0 ohm
10-21-3
Q552.2E LA
FE32
ETH-INTSEL
ETH-REGOFF
FE33
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_031_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 203
HDMI
HDMI
ARX2+
ARX1ARX0+
3ECH
65
66
BRX2+
ARX0ARX0+
67
68
BRX2BRX1+
ARX1ARX1+
69
70
ARX2ARX2+
71
72
AIN-5V
BRX1BRX0+
BIN-5V
BRX-HOTPLUG
47K
3ECM-3
6
2
3ECN-2
10R
7
100K
1u0
BRX-DDC-SDA
BRX-DDC-SCL
IE43
2ECN
35
36
33
34
BRXCBRXC+
BIN-5V
47K
BRX-HOTPLUG
BIN-5V
BRX2BRX2+
HDMI CONNECTOR 1
2
CIN-5V
CRX2+
3ECM-2
7
3
3ECN-3
10R
CRX-DDC-SDA
CRX-DDC-SCL
1u0
CRX2CRX1+
3ECD
100R
4
+3V3-STANDBY
3ECM-1
8
4
3ECN-4
10R
1u0
DRX-DDC-SDA
DRX-DDC-SCL
5EC2
11
12
13
14
15
16
17
18
5
100K
IE45
2ECQ
45
46
43
44
DRXCDRXC+
10p
2ECC
21
22
DRX1DRX1+
23
24
DRX2DRX2+
ARC-eHDMI+
19
20
DRX0DRX0+
30R
CIN-5V
IEC4
1
DIN-5V
eHDMI+
22K
RES
7EC0
BC847BW
39
40
CRX2CRX2+
3ECA-4
47K
3E23
RES
7E02
BC847BW
PCEC-HDMI
47K
CRX-HOTPLUG
3ECA-3
CIN-5V
20
22
2ECP
41
42
DRX-HOTPLUG
3
FECM
FECN
CRX-DDC-SCL
CRX-DDC-SDA
6
FECK
FECL
IE44
CRX1CRX1+
5
CRXCPCEC-HDMI
ARC-eHDMI+
CRX-DDC-SCL
CRX-DDC-SDA
6
100K
CRX0CRX0+
CIN-5V
CRX0CRXC+
FECA
7
8
CRXCCRXC+
CRX1CRX0+
FECJ
5
6
CRX-HOTPLUG
1P02
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
21
23
3
4
BRX1BRX1+
1
20
22
3ECA-1
FECE
FECF
1
2
BRX0BRX0+
BRX-DDC-SCL
BRX-DDC-SDA
8
BRX-DDC-SCL
BRX-DDC-SDA
25
26
IEC6
9EC0
CEC-HDMI
IEC5
100n
2EC3
6
8
DSCL4
DSDA4
N
R0X0
P
10u
RES 2ECW
38
37
R4PWR5V
N
R0XC
P
CEC_D
49
48
47
VGA-SCL-EDID-HDMI
VGA-SDA-EDID-HDMI
9EC2
RES
51
CEC-HDMI
N
R0X1
P
N
R0X2
P
TX2
N
P
TX0
N
P
TXC
DSDA1
DSCL1
N
P
TX1
(CBUS) HPD1
R1PWR5V
N
P
7
3ECA-2
BRXCPCEC-HDMI
3
BIN-5V
2
BRX0BRXC+
DSDA0
DSCL0
+5V-EDID
10K
29
30
(CBUS) HPD0
R0PWR5V
N
R1XC
P
N
R1X0
P
57
56
HDMIA-RX2HDMIA-RX2+
59
58
HDMIA-RX1HDMIA-RX1+
61
60
HDMIA-RX0HDMIA-RX0+
63
62
HDMIA-RXCHDMIA-RXC+
3ECJ RES
N
R1X1
P
TPWR_CI2CA
N
R1X2
P
CEC_A
(CBUS) HPD2
R2PWR5V
INT
4K7
55
50
52
IE12
FECR
RES
3ECK
MICOM-VCC33
4K7
9EC3
RES
FECY
PCEC-HDMI
3ECL RES
+3V3
4K7
DSDA2
DSCL2
N
R2XC
P
CSCL
CSDA
N
R2X0
P
RSVDL
N
R2X1
P
54
53
10
28
N
R2X2
P
(CBUS) HPD3
R3PWR5V
DSDA3
DSCL3
N
R3XC
P
VIA
N
R3X0
P
N
R3X1
P
N
R3X2
P
3EC3
3EC5
100R
100R
SCL-SSB
SDA-SSB
10p
2ECM
31
32
3
1u0
IE42
10K
3ECP-3
10R
ARX-DDC-SDA
ARX-DDC-SCL
8
100K
3ECP-1
1
3ECN-1
1
5
ARXCARXC+
HDMI CONNECTOR 2
FECC
FECD
+3V3
30R
10p
RES 2ECY
AIN-5V
3ECM-4
RES 2ECX
4
MICOM_VCC33
1
47K
8
3EC1-1
ARX-HOTPLUG
ARX-HOTPLUG
SBVCC33
9
27
64
VCC33
AIN-5V
20
22
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
FECG 21
23
100n
100n
2EC8
100n
2EC7
2EC6
6
47K
3EC1-3
3
7EC1
SII9187B
ARX-DDC-SCL
ARX-DDC-SDA
FEC4
FEC5
RES
5EC3
FEC7
+3V3-HDMI
ARXCPCEC-HDMI
ARX-DDC-SCL
ARX-DDC-SDA
SII9187B = 0xB2
FECB
AIN-5V
ARX0ARXC+
FEC1
FEC2
B04D
10K
1u0
10u
2ECV
100n
MICOM-VCC33
ARX2ARX1+
1P03
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
EPAD
73
FECP
2EC0
1P04
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
FEC6 21
23
30R
220u 16V
HDMI CONNECTOR 3
RES 2EC1
+3V3
FEC3
FEC0
2EC2
I2C Address
5EC0
IEC7
7EC1
3ECN
NON-INSTAPORT
3ECE
22K
B04D
9187A
4X 3K3
3K3
NON-INSTAPORT
9187B
4X 100K
100K
INSTAPORT
9287B
4X 100K
100K
FECW
3ECF
+3V3-STANDBY
6EC1
+5V
+5V-VGA
BAT54
IE11
3ECG
3ECF
4R7
10-21-4
Q552.2E LA
FECZ
100K
DDCA-SDA
IE65
2
3ECU-2
7
+3V3
10K
2ECU
DDCA-SCL
IE66
4 3ECU-4 5
10K
1u0
5
SPB SSB TV550
2K11 4DDR EU
+5V-EDID
2011-04-27
4
2010-12-10
3139 123 6495
19104_032_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 204
Headphone
Headphone
B04E
+3V3-STANDBY
5
4
PUMD12
7EE0-2
A-PLOP
3
6
A-STBY
FEE0
2
RESET-AUDIO
7EE0-1
PUMD12
1
2EE0
6
8
5
22K
3EE1-3
3EE1-4
2
4
22K
3EE1-2
22K
3
47p
3EE1-1
7
1
22K
2EE5
7EE1
TPA6111A2DGN
100n
2EE1
47p +3V3
8
3
IEE2
ADAC(4)
2EE3
1u0
IEE1
2EE4
1u0
8
3EE0-1
10K
IEE3
2
1
5
3EE0-4
6
4
10K
IEE4
5
2EE2
3
AMPLIFIER
A-PLOP
3 3EE0-3 6
1
2EE6
1
IN-
IEE7
4
3EE2-3
33R
3EE2-4
6
FE36
5
VO
SHUTDOWN
BYPASS
2
VIA
GND GND_HS
2EE7
7
IEE8
2
4V 100u
10
11
AMP1
33R
4V 100u
2
4
1u0
IEE6
1
1
3EE2-2
33R
3EE2-1
FE35
7
AMP2
8
33R
9
IEE0
ADAC(3)
Φ
VDD
IEE5
10K
22K
B04E
RES 3EE3
10-21-5
Q552.2E LA
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_033_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 205
10.22 B05 393912364955
10-22-1
DDR
DDR
B05A
+1V8
+1V8
DDR2-VREF-DDR
DDR2-VREF-DDR
B05A
3B28
DDR2-CLK_P
240R
DDR2-CLK_N
DDR2-BA2
DDR2-ODT
RES
240R
3B01
DDR2-CLK_P
DDR2-CLK_N
DDR2-CKE
DDR2-CS
DDR2-RAS
DDR2-CAS
DDR2-WE
DDR2-DQM2
F9
E8
F8
F2
G8
F7
G7
F3
B3
3B23
0
1
2
3
4
5
6
7
DQS
3B12
3B13
B7
A8
2B44
RES
0
1 BA
2
NU|RDQS
7 33R
DDR2-D16
DDR2-D17
DDR2-D18
DDR2-D19
DDR2-D20
DDR2-D21
DDR2-D22
DDR2-D23
6 33R
5 33R
8 33R
33R
33R
DDR2-DQS2_P
DDR2-DQS2_N
H8
H3
H7
J2
J8
J3
J7
K2
K8
K3
H2
K7
L2
L8
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A13
2p2
A2
G2
G3
G1
DDR2-BA0
DDR2-BA1
DDR2-BA2
DDR2-ODT
ODT
3B03
CK
CKE
CS
RAS
CAS
WE
DM|RDQS
VSS
NC
L3
L7
DDR2-A14
VSSQ
VSSDL
DDR2-CLK_P
DDR2-CLK_N
DDR2-CKE
DDR2-CS
DDR2-RAS
DDR2-CAS
DDR2-WE
DDR2-DQM3
RES
240R
F9
E8
F8
F2
G8
F7
G7
F3
B3
3B24
33R
1X22
HOOK1
1X23
HOOK1
1X24
HOOK1
2B17
100n
2B37
100p
VDD
VDDL
VDDQ
E2
A9
C1
C3
C7
C9
E1
A1
E9
L1
H9
100n
100n
2B16
100n
2B15
100n
2B14
100n
2B13
100n
2B12
100n
2B11
100n
2B10
2B41
E2
E1
DQ
A3
E3
J1
K9
33R
47u
2B09
2B36
100p
2B08
100n
G2
G3
G1
DDR2-BA0
DDR2-BA1
SDRAM
3B00-2 2
6 33R
3B00-3 3
8 33R
7 33R
3B00-4 4
5 33R
3B00-1 1
C8
C2 3B02-3 3
D7
D3 3B02-1 1
D1 3B02-2 2
D9
B1 3B02-4 4
B9
1X21
HOOK1
VREF
Φ
0
1
2
3
4
5
6 A
7
8
9
10
11
12
13
SDRAM
DQ
0
1
2
3
4
5
6
7
DQS
C8
C2
D7
D3
D1
D9
B1
B9
3B05-2
3B05-1
2
1
3B05-4 4
3B14
3B15
B7
A8
2B45
0
1 BA
2
NU|RDQS
3B04-2 2
6 33R
3B04-3 3
7 33R
8 33R
3B04-4 4
5 33R
3B04-1 1
3B05-3 3
7 33R
6 33R
5 33R
8 33R
33R
33R
DDR2-D24
DDR2-D25
DDR2-D26
DDR2-D27
DDR2-D28
DDR2-D29
DDR2-D30
DDR2-D31
DDR2-DQS3_P
DDR2-DQS3_N
RES
2p2
A2
ODT
CK
CKE
CS
RAS
CAS
WE
DM|RDQS
VSS
+1V8
NC
L3
L7
DDR2-A14
VSSQ
VSSDL
A7
B2
B8
D2
D8
DDR2-CLK_P
DDR2-CLK_N
Φ
E7
3B27
240R
7B03
EDE1108AGBG-1J-F
VREF
VDDQ
A3
E3
J1
K9
DDR2-CLK_P
DDR2-CLK_N
VDDL
A7
B2
B8
D2
D8
3B22
240R
VDD
0
1
2
3
4
5
6 A
7
8
9
10
11
12
13
E7
AT T-POINT
H8
H3
H7
J2
J8
J3
J7
K2
K8
K3
H2
K7
L2
L8
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A13
A1
E9
L1
H9
7B02
EDE1108AGBG-1J-F
A9
C1
C3
C7
C9
100n
100n
2B07
100n
2B06
100n
2B05
100n
2B04
100n
2B03
100n
2B02
100n
2B01
47u
2B00
2B40
1X20
HOOK1
+1V8
DDR2-VREF-DDR
3B21
180R 1%
DDR2-CLK_P
DDR2-CLK_N
DDR2-CKE
DDR2-CS
DDR2-RAS
DDR2-CAS
DDR2-WE
DDR2-DQM0
3B25
33R
DQ
0
1
2
3
4
5
6
7
DQS
C8
C2
D7
D3
D1
D9
B1
B9
NU|RDQS
3B07-2 2
5 33R
3B07-3 3
7 33R
8 33R
3B07-4 4
6 33R
3B07-1 1
3B08-4 4
3B08-2 2
3B08-1 1
3B08-3 3
3B16
3B17
B7
A8
2B46
0
1 BA
2
7 33R
DDR2-D0
DDR2-D1
DDR2-D3
DDR2-D2
DDR2-D4
DDR2-D5
DDR2-D6
DDR2-D7
6 33R
5 33R
8 33R
33R
33R
DDR2-DQS0_P
DDR2-DQS0_N
RES
2p2
A2
H8
H3
H7
J2
J8
J3
J7
K2
K8
K3
H2
K7
L2
L8
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A13
G2
G3
G1
DDR2-BA0
DDR2-BA1
DDR2-BA2
DDR2-ODT
ODT
3B09
CK
CKE
CS
RAS
CAS
WE
DM|RDQS
VSS
NC
VSSDL
L3
L7
DDR2-A14
VSSQ
DDR2-CLK_P
DDR2-CLK_N
DDR2-CKE
DDR2-CS
DDR2-RAS
DDR2-CAS
DDR2-WE
DDR2-DQM1
RES
240R
3B26
33R
F9
E8
F8
F2
G8
F7
G7
F3
B3
2B35
100n
2B39
100p
VDD
VDDL
VDDQ
E2
A9
C1
C3
C7
C9
E1
A1
E9
L1
H9
100n
100n
2B34
100n
2B33
100n
2B32
100n
2B31
100n
2B30
100n
2B29
100n
2B28
2B43
E2
E1
47u
2B27
2B26
100n
2B38
100p
F9
E8
F8
F2
G8
F7
G7
F3
B3
SDRAM
VREF
Φ
0
1
2
3
4
5
6 A
7
8
9
10
11
12
13
SDRAM
DQ
0
1
2
3
4
5
6
7
DQS
C8
C2
D7
D3
D1
D9
B1
B9
3B11-2 2
3B11-1 1
3B11-4 4
B7
A8
NU|RDQS
2
7 33R
3
6 33R
4
5 33R
1
8 33R
3B18
3B19
2B47
0
1 BA
2
3B10-2
6 33R
3B10-3
7 33R
8 33R
3B10-4
5 33R
3B10-1
3B11-3 3
33R
33R
DDR2-D8
DDR2-D14
DDR2-D10
DDR2-D11
DDR2-D12
DDR2-D13
DDR2-D9
DDR2-D15
DDR2-DQS1_P
DDR2-DQS1_N
RES
2p2
A2
ODT
CK
CKE
CS
RAS
CAS
WE
DM|RDQS
VSS
NC
VSSDL
L3
L7
DDR2-A14
VSSQ
A7
B2
B8
D2
D8
3B20
180R 1%
FB00
DDR2-VREF-DDR
RES
240R
3B06
Φ
0
1
2
3
4
5
6 A
7
8
9
10
11
12
13
E7
DDR2-BA2
DDR2-ODT
7B01
EDE1108AGBG-1J-F
VREF
A3
E3
J1
K9
DDR2-BA0
DDR2-BA1
VDDQ
A7
B2
B8
D2
D8
G2
G3
G1
VDDL
E7
+1V8
VDD
A3
E3
J1
K9
H8
H3
H7
J2
J8
J3
J7
K2
K8
K3
H2
K7
L2
L8
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A13
A1
E9
L1
H9
7B00
EDE1108AGBG-1J-F
A9
C1
C3
C7
C9
100n
100n
2B25
100n
2B24
100n
2B23
100n
2B22
100n
2B21
100n
2B20
100n
2B19
47u
2B18
2B42
DDR2-VREF-DDR
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_034_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 206
10.23 B06 393912364955
Display interfacing-Vdisp
Display interfacing-Vdisp
B06A
1G03
T 3.0A 32V
5G01
FG0H
1G00
+VDISP-INT
100n
T 3.0A 32V
RES
2G43
+VDISP
30R
RES
5G02
30R
RES
22u
RES
B06A
2G44
10-23-1
RES
3G28
2K2
IG11
RES
6G00
LTST-C190KGKT
For Development use only
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_035_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 207
Video out - LVDS
B06B
Video out - LVDS
B06B
100n
FG2J
2G95
100n
FG30
FG31
FG32
FG33
FG11
FG1J
PX3DPX3D+
PX3EPX3E+
FG1K
FG1L
FG1M
FG1N
PX4APX4A+
PX4BPX4B+
PX4CPX4C+
FG12
FG13
FG14
PX4CLKPX4CLK+
PX4DPX4D+
PX4EPX4E+
FG15
FG16
FG17
FG18
FG19
FG1A
FG1B
FG1Q
FG1P
47p
47p
2G26
47p
2G25
47p
2G24
47p
2G7A
47p
2G79
47p
2G78
47p
2G76
47p
FG35
FG2R
FG2K
FG04
FG2L
FG2M
PX1APX1A+
PX1BPX1B+
PX1CPX1C+
FG2E
FG2F
FG1Y
FG1Z
FG20
FG21
PX1CLKPX1CLK+
FG22
FG23
PX1DPX1D+
PX1EPX1E+
FG24
FG25
FG26
FG27
PX2APX2A+
PX2BPX2B+
PX2CPX2C+
FG28
FG29
FG2A
FG2B
FG2C
FG2D
PX2CLKPX2CLK+
FG1R
FG1S
PX2DPX2D+
PX2EPX2E+
FG1T
FG1U
FG1W
FG1V
2G28
2G29
47p
47p
FG2P
RES 9G0G
FG2N
+VDISP
1G50
TO DISPLAY
EMC 100n
RES 2G9C
PX3CLKPX3CLK+
FG1C
FG1D
FG1E
FG1F
FG1G
FG1H
100R
100R
100R
100R
100R
100R
EMC 100n
RES 2G9E
PX3APX3A+
PX3BPX3B+
PX3CPX3C+
47p
47p
47p
47p
RES 3G38
RES 3G37
RES 3G2Z
RES 3G36
RES 3G30
RES 3G31
BACKLIGHT-BOOST
3D-LR
3D-VS-DISP
CTRL-DISP
CTRL-DISP
EMC
RES 2G9F
2G96
2G99
2G97
2G98
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
CTRL-DISP
60 61
58 59
56 57
54 55
52 53
FG34
FG2H
FG2G
100n
2G94
100R
100R
100R
100n
100n
RES 3G32
3G2W
3G2Y
SDA-DISP
SCL-DISP
2G91
2G93
FI-RE41S-HF
50
51
48
49
46
47
44
45
42
43
EMC 100n
RES 2G9D
100n
FI-RE51S-HF
2G27
CTRL-DISP
2G92
2G75
47p
2G77
RES 3G35
9G0K-4
9G0K-3
9G0K-2
9G0K-1
4
3
2
1
RES 3G34
5
6
7
8
RES
10K
10K
+VDISP
10K
+3V3
RES 3G33
10-23-2
Q552.2E LA
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
1X05
REF EMC HOLE
1G51
TO DISPLAY
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_036_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-23-3
Q552.2E LA
10.
EN 208
AmbiLight CPLD
AmbiLight CPLD
B06C
B06C
5GA0
FGA0
+3V3
VINT
5GA1
100n
100n
2GA2
2GA1
1u0
2GA0
30R
DEBUG ONLY
FGA1
+3V3
VIO
+3V3
100n
29
30
31
32
37
38
11
9
24
10
10K
RES
4
3
2
1
5
6 100R
7 100R
8 100R
100R
26
IXO2_36|GTS1
IXO2_34|GTS2
IXO2_33|GSR
IGA2
IXO4_19
IXO4_20
IXO4_21
IXO4_22
IXO4_23
IXO4_27
IXO4_28
IXO2_29
IXO2_30
IXO2_31
IXO2_32
IXO2_37
IXO2_38
IGA1
CPLED2
CPLED3
5
6
7
8
12
13
14
16
18
19
20
21
22
23
27
28
TCK
TDI
TDO
TMS
PNX-SPI-CSBn
BACKLIGHT-PWM
3D-LR
3D-VS-DISP
BL-SPI-SDO
BL-SPI-SDI
BL-SPI-CSn
BACKLIGHT-PWM_BL-VS
BL-SPI-CLK
9GA1 RES
3GA1
4
3G10-4
2
3G10-2
3G12
3
3G11-3
RES
47R
5
33R
3
7 3G10-3
33R
3G13
1
10R
6 3G10-1
33R
IGA3
GCK2
+3V3
3
5
GCK3
6
AMBI-SPI-CS-EXTLAMPSn
AMBI-SPI-CLK-OUT
AMBI-SPI-SDI-OUT_G1
AMBI-SPI-SDO-OUT
AMBI-LATCH2_DIS
33R
8
33R
2
GTS1
7GA1-1
BC847BS(COL)
1
+3V3
3
5
GTS2
7GA2-2
BC847BS(COL)
4
GND
4
17
25
+3V3
7GA1-2
BC847BS(COL)
4
+3V3
AMBI-PROG_B1
AMBI-BLANK_R1
6
33R
10p
33R
2
33R
IXO3_5
IXO3_6
IXO3_7
IXO3_8
IXO3_12
IXO3_13
IXO3_14
IXO3_16
IXO3_18
10p
2G19 RES
1
3G14
33R
7
3G11-2
10p
10p
2G12 RES
10p
2G11 RES
10K
2G10 RES
8
3G11-1
IXO1_2
IXO1_3
IXO1_39
IXO1_40
IXO1_41
IXO1_42
10p
2G18 RES
36
34
33
GTS1
GTS2
GSR
AMBI-SPI-CS-OUTn_R2-R
AMBI-PWM-CLK_B2
AMBI-SPI-CS-OUTn_R2
AMBI-LATCH1_G2
AMBI-TEMP
CPLED3
CPLED2
3G15
33R
3GA5-4
3GA5-3
3GA5-2
3GA5-1
SD51022
AMBI-SPI-CLK-OUT-R
AMBI-SPI-SDI-OUT_G1-R
AMBI-SPI-SDO-OUT-R
10p
2G16 RES
3GA3
GCK3
GTS1
GTS2
GSR
VCCIO
10p
2G15 RES
PNX-SPI-CS-BLn
PNX-SPI-SDO
PNX-SPI-SDI
PNX-SPI-CLK
2
3
39
40
41
42
VCCINT Φ
IXO1_43|GCK1
IXO1_44|GCK2
IXO1_1|GCK3
10p
2G14 RES
43
44
1
2G13 RES
PXCLK54
GCK2
GCK3
15
35
7GA0
XC9572XL-10VQG44C0100
VIO
1
2
3
4
5
6
+3V3
10p
RES
VINT
2GA6
3GA4
RES
1G37
10p
2G17 RES
2GA5
1u0
2GA3
30R
+3V3
6
3GA6-3
6 330R 3
3GA6-4
5 330R 4
3GA6-1
FGA3
+3V3
SD51022
BACKLIGHT-PWM
9GA0
6GA3
FGA5
FGA2
LTST-C190KGKT
FGA4
6GA2
FGA6
LTST-C190KGKT
1
2
3
4
5
6
6GA1
100R
100R
100R
100R
LTST-C190KGKT
8
7
6
5
6GA0
1
2
3
4
LTST-C190KGKT
2GA4
8
100n RES
7
3GA2-1
3GA2-2
3GA2-3
3GA2-4
8 330R 1
RES
1G36
1
2
3
4
5
6
7GA2-1
BC847BS(COL)
1
3GA6-2
DEBUG ONLY
RES
1G35
2
7 330R 2
GSR
BACKLIGHT-PWM_BL-VS
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_037_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 209
SPI buffer
SPI buffer
B06D
+3V3
+3V3
20
3GE2
3EN1
3EN2
G3
PNX-SPI-CLK
PNX-SPI-SDO
PNX-SPI-CSBn
7GE0
74LVC245A
1
IGE0
19
3
2
1
2
17
16
15
14
13
12
11
3GE0-3
47R
3
4
5
6
7
8
9
3GE1-3 6
3GE4
3
47R RES
3GE3
47R
6
BL-SPI-CLK
1
3GE0-1
5
8
47R
4 3GE1-4
47R RES
BL-SPI-SDO
AMBI-SPI-CLK-OUT-R
AMBI-SPI-SDO-OUT-R
PNX-SPI-SDI
RES
47R
10
AMBI-SPI-SDI-OUT_G1-R
BL-SPI-SDI
18
7GE1
PDTC114EU
10K
100n
B06D
2GE0
10-23-4
Q552.2E LA
PNX-SPI-CLK
7
9GE0-2
2
BL-SPI-CLK
PNX-SPI-SDO
6
9GE0-3
3
BL-SPI-SDO
9GE1
BL-SPI-SDI
9GE2
PNX-SPI-CS-BLn
IGE1
5 9GE0-4
PNX-SPI-SDI
*
**
4
BL-SPI-CSn
Buffer
*
**
Direct
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_038_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 210
10.24 B07 393912364955
DVBS-FE
DVBS-FE
B07A
7R01-1
STV0903BAC
100n
10n
2R15
100n
2R14
10n
2R09
GNDA
+3V3-DEMOD
10n
10n
2R52
10n
2R51
100n
2R50
100n
2R49
100n
2R48
2R47
100n
2R46
22u
2R16
VIA
VDD3V3
2
3
100n
2R17
+1V-DVBS
11
12
VDDA2V5
8
7
IM
IP
60
56
RES 2R21
DISECQ-DET
F22-DISECQ-TX
128
20
126
NC
107
NC
IR04
47p
97
98
3R00 IR03
19
18
1n0
RES 2R22
SCL-SSB
SDA-SSB
100R
RES 2R23
3R01
100R
47p
SCLT
SDAT
RESET-DVBS
9R00
RES
3R11
+3V3-DVBS
10K
IR02
62
58
26
23
24
29
27
FR02
FR03
FR04
FR05
FR06
FR07
Φ
MAIN
XTALI
XTALO
VS
AGCRF1
I2C-ADDRESS : D0
DIRCLK
CLKI
CLKI2
CLKOUT27
N
I1
P
N
Q1
P
0
1
2
3
D
4
5
6
7
CLKOUT
STROUT
DPN
ERROR
0
CS
1
DISEQCIN1
DISEQCOUT1
FSKRX_IN
FSKRX_OUT
NC
SCL
SDA
SCLT
1
SDAT
RESETB
STDBY
TCK
TDI
TDO
TMS
TRST
COMP
0
1
1
2
3
4
5
6
GPIO 7
8
9
10
11
12
13
52
SENSE+1V0-DVBS
63
64
65
67
68
70
71
73
74
75
78
79
82
83
84
86
87
89
90
91
94
95
108
109
111
115
116
119
120
AGC
2R53
1K0
47n
* To be drawn near PNX85500
3R03
3R04
3R05
3R06
47R
47R
47R
47R
NC
NC
NC
NC
TS-DVBS-DATA 4
TS-DVBS-CLOCK
TS-DVBS-SOP 2
TS-DVBS-VALID 1
9R03-4 * 5
9R04 *
9R03-2 * 7
9R03-1 * 8
TS-FE-DATA
TS-FE-CLOCK
TS-FE-SOP
TS-FE-VALID
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
40
41
101
50
49
47
46
44
43
37
35
34
32
30
55
FR00
3R02
16
IR05
3R07
120K
DISECQ-RX
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
100n
2R26
100n
2R25
100n
2R24
100n
100n
2R19
+2V5-DVBS
2R18
VDDA1V0
5
9
13
114
118
123
127
NC
QM
QP
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
VDD1V0
21
38
54
76
80
92
96
106
+3V3-DEMOD
30R
NC
59
104
103
100
129
GND_HS
IR00
5R00
+3V3-DVBS
NC
124
6p8
10n
100n
2R13
10n
2R12
100n
2R11
10n
2R06
2R05
2R08
100n
2R07
+1V-DVBS
XTAL
1
4
6
10
14
113
117
121
125
2R20 RES
100n
10n
2R10
100n
2R03
10n
2R02
100n
2R01
2R00
100n
2R04
+1V-DVBS
Φ
POWER_VIA
1K0
15
17
22
25
28
31
33
36
39
42
45
48
51
53
57
61
66
69
72
77
81
85
88
93
99
102
105
110
112
+1V-DVBS
122
3R10
7R01-2
STV0903BAC
10K
B07A
3R13
10-24-1
+3V3RF
3R12
IR06
+3V3RF
IR01
NC
2R43
9
8
7
6
5
4
3
2
4
XTAL_CMD
SCL
SDA
IP
IN
SATELLITE
TUNER
I2C-ADDRESS : C6
QP
QN
RF_OUT
AGC
AS
NC
VIA
RF_IN
10u
2R61
3R09
18
19
2R40
1K0
32
100p
3
3R08-3
21
20
7
34
35
36
37
38
39
40
41
42
XTAL
2
3R08-2
NC
4
6 3R08-4
100R
1
7 3R08-1
100R
5
100R
QP
QM
8
100R
IP
IM
0p56
SYN HS
29 33
100p
2R62
1n0
1n0
2R35
1n0
2R33
1n0
2R34
XTAL_OUT
10p
23
24
SYN
Φ
GND
RF LNA LT MIX DIG BB VCO
5
3
9 10 15 17 25 26
27n
5R02
2R45
1n0
2R29
SM15T
FR01
6R00
LNB-RF1
16
28
27p
10n
2R28
2R27
220u 6.3V
10u
10p
2R39
5R01
+3V3-DVBS
9R02
RES
VCO
2R56
2
AGC
27
10p
12
13
22
10p
10p
IR08
14
MIX DIG BB
VSS
2R55
1
11
XTAL_IN
1 2
1R01
73356-5070
1
8
2R54
NC
16M
2R38
31
IR07
SCLT
SDAT
6
LNA LT
10p
7R02
STV6110AT
3 4
30
10K
10K
3R15 RES
3R14 RES
10p
2R41
1R10
NX3225GA
2R37
+3V3RF
+3V3RF
1n0
2R32
2R31
4R7
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_039_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 211
10.25 B08 393912364955
DVBS supply
DVBS supply
B08A
5T00
IT00
6
A
4
VFB
+1V-DVBS
GND
P HS
8
9
3T00 RES
15
14
IT24
SENSE+1V0-DVBS
4n7
3T21
100n
2T06
11
+3V3-DVBS
4n7
2T36
1%
12
3K3
VIA
10
47K
1K0 1%
2T10 RES
IT02
13
IT20
3T03
FT06
IT18
2u0
22K
3T02
7T00-2
ST1S10PH
5T01
3
22u
SYNC
IT01
7
SW
VIN
RES 3T01
5
RES 1n0
2T03
INH
22u
2T05
1
A
2
+2V5-DVBS
2T04
7T00-1
ST1S10PH
22u
22u
2T02
22u
2T01
2T00
30R
SW
+5V-DVBS
1K0 1%
LD3985M25
7T01
INH
30R
BP
FT07
5
4
+2V5-DVBS
IT19
COM
2
100n
5T02
OUT
1u0
IN
1u0
1
3
2T07
BAS316
2T39
BAS316
+5V-DVBS
2T08
BAS316
IT03
10n
6T02 RES
2T09
6T00 RES
6T01 RES
7T02
LD1117DT33
OUT
FT08
2
+3V3-DVBS
16V
IN
2T12
100n
2T11
COM
1
22u
3
+24V
100u 35V
2T14
IT05
5T03
FT00
2T16
47n
220n
2T17
2T13
220n
IT04
3R3
100u 35V
2T15
3T04
10K
7T04-1
BC847BS(COL)
1
IT10
13
12
6
8
IT09
10K
5T04
4u7
RES 2T22
4u7
RES 2T38
10u
1n0
IT11
RES 2T37
10u
2T24
2T23
6T04
SS24
16
17
18
19
20
21
22
23
24
25
26
22R
3T11
33u
100u 25V
+V-LNB
IT32
GND_HS
IT17
1n0
IT12
3T29
3T08
3T10
3R3
47n
15
4
10u
GND
2T35
2
IT26
2T26
1n0
2T25
100K
3T06
IT21
ILIM2
SEQ
BP
IT27
6
3T07
BOOT2
SW2
EN2
FB2
VIA2
IT08
+3V3
PVDD2
2T27
9
10
11
IT07
+24V
BOOT1
SW1
EN1
FB1
Φ
1K0
2
3
5
7
1n0
2T21
PVDD1
2T20
14
7T03
TPS54283PWP
IT25
IT06
1
22R
3T05
22u
6T03
SS24
33u
220u 16V
2T19
2T18
+5V-DVBS
10K
IT29
3T23
IT13
33K
2T41
RES
2T28
1n0
FT04
RES
+V-LNB
4u7
RES
3T24
SENSE+1V0-DVBS
15K
220p
2T40
2T31 RES
RES
2T29
47K
5%
RES
47K
3T16
3K3
5%
3T15
IT14
2T30 RES
3T17
7T04-2
BC847BS(COL)
4
22n
3T12
3K3
5
IT23
22n
3T14
2K2
BZX384-C
13V
1K0
IT22
6T05
+24V
3T13
3
IT15
3T25
3K3
V0-CTRL
330K
3T28
100K
RES 10n
RES
IT16
RES 10K
100n
RES
3T26
2T43
RES 2T34
IT30
2T42
22n
RES
3T19
33K
3K3
5%
3T18
18K
5%
22u
2T33 RES
22u
22n
3T20
RES 3T09
+5V-DVBS
2T32 RES
B08A
RES
3T31
10-25-1
5
FT05
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_040_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-25-2
Q552.2E LA
10.
EN 212
DVBS supply
B08B
DVBS supply
B08B
+12V
+12V
+3V3-DVBS
3T22
220R
22u
RES
5T50
100R
3T50
100n
2T51
2T50
RES
100u 35V
IT50
IT28
220n
2T52
V0-CTRL
IT60
5T52
6T50
220n
2T53
BAT54 COL
18
NC
BYP
7T50-2
LNBH23Q
34
35
36
2K2
IT55
DISECQ-DET
IT64
6T54 RES
RES
7T51
BC817-25W
IT68
BAS316
IT69
IT59
9T52 RES
VIA
VIA
10n
10u
3T58 RES
2T62 RES
2T60
2K2
1R0
IT67
3T59 RES
STPS2L30A
6T51
+3V3-DVBS
10K
2T61
20
1
2
3
7
8
16
17
23
24
25
26
31
32
3T57 RES
RES
VUP
11
IT66
3T62
150R
VCTRL
15R
22R
TTX
22
3T54 RES
EXTM
470n
VIA
DISECQ-RX
39
40
VIA
37
38
2T59
470n
15
2T58
100u 35V
IT58
DSQOUT
DSQIN
LNB-RF1
3T53
21
3T27
27
2T57
470n
2T56
100u 35V
RES
22K
1n0
IT57
30R
VOTX
4
3T52
RES
30
5T51
VCC_L
VCC
14
+V-LNB
2T55
12
13
9T51
DETIN
28
IT52
220u
IT54
29
IT63
IT65
RS1D
RES
9T50
RES
VORX
A_GND
IT56
F22-DISECQ-TX
6T53
STPS2L30A
6T52
RS1D
6T55
10K
ADDR
GND_HS
DISECQ-DET
10
10K 3T55 RES
2T54 RES
IT61
IT62
10K
3T56 10n
ISEL
LX
P_GND
LNB-RF1
100R
SCL
SDA
IT53
33
3T60 RES
+12V
9
6
3T61
SDA-SSB
Φ
5
100R
IT51
41
42
SCL-SSB
19
7T50-1
LNBH23Q
3T51
5
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_041_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 213
10.26 B09 393912364955
Connectors comp
Connectors comp
5C55
30R
1M59
2C70
FC81
GND_AL
NC
FC83
1C86
+24V
FC82
AMBI-POWER
100n
RES
2C95
1C87
100n
FC84
2C94
T 2.0A 63V
+12V_AL
27
2C96
T 2.0A 63V
RES
3C76
100p
IC73
RC
100R
2C78
IC74
3C77
100p
47n RES
LED-2
TO
LED PANEL
100R
FC89
FC90
FC91
FC92
+3V3-STANDBY
FC93
2C79
IC75
3C78
FC94
+5V
100p
100R
LED-1
2C80
100p
FC95
KEYBOARD
28
1M19
FC88
1
2
3
4
5
6
7
8
100n
FC79
100R
2C77
2C81
FC78
3C70
100R
2C93
6C02
FC77
FC76
100p
3C79
10R
100p
FH34SRJ-26S-0.5SH(50)
2C82
100n
RES
RES
V-AMBI
AMBI-BLANK_R1
AMBI-PROG_B1
AMBI-LATCH2_DIS
AMBI-TEMP
3C75
6C05
FC75
FC87
LIGHT-SENSOR
RES
BZX384-C5V6
FC74
AMBI-SPI-CS-OUTn_R2
AMBI-LATCH1_G2
2C76
BZX384-C5V6
FC73
AMBI-PWM-CLK_B2
6C03 RES
FC72
V-AMBI
BZX384-C5V6
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
FC71
100K
RES
FC70
AMBI-SPI-CLK-OUT
AMBI-SPI-SDO-OUT
AMBI-SPI-SDI-OUT_G1
B09A
+3V3
3C74
B09A
100n
GND_AL GND_AL
1M21 RES
FC64
FAN-DRV
*
RES 3C92
RES 3C93
1u0
47R
19
20
FH52-18S-0.5SH
2041145-4
TEMPERATURE
SENSOR
Dream Catcher
100R
10K
FC99
RES 5C54
+3V3
30R
RES 5C53
+12V
30R
T 1.0A 63V
+3V3
*
FC98
1
2
3
4
RES
47R
1u0
2C91
FC86
100R
RES 3C83
FC97
RES
47R
2C90
RES 3C82 100R
3C97
RES
10p
FC63
RES
1M71
FC96
3C96
RES
10p
2C89 RES
100R
RES 3C81
3C95
+3V3-STANDBY
+5V
47R
10p
2C88 RES
FC85
3C94
10p
2C87 RES
RES 3C80
100R
FAN-CTRL2
RXD2-MIPS
100R
FC62
9C00
RES
9C01
RES
9C02
RES
9C03
RES
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
1u0
SDA-BL
TXD2-MIPS
RES 3C91
RES 2C85
TACH02
*
100p
SCL-BL
10K
100p
RES 2C84
TACH01
*
SDA-SET
RES 3C90
RES 2C83
FAN-CTRL1
+3V3
FC61
SCL-SET
2C86 RES
* HOTEL TV
RES
1C85
10-26-1
5
IC78
RESERVED
SPB SSB TV550
2K11 4DDR EU
2011-04-27
4
2010-12-10
3139 123 6495
19104_042_110622.eps
110622
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 214
10.27 313912364955 SSB Layout
2UE4
5T01
5T00
2T19
2T33
6GA1
5UD3
2UD6 6UD0
2UD9
3U26
2UE2
IUS9
2UD4 2UD5
5UD2
IUS6
IUT1
3US3
3US2
3US9 3US6
2U15
3UD3
3GA6
1G37
7GA2
9UU1 9UU0
2UU2
5G02
1G00
2G43
2U16
5U01
5C53
2UE1
3UD4
2UE3
5C54
3UD5
2UE6
1C85
3U29
IU15
2UD8
7US3
6U00
IU17
2US3
3U24
7US2
2U09
2C85
2U17
IU18
3C93
3C82
IUS5
2U18
3C90
2C83
2C84
2U11
3C91
3C83
3C92
5U00
IU23
3C80
2T00
2T18
5UD0
IUD4
7UD1
IUD2
2T01
2T12
5T03
2T32
IUD1
IUT2
2T22
7T03
7T00
6GA2
2UD2
6GA3
2UD1
6GA0
2U27
3UD2
3U06
2UD7
3UD0
3U07
7UD0
3US7
3C81
5UD1
2UE0
3US5
7US1
7U05
2UE9
9US0
3US4
3U23
7U01 7U04 7U02
7UU0
1M71
IUS4
2UD3
3UD1
5U03
5U02
2U19
2U25
2U23
2U24
IUS3
IU57
2UD0
2U28
7UD3
2UE7
2U20
2UE8
IUD0
2T17 5T04
2T11
3C70
2C70
2C96
2G13
3G13
3U81
3G12
3G14
2C95
3G10
3G11
6T03
2T14
1C87
1C86
1UM0
5UM1
2U56
3U56
3U44
3U66
2U43
3U67
3U84
2U52
2U51
2U72
3U76
2U48
2U68
2U54
3U71
2U47
2U49
2C94
5C55
3U42
3U65
3U64
4U00
3U45
2D30
2U58
2U53
3U43
2U45
2U44
4U01
2U46
1M59
1M99
CXXX
2U50
1M95
7T02
Overview top side
3GA5
1P00
7GA1
5G01
1G36
2G44
1G03
3GA2
3G15
6G00
3G28
1G35
IG11
2GA4
3GA1
3B11
7GA0
3B26
IGA3
3B18
IGA2
7S02
3S02 3S01
3S28
3S24
3S29
3S2A
9F27
3B00
3S1C
2R28
9R02
2R33
2R45
2R32
2R29
3R14
3R15
2T50
3S1B
9F28
3S3N
3S3R
3B13
2R31
2R55
5R02
2R62
2R43
2R40
1R10
3R09
2R38
2R35
2R61
2R39
3T22
3S1K
3S3T
1R01
7R02
6T55
3S3S
3S1J
3B12
2R27
2R37
3S21
2S4E
3B23
2B44
3S23
3S62
3S3Q
3S03
9S01
3S1L
3B02
7S00
2S4D
2D20
3S31
7R01
2R34
2T57
9S00
3S3Y
3S04
5D07
2R46
3R06
3B17
2R54
3R05
3B16
2S09
7B02
3R04
3R08
2R20
3R03
3B25
2B46
7B00
5R01
2R56
9S93
3B08
9S90
7F20
3B07
2D05
5D08
2D19
2G96
9S91
3B10
2G99
9S92
2S4P
2G97
2R41
IGA1
2G98
3R12
3B19
2F01
7B01
2B47
1G50
9GA0
7T50
2T55
2T56
6T52
3S3L
3S2M
3S3W
2S7M
2S87
2S7L
2S7N
2S7U
2S8G
9S18
9S20
3S59
3S4P
3S4R
3S4T
2S77
2S78
3S83
2G28
1E22
1E54
1E31
5F70
2F29
3F37
3F36
2F33
7F25
7F70
1P08
1E85
2F9D
1E06
1E18
1E01
2G29
3F31
3F78
1F25
1E25
2F32
1E23
1E19
1E55
6F72
9F05 9F06
1E12
5D05
1F75
IF89
9E22
2F91
3F72
4E01
4E03
4E02
9E21
9E05
IF86
9E18
3E76
2E14
1E86
1E53
1E00
3E77
6E26
2F35 3F28 2F34
9F00 9F01
5E74
2E84
4E04
1F24
IF61
2F92 2F94
2F90 3F71
2F58
3F58
2E83
1E71
3E32
2E18
7F58
2S4M
3F59
3F60
BS13
1F10
2S41
3S12
3E31
6E22
5T50
3S84
3S13
9E20
9E24
4E05
1P09
2F40
BS10
3S4J 2S7J
2S7P
2S7R
9S19
2S7K
2S7E
9S21
3S4K
3S4L
2S7H
2S2Y
3E17
3S6H
3S42
2S2Z
2S30
2S2W
2S2V
2S31
2S33
IS13
4S14
2S2S
3S6J
2S32
2S34
7S08
3S26
2D09
3S44
3S3U
2S2R
2S2T
3S3M
3S43
6T51
6T53
3S3F
9S06
3S3H
DBS8
1S02
5T51
3S3G
3S53
5D02 5D01
3S54
3S50
3B04
2B45
2D07
DS50
2S4G
2D06
2D12 2D11
3S52
BS15
3B14
5T52
IF62
3S80
2S4F
3B15
3S27
2D10
3S4A
3B05
2D24
2D17
2D23
7B03
7D10
5D04
5F73
9F04
1FD3
2FDD
2FDC
2F9A
9E15
3E20
2E37
6FD2
6FD3
6E20
1T01
1E38
6FC7
3E41
3FC4
2F81
1P02
1ECB
3FC3
1FC3 1FC4 1FC2
3FC5
3FC6
2FC1
2FC2
2FC6
9FC5
6FC1
6FC6
3FC1
2FC3
9FC4
6FC2
6FC8
2FC8
1FC5
1P03
1FC6
9FC6
2FC5
2FC7
3FC2
1E77
1P04
1P05
6FC3
1FC1
1E78
1E75
1E76
1E07
1E79
2FC4
2ECC
9FC3
1N00
3FC7
2E25
3E56
2E26
6FC5
6FC4
2E20
1E44
3E58
3E54
3E57
5EC2
6E16
6E15
3ECM
IEE3
9EC3
3E38
6E17
3E36
7EC1
3F623F63
2F60
2E21
2EC1
1329
IE35
2F97
3E55
7EE1
IE36
2ECN
2ECM
2E23
3ECF
9E57
3ECN IE42
1F52
6E18
IE34
IEE6
2EE2
2EE1
3ECP
3EC5
2ECP
IEE5
3E89
2E67
6E51
3EE2
2EE4
3EE3
6E46
4E24
4E21
4E20
2EE7
9E17
9E50
IEE4
3EC3
2EE5
2C88
2EE0
3C96
2C89
2E22
3C97
2C81
2EE3
3EE0
3C95
3EE1
3C94
2C87
1E09
6EC1
2F98
2E05
3E27
1E87
2E60
1E88
2E62
3E26
IC74
2C90
2C86
IE11
1328
2F99
2ECU
6C05
2C91
1E08
3ECG
5E01
5E06
3C79
6E47
2EE6
2C82
3E98
6C03
5E02
3E28
3C77
5E08
3C78
2C78
IC75
2C80
2E63
2E56
2C93
1E28
2E57
7EE0
3E25 3E22
3E40
2E66
2E07
3C76
9C02
1E03 1E04
3E72
3C74
6C02
9C03
1E37
1E39
2C76
1E43
3E68
1E42
3E34
1E29
IE07
3E35
3C75
3FDG
1FD2
IE10
2G75
2G77
2C77
1F51
2F86
3F75
3E21
2E38
6E19
2E35
2E36
2E54
3F65
2F9B
IE09
9F71
2E27
5F72
6E40
4E23
3E96
6E38
3E88
9E29
2E40
9E13
2E55
2E71
7E10
2E72
9E11
3E33
2G76
3E30
3G38
2G27
6E06
3E51
1E70
2G26
2G78
2E39
2G25
3E87
9E52
4E22
3E97
2E52
9E04
2E53
2G24
3F64
1E32
2G79
2F88
2F93
3E65
3E66
3E67
3E70
3E69
2E49
2E48
3E64
9E42
2G7A
9E43
2F9C
3E71
1G51
IS14
3S81
3B24
3S00
1D52
2D08
1735 1D38
1D50
3S6K
3S4B
1M19
1M21
10-27-1
1E05
5
LAYOUT
SSB TV550 2K11 4DDR EU
4
2011-01-27
3139 123 6495
19104_055_110628.eps
110628
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 215
Overview bottom side
2G10
IUM0
2G16
2G11
2G12
2G15
FU61
FU66
FU75
FU63
IU22
IU03
IU49
FU73
IU62
FU07
IU26
3U13
3F41
AF72
FF56
IF53
C000
2UB3
7U41
3S6P
3U02
CU02
CU01
FC99
7UU2
9G0K
3D16
7D03
3D02
CD10
FG1C
2G94
2G95
2G9D
2D21
2E10
3E24
9E23
2E90
2E15
ID07
IEC1
6E01
FE72
2G91
FE70
FE74
FEA1
3E37
FEA0
6E07
6E23
9E27
9E08
9E51
9E53
IE08
3D10
ID05
FE75
3E74
FE85
IF74
2F79
3F80
3F81
3F77
3FE5
2D22
2FE6
9E28
3E07
IE23
2E04
IE71
FG29
FG24
FG22
IE51
FG20
FG21
3G33
FG1Y
3G34
FG1Z
IE26
IE22
IE64
FE50
3G30
IE63
IE38
3G36
2E06
9E25
FE49
IE29
FG2E
FG2L
FG2F
3G2Z
IE31
FG2R
FG2K
FE54
2E88
6E03
FE73
2E91
6E09
IE14
9E07
9E10
2E75
6E29
3E43
FE82
FE71
4E06
IE72
9E26
IE73
2FE4
IE06
DFE8
7E09
3E73
IE48
2E24
7FE0
BFE3
2E44
9E16
FE84
3E62
IE16
IE52
2FF0
2FH7
IE32
3G37
FG2G
3G2Y
FG35
3G2W
DFE7
FG04
IE33
BFE2
3G32
FG34
FG2H
3G35
IE39
DFE6
FE31
2FG7
FC89
2FG6
IF17
2FG4
FE33
DFE9
FE29
IF18
FE42
FC87
DFF2
2FF4
FE27
2FA4
5FA4
2FF9
IF69
2FG1
5FE8
2FF1
2FA3
5E03
2E59
5E04
3E39
FC88
FC90
IEE8
FE02
FFAF
FE30
FECZ
FECR
9E58
2ECX
2ECY
2EC3
FECY
5EC3
3ECJ
FEC7
IE76
IE45
FEC3
2EC7
IE43
3ECL
FE53
2EC2
2ECQ
FE46
FE44
FE48
IE44
2ECW
2FA2
FE47
FE45
FE52
FE01
3ECH
FE03
FECB
FFA2
FE59
2C79
FC91
FE61
FC92
IE77
3E90
FE60
FE51
9E19
IE74
IE75
FFB5
6E52
2E68
IEE0
7FA3
FE28
3E99
IC73
IEE7
5FA3
2E58
3E29
2E08
DFF1
3FE9
3FE8
2FF2
2FF7
3E95
FE32
2FF8
IF68
FF61
FF63
2FH3
2FH4
7FE3
FF62
2FE3
IF67
2FG0
IF49
5FE5
FF03
2E09
2FE8
FF81
2FH2
9G0G
3FE6
3FE7
2FF3
2FF5
2FH6
5FE7
IF29
2FG8
2F84 3F76
FG28
FG25
FG23
FE34
2FG9
3FG2
3FG7
2FH5
IF65
FFDB
FG27
FG26
3FG4
FG2M
2FE0
5FE3
2F59
ID08
ID06
3G31
FF82
FF76
FG2A
IF82
3E44
5FE0
FF74
FG1R
FG2B
3FG6
2FG3
IF63
IF48
5FE9
FG1T
FG1S
FG2D
IF27
2FE5
IF28
1FE0
5FE4
FF00
FFDC
3D14
5FG0
5FG2
IF66
FF64
FFDA
IE50
FG1U
FG2C
FE58
2FG2
2FF6
FG1W
FG1V
FG2P
2D26
IE49
IF64
2F61
2D16
2B36
2B08
2B03
2B02
2B04
2B07
2B05
2B06
3S51
2S42
BEC5
2E86
9E55
3E78
3E79
FE81
BEC3
3E53
6E32
2F66
5F66
2F28
IF78
IF14
2FH8
AF70
3FBF
2U00
2UU0
3UU2
2B11
2B12
2S29
IS50
2S38
2S3J
6E28
2E76
2E80
3E75
7E01
6E43
IF76
2F75
IF12
2F63
2F64
FE56
7F75
3F35
9F03
9F02
IF15
FFC9
3D06
2B16
2B14
3D09
3S20
2S24
2S4Q
2S4R
C001
2S3A
3S39
9E09
FE80
2E01
FG2N
IF41
FFB1
CU04
CU03
2D31
3B20
2B19
2B21
3D01
2S60
5S93
2S68
2S3F
2S2G
2S2H
2E85
2E74
3E48
5E73
5E76
2E87
3E19
9E06
2E12
2E98
IE55
IE17
IE92
FE43
2E99
3EB6
IE96
3EA7
IEC2
IF73
6E44
FF75
IF10
IF11
2F25
3F30
FFB6
3U80
2B39
2B35
2B26
2S17
3S6Q
IEC0
IE68
2E79
IE70
2F78
2F74
IF42
2F30
FF01
AF71
FF65
IE59
2E97
7E05
6E30
IE60
IE91
FE83
7E06
3E06
5E80
IE13
3E45
IE61
2E81
2EB3
3EB3
9E12
9E14
FE57
2F27
2F26
3E18
IE89
2F71
IF77
IF13
IF33
3S1D
IE53
2EB1
IF81
FF71
IF30
FF66
2EA4
2EA5
IE18
IE90
2F96
IF59
IF75
IF32
IF34
3S49
IE15
IF80
FF57
IF90
2F85
IF44
3F79
IF54
3EA2
IF39
9F25
9F26
FD06
2D13
ID10
3S0Z
5F71
IF58
3F52
IF36
IF40
2D14
3S38
2F49
3F34
FF36
2D01
5D03
FD14
IS1D
3EB1
IF72
FD05
ID32
ID09
ID31
FS57
9E01
IF52
ID28
FS52
3EA1
IF35
ID29
2B00
3B03
2D27
7F52
IF50
IF79
2F52
3F32
IF45
3S36
FS53
2F95
2F73 2F80
2F72 2F82
2F77
2F76 AF73
FF55
FF29
IS11
5F74
ID19
IS0R
IS1P
3S3P
FF30
FF39
9F30
9F29
FF38
FF42
2F62
2F70
3F43
FF41
IS1H
ID37
IS12
FS03
3S5E
ID15
ID30
ID18
2B01
FD02
3S47
IS1J
IS02
5F76
2F65
3F82
3B28
2B41
IS07
IS1Q
IF16
FF46
7D15
FD09
IS03
7S05
3S16 3S17
IE54
IF47
IS0V
FF48
2S3C
2S2J
3S32
3S37
3S6L
3S05
IE67
IE05
3S34
IS06
IS44
3F40
FD08
2D29
ID27
3S72
IS20
2S3B
IS5C
2S8A
9S24
IS3E
FS50
FD01
FD03
IS1S
IS3F
IS2V
IS1N
IS4V
2S3D
IS5G
ID33
2D28
FS08
IS1M
2S16
2S3K
2S40
2S19
IS5J
3S08
IS5H
IS2Z
3S2S
2S3E
3S10
IS19
IS3D
3S46
2D02
ID14
2B09
2B40
2S36
IS1B
3F45
FF49
FF45
2S25
2S64
2S5P
2S3H
3S09
2S2L
3S75
2S18
2S14
FS11
3S5V
IS1A
IS4W
2S75
2S86
FS49
FS44
2S4S
2S23
2S45
2S76
2S22
2S3M
3S18
2S3G
5S84
IS5E
3S5S
3S2L
FD07
ID11
2B13
2S46
3S76
3S1H
3S5T
3S11
3S6M
IS1E
3S25
3F42
FF44
IS1G
3S19
FF50
IS1K
IF31
FG33
3S06
5S88
2S5J
5S89
2S4Z
IS3B
IS5D
3S1G
2S84
2S3Q
2B17
FS02
2S6G
2S50
IS3L
2S13
2S10
FS10
ID12
2B37
2B15
IS5F
2S85
IS42
3S22
2S51
FS45
7S09
3D15
2B10
3S0V
2S65
2SHW
FS51
IS1L
2S6E
2S6D
2S20
3S5B
IS2U
ID34
2S6N
2S2K
3S2H
FS0Z
DS52
IS4Z
ID35
7D11
3S30
5S87
5S81
5S90
5S04
2S37
2S55
2S11
2S6A
2S5K
2S43
9S0D
2S4K
IF51
FF04
IT51
2B18
3B01
2S15
IS16
3S55
FG31
3S33
2S4U
3S40
3S45
9S09
3B06
3B22
2S5G
5S95
2S4V
3S0W
2S2E
3S64
2S6B
2S21
5S83
FG32
2G9C
2B20
2D03
2S4Y
2S53
5S92
2S5A
2S59
2S28
2S6M
2S58
2S6K
2S6H
2S5C
5S82
2S27
2S52
2S6P
5S80
2S5B
3S2K
3S41
3S1P
IT67
3T53
3F44
IS05
FC95
7S20
IT54
2S6L
IS01
2S4W
2S4T
9S0E
IT53
6T50
3T62
IT69
IS3S
5S94
2S57
IS3Q
2S6C
2S3L
2T58
IT61
2T60
3T60
3T52
IT57
3T27
7T51
3S2V
IT68
2T53
IT60
IT62
3T58
2T54
3T55
2T37
FF47
5S85
IS10
FS64
3S1F
3T50
IT50
2S5D
3S1T
3S1S
3S1U
3S1R
3S82
IS04
9R04
3T54
2T51
FF43
2S6F
2R22
IT59
9R03
2T59
9T52
IT28
IT64
3T59
2T62
2T38
3S69
3S1E
2T61
2T52
3T61
IT52
3S6V
3S1X
2R15
2R26
2R25
2R21
3T56
9T50
9T51
6T54
IT58
IT65
IT55
3S6W
3F06
IR04
2R09
2S62
IS3K
2S5M
2S5H
3S1W
2S56
2R23
IS25
3S56
IS58
IT63
2S63
IS26
3S57
3S2F
2S39
3S6D
3S2G
3S6A
IR03
3R01
3T57
FF37
2B24
2S26
2S67
3S6F
3S5Z
3S5Y
2R52
2R17
2S61
3S15
3S6E
IS40
2R51
2R14
IT66
2F31
FG30
FS01
3S07
2S66
3S1V
FG1D
2G93
3B27
3B21
3S5W
FG1F
2G92
2S4N
5R00
FG1L
FG1G
FG1E
2B22
9S08
3S60
2R08
IR00
3T51
IF37
2B31
2B42
3S61
3S6G
IF88
IF43
3B09
2B38
3S58
3R00
FF33
3UB4
FG0H
2B29
9S12
2B25
3S67
9S96
9S97
3S65
2R13
2R07
FG1M
FG1J
FG1H
2B23
IS08
9S11
3S6C
IS00
FG1N
FG1K
FS31
2S89
IF87
2B34
FG11
3S6B
9C00
2R49
2R16
FF32
FB00
FG12
2G9F
2R50
IT56
2B27
2B33
9S94
9S95
FGA0
FG16
FG14
FG13
2GA1
2R01
2R00
FR01
2UB1
5GA1
2GE0
2B32
2B28
3S68
3S66
9S10
9C01
FG18
FG15
2B43
2S12
3F20
2R12
3F19
FG1A
FG19
3GE4
7S01
3R13
2R06
2R04
IF22
FG1Q
FG1B
5GA0
2GA0
3GA3
3GE3
3GE2
9S13
3F22
2R10
2R05
2R03
2R02
FR02
CUA0
2GA3
2GA5
7GE0
2GA6
3GA4
3F21
3F23
IF23
3F12
2R11
FR03
FG2J
FG17
IS09
FR07
2R24
FUU0
FGA1
2B30
2F20
2F21
FR04
3UU0
FGA3
2F03
9GE1
3F24
IF21
3R11
FF31
2R19
7UU3
FUU1
3GE0
IGE0
2R48
3R02
IUU3
FG1P
IS15
9R00
2R53
7UU1
3UU3
IUU4
FGA5
7GE1
2R18
IUU2
IUU5
2G9E
3GE1
2GA2
IS17
FR00
IUD5
FUA3
FGA4
3F07
IR01
FUD2
FGA6
7F02
IF07
3F05
9GE2
IR07
IC78
2U14
FU03
IUU0
IGE1
IR06
FC97
FGA2
9GA1
IR08
2U29
IUU1
9GE0
6R00
2UB6
IUB1
2U10
IU40
2UB0
IUB6
7UA5
2UB2
3U41
3F03
7UA3
5UA0
3U15
IU44
3U16
7U42
FC98
IU19
IU01
FUA4
2UB7
2UE5
IF05
3R10
7U48
3U21
IUB2
3U12
7UA6
7UD2
IU47
IU43
9U41
IUB3
7U43
3U59
FUD3
IU21
CU05
7UC0
IUB4
IUB5
3UB6
2UB5
3F02
3F01
2F02
7F01
3F10
IR02
2UB4
3UB2
2UB8
7U06
IU30
6UD1
3U70
IU45
3U69
IF03
IR05
3UB1
2U71
FU00
3U20
2U13 2U12
7UA7
3U74
7F00
2F00
3F11
2F06
7F05
IF02
IF01
FR05
3UB3
3UA0
9U42
3U53
IF08
3R07
3U03
IU41
3U68
2R47
FC96
IU14
IU25
2U04
IU02
3U83
3UB5
3U25
FR06
FU06
2U05
IU09
3U61
IU29
3U75
FU05
FU02
IU50
3U82
IU64
IUA6
IU07
IU12
IUB0
2UA4
IF04
3F04
FU04
3UB7
3F08
IF06
7U03
IU10
IU61
3UB0
IUA5
IUS7
IF55
3F09
7UA4
7F03
7UA0
IU06
2U02
IU13
2UU1
2F04
IFD3
FUA0
3U18
3U14
3U63
IU52
3U17
IU20
2U08
3U09
IU08
FC63
FS2Y
CU00
3U19
3U10
2U07
IU04
IU11
3U60
FU76
2U03
3U22
IU16
FU72
IUS8
7F04
3FD6
IFD1
9FD1
6FD1
3FD7
9FD5
3F53
3FD3
3FD4
2F05
FF58
3F54
3F66
2FD1
9FD2
9CH0
IFD5
7F53
3F67
3FD1
7F54
IF57
3FD2
3F69
2F53
IF56
IFD2
7FD1
IFD4
3F68
FS2W
FU62
3U01
IU24
2U21
IUD7
FC62
FU55
3UU1
FC86
2U01
IU05
IU63
IU28
FU53
IU55
FU08
FU09
3U27
3U73
IUD6
IU48
3U62
IU27
FU52
IU56
3U00
2U55
FC85
FU51
FU67
2U06
FU01
3U05
IUD3
IT06
IT16
FU60
3U72
6U40
2U22
IU51
FU68
2U57
FU59
FU74
FU57
IUS0
7U00
FU56
FU58
3U28
3T20
FU54
7U40
IT07
2T31
IT15
FU50
FC61
FC64
3U04
3T24
FU49
IT05
3U08
3T08
FC79
1U40
3T31
2G14
FC70
FC72
3U11
IT14
3T07
3T14
3T17
2T16
6T05
3T04
3T05
2T29
2T28
FUM0
FC71
FC78
FU48
2T21
IT13
3T12
IT17
2G17
2T26
2T27
2T15
IT25
FT05
3T29
2T23
2T24
IT08
FC73
2G19
FC76
FC82
IT21
IT04
2T13
IT26
IT27
2T40
IT32
FT00
7T04
3T06
2T25
3T23
IT29
2G18
FC77
IT23
IT22
FC74
FC75
FC84
FC83
IT12
2T20
IT10
2T35
3T25
3T28
3T26
2T42
2T07
IT30
FT04
3T10
IT09
2T43
IT03
6T02
6T00
IT24
IT11
3T13
2T34
3T09 3T15
3T19 3T16
3T18
5T02
FT08
2T10 2T36
FT06
6T04
3T03
FT07
3T11
7T01
2T09
2T39
2T08
3T02
3T00 3T21
6T01
2T05
IT18
2T04
3T01
IT02
IT20
2T06
2T30
IT19
2T03
2T41
2T02
FC81
IT00
IT01
FC93
9E54
FEE0
3ECK
FC94
IE12
IEE1
FE41
9EC2
FFC7
2EC8
FFC2
5EC0
IE65
IE66
FEC0
3ECU
FE36
FFB4
FFC4
2EC6
FFC5
2ECV
FFC3
FFB3
9FC2
FFC1
FFC6
IEC7
FECA
FECW
FFC8
IEC6
IEC5
9EC0
7EC0 7E02
3ECE
FECJ
FE35
3E23
FEC2
3ECD
FFB2
2EC0
IEE2
9FC1
10-27-2
Q552.2E LA
IEC4
FECE
FEC4
FEC5
FEC1
FECM
3ECA
FECF
3EC1
FECD
FEC6
FECK
FECL
FECP
FECC
FECN
FECG
5
LAYOUT
SSB TV550 2K11 4DDR EU
2011-0?-??
4
2011-01-27
3139 123 6495
19104_056_110628.eps
110628
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 216
10.28 B01 313912365192
10-28-1
Common Interface
Common Interface
B01A
B01A
+3V3
2F00
TRANSPORT STREAM FROM CAM
19
CA-MOVAL
CA-MOSTRT
3F03-2 2
1
3F03-1
IF02
3
4
5
6
7
8
9
8
100R
7
100R
IF03
2
18
MOCLK
17
16
15
14
13
12
11
1
MOVAL
MOSTRT
CA-DATADIR
CA-ADDENn
1
MOCLK
2
MOVAL
10
MOSTRT
MDO0
+3V3
2F02
19
IF05
CA-MDO0
3F04-1 1
IF06
CA-MDO1
CA-MDO2
CA-MDO3
CA-MDO4
CA-MDO5
CA-MDO6
CA-MDO7
3F04-3 3
3F05-1 1
3F05-3 3
3F04-2
6 100R
3F04-4
8 100R
3F05-2
6 100R
3F05-4
2
7 100R
4
5 100R
2
7 100R
4
5 100R
3
4
5
6
7
8
9
MDO2
MDO3
3EN1
3EN2
G3
1
2
1
1
2
MDO0
17
16
15
14
13
12
11
MDO1
MDO2
MDO3
MDO4
MDO5
MDO6
MDO7
MDO6
MDO7
10
CA-WAITn
+3V3
CA-INPACKn
2F03
15-BIT ADDRESS
3EN1
3EN2
G3
18
XIO-A01
XIO-A02
XIO-A03
XIO-A04
XIO-A05
XIO-A06
XIO-A07
CA-VS1n
1
17
16
15
14
13
12
11
2
CA-ADDENn
2
1
19
CA-A00
3
4
5
6
7
8
9
CA-A01
CA-A02
CA-A03
CA-A04
CA-A05
CA-A06
CA-A07
10
XIO-A00
CA-WP
100n
20
7F02
74LVC245A
RES
3F08-2
3F09-1
3F09-2
3F10-2
3F12
10K
7
10K
3F11-3
3
6
10K
3F11-4
5
4
10K
3F11-1
1
8
10K
2
20
100n
3EN1
3EN2
G3
XIO-A09
XIO-A10
XIO-A11
XIO-A12
XIO-A13
XIO-A14
1
17
16
15
14
13
12
11
2
CA-ADDENn
2
1
19
CA-A08
3
4
5
6
7
8
9
CA-A09
CA-A10
CA-A11
CA-A12
CA-A13
CA-A14
10
18
+3V3
2F05
8-BIT DATA
17
16
15
14
13
12
11
1
2
CA-DATADIR
CA-DATAENn
CA-D00
3
4
5
6
7
8
9
CA-D01
CA-D02
CA-D03
CA-D04
CA-D05
CA-D06
CA-D07
10
18
XIO-D01
XIO-D02
XIO-D03
XIO-D04
XIO-D05
XIO-D06
XIO-D07
1
19
2
3EN1
3EN2
G3
XIO-D00
RES
100n
20
7F04
74LVC245A
+3V3
2F06
CONTROL
3EN1
3EN2
G3
XIO-D11
XIO-D09
XIO-D08
XIO-OEn
XIO-WEn
XIO-D14
XIO-D15
CA-WAITn
18
RES
100n
20
7F05
74LVC245A
1
2
19
+5VCA
+3V3
1P00
CA-D03
CA-D04
CA-D05
CA-D06
CA-D07
CA-CE1n
CA-A10
CA-OEn
CA-A11
CA-A09
CA-A08
CA-A13
CA-A14
CA-WEn
CA-RDY
CA-CD1n
MDO3
MDO4
MDO5
MDO6
MDO7
CA-CE2n
CA-VS1n
CA-IORDn
CA-IOWRn
CA-MISTRT
CA-MDI0
CA-MDI1
CA-MDI2
CA-MDI3
+5VCA
CA-MDI4
CA-MDI5
CA-MDI6
CA-MDI7
MOCLK
CA-RST
CA-WAITn
CA-INPACKn
CA-REGn
MOVAL
MOSTRT
MDO0
MDO1
MDO2
CA-CD2n
CA-REGn
3
4
5
6
7
8
9
CA-MIVAL
CA-MICLK
CA-A12
CA-A07
CA-A06
CA-A05
CA-A04
CA-A03
CA-A02
CA-A01
CA-A00
CA-D00
CA-D01
CA-D02
CA-WP
CA-ADDENn
2
1
17
16
15
14
13
12
11
IF08
+5VCA
2F04 RES
XIO-A08
+3V3
3F11-2
+3V3
7F03
74LVC245A
IF04
3F10-1
8
10K
7
10K
3F10-3
3
6
10K
3F10-4
4
5
10K
CA-RDY
IF07
3F08-1
8
10K
7
10K
3F09-3
3
6
10K
3F09-4
4
5
10K
2
MDO5
18
+3V3
8
10K
7
10K
3 3F08-3 6
10K
4 3F08-4 5
10K
MDO4
2
8 100R
RES
100n
20
7F01
74LVC245A
1
MDO1
3F07-2
CA-CE1n
CA-CE2n
CA-OEn
CA-WEn
CA-IORDn
CA-IOWRn
XIO-D10
71
72
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
1X07
REF EMC HOLE
1X04
EMC HOLE
1X08
REF EMC HOLE
1X01
REF EMC HOLE
1X10
HOOK1
1X11
HOOK1
92789-055LF
10
22u 16V
RES 2F01
+5VCA
+T 0R3
2
CA-DATAENn
2
100R
3F01
+5V
4
CA-CD2n
3EN1
3EN2
G3
100K
3F07-4
5
10K
7
10K
3F07-3
3
6
10K
3F07-1
1
8
10K
CA-CD1n
IF01
3F02
CA-MOCLK
3F06
CA-RST
RES
100n
20
7F00
74LVC245A
1
2
SPB SSB
TV550 2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_010_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 217
Flash
Flash
B01B
12
7F20
NAND04GW3B2DN6F
Φ
37
100n
100n
2F21
2F20
+3V3
VCC
[FLASH]
4G × 16
3F20-1 1
8
3F20-3 3
6
3F21-1 1
8
3F21-3 3
6
100R
3F20-2
100R
3F20-4
100R
3F21-2
100R
3F21-4
2
7
4
5
100R
2
7
100R
4
5
100R
3F22-2
+3V3
XIO-OEn
XIO-WEn
NAND-WPn
2
3F23
3F22-4
4
7
100R
3F22-3 3
10K
3F22-1 1
5 100R
6
8
16
17
9
8
18
19
7
100R
100R
IF22
3F24
+3V3
NC
2K2
CLE
ALE
CE
RE
WE
WP
R
B
IF23
3F19
VSS
13
NAND-RDY1n
0
1
2
3
IO
4
5
6
7
IF21
NAND-CE1n
NAND-CLE
NAND-ALE
29
30
31
32
41
42
43
44
100R
1
2
3
4
5
6
10
11
14
15
20
21
22
23
24
25
26
27
28
33
34
35
38
39
40
45
46
47
48
36
XIO-D00
XIO-D01
XIO-D02
XIO-D03
XIO-D04
XIO-D05
XIO-D06
XIO-D07
10K
B01B
+3V3
10-28-2
Q552.2E LA
2
SPB SSB
TV550 2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_011_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 218
USB Hub
USB Hub
B01C
B01C
+3V3
USB-OVR1
3FL2
IFLA
IFL1
IFL2
9F26
9F25
100K
9FLC
9FLD
17
18
13
14
3 3FLE-3 6
9
10
100K
3FLF
9FLF
9FLG
10K
IFL3
3FLG
+3V3
53
51
5
6
42
41
54
1
2
44
43
52
9FLK
9FLL
USB2-DM
USB2-DP
XIN
10K
USB-OVR1
3FLH
+3V3
10K
GREEN2
AMBER2
SELFPWR
VBUSPOWER
PWR1
OVR1
RESET
PWR2
OVR2
DD+
SPI_CS
SPI_SCK
SPI_SD
DD1DD1+
DD2DD2+
VIA
RES
NC
4
8
12
16
20
24
28
34
40
47
50
56
1P07
N
N
Y
Y
1P08
Y
Y
Y
Y
1F24
N
Y
N
Y
3FLG
N
Y
Y
N
3FL2
N
N
Y
Y
3FL4
N
N
Y
Y
3FL7
N
Y
N
Y
3F32
Y
Y
Y
Y
3F34
N
Y
Y
Y
7FL5
CY7C65621
CY7C65621
CY7C65631
9FLE 9FLC/D 9F25/6 9FL2
N
N
Y
N
N
N
Y
N
Y
Y
N
N
N
N
N
Y
FL32
2FLC 1n0
2FLB 1n0
10n
2FL3
2FLA 1n0
10n
10n
100n
2FL2
2FLD
100n
2FL1
2FL5
100n
1 3FL4-1 8
100K
37
38
IFLB
+5V
9FLE
4
3
3FLA
3FLB
3FLC
+T 0R3
3F34-4
FL43
+3V3
+3V3
1P07
+5V-USB2
3F34-3
6
FL40
FL41
USB2-DM
USB2-DP
FL42
2 3F34-2 7
3F34-1
1
2
3
4
5
6
USB-16-PBT-B-30-CU1-BRF
100K
1
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
IFLF
USB2 (BOT)
+5V-USB1
100K
10K
15K
10K
6
USB-16-PBT-B-30-CU1-BRF
100K
IFLC
IFLD
IFLE
1
2
3
4
5
3F32
31
32
25
48
49
USB1-DM
USB1-DP
7
100K
35
36
29
30
3FL4-2
FL36
FL37
8
100K
+3V3
+5V
RES
RES
RES
RES
1
2
3
4
9FL1-1
9FL1-2
9FL1-3
9FL1-4
8
7
6
5
1
2
3
4
9FL2-1
9FL2-2
9FL2-3
9FL2-4
8
7
6
5
(WIFI)
RES 3FLJ
+T 0R3
RES
1F24
+3V3-1
FL38
FL39
FL30
USB-WIFI-DDn
USB-WIFI-DDp
1
2
3
4
5
6
7
502386-0570
GND
HS
GND
SCENARIO
1x USB
1x USB + WIFI
2x USB
2x USB + WIFI
+3V3
GREEN1
AMBER1
XOUT
9FLH
9FLJ
+3V3
46
5
100K
RESET-USBn
USB1-DM
USB1-DP
USB-DM
USB-DP
USB2-DM
USB2-DP
USB-WIFI-DDn
USB-WIFI-DDp
1P08
+5V-USB1
FL31
26
2 3FLE-2 7
4
USB1 (TOP)
3 3FL4-3 6
9FL3
45
8
100K
3FLE-4
+5V-USB2
100K
2
10K
22
VCC
3FL7
21
3
7
11
15
19
23
27
33
39
55
12p
7FL5
CY7C65621-56LTXCT
10K
3FLE-1
FL33
5
9FL3
N
N
N
Y
57
+5V
3FLD
3FL4-4
100K
IFLG
1
+T 0R3
4
24M
IFL4
+3V3
2FL4
2FL8
3
2FL7
2FL6
4
2
1
1FL5
2FL9
1u0
100n
+5V
12p
10-28-3
Q552.2E LA
9FLF/G 9FLH/J 9FLK/L
N
N
N
N
N
Y
Y
N
N
Y
N
Y
2
SPB SSB
TV550 2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_012_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 219
SD Card
SD-Card
B01D
3F40
FF45
+3V3
+T
22u 16V
B01D
2F40
10-28-4
Q552.2E LA
+3V3-SD
0R3
+3V3
1
3F41-1
IF47
8
47K
SDIO-DAT3
2
3F41-2
7
SDIO-DAT3
1
3F44-1
FF47
8
100R
SDIO-CMD
2
SDIO-CMD
3F43-2
1P09-1
7
FF48
100R
47K
3F45 RES
SDIO-CLK
3F44-4
+3V3-SD
SDIO-CLK
4
5
SDIO-DAT0
3 3F43-3 6
FF49
100R
10K
3 3F41-3 6
SDIO-DAT0
47K
4 3F41-4 5
3 3F42-3 6
47K
SDIO-DAT1
SDIO-DAT2
SDIO-DAT1
SDIO-DAT2
47K
100R
FF41
4 3F43-4 5
2 3F44-2 7
100R
FF42
3F42-1
FF46
SCDA7A0200
1P09-2
8
SDIO-CDn
SDIO-CDn
FF44
SDIO-WP
SDIO-WP
FF50
47K
2 3F42-2 7
14
16
FF43
100R
1
13
15
1
2
3
4
5
6
7
8
9
10
11
12
SCDA7A0200
47K
2
SPB SSB
TV550 2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_013_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 220
PNX85500 Control
PNX85500-Control
B01E
+3V3-STANDBY
IF50
512 K
FLASH
5
D
BACKLIGHT-BOOST
7F53 RES
PDTA114EU
PNX-SPI-SDO
IF52
6
C
10K
RES
10K
3F67
Φ
3F66
IF53
1
S
PNX-SPI-CSBn
IF54
3
W
7
HOLD
+5V
PNX-SPI-CLK
PNX-SPI-WPn
+3V3-STANDBY
FF29
VSS
IF55
BOOST-PWM
IF61
47K
Q
+3V3
+3V3
3F68 RES
PNX-SPI-SDI
2
3F52
8
7F52
M25P05-AVMN6
VCC
IF51
+3V3
100n
RES
2F52
100p
+3V3-STANDBY
10K
+3V3-STANDBY
2F49
7F54-1 RES
BC847BPN(COL) 6
7F54-2 RES
BC847BPN(COL)
SPI-PROG
IF56
4
IF57
2
1
4
FF04
5
IF62
SDM
3
FF58
1K0
RES
RES
3F69
10K
1u0
2F53
MAIN NVM
+3V3
RES
9CH0
10K
3F54
3F53
DEBUG ONLY
IF58
2F58 RES
3F58
IF59
Φ
(8K × 8)
EEPROM
1
2
3
0
1
2
RES
1F52
3F62
100R
FF62
SDA-SSB
8
7F58
FF61
SCL-SSB
100n
3F63
FF63
WC
SCL
ADR
SDA
4
100R
SCL
1
2
3
SDA
5
7
6
5
FF55
3F59
100R
3F60
SCL-UP-MIPS
FF56
SDA-UP-MIPS
100R
4
B01E
10K
10-28-5
Q552.2E LA
FF57
LEVEL
DEBUG / RS232 INTERFACE
TXD-UP
RXD-UP
RESET-STBYn
SPI-PROG
FF65
FF66
100R
SHIFTED
RES
1F51
3F64
FF64
3F65
100R
7
6
1
2
3
4
5
UP
FOR
DEBUG
USE ONLY
2
SPB SSB
TV550 2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_014_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 221
Tuner
Tuner
* 1T01
IF11
220R
2F79
10n
4
3F79-4
5
8
10n
IF-N-DVBT2
1
3F81
220R
2F91 RES
IF13
IF14
2F64
IF15
22p
IF-
10n
IF+
10n
ATB2012
* For BR NIM Tuner only
10n
FF81
FF82
IF89
15p
3F75
15p
47R
2F94
TUN-P6
IF88
IF90
SELECT-SAW
SCL-TUNER
47R
2F86
IF87
SDA-TUNER
7F70
PDTC114EU
IF-P-DVBT2
10n
3F76
RES
2F84
2F63
680n
2F66
3K3
2
IF12
220R
3F78
4
3F80
470n
TUN-IF-P
5F73
3
5F70
TUN-IF-N
+5V-TUN-PIN
2F90
IF86
5F66
1K0
2F92
3F72
BA591
6F72
4K7
9F06
*
3F71
9F05
47n
2F85
100p
*
+5V-TUN-PIN
10n
TUN-P6
TUN-P7
15p
PNX-IF-N
IF79
IF72
RES 2F95
100n
2F93
*
*
FF01
IF-AGC
FF75
IF16
3F77
4K7
IF-AGC
100p
* 9F04
IF82
PNX-IF-AGC
RES 2F96
FF00
2F60
2F59
2F61
100n
4n7
RF-AGC
TUN-IF-N
TUN-IF-P
*
AF73
*
AF71
AF70
FF76
2F65 RES
2F73
*
*
*
220R
2F80
AGC CONTROL
10n
IF80
820R
IF78
1p0
6
330n
3F82 RES
VAGC
OUTPUT2
RES 5F76
INPUT2
2F70 RES
3
2F62
IF77
X7251M
36M17
1
10n
*
AF72
3F79-1
5F74
7
IF76
2F82
OUTPUT1
2F72
9F02
1
INPUT1
4
IF81
GND
VCC
2
2F75
2p2
2F77
10n
2F78
IF74
RES
2F76
5
4
9F03
*
IF73
5F71
O1
O2
*
GND2
I
ISWI
2F9D
2F9C
2F9B
2F9A
2F99
2F98
2F97
3
RES 2F81
10n
GND1
6p8
6p8
6p8
6p8
6p8
6p8
1F75
1
2
2F74
*
+5V-TUN-PIN
7F75
UPC3221GV-E1
IF75
PNX-IF-P
2F71
9F01
9F00
NC
IF_OUT2
13
12
11
IF_OUT1
4MHZ_REF
10
B+_TUN
9
I2C_SDA
8
I2C_SCL
7
TUN
4
B+_LNA
RF_AGC
3
14
FF74
4n7
TUN-P1
2
1
RF_IO
16
I2C_ADR
TUNER
15
6p8
FF71
B01F
6
B01F
5
10-28-6
Q552.2E LA
* For EU Hybrid Tuner only
TUN-P7
9F71
5F72 RES
+5V-TUN-PIN
+5V-TUN
* Remarks
Item No.
1T01
2F61
2F62
9F02
9F03
9F04
9F05
9F06
2F73
2F82
2F72
2F80
2F77
5F71
5F74
22u
2F88
30R
Component
Europe
Brazil
FA23X7
TH26X3
4u7
RES
10p
5p6
RES
Used
RES
Used
RES
Used
RES
Used
RES
Used
1p0
RES
1p0
RES
15p
12p
15p
12p
22p
18p
680n
560n
820n
680n
2
SPB SSB
TV550 2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_015_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 222
Toshiba Supply
Toshiba supply
B01G
+1V2-BRA-DR1
+3V3
3
IN
2
OUT
30R
5FA4
7FA3
LD1117DT12
30R
5FA3
+1V2-BRA-VDDC
FFAF
+1V2-FE
* FOR DVBT-2
10u
2FA4
100n
1
2FA3
COM
100n
B01G
2FA2
10-28-7
Q552.2E LA
FFA2
2
SPB SSB
TV550 2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_016_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 223
HDMI
HDMI
B01H
HDMI CONNECTOR SIDE
1P05
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
FFB5 21
23
DRX2+
DIN-5V
DRX2DRX1+
DRX1DRX0+
DRX0DRXC+
DRXCPCEC-HDMI
FFB1
FFB2
FFB3
FFB4
20
22
DRX-DDC-SCL
DRX-DDC-SDA
DRX-DDC-SCL
DRX-DDC-SDA
47K
B01H
1 3FBF-1 8
10-28-8
Q552.2E LA
2 3FBF-2 7
DIN-5V
47K
DIN-5V
DRX-HOTPLUG
FFB6
2
SPB SSB
TV550 2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_017_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 224
VGA
VGA
B01I
FFC1
CDS4C12GTA
12V
RES 6FC1
1FC1
100p
2FC1
3FC5
FFC4
CDS4C12GTA
12V
RES 6FC3
1FC3
100p
2FC3
FFC3
B-VGA
18R
FFC5
V-SYNC-VGA
4K7
3FC3
CDS4C12GTA
12V
1FC4
FFC6
1216-02D-15L-2EC
H-SYNC-VGA
9FC6
RES 6FC4
9FC5
47p
CDS4C12GTA
12V
6FC6
47p
2FC6
3FC4
4K7
VGA-SDA-EDID-HDMI
9FC2
10K
RES
3FC2
CDS4C12GTA
12V
RES 6FC5
1FC5
9FC1
FFC8
VGA-SDA-EDID
RES
9FC3
FFC9
47p
6FC7
10K
CDS4C12GTA
12V
RES
3FC1
47p
2FC5
FFC7
VGA-SCL-EDID-HDMI
9FC4
RES
VGA-SCL-EDID
6FC8
1FC6
47p
+5V-VGA
CDS4C12GTA
12V
17
G-VGA
18R
3FC7
2FC4
VGA
CONNECTOR
CDS4C12GTA
12V
RES 6FC2
1FC2
100p
2FC2
3FC6
1E05
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
R-VGA
18R
FFC2
2FC7
B01I
2FC8
10-28-9
Q552.2E LA
2
SPB SSB
TV550 2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_018_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 225
Temp sensor & headphone
Temperature sensor + headphone
B01J
A2
1K0
3FD2
9FD2 RES
9FD1 RES
100n
IFD5
5
RES
+VS
SCL
IFD3
6
A1
9FD5
2
SDA
1K0
1
8
2FD1
1K0
IFD4
IFD1
7
A0
4
100R
100R
OS
1K0
3FD7
SCL-SSB
3FD4
3
3FD6
SDA-SSB
IFD2
7FD1
LM75BDP
GND
3FD3
LTST-C190KGKT
RES
3FD1
+3V3
RES
RES
1329
5
4
1
2
3
502382-0370
1328
MSJ-035-69A-B-RF-PBT-BRF
FFDA
AMP1
2
3
1
22n
FFDB
22n
2FDD
CDS4C12GTA
12V
2FDC
RES
6FD3
CDS4C12GTA
12V
1FD3
6FD2
RES
1FD2
4
1K0
1K0
3FDG-4
3FDG-1
8
5
AMP2
1
B01J
6FD1
10-28-10
Q552.2E LA
FFDC
2
SPB SSB
TV550 2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_019_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 226
Tuner Brazil
B01K
Tuner Brazil
B01K
5FE0
IF63
IF64
+1V2-BRA-VDDC
+2V5-BRA
+3V3-BRA-FLT
1u0
100n
2FF1
100n
2FF0
100n
2FE5
100n
2FE4
2FE3
1u0
2FE0
30R
AGND
5FE3
IF65
IF66
+3V3-BRA-FLT
5FE4
+3V3-BRA
30R
1u0
100n
2FF6
100n
2FF5
100n
2FF4
100n
2FF3
2FF2
1u0
2FE6
30R
AGND
5FE5
IF67
IF68
+1V2-BRA-DR1
IF48
5FE7
+3V3-BRA
+3V3
1u0
100n
2FF9
100n
2FF8
2FF7
1u0
2FE8
30R
30R
5FE8
IF69
+2V5-BRA
7FE3
LD3985M25
3
5FE9
1
+5V
30R
18p
2FG3
2FG2
25M4
4 2
1u0
2FG0
1FE0
100n
2FG1
30R
1
18p
3
IN
OUT
INH
BP
FF03
5
+2V5-BRA
4
10n
2FG6
2FG7
AGND
100n
2FG8
10n
100n
IF17
IF18
30
29
BFE2
28
27
BFE3
100n
2FH6
100n
24
25
2FH7
2FG9
100n
26
AGND
39
AGND
0
XSEL
1
PBVAL
RERR
RLOCK
P
ADI_AI
N
RSEORF
P
ADQ_AI
N
SBYTE
SLOCK
P
AD_VREF
N
SRCK
AD_VREF
SRDT
DTCLK
STSFLG1
DTMB
AGCCNTI
21
58
53
54
55
3FG6-4
4
5
33R
TS-BR-VALID
1
9F27-1
8
*
3FG6-3
3
6
33R
TS-BR-SOP
2
9F27-2
7
*
*
TS-FE-CLOCK
*
TS-FE-DATA
DFE8
DFE9
5FG0
3FG7
3FG6-2
60
11
SCL-SSB
SDA-SSB
3FE8
100R
3FE9
IF49
100R
45
46
AGCI
SLADRS
CKI
SCL
SDA
AGND
PLLVSS
7
SYRSTN
TN
VSS
0
1
SCL
SDA
2
7
9F28
TS-BR-CLOCK
33R TS-BR-DATA
4
9F27-4
5
30R
5FG2
DFF1
30R
9
3FE5
18K
10
51
33R
DFF2
IF28
IF-AGC
AGND
42
6
5
12
14
3FG2-1
RESET-SYSTEMn
10K
3FG2-2
10K
3FG4-2
4K7
3FG4-1
4K7
+3V3-BRA-FLT
4
15
33
37
44
47
50
57
62
10K IF29
STSFLG0
AD_DVSS
3FE7
0
TSMD
1
17
1
41
10K
AGCCNTR
AD_AVSS
3FE6
S_INFO
31
8
1u0
TS-FE-SOP
DFE7
IF27
40
+3V3-BRA-FLT
10n
TS-FE-VALID
DFE6
61
38
2
AGND
1n5
59
52
2FH4
* To be drawn near PNX85500
2FH3
2FH5
1u0
43
FIL
2FH2
VDDS
DR2VDD
34
48
13
35
49
64
20
16
36
56
63
Φ
10n
2FG4
IF+
IF-
O
VDDC
2FH8
3
2
X
DR1VDD
18
I
PLLVDD
19
AD_AVDD
AGND
32
AGND
AD_DVDD
AGND
22
COM
7FE0
TC90517FG
23
10-28-11
Q552.2E LA
AGND
2
SPB SSB
TV550 2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_020_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 227
10.29 B02 313912365192
NANDflash - conditional access
FLASH
J25
J26
H21
H22
H23
H24
H25
H26
G21
G22
G23
G24
G25
G26
F22
F23
IS25
00
01
02
03
04
05
06
07
XIO_A
08
09
10
11
12
13
14
15
XIO-D00
XIO-D01
XIO-D02
XIO-D03
XIO-D04
XIO-D05
XIO-D06
XIO-D07
XIO-D08
XIO-D09
XIO-D10
XIO-D11
XIO
B22
OE_
C22
WE_
XIO-OEn
XIO-WEn
CLK_BURST
CE1_
CE2_
NAND RDY2
RDY1
WP_
INPACK
XIO-D14
XIO-D15
B21
E21
D21
A20
F21
A21
IS26
INPACK
3S15
10K
+3V3
NAND-CE1n
NAND-RDY1n
NAND-WPn
9S08
10K
RES
D22
ALE
C21
NAND
CLE
XIO-A00
XIO-A01
XIO-A02
XIO-A03
XIO-A04
XIO-A05
XIO-A06
XIO-A07
XIO-A08
XIO-A09
XIO-A10
XIO-A11
XIO-A12
XIO-A13
XIO-A14
XIO-A15
D25
D26
C24
D23
C23
B23
A22
E22
F24
F25
F26
E23
E24
E25
E26
D24
00
01
02
03
04
05
06
07
XIO_D
08
09
10
11
12
13
14
15
3S1V
NAND-ALE
NAND-CLE
B02A
10K
3S1W
+3V3
7S00-5
PNX85500
IS00
7S00-11
PNX85500
3S01-1 8
33R
3S01-3 6
CA-MDI0
CA-MDI1
CA-MDI2
CA-MDI3
CA-MDI4
CA-MDI5
CA-MDI6
CA-MDI7
1
7 3S01-2 2
3 33R
33R 5 3S02-4 4
7 3S02-2 2
33R
33R 8 3S02-1 1
6
3 33R
3S02-3
33R 5 3S01-4 4
33R
P21
P22
P23
P24
P25
P26
N21
N22
CA-ADDENn
J22
CA-DATADIR
K25
CA-DATAENn
K26
3S03
CA-MICLK
N23
10R
L25
CA-MOCLK
N24
3S31
CA-MIVAL
33R
N25
CA-MOSTRT
L22
CA-MOVAL
L23
J21
CA-RDY
L24
CA-RST
L26
VIDEO_STREAM
0
1
2
3
MDI
4
5
6
7
0
1
2
3
MDO
4
5
6
7
10K
3S1X
+3V3
N26
M21
M22
M23
M24
M25
M26
L21
CA-MDO0
CA-MDO1
CA-MDO2
CA-MDO3
CA-MDO4
CA-MDO5
CA-MDO6
CA-MDO7
ADD_EN
VS
K23
1
K24
2
CD
DATA_DIR
K21
1
K22
2
DATA_EN
I
MCLK
O
9S00
CA-VS1n
CA-MOCLK
CA-CD1n
CA-CD2n
CA
+3V3
MISTRT
MIVAL
TS-FE-DATA
3S1R
MOSTRT
TS-FE-CLOCK
3S1S
MOVAL
TS-FE-VALID
3S1T
OOB_EN
TS-FE-SOP
3S1U RES
560R
560R
RES
560R
560R
RDY
J24
+3V3
RST
VCCEN
VPPEN
T21
DATA
T23
ERR
T22
TNR_SER1 MICLK
R23
MIVAL
R22
SOP
TS-FE-DATA
TS-FE-DATA
3S23
TS-FE-CLOCK
TS-FE-VALID
TS-FE-SOP
TS-FE-CLOCK
3S24
TS-FE-VALID
3S28
TS-FE-SOP
J23
RES
9S01
CA-MISTRT
470R
3S29 RES
TS-FE-ERR
470R
470R
RES 470R
100n
7S02
5
33R
B02A
PNX85500 NAND Flash - Conditional Acces
3S04
2S09
10-29-1
1
4
2
3
2
74LVC1G08GW
SPB SSB
TV550 2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_021_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 228
SDRAM
PNX85500: SDRAM
B02B
3S07
180R 1%
180R 1%
DDR2-VREF-CTRL2
2S12
N
P
DQS0
N
P
DQS1
N
P
DQS2
N
P
DQS3
N
P
CASB
CKE
CSB
ODT
PCAL
RASB
WEB
VREF
1
2
N5
N4
DDR2-CLK_N
DDR2-CLK_P
3S30
10R
3S33
10R
E2
E3
DDR2-DQS0_N
DDR2-DQS0_P
D3
D4
DDR2-DQS1_N
DDR2-DQS1_P
R1
R2
DDR2-DQS2_N
DDR2-DQS2_P
T3
T4
DDR2-DQS3_N
DDR2-DQS3_P
K3
K4
L5
M4
M1
M5
H3
DDR2-CAS
DDR2-CKE
DDR2-CS
DDR2-ODT
DDR2-RAS
DDR2-WE
A2
V1
DDR2-CKE
3S6Q
10K
DDR2-ODT
3S6P
10K
RES
DDR2-VREF-CTRL2
DDR2-VREF-CTRL3
3S0V
FS01
DDR2-VREF-CTRL3
CLK
2S24
FS02
100u 2.0V
3S06
180R 1%
180R 1%
+1V8
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
DQ
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
1%
F3
C2
F2
C3
B4
F1
C1
E1
F4
B2
E5
C5
A4
G5
B3
F5
U3
P2
U2
P3
N1
U1
P1
T1
V4
R5
U5
P5
N3
V3
R4
V5
M0
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A13
DDR2-A14
IS42
261R
DDR2-D0
DDR2-D1
DDR2-D3
DDR2-D2
DDR2-D6
DDR2-D5
DDR2-D4
DDR2-D7
DDR2-D8
DDR2-D9
DDR2-D10
DDR2-D11
DDR2-D12
DDR2-D13
DDR2-D14
DDR2-D15
DDR2-D16
DDR2-D17
DDR2-D19
DDR2-D18
DDR2-D22
DDR2-D23
DDR2-D20
DDR2-D21
DDR2-D24
DDR2-D30
DDR2-D26
DDR2-D25
DDR2-D28
DDR2-D31
DDR2-D27
DDR2-D29
0
1
DM
2
3
J1
J3
K1
G4
L3
G3
L2
H5
L1
J5
J2
M3
J4
M2
K5
100p
D1
D5
R3
T5
0
1
2
3
4
5
6
7
A 8
9
10
11
12
13
14
100n
2S25
DDR2-DQM0
DDR2-DQM1
DDR2-DQM2
DDR2-DQM3
MEMORY
0
1 BA
2
100n
2S17
DDR2-BA2
H1
H2
G1
DDR2-BA0
DDR2-BA1
100p
2S20
7S00-8
PNX85500
3S20
B02B
3S22
10-29-2
Q552.2E LA
2
SPB SSB
TV550 2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_022_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 229
Digital video in
PNX85500: Digital video in
B02C
7S00-6
PNX85500
HDMI_DV
HDMIA-RX2+
HDMIA-RX2-
T25
T26
HDMIA-RX1+
HDMIA-RX1-
U25
P
U26
RX1_A
N
P
RX0_A
N
HDMIA-RX0+
HDMIA-RX0HDMIA-RXC+
HDMIA-RXC+3V3
Y26
SCL
Y25
DDC_A
SDA
V25
P
V26
T24
RX2_A
N
HOT_PLUG_A
W25
P
W26
RXC_A
N
DDCA-SCL
DDCA-SDA
IS10
IS01
3S0W
W24
RREF
12K
10u
B02C
RES
2S2E
10-29-3
Q552.2E LA
2
SPB SSB
TV550 2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_023_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-29-4
Q552.2E LA
10.
EN 230
Audio
PNX85500: Audio
B02D
B02D
3S0Z
+2V5-AUDIO
3S53-1
+24V-AUDIO-POWER
4R7
100R
1u0
3S10
100R
2S2L
IS1B
1u0
AF8
L
AIN5
AE8
R
1u0
2S41
4R7
2S42
220n
2S3J
2S34
2
100n
2S2T
2S2S
10u
4
IS1S
8
AB9
POS
VR_AADC
AB8
NEG
AF5
100n
56R
DBS8
AE5
1
IS03
ADAC(2)
10
4
7S05-3
LM324 8
9
3S39
-AUDIO-R
100R
11
ADAC(3)
33R
5
ADAC(4)
3
3S36-3
10K
6
5
10K
ADAC(5)
33R
3S3U
SPDIF_OUT
SPDIF_IN1
3S36-4
2S2H
4
47p
ADAC(6)
+24V-AUDIO-VDD
33R
2S3D
3S3F
ADAC(2)
3S3H
AE1
1
AF2
VREF_AADC
2
AE3
I2S_OUT_SD 3
AF3
AC8
VCOM_AADC
4
IS1A
3S36-1
2S2G
33R
AD4
OSCLK
AD1
SCK
AD2
WS
I2S_OUT
6
3S3G-2
2
7
3S3G-4
AD8
IS07
3
ADAC(5)
4
7S05-1
LM324
1
AUDIO-OUT-L
2
11
3S37
3S6L
10K
22K
2S2K
+3V3
47p
+3V3-ARC
+24V-AUDIO-VDD
3S11
IS1L
1R0
5
ADAC(6)
4
IS06
7S05-2
LM324 7
AUDIO-OUT-R
6
SPDIF-OUT-PNX
3S6N
14
7S09-1
74LVC00APW
1
IS1D
&
SPDIF-OPT
47R
3
2
+3V3
3S34
+3V3
6
14
&
&
8
10
180R
IS1K
3S6M
2S3M
IS44
eHDMI+
100n
68R
3S25
7
+3V3
2S3L
100n
5
+3V3-ARC
7S09-4
74LVC00APW
12
14
IS1E
+3V3-ARC
7S09-3
74LVC00APW
9
&
11
+3V3
13
7
SEL-HDMI-ARC
22K
2S2J
47p
+3V3-ARC
7S09-2
74LVC00APW
4
3S32
10K
7
SPDIF-OUT-PNX
11
14
10u
2S3G
10K
7
ADAC(1)
3S3G-3
1n0
7
IS19
1
2
3
ADAC
4
5
6
AD9
L
AC9
AIN4
R
2S32
3
1n0
2S38
7
10K
AD7
AE7
AF7
AD6
AE6
AF6
33R
1n0
2S39
3S17-2
3S36-2
33R
7
IS1Q
1 3S3G-1 8
IS1N
1u0
1n0
2S3A
1u0
2
+AUDIO-L
47p
AC6
P
AB6
ADACR
N
AE9
L
AIN3
AF9
R
2S33
8
3S13-2
22K
8
10K
100n
2S3H
2
AD10
L
AC10
AIN2
R
3S17-1
10u
2S3E
AUDIO-IN4-R
22K
2S3F
1
3S38
100R
11
100n
3S13-1
AUDIO-IN4-L
AUDIO
AC7
AE10
L
P
AB7
AF10
AIN1
ADACL
R
N
2S30
1u0
1
7S05-4
LM324 14
13
+24V-AUDIO-VDD
2S36
1n0
2S3B
6
10K
22K
IS1P
IS02
7S00-2
PNX85500
2S31
1u0
3
3S17-3
4
12
ADAC(1)
10K
1n0
2S3C
5
10K
6
+2V5
100u 4V
3S17-4
2S3Q
22K
1u0
5
3S13-3
3
4S14
2
2S2Y
3S51
3S16-4 5
10K
AUDIO-IN3-R
4
IS0R
3
1u0
IS0V
10K
3S13-4
IS13
IS1M
10K
4
INH
FS03
1
COM
1u0
3S16-3 3
AUDIO-IN3-L
BP
IN
2S2Z
100R
22K
4
OUT
4
2S2V
6
5
IS12
3S53-4
7
10K
7
FS08
2S2R
2
3S16-2
3S19
AUDIO-IN1-R
IS1J
2 3S12-2
100R
10u RES
22K
100R
3S53-3
1u0
8
1u0 RES
2S2W
1 3S16-1 8
10K
IS1H
3S12-1
7S08
LD3985M25
9S06
RES
1
AUDIO-IN1-L
+24V-AUDIO-VDD
+3V3
3S53-2
2
SPB SSB
TV550 2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_024_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-29-5
Q552.2E LA
10.
EN 231
MIPS
PNX85500: MIPS
B02E
B02E
+3V3
7S00-3
PNX85500
CONTROL
+3V3
+3V3
3S80
3S81
10K
RES 3S21
+3V3
10K
3S62
10K
10K
FS10 TXD2-MIPS
FS11 RXD2-MIPS
IS04
GPIO6
PNX-SPI-CS-BLn
+3V3
9S09
GPIO6
PNX-SPI-CS-BLn
BOOST-PWM
SELECT-SAW
5K6
SELECT-SAW
3S55
+3V3
FS64
B25
SDA
A24
SCL
TRSTN
TMS
TCK
TDO
TDI
RESET_SYS
BL_PWM
10K
CLK_54_OUT
3S83
+3V3
RXD1-MIPS
3S60
B24
SDA
A23
4
SCL
R26
DN
R25
USB
IS4Z R24 DP
RREF
USB-DM
USB-DP
10K
3S64
3
1
100R
1 3S5Y 2
100R
1
100R
1
100R
SDA-UP-MIPS
SCL-UP-MIPS
2 3S5W
SDA-SET
SCL-SET
SDA-SET
SCL-SET
3S6C
4K7
3S5Z
SDA-SSB
SCL-SSB
SDA-SSB
SCL-SSB
3S6E
2K2
3S61
SDA-TUNER
SCL-TUNER
2
2
1
100R
2
AA25
AA24
AA23
AB26
AB25
EJTAG-TRSTn-PNX85500
EJTAG-TMS-PNX85500
EJTAG-TCK-PNX85500
EJTAG-TDO-PNX85500
EJTAG-TDI-PNX85500
3S00
AE4
RES
1F10
3S69
SDA-UP-MIPS
SCL-UP-MIPS
2 3S57
3S6A
4K7
4K7
3S6D
FS53
2K2
3S6F
3S6G
4K7
FS49
FS50
FS51
FS52
EJTAG-DETECTn
3S6B
SDA-TUNER
SCL-TUNER
FS44
EJTAG-TRSTn-PNX85500
EJTAG-TMS-PNX85500
EJTAG-TDO-PNX85500
EJTAG-TCK-PNX85500
EJTAG-TDI-PNX85500
2K2
10 9
1
2
3
4
5
6
7
8
FOR FACTORY
USE ONLY
2K2
3S6K
EJTAG-TRSTn-PNX85500
EJTAG-TMS-PNX85500
EJTAG-TCK-PNX85500
EJTAG-TDO-PNX85500
EJTAG-TDI-PNX85500
1
10K
8 3S6H-1
10K
3
6 3S6H-3
10K
2
10K
+3V3
FS57
+3V3-STANDBY
BM08B-SRSS-TBT
7 3S6H-2
5 3S6H-4
4
10K
RESET-SYSTEMn
33R
AD5
BACKLIGHT-PWM
AC5
10K
BOOST-PWM
+3V3
IS17
1
100R
3S58
1
2
100R
B26
SDA
A25
2
SCL
GPIO_0
GPIO_1
GPIO_2
GPIO_3
GPIO_4
GPIO_5
GPIO_6
GPIO_7
GPIO_10
GPIO_11
2
3S27
3D-LR
DS52
10K
3S82
Y21
IS16 Y22
Y23
Y24
W21
W22
W23
V22
V23
U23
3S56
10K
+3V3
BOOTMODE
3D-LR
RXD1-MIPS
TXD1-MIPS
RXD2-MIPS
TXD2-MIPS
1
100R
3S6J
10K
3S40
C25
SDA
C26
SCL
3S26
1
BOOTMODE
RES 10K
IS05
3S45
+3V3
10K
+3V3
TXD1-MIPS
3S72
10K
+3V3
IS40
PXCLK54
47R
RES
+3V3
2S89
100n
+3V3
3
+3V3
7S01
PCA9540B
SC0
SCL-SET
1
SCL
SDA-SET
2
SDA
INP
FIL
I2 C
-BUS
CTRL
5
SCL-DISP
SC1
VDD
8
SCL-BL
SD0
4
SDA-DISP
SD1
7
SDA-BL
SCL-DISP
SCL-BL
SDA-DISP
SDA-BL
2
3S65
1
4K7
1
4K7
3S67
2
1
4K7
3S68
2
1
4K7
2
3S66
VSS
6
3S84
FS31
9S10
IS08
SCL-BL
IS09
SDA-SET
9S11
FS2W
SCL-DISP
9S12
SCL-SET
FS2Y
SDA-DISP
9S13
SDA-BL
7S00-4
PNX85500
ETHERNET
ETH-RXCLK
AA3
ETH-RXD(0)
ETH-RXD(1)
ETH-RXD(2)
ETH-RXD(3)
Y5
0
Y6
1
AB4
RXD ETH
2
AC1
3
ETH-RXDV
ETH-RXER
SDIO-DAT3
SDIO-CLK
SDIO-CMD
SDIO-DAT0
SDIO-DAT1
SDIO-DAT2
SDIO-CDn
SDIO-WP
IS50
RXCLK
TXCLK
0
1
AC2
TXD
RXDV
2
Y4
RXER
3
ETH
TXEN
W2
CC_DAT3
TXER
W1
CLK
COL
W6
CMD
CRS
W5
0
MDC
W4
SDIO
1 DAT
MDIO
W3
2
U6
SDCD
V6
SDWP
AA2
ETH-TXCLK
AA1
AA4
AB1
AB2
AA5
AB3
AC3
Y2
Y3
Y1
ETH-TXD(0)
ETH-TXD(1)
ETH-TXD(2)
ETH-TXD(3)
ETH-TXEN
ETH-TXER
ETH-COL
ETH-CRS
ETH-MDC
ETH-MDIO
2
SPB SSB
TV550 2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_025_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-29-6
Q552.2E LA
10.
EN 232
Video out - LVDS
B02F
PNX85500: Video out - LVDS
B02F
7S00-7
PNX85500
PX1APX1A+
A7
B7
PX1BPX1B+
C8
B8
PX1CLKPX1CLK+
9S90
9S91
N
A
P
LVDS
A
B
N
B
P
C10
N
B10
CLK
P
PX1CPX1C+
A9
B9
PX1DPX1D+
N
P
N
P
CLK
D7
E7
PX3APX3A+
E8
D8
PX3BPX3B+
E10
N
D10
P
9S94
9S95
PX3CLKPX3CLK+
C
N
P
D9
E9
PX3CPX3C+
A11
N
B11
D
P
D
D11
N
E11
P
PX3DPX3D+
PX1EPX1E+
C12
N
B12
E
P
E
E12
N
D12
P
PX3EPX3E+
PX2APX2A+
A14
N
B14
A
P
A
D14
N
E14
P
PX4APX4A+
PX2BPX2B+
C15
N
B15
B
P
B
E15
N
D15
P
PX4BPX4B+
CLK
E17
N
D17
P
C
D16
N
E16
P
PX4CPX4C+
D
D18
N
E18
P
PX4DPX4D+
E
E19
N
D19
P
PX4EPX4E+
PX2CLKPX2CLK+
PX2CPX2C+
PX2DPX2D+
PX2EPX2E+
9S92
9S93
N
C
P
LOUT1 LOUT3
C17
N
B17
CLK
P
A16
B16 N
C
P
A18
B18 N
D
P
C19
B19 N
E
P
LOUT2 LOUT4
9S96
9S97
PX4CLKPX4CLK+
2
SPB SSB
TV550 2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_026_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-29-7
Q552.2E LA
10.
EN 233
Standby controller
PNX85500: Standby controller
B02G
POL
+1V1
B02G
2S13
100n
1u0
2S10
30R
RES
5S04
IS3B
3S3T
10K
+3V3-STANDBY
3S1H
10K
3S1G
RXD-UP
TXD-UP
10K
3S2A
RXD-UP
TXD-UP
DETECT2
10K
RES
RESET-SYSTEMn
AV2-BLK
AV1-BLK
KEYBOARD
LIGHT-SENSOR
AV1-STATUS
AV2-STATUS
3S1J
100K
RES
KEYBOARD
2S4E
100n
3S1L
10K
SPI-PROG
SPI-PROG
PNX-SPI-WPn
AF22
4
AE22
P6
5
VDD_XTAL
AF26
AC17
AC23
SDA
AC24
SCL
PSEN
3S2F
100R
100R
3S2G
100R
3S2K
3S2H
100R
10K
3S43
10K 3S42
10K
PSEN
SDA-UP-MIPS
SCL-UP-MIPS
LED1
LED2
AE23
SDO
AF25
SDI
SPI
AF24
CLK
AF23
CSB
AB17
0
AA18
1
AD18
2
AE18
3
P0
AF18
4
AA19
5
AB19
6
AC19
7
ALE
ALE
AC26
3S44
IS3D
AB23
AD26
0
PWM AC25
1
AD23
0
AE26
1
AE25
P5
2
AE24
3
DETECT2
RESET-SYSTEMn
MC
AE21
0
AF21
1
AA22
2
AB22
P3
3
AC22
4
AD22
5
10K
RES
3S1K
PSEN
IS3F
IS3E
EA
RES
SDA-UP-MIPS
SCL-UP-MIPS
3S6V
4K7
RES
LED1
LED2
10K
IS2V
CTRL-DISP
RESET-DVBS
RESET-USBn
RESET-ETHERNETn
SEL-HDMI-ARC
RESET-AVPIP
RESET-AUDIO
AUDIO-MUTE-UP
RES
3S41
10K
PNX-SPI-SDO
PNX-SPI-SDI
PNX-SPI-CLK
PNX-SPI-CSBn
IS2Z
3S6W
4K7
3S1P
3S2L
RES
10K
RES 3S3Y
10K
CTRL-DISP
RESET-DVBS
RESET-USBn
RESET-ETHERNETn
SEL-HDMI-ARC
RESET-AVPIP
RESET-AUDIO
AUDIO-MUTE-UP
10K
3S2S
RES
3S3W
4K7
RES
10K
RES
10K
3S46
+3V3-STANDBY
3S47
3S2M
RES
3S49
10K
4K7
+3V3-STANDBY
+3V3-STANDBY
7S20
NCP303LSN28
2
FS45
1
IS2U
5
INP
OUTP
CD
1K0
10K
ALE
EA
1 3S2V 2
RES 3S3S
EA
RESET-STBYn
AB24
FS0Z
RESET-STBYn
1
NC GND
3
10K
AC20
0
AD20
1
AE20
2
AF20
3
AA21
P2
4
AB21
5
AC21
6
AD21
7
AA26
4
3S3P
LCD-PWR-ONn
EJTAG-DETECTn
LAMP-ON
STANDBY
FAN-CTRL1
FAN-CTRL2
POWER-OK
ENABLE-3V3n
RESET_IN
STANDBY
+3V3-STANDBY
10p
AF17
100n
10K
LCD-PWR-ONn
EJTAG-DETECTn
LAMP-ON
STANDBY
FAN-CTRL1
FAN-CTRL2
POWER-OK
ENABLE-3V3n
XTAL_OUT
AE17
10p
2S4F
2S4K
3S3M
RES
10K
3S3N RES
10K
3S3Q RES
10K
3S3R
10K RES
2
4
1
9S0E
10K
7S00-9
PNX85500
XTAL_IN
2S4G
3
1
RES
3S3L
AD19
0
AE19
1
AF19
2 P1
AA20
3
AB20
7
DS50
9S0D
3S1E
10K
+3V3-STANDBY
RC
TACHO
CEC-HDMI
BACKLIGHT-PWM-ANA-DISP
SDM
VDDA_ADC2V5
10K
3S1D
27K
RES
10K
RES
3S1F
RC
TACHO
CEC-HDMI
BACKLIGHT-PWM-ANA-DISP
SDM
VSS_XTAL
2S4D
1n0
3S1B
3S1C
AD17
+3V3-STANDBY
VDDA_1V1_DCS
AA17
IS20
54M
100n
1S02
9S24
1u0
2S11
RES
2S37
2
SPB SSB
TV550 2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_027_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 234
Power
PNX85500: Power
B02H
5S80
IS3Q
+1V1
2S5A
RES 10u
1
100n
2S6A
B02H
2
10-29-8
Q552.2E LA
30R
5S81
2S5B
RES 10u
1
100n
2S6B
2
+2V5
30R
5S82
IS3S
100n
100n
2S68
+3V3
+2V5
VDD_3V3_SBY
2S5D
2S4M
1
10u
2S4P
100n
2S4N
VSSA_USB
VDDA_2V5_VADC
VDDA_2V5_VDAC
VDDA_3V3_USB
100n
2S4Y
10u
2S50
100n
2S4Z
6.3V
10u
100n
+1V2
30R
c000
SENSE+1V2
Y17
D13
POL
T20
Y13
+2V5-AUDIO
Y10
100n
VDDA_2V5_USB
30R
R21
R20
100n
2S45
+2V5-AUDIO
5S87
+2V5
1u0
2S56
100n
2S55
30R
5S88
30R
10u
100n
2S57
2S5M
+2V5-LVDS
5S89
100n
2S58
1
10u
2
100n
2S6K
2
1
2S6H
+2V5
30R
5S90
+2V5
10u
100n
100n
2S53
2S4T
30R
2SHW
5S92
1u0
100n
2S59
100n
2S6L
2
+3V3
30R
2
1
2S6M
2
IS58
1
VDD_1V1_DDR
VSSA_1V1_LVDS_PLL
VDDA_2V5_LVDS_BG
AA7
+2V5
30R
5S84
AA9
2S46
VDDA_2V5_DCS
5S95
Y12
RES 1u0
2S4W
+1V1
IS3L
2S52
VDDA_2V5_ADAC
5S83
B13
2S51
VDDA_2V5_AADC
10u
100n
Y19
Y18
AA15
Y15
VDDA_1V2
AA13
VDDA_2V5
2S6P
100n
100n
2S6C
2
2
100n
2S6N
+3V3-STANDBY
IS3K
VDDA_1V1_LVDS_PLL
+3V3
30R
1
W20
P20
M20
K20
V7
Y8
1
2
5S85
10u
2S4U
VDD_1V1
C7
C9
C11
C14
C16
C18
2S4V
VDD_3V3
+2V5-LVDS
N6
N7
100n
1 2S6G 2
VDD_2V5_LVDS
U22
2S6F
VDD_2V5
1
HDMI_VDDA_3V3_TERM
220u 6.3V
U20
U21
100n
2S6D
100n
2S6E 2
2
30R
1
V20
V21
HDMI_VDDA_2V5
VSSA_2V5_LVDS_BG
1u0
2S21
100n
2
2S5P
1
HDMI_VDDA_1V1
VDD
C13
J7
30R
VDD_1V8
A13
2S29
220u 2.5V
100n
5S94
+1V1
10u
RES
VSS
2S4S
VSS
VSS
M7
N2
N20
P10
P12
P14
P16
P18
P4
P6
P7
T10
T12
T14
T16
T18
T2
T6
T7
U4
V10
V12
V14
V16
V18
V2
Y20
AF1
AE2
AD3
AC4
AB5
H20
F11
G11
F13
G13
F15
G15
F17
G17
F19
G19
J9
J11
J13
J15
J17
L9
L11
L13
L15
L17
N9
N11
N13
N15
N17
R9
R11
R13
R15
R17
U9
U11
U13
U15
U17
J6
AA6
Y7
W7
F9
G9
U24
V24 HDMI_AGND
100u
2S23
5
100n
100n
2S5H-4
4
5
100n
2S5J-4
7
100n
2S5J-2
2
1
3
4
3
4
6
8
100n
2S5J-1
100n
2S5J-3
5
2
3
100n
2S5H-3
6
8
100n
2S5H-2
5
6
6
7
AA16
AA8
Y11
Y14
Y16
Y9
VSS
G14
G16
G18
G2
G20
G8
H4
H6
H7
J20
K10
K12
K14
K16
K18
K2
K6
K7
L20
L4
M10
M12
M14
M16
M18
M6
A1
A10
A12
A15
A17
A19
A26
A3
A8
B1
B20
C20
C4
D2
D20
E13
E20
E4
F10
F12
F14
F16
F18
F20
F8
G10
G12
100n
2S5K-4
100n
2S5K-3
100n
2S5K-2
2
1
2S5K-1
8
4
1
100n
2S5H-1
100n
2S5G-4
3
100n
2S5G-3
7
2
100n
2S5G-2
2S5G-1
1
22u
22u
2S4R
100n
2S4Q
100n
2S27
2S28
100n
2S43
8
7
+1V1
30R
5S93
L6
L7
R6
R7
U7
A5
A6
B5
B6
C6
D6
E6
F6
G6
F7
G7
7S00-10
PNX85500
VSSA
RES 10u
c001
SENSE+1V1
7S00-12
PNX85500
100n
2S5C
2
100n
2S67
100n
2S66
100n
2S65
100n
2S64
100n
2S63
100n
2S62
100n
2S61
100u
2S60
2S26
+1V8
SPB SSB
TV550 2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_028_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 235
Analog video
PNX85500: Analog video
B02I
2S87
AV1-CVBS
2S8A
3S59
Y-SVHS
47R
22n
3S5B
47R
22n
Connectivity
56R
B02I
3S05
10-29-9
Q552.2E LA
2S7J
AV1-R
C-SVHS
2S22
3S4J
56R
22n
22n
EU: SCART1
CVBS-MON-OUT1
22n
560R
3S5E
2S7K
AV1-B
56R
-
3S4L
AP:
3S08
560R
47p
2S7H
2S40
IS4V
22n
8K2
IS4W
3S09
56R
3S4K
AV1-G
2S7M
YPBPR1-SYNCIN1
10n
2S7L
56R
3S4P
AV3-Y
22n
2S7N
AP:
56R
YPBPR1
YPBPR1
3S4R
AV3-PR
EU:
22n
7S00-1
PNX85500
ANALOG_VIDEO
2S7P
AF15
AE15
AC15
AD15
2S8G
AV2-CVBS
*
9S18
22n
AB14
AF14
AE14
AC14
AD14
2S7R
AV4-Y
22n
SCART2
YPBPR2
9S19
EU:
AP:
AF16
AD16
AE16
AB18
AC18
AF4
AD24
AD25
AF11
AE11
AB10
AA11
AC16
AB16
AB13
AB12
AA12
AA10
AD12
AB11
AE12
AF12
IS5E
3S5S
10K
IS5D
IS5F
IS5G
IS5H
IS5J
3S75
BS15
PNX-IF-AGC
10K
BS10
IS11
3S76
PNX-RF-AGC
47K
9S20
10n
2S76
AA14
2S7U
2S14
BS13
AGND
22n
2S15
22n
AD11
AC11
+CVBS
AV4-PR
2S16
22n
22n
22n
IS5C
2S18
22n
AC12
AF13
2S19
CVBS_Y1 ATV_CVBS_Y3
R
C3
B AV1
G
CVBS_Y7
C7
SYNCIN1
Y_G1
CVBS1_OUT
PR_R_C1
CVBS2_OUT
PB_B1
RESREF
CVBS_Y2
CURREF
SYNCIN2
Y_G2
1
PR_R_C2
2
PB_B2
3
REF
4
R
5
G VGA
6
B
HSYNC_IN
IF_AGC
IN
RF_AGC
VSYNC
OUT
SCL VGA_EDID
P
TUNER N
SDA
10n
AB15
AC13
AD13
AE13
22n
2S75
56R
3S4T
AV3-PB
2S77
PNX-IF-P
10n
2S7E
AV4-PB
2S78
9S21
22n
PNX-IF-N
10n
2S84
56R
3S50
R-VGA
22n
2S85
56R
3S52
G-VGA
22n
2S86
V-SYNC-VGA
VGA-SCL-EDID
7
100R
3S5V-2
2
5
100R
3S5V-4
4
100R
3 3S5T-3 6
3
7
5
8
100R
2
3S5T-1
100R
1
3S5T-2
H-SYNC-VGA
4
AP: VGA
22n
3S5T-4
56R
EU: VGA
3S54
B-VGA
100R
VGA-SDA-EDID
1
3S5V-3
100R
3S5V-1
6
* 319803104790 - RST SM0402 47R PMS Col R at 9S18 for BRZ
8
2
SPB SSB
TV550 2K11 4DDR EU SD
100R
2011-02-01
3139 123 6519
19101_029_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 236
10.30 B03 313912365192
Audio
+AVCC
7D03-1
BC847BS(COL)
+24V-AUDIO-POWER
6
3D09
B03A
+24V-AUDIO-POWER
FD14
1
Audio
220R
GND-AUDIO
1u0
3
6
3D02-3
5
3
7D15-2
BC847BS(COL)
4
4K7
ID19
ID18
6
2D16
2D17
ID29
L
ID30
1u0
AUDIO-MUTE-UP
2D22
220n
3D14-1
220n
1
2D26
RES
8
7
3D14-2
22K
2
6
3
3D14-3
22K
5
3D14-4
22K
22K
2D08
7D10-1
TPA3123D2PWP
1
3
R
PVCC
BSR
CLASS-D
AUDIO AMP
IN
5
R
OUT
L
0
GAIN
1
BSL
16
ID32
2D10
ID06
220R
5D01
ID09
ID31
2D09
2D12
22u
ID05
ID08
ID07
2D11
RIGHT-SPEAKER
35V 220u
5D04
22u
22
21
5D05
5D02
ID10
220n
15
220R
LEFT-SPEAKER
35V 220u
220n
11
7
4
2
1u0
Φ
R
18
17
GND-AUDIO
L
AVCC
47n
GND-AUDIO
10
12
2D23
ID15
19
20
2D29
4K7
FD03
3D02-1
8
1
+AUDIO-L
220n
2D19
4
7D15-1
BC847BS(COL)
1
220u 35V
2
4K7
ID28
2D07
7 3D02-2 2
220u 35V
FD08
47n
4
6
4K7
1u0
A-PLOP
ID27
2D24
ID14
2D20
2D28
3D02-4
FD01
5
-AUDIO-R
GND-AUDIO
220n
2D05
10u 35V
22K
220R
5D08
5D07
ID12
220n
3D16
ID11
2D06
2
4R7
VCLAMP
BYPASS
MUTE
SD
ID37
PGND
EMC
5
5
2D21
220n
3D10-1
220n
1
2D27
RES
8
7
3D10-2
22K
2
GND-AUDIO
DETECT2
GND-AUDIO
26
27
28
29
LEFT-SPEAKER
VIA
VIA
VIA
GND-AUDIO
VIA
37
36
35
34
GND-AUDIO
10n
GND-AUDIO
GND-AUDIO
40
39
38
2D03
7D10-2
TPA3123D2PWP
V_NOM
2D14
GND-AUDIO
3D01-4
47K
100p
GND-AUDIO
4
3D10-3
22K
GND-AUDIO
+3V3-STANDBY
ID35
7D11-2
BC847BS(COL)
4
3
4n7
ID34
1D50
3
3D10-4
22K
RES 2D31
FD15
22K
EMC 4n7
CD10
6
RES 2D30
5
23
24
GND_HS
4
MAINS SWITCH DETECT
4K7
47K
2
7D11-1
BC847BS(COL)
1
3D15
+3V3-STANDBY
6
6
R
25
L
8
9
AGND
13
14
FD09
A-STBY
3
VIA
1D38
1735
30
31
32
33
LEFT-SPEAKER
3
100K
6
7
100K
100K
10n
4
RIGHT-SPEAKER
ID33
GND-AUDIO
3D06-4
2041145-3
2041145-4
5
100K
4
1
2
3
2
8 3D06-1 1
RIGHT-SPEAKER
10n
2D13
3D06-2
FD02
1
2
3
4
2D02
V_NOM
3D06-3 FD07
GND-AUDIO
2D01
220R
GND-AUDIO
3 7D03-2
BC847BS(COL)
FD05
FD06
5D03
1D52
B03A
3D01-3
10-30-1
5
2
10u
SPB SSB TV550
2K11 4DDR EU SD
GND-AUDIO
2011-02-01
3139 123 6519
19101_030_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-30-2
Q552.2E LA
10.
EN 237
DC/DC
DC/DC
B03B
B03B
5U03 RES
30R
5U02
FU05
IU22
+12V
1u0
2U20
10u
10u
7 8
IU10
12V/1V8 CONVERSION
1
2
3R3
3U11
2U19
2U25
7U02-1
SI4952DY
10u
10u
2U23
2U24
30R
FU02
2U21
5U00
FU03
+1V8
22u
47u
2U16
1
47R
2U15
8
7
47R
3U23-1
3U23-2
2
3
3u6
5 6
IU23
4
1n0
2U17
3
IU09
47R
47R
3U23-3
4
7U02-2
SI4952DY
6
5
220p
3U23-4
IU11
IU15
IU08
5 6 7 8
IU12
4
3U14
IU07
GND-SIG
20
3U28
GND-SIG
18
19
FU04
1u0
2U05
10u
2U04
6
10K
100n
2U14
RES 100u 2.0V
22u
IU17
IU25
GND
+1V1
IU18
1u0
2U10
GND-SIG
1n0
2U09
GND-SIG
3U21
FU00
SENSE+1V1
IU19
GND-SIG
2U07
RES 100p
22K
3U10
GND-SIG
FU08
100n
1% 330R
1% 1K0
CU00
5K6
FU09
IU04
3U19
3U22
1K0 1%
3U09
330R 1%
1K0 1%
3U08
+1V8
100p RES
IU20
RES
2U29
3U17
3U18
100R 1%
2U08
10K
V5FILT
VREG5
VIN
7
17
2U13
1
2
47u
TEST
2U12
1
TRIP
2
10R
RES
1
2
+1V1
3U20
PGND
22
15
FU01
2u0
47R
1
VFB
2
5U01
FU06
24
13
47R
3U24-1
1
2
3U24-2
SW
47R
1
VO
2
12V/1V1 CONVERSION
1
12
47R
3U24-3
1
2
1 2 3
3U24-4
DRVH
4
IU14
1n0
IU02
1
EN
2
5 6 78
IU16
23
14
2U11
3U03
12K
GND-SIG
21
16
1
2
2U06
3U00
3U01
IU01
22K
3
1
2
+3V3-STANDBY
5
8
DRVL
7U04
SI4778DY
6U00
1n0 RES
2U03
IU03
4
9
+1V1
+1V8
1
VBST
2
220p
STPS2L30A
3
10
ENABLE-1V8
3R3
2U01
100n
2
11
IU24
GND-SIG
3U02
3U05
7U03
TPS53126PW
IU13
10R
2U02
100n
7U00
BC847BW
3R3
2U22
IU06
IU05
RES
1 2 3
3R3
10u
2U00
10R
3U04
1n0
3U27
2U18
7U01
SI4778DY
IU21
CU01
CU02
CU03
CU04
CU05
GND-SIG
GND-SIG
GND-SIG
GND-SIG
GND-SIG
2
SPB SSB TV550
2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_031_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 238
DC/DC
DC/DC
B03C
B03C
+3V3-STANDBY
+3V3
RES 10K
+5V +3V3-STANDBY
3U75
3U74
RES 10K
LED-2
IU43
RES 10K
3U69
optionally 1M99 is a 9 pin connector
IU44
3U41
IU45
9U42
RES
LED-1
*
LED2
3U59
LED2
10K RES
10K RES
7U42 RES
BC847BW
IU47
**
7U43
BC847BW
1M99
LED1
3U53
LED1
10K
10K
3U56
3D-LR
100R
100p
BL-SPI-SDO
BL-SPI-CSn
BL-SPI-CLK
+3V3-STANDBY
4
RES 100p
100R
RES
3U67
100R
RES
3U84
100R
RES
3U76
MAINS-OK
RES 100R
2U43
RES 100p
2U52
2U51
RES 100p
1n0
2U48
**
2U56
1n0
1-2041145-3
3U66
FU56
FU57
FU74
FU68
2
BL-SPI-SDO-1
BL-SPI-CSn-1
BL-SPI-CLK-1
MAINS-OK-1
100p RES
2U72
+12VIN
3U71
STANDBY
7U48-2
BC857BS(COL)
5
5
100R
3U62-4
3U83-2
2
100K
IU40
100R
FU53
FU55
**
4U00
POWER-OK
100p
1n0
Items
2U45
2U46
4U00
4U01
1M99
1M95
2U56
10n
2U44
100K
3U65
1n0
RES 10K
7
3U61
10K
10K
2
2
22K
7
3
5
7U41-2
BC847BS(COL)
8
5
22K
3U60-4
4
IU50
4K7
IU62
6
10K 1
7U41-1
BC847BS(COL)
1
1K0
2U53
6
3U62-1
**
IU55
3U64
DETECT2
4
3U60-1
IU57
ENABLE-3V3n
1
22K
IU52
2
BACKLIGHT-BOOST
100R
4U01
FU72
BACKLIGHT-PWM_BL-VS
3U43
3U60-2
8
LAMP-ON
3U42
3U62-2
ENABLE-1V8
RES 10K
1n0
RES
100R
FU73
22K
IU63
3U73
+3V3-STANDBY
3K3
3U45
FU51
IU49
6
7U40-1
BC847BPN(COL)
3U80
2U55
1K0
3U72
10n
IU56
3 3U60-3 6
3U63
+3V3
GND-AUDIO
3U81
3
1
10K
GND_AL
7
6
100K
IU61
2
100p
RES
2U49
+24V-AUDIO-POWER
2U50
FU66
3U62-3
3
IU51
T 3.0A 32V
FU76
**
+12V
+12VIN
FU52
+12VIN
1U40
2U54
BZX384-C6V2
10n
1u0 RES
+3V3-STANDBY
6U40
STANDBY-1
FU67
LAMP-ON-1
BACKLIGHT-PWM_BL-VS-1
BACKLIGHT-BOOST-1
POWER-OK-1
FU62
+24V
1-2041145-4
IU48
3U83-3
5
10n
FU58
FU59
FU60
FU61
FU63
FU75
3
4
4
1u0
2U47
1
2
3
4
5
6
7
8
9
10
11
12
13
14
7U40-2
BC847BPN(COL)
10K
2U68
1M95
ENABLE-3V3-5V
6
100K
IU41
8
FU07
7U48-1
BC857BS(COL)
5
100K
3U44
FU54
3U83-4
1
4
1
3D-LR-1
10K
3
+3V3
FU50
FU77
FU78
1K0 RES
+12V_AL
3U83-1
FU49
GND_AL
IU64
3U82
FU48
GND_AL
RES 2U57
3U70
100n
GND_AL
1
2
3
4
5
6
7
8
9
10
11
12
13
+3V3
2U71
*
10K
3U68
9U41
2U58
10-30-3
Q552.2E LA
+12VD
Optional table for Ambilight
Emmy
( +24V AL)
yes
yes
no
yes
no
Sundance / Infinity
( +12V AL)
no
no
yes
yes
yes
2U44
BlockBuster
(For non-Amblight sets)
no
no
no
yes
no
Dream Catcher
Core Range
3U43
1M95
0R
open
13 POLE
100p
100R
14 POLE
2
SPB SSB TV550
2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_032_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-30-4
Q552.2E LA
10.
EN 239
DC/DC
B03D
DC/DC
+3V3
B03D
*
7UC0
LF25ABDT
+12V
1
IN
3
OUT
2
1u0
2UA4
*
2K2
3UA0
COM
FUA0
+2V5-REF
R
7UA0
TS2431
K
1
A
2
3
FUA4
+2V5
CUA0
IUB6
+2V5-LVDS
+5V-TUN
2
*
+3V3
8
+5V
1
3U16-1
100R
3UB0
2
2
1u0
2UB0
7UA3
PHD38N02LT
IUB4
IUA5
3
22R
4
FUA3
3U15-2
100R
3U15-3
100R
3U15-4
+1V2
+3V3
8
100R
7
2
6
3
4
5
3U16-2
100R
3U16-3
100R
3U16-4
7
6
5
100R
100R
1u0
2UB1
470R
2
470R
3UB7-3
3
3UB7-4470R
5
4
3U15-1
IU26
7UA7-1
BC847BS(COL)
3U13
6
3UB7-2
7
2UB8
7UA7-2
4
BC847BS(COL)
1
+5V
2UB2
5
*
+1V8
1
470R
22u
+2V5-REF
7
1K0 IUB2
3UB6-3
3
6
6
1K0
3UB6-4
4
5
1K0
IUB5
3 1
RES 1u0
3UB6-1
1
8
1K0
3UB7-1
8
1
3UB6-2
330R
1%
2
+12V
7UA6
BC817-25W
3U12
IUB3
330R
1%
+5V5-TUN
*
NOT FOR 5000 SERIES
ENABLE-1V8
5
+12V
RES
7UA4
TS431AILT
5
RES
2
A
K
NC
REF
470R
NC
470R
3U26-2
7
3
4
3U26-3
470R
3U26-4
INH
BP
5
+5V-TUN
4
IUB1
1
3UB3
RES
3UB5
470R
+3V3
OUT
COM
3
1 3U26-1 8 RES
2
IN
1u0
470R
3U29-4
3
100n
2UB6
4
5
3UB2
2UB5
3 3U29-3 6 RES
IU30
1
+5V5-TUN
470R
2
7UA5
LDS3985M50
2
RES
7U06-1
BC847BS(COL)
1
7
RES
1u0
5
+3V3
470R
3U29-2
8
2UB7
6
8
3
RES
7U06-2
BC847BS(COL)
4
2
3U29-1
4K7
1
3U25-1
RESERVED
5UA0
1K0
30R
1
IU29
SENSE+1V2
4K7
7
3U25-2
6
IUA6
4
3U25-3
2
3
100K RES
100K RES
3UB1
100K RES
100K RES
4
3U25-4
3UB4
100K
IUB0
1K0
2UB3
+5V
6
5
RES
22n
2UB4
330p
RES
RES
470R
2
SPB SSB TV550
2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_033_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 240
DC/DC
DC/DC
B03E
5UD0
IUD0
+12V
33K
1%
68K
3UD1
1%
3UD0
12
22u
IU27
3U06
120K
RES
SW
VIA
10
4n7
3UD2
15
7UD0-2
ST1S10PH
13
IUD6
2
7U05-1
BC847BS(COL)
RES 1
10K
2UD7
RES 2UE9
6
100n
+1V1
RES 2U27
SS36
220u 16V
A
FUD3
+5V
3u6
3
VFB
GND
P HS
6UD0
IUD7
2UD6
SYNC
5UD1
22u
5
VIN
IUD3
7
SW
22u
2UD5
INH
9
2
8
RES 1n0
2UD3
ENABLE-3V3-5V
2UD4
1
A
10u
2UD2
10u
2UD1
10u
2UD0
7UD0-1
ST1S10PH
6
+5V5-TUN
30R
4
B03E
14
11
5UD3
7U05-2
RES
4
3U07
100n
IU28
RES
33K
1%
12
1M0
3UD5
3UD4
VIA
10
5
15
13
IUD2
7UD1-2
ST1S10PH
BC847BS(COL)
10K
3
RES 2U28
2UE4
22u
22u
2UE3
2UE2
+1V1
220u 16V
4
8
A
+3V3
3u6
3
VFB
GND
P HS
FUD2
5UD2
1% 100K
SYNC
IUD4
7
SW
VIN
4n7
3UD3
5
INH
2UE1
2
9
ENABLE-3V3-5V
SW
A
1
7UD1-1
ST1S10PH
10u
14
11
7UD2
LD1117DT25
3
IN
S1D
OUT
2
+2V5
2UE6
1
100n
2UE5
COM
22u 16V
IUD5
(*) FOR 5000 SERIES ONLY
(**) NOT FOR 5000 SERIES
7UD3
LD1117DT33
IN
OUT
2
+3V3
100n
COM
22u 16V
3
2UE8
6UD1
+5V
1
*
2UE7
10u
2UD9
10u
30R
6
IUD1
+12V
2UE0
**
2UD8
10-30-5
Q552.2E LA
2
SPB SSB TV550
2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_034_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-30-6
Q552.2E LA
10.
EN 241
Temperature sensor & AmbiLight
B03F
Tempsensor + Ambilight
B03F
5UM1
IUM0
1UM0
+3V3
30R
FUM0
V-AMBI
T 1.0A 63V
2
SPB SSB TV550
2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_035_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 242
Fan control
Fan Control
B03G
+12V
+12V
1K0
FAN-CTRL1
IUS3 3US5-3
6
3
8
IUS6
10K
IUT1
100n
2US3
7US1-1
LM339P
14
10K 7
10K
3
9
2
3US7
+12V
3US5-2
3US2
1 3US4-1 8
+3V3
10K
7US2
BC807-25W
12
+12V
IUS7
3
11
IUT2
7US1-2
LM339P
13
IUS4 3US5-4
5
4
10
FAN-CTRL2
10K
22R
BC807-25W
7US3
IUS8
12
3US6
IUS9
47R
3US3
1
+12V
10K
3US5-1
8
3US9
+3V3
FAN-DRV
+3V3
3
10K
7US1-3
LM339P
2
10K
3US4-3
3
5
4
+12V
6
IUS5
3US4-4
5
+12V
4
12
TACH01
RES
+12V
10K
2
7
3
7
+12V
3US4-2
9US0
TACH02
6
7US1-4
LM339P
1
FUS0
12
B03G
10K
10-30-7
Q552.2E LA
TACHO
2
SPB SSB TV550
2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_036_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 243
Vdisp switch
Vdisp-Switch
B03H
1 9UU0-1
RES
2 9UU0-2
RES
3 9UU0-3
RES
4 9UU0-4
RES
1 9UU1-1
RES
2 9UU1-2
RES
3 9UU1-3
RES
4 9UU1-4
RES
7UU0
SI4835DDY
3
47R
IUU1
3UU0-2
7
2
8
7
6
FUU0
5
6
1
47K RES
2UU1
2
IUU2
1u0
+3V3-STANDBY
6
47K
47K
3UU0-1
3UU0-3
2
3
7UU2-1
PUMD12
1
22n
2UU2
+VDISP-INT
3UU3-2
IUU3
7
47K RES
7UU3 RES
BC847BW
1
IUU0
3UU1
5
3
1
IUU4 3UU3-3 IUU5 3UU3-4
6
3
4
5
47K RES
2
VDISP-SWITCH
2UU0
5
3UU3-1
6
FUU1
3UU2
+3V3
47K RES
RES 100n
8
7
RES
7UU1
SI3441BDV
+12VD
4
PUMD12
7UU2-2
8
47K
B03H
8
10-30-8
Q552.2E LA
+3V3
4K7 RES
LCD-PWR-ONn
2
SPB SSB TV550
2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_037_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 244
10.31 B04 313912365192
Analogue externals A
Analogue externals A
B04A
FE70
3E37-4
AP-SCART-OUT-R
IE67
2EA4
AUDIO-OUT-L
8 470R 1
FEA0
7E01-1 6
1n0
2E87
1E00
CDS4C12GTA
12V
RES 6E01
100p
2E01
IEC0
3EA7-1
5 100R 4
1u0 16V
AP-SCART-OUT-L
IEC1
2
1
PUMH7
FEA2
3E07-4
IEC2
3EA7-4
IE68
2EA5
AUDIO-OUT-R
5 470R 4
FEA1
7E01-2 3
1n0
1E31
2E88
5
RES 6E03
1K0
100p
2E06
4
RES
FE71
CDS4C12GTA
12V
AUDIO-IN1-R
1u0 16V
AP-SCART-OUT-R
5
4
PUMH7
RES
FE72
3E37-1
AP-SCART-OUT-L
FEA3
1n0
2E90
1E53
IE05
1n0
100p
13
4E03
RES
17
4E02
RES
IE17
9E06
1
3EB6-1
5K6
2E98
39p
2E97
3E37-2
68R
2 100R 7
3
100p
*
RES 2E75
3E37-3
1E22
CDS4C12GTA
12V
RES
75R
1
6E29
2
3E43
4K7
4
RES
3E48
GND_A
6
7E09-1
PUMH7
4K7
3E73
39K
1u0
3E18 2
1
2
18K
18p
CVBS-OUT-SC1
470R
3EB6-4
3E45
68R
5
100n
2E24
4K7
3E44
4E01
RES
FE85
1750-821-591-56
FEA7
3E19
1
IE92
7E05
BC847BW
20
21
AV1-BLK
2EB3
IE91
8
470R
19
FE84
+3V3
IE96
18
100n
2E74
100p
2E12
16
9E09
FE83
* EU
CVBS-MON-OUT1
15
FE82
1E19
CDS4C12GTA
12V
RES 6E28
RES
10u
+5V
14
9E05
18R
18R
IE59
12
FE81
150p
1u8
2u2
11
5E76 3E79BEC5
2E86
AV1-R
2E81
IE14
IE16
FEA6
IE51
AV2-BLK
5E80
1
10
9E10
3E78
3EB3
4E04
RES
IE08
9E08
BC847BPN(COL)
820R
2
2E18
100p
100p
2E14
1E18
CDS4C12GTA
12V
RES 6E26
150p
IE60
1
1 3EB1 2
8
2E99
4p7
IE70
2
7
9
9E55
9E54
7E06-1
3 BC847BPN(COL)
6
9E07
AP
5
FE80
RES
YPBPR1-PR
7E06-2
330R
18R
4E05
6
FE73
FE74
3E77
1u8
2E84
150p
2E83
5E74
IE61
4
4E06
5
FE75
FEA5
IE89
4
1E55
CDS4C12GTA
12V
RES 6E22
3E76 18R
4K7
3E32
9E53
+3V3
IE13
3
3E31
12K
AV1-G
3E06
2
AV1-STATUS
9E52
1K0
1
* EU
IE18
AP
IE90
1E01
3EA1
1E12
2E15
(AV1)
2EB1
RES
CDS4C12GTA
12V
150p
2E80
150p
2E79
18R
1R0
SCART1
5E73 3E75
BEC3
1u8
YPBPR1-SYNCIN1
3EA2
3E17
1E54
2E91
AV2-STATUS
+5V
9E01
FEA4
RES 6E23
AV1-B
* EU
100n
3E74 18R
CDS4C12GTA
12V
9E51
RES
9E50
A-PLOP
2K2
RES
1K0 8
100p
AP
2E04
YPBPR1-PB
3E24
3E07-1
1
6E09
AUDIO-IN1-L
CDS4C12GTA
12V
RES 6E07
100p
2E10
8 100R 1
150p
1X06
EMC HOLE
1X02
REF EMC HOLE
2
100R
3E07-2
1K0
6
7
3E07-3
3E62
1K0 6
3EA7-2
2 470R 7
3EA7-3
100p
2E44
RES 6E32
1E25
3
27R
CDS4C12GTA
12V
AV1-CVBS
FEA8
*
2
3
3 470R 6
3EB6-2
470R
3EB6-3
7
6
470R
GND_A
100p
RES 2E76
1E23
CDS4C12GTA
12V
CVBS-OUT-SC1
RES 6E30
B04A
2E85
10-31-1
* 3139803190010 - RSI SM 0402 JUMP 0R05 Col at 2E44 & 2E75 for BRZ
2
SPB SSB TV550
2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_038_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 245
Analogue externals B
Analogue externals B
B04B
YPBPR
1E08-3
* GREEN
EU
FE54
MSP-8033SH-02-NI-FE-RF-PBT-BRF
IE71
9E29
4E20
FE5A
3E87
AV3-Y
18R
CDS4C12GTA
12V
RES 6E40
1E43
100p
5
2E27
6
AP
YPBPR1-SYNCIN1
3E88
9E04
IE73
AV2-CVBS
27R
GND_A
1E08-2
BLUE
MSP-8033SH-02-NI-FE-RF-PBT-BRF
FE51
EU
GND_A
1E08-1
RED
MSP-8033SH-02-NI-FE-RF-PBT-BRF
IE76
9E58
AV3-PB
3E90
FE5C
AV3-PR
18R
CDS4C12GTA
12V
FE42
FE5B
YPBPR1-PB
EU
RES 6E52
1E39
100p
2E68
1
3E89
18R
FE48
2
4E22
RES
IE74
9E57
CDS4C12GTA
12V
RES 6E51
1E28
100p
3
4E21
2E67
4
YPBPR1-PR
GND_A
YPBPR AUDIO
+3V3
1E03-1
RED
MSP-8032SH-01-NI-FE-RF-PBT-BRF
2
*
CDS4C12GTA
12V
RES
1E32
AUDIO-IN3-R
1K0
100p
AV3-PR
RXD1-MIPS
9E19
9E12
RES
RES
AV3-PB
TXD1-MIPS
9E17
9E14
RES
RES
AUDIO-IN3-R
AV1-B
2E72
RES 6E06
RES
RES
9E11
9E18
RES
RES
9E13
9E20
RES
RES
CVBS-OUT-SC1
AV1-R
FE43
AV3-Y
AV1-CVBS
9E15
9E16
AUDIO-IN3-L
AV1-G
1E29
1n0
FE50
2E39
1
4E23
RES
FE5D
3E97
9E21
9E22
RES
RES
AP-SCART-OUT-R
AV1-STATUS
AUDIO-IN1-R
AV1-BLK
AP-SCART-OUT-L
AUDIO-IN1-L
9E23
9E24
9E25
9E26
9E27
9E28
RES
RES
RES
RES
RES
RES
GND_A
GND_A
FE5E
AUDIO-IN3-L
1K0
100p
CDS4C12GTA
12V
3E96
RES 6E38
1E42
1n0
3
RES
4E24
FE49
2E71
1E03-2
* WHITE
MSP-8032SH-01-NI-FE-RF-PBT-BRF
4
2E40
VGA ( OR DVI ) AUDIO
IE09
AUDIO-IN4-L
1K0
100p
CDS4C12GTA
12V
3E21
RES 6E19
V_NOM
1n0
1E37
2E36
FE02
2E35
1E09
MSJ-035-12D-B-AG-PBT-BRF
2
3
1
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
32
31
DF50-30DP
FE01
AUDIO-IN4-R
100p
1K0
2E38
CDS4C12GTA
12V
RES 6E20
V_NOM
1n0
1E38
2E37
IE10
3E20
FE03
1E10
3150-831-030-H1
2
VCC
1R0
SPDIF-OPT
CDS4C12GTA
12V
RES 6E53
V_NOM
3
100p
1E80
GND
MT
7 6 5 4
FE55
1
RES 2E77
VIN
3E9C
+3V3
100n
B04B
2E73
10-31-2
Q552.2E LA
2
SPB SSB TV550
2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_039_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 246
Ethernet & Service
Ethernet & Service
B04C
IE07
5E08
+3V3
+3V3-ET-ANA
IE49
3E53-2
RXD1-MIPS
+3V3-ET-ANA
6
IE50
3E53-3
47R
+3V3
6E43
IE38
3E30
5
FE57
1E06
2
3
1
UART
SERVICE
CONNECTOR
47R
MSJ-035-69A-B-RF-PBT-BRF
FE58
ETH-TXD(3)
ETH-TXER
10u
2E48
100n
2E49
12
10K
3E68
RES
3E35
RES
3E34
2
10K
14
3E72
RES
6E48
RXD-UP
ETH-RXCLK
10K
100n
1
+3V3
ETH-INTSEL
10K
+3V3
9E42
ETH-CRS
RXD1-MIPS
1
3
VSS
14
33
7E10-2
LAN8710A-EZK
TXD-UP
VIA
1
9
10K
RES
7E11-3
74HC4066PW
8
1
40
41
42
VIA
AV2-BLK
6
X1
7
34
35
36
RES
7E13
PDTC144EU
RES
7E12
PDTC144EU
5
X1
IE39
+3V3
RES
7E11-2
74HC4066PW
4
1
32
MDC
MDIO
13
X1
ETH-REGOFF
10K
RES
7E11-1
74HC4066PW
1
RES
3E9E
1
2
+3V3
RES
3
CRS
+3V3
RES
3E65
14
10K
10K
IE64
7
REGOFF
1
LED
2
INTSEL
RES
2E69
ETH-RXER
3E64
RBIAS
17
16
ETH-MDC
ETH-MDIO
1
27
0
1
2 TXD
3
4
INT
TXER
ETH-RXDV
IE63
13
7
22
23
24
25
18
4
502382-0370
14
ETH-TXD(0)
ETH-TXD(1)
ETH-TXD(2)
26
RXER
RXD4
0
PHYAD
1
RXCLK
TXEN
ETH-TXCLK
5
ETH-TXP
ETH-TXN
20
RXDV
1
2
3
TXD
RXD
7
21
ETH-RXP
ETH-RXN
29
28
P
N
TXCLK
COL
CRS_DV
MODE2
+3V3
ETH-TXEN
TX
31
30
P
N
12K1
1%
15
10K
10K
RX
0
MODE
1
RMIISEL
PHYAD2
RXD & lt; 0:3 & gt;
RES
1E71
IO
RST
10K
RES 3E71
RES 3E80
1A 2A
VDD
3E40
10p
19
1K5
4n7
100n
2E53
CLKIN
1
XTAL
2
11
10
9
8
3E51
6
10p
2E54
2E55
10p
RES
RES
RES
RES
7E10-1
LAN8710A-EZK
CR
ETH-RXD(0)
ETH-RXD(1)
ETH-RXD(2)
ETH-RXD(3)
3E70
RES
FE56
PROVISION FOR iTV
5
4
ETH-COL
8
+3V3
25M
RES 2E70
47R
3E53-4
RES
3E9D
3E33
3E66
3E67
3E81
3E82
1M0
1E70
NX3225GA
3E69
RES
10K
IE06
3E53-1
IE33
2E52
10K
10K
10K
10K
10K
IE32
IE26
4
3
+3V3
RESET-ETHERNETn
1
2
47R
1E86
7
1E85
TXD1-MIPS
BZX384-C5V1
100n
100n
2E66
2E62
10u
2E63
30R
BAS316
B04C
BZX384-C5V1
6E44
10-31-3
Q552.2E LA
37
38
39
14
VIA
TXD1-MIPS
10
1
RES
7E11-4
74HC4066PW
11
1
12
7
X1
+3V3-ET-ANA
CONFIGURATION RESISTOR SETTINGS
+3V3-ET-ANA
FE27
1E87
3 ACM2012 2
ETH-TXN
FE28
4
ETH-RXP
FE29
1E88
3 ACM2012 2
ETH-RXN
FE31
4
EMPTY
3E64 (RES)
1N00
FE60
1
2
3
4
5
6
7
8
PHYADD(0) = 1
PHYADD(0) = 0
3E65 (RES)
ETHERNET CONNECTOR
ETH-TXP
POP
22R
22R
3E98
3E26
3E99
49R9
1%
3E95
49R9
1%
3E25
49R9
1%
3E22
49R9
1%
Resistor
PHYADD(1) = 1
PHYADD(1) = 0
22n
2E60
5
4
CDA5C16GTH
16V
6E47-4
CDA5C16GTH
16V
RES
6
6E47-3
3
7
2
CDA5C16GTH
16V
RES
6E47-2
8
1
CDA5C16GTH
16V
RES
6E47-1
RES
RES
15p
2E59
5E04
RES 27n
Internal 1.2V reg. disabled
Internal 1.2V reg. enabled
MODE(0) = 0
MODE(0) = 1
MODE(1) = 0
MODE(1) = 1
MODE(2) = 0
MODE(2) = 1
INTERRUPT FUNCTION
INTERRUPT FUNCTION
DISABLED ON
FE32
MII mode selected
3E69 (RES)
RES 15p
2E09
15p
3E39
0 ohm
RES
RES 27n
5E03
2E08
RES 15p
2E58
RES
0 ohm
15p
3E29
2E57
RES
RES
RES 27n
5E02
2E07
RES 15p
0 ohm
15p
3E28
2E56
RES
RES
RES 27n
5E01
2E05
RES 15p
0 ohm
3E27
RES
FE34
RMII mode selected
3E68 (RES)
5450-323-183-H3
PHYADD(2) = 0
ENABLED ON
nINT/TXER/TXD4 SIGNAL
9 11
10 12
PHYADD(2) = 1
3E72
1
3E66 (RES)
3E71 (RES)
FE30
FE61
3E67 (RES)
3E70 (RES)
1
nINT/TXER/TXD4 SIGNAL
ETH-INTSEL
ETH-REGOFF
FE33
2
SPB SSB TV550
2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_040_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 247
HDMI
I2C Address
ARX2+
1u0
10u
2ECV
100n
MICOM-VCC33
3ECH
ARX1ARX0+
ARXCARXC+
ARX0ARX0+
BRX2BRX1+
BRX1BRX0+
BIN-5V
69
70
ARX2ARX2+
BRX2+
67
68
ARX1ARX1+
AIN-5V
HDMI CONNECTOR 2
65
66
71
72
BRX-HOTPLUG
47K
3ECM-3
6
2
3ECN-2
10R
7
100K
1u0
BRX-DDC-SDA
BRX-DDC-SCL
IE43
35
36
33
34
2ECN
N
R0XC
P
FECC
FECD
BRXCBRXC+
BIN-5V
47K
BRX-HOTPLUG
BIN-5V
BRX2BRX2+
HDMI CONNECTOR 1
2
CIN-5V
CRX2+
3ECM-2
7
3
3ECN-3
10R
CRX-DDC-SDA
CRX-DDC-SCL
1u0
CRX2CRX1+
100R
4
+3V3-STANDBY
3ECM-1
8
4
3ECN-4
10R
1u0
DRX-DDC-SDA
DRX-DDC-SCL
5EC2
11
12
13
14
15
16
17
18
5
100K
IE45
2ECQ
45
46
43
44
DRXCDRXC+
10p
2ECC
21
22
DRX1DRX1+
23
24
DRX2DRX2+
ARC-eHDMI+
19
20
DRX0DRX0+
30R
CIN-5V
IEC4
1
DIN-5V
eHDMI+
22K
RES
7EC0
BC847BW
3ECD
3ECA-4
47K
3E23
RES
7E02
BC847BW
PCEC-HDMI
47K
CRX-HOTPLUG
3ECA-3
CIN-5V
20
22
39
40
2ECP
CRX2CRX2+
3
FECM
FECN
41
42
DRX-HOTPLUG
CRX-DDC-SCL
CRX-DDC-SDA
6
FECK
FECL
IE44
CRX1CRX1+
5
CRXCPCEC-HDMI
ARC-eHDMI+
CRX-DDC-SCL
CRX-DDC-SDA
6
100K
CRX0CRX0+
CIN-5V
CRX0CRXC+
FECA
7
8
CRXCCRXC+
CRX1CRX0+
FECJ
5
6
CRX-HOTPLUG
1P02
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
21
23
3
4
BRX1BRX1+
1
20
22
3ECA-1
FECE
FECF
1
2
BRX0BRX0+
BRX-DDC-SCL
BRX-DDC-SDA
8
BRX-DDC-SCL
BRX-DDC-SDA
25
26
IEC6
9EC0
CEC-HDMI
IEC5
100n
CEC_D
49
6
8
DSCL4
DSDA4
N
R0X0
P
2EC3
38
10K
37
9
27
64
R4PWR5V
48
47
VGA-SCL-EDID-HDMI
VGA-SDA-EDID-HDMI
9EC2
RES
51
CEC-HDMI
N
R0X1
P
N
R0X2
P
TX2
(CBUS) HPD1
R1PWR5V
N
P
TX1
N
P
TX0
N
P
TXC
DSDA1
DSCL1
N
P
7
3ECA-2
BRXCPCEC-HDMI
3
BIN-5V
2
BRX0BRXC+
DSDA0
DSCL0
+5V-EDID
3
29
30
(CBUS) HPD0
R0PWR5V
N
R1XC
P
N
R1X0
P
57
56
HDMIA-RX2HDMIA-RX2+
59
58
HDMIA-RX1HDMIA-RX1+
61
60
HDMIA-RX0HDMIA-RX0+
63
62
HDMIA-RXCHDMIA-RXC+
3ECJ RES
N
R1X1
P
TPWR_CI2CA
N
R1X2
P
CEC_A
(CBUS) HPD2
R2PWR5V
INT
55
50
52
4K7
IE12
FECR
RES
3ECK
MICOM-VCC33
4K7
9EC3
RES
FECY
PCEC-HDMI
3ECL RES
+3V3
4K7
DSDA2
DSCL2
N
R2XC
P
CSCL
CSDA
N
R2X0
P
RSVDL
N
R2X1
P
54
53
10
28
N
R2X2
P
(CBUS) HPD3
R3PWR5V
DSDA3
DSCL3
N
R3XC
P
VIA
N
R3X0
P
N
R3X1
P
N
R3X2
P
3EC3
3EC5
100R
100R
SCL-SSB
SDA-SSB
10p
2ECM
31
32
10K
3ECP-3
1u0
IE42
3ECP-1
10R
ARX-DDC-SDA
ARX-DDC-SCL
8
100K
1
1
3ECN-1
30R
10p
RES 2ECY
5
RES 2ECX
AIN-5V
3ECM-4
SBVCC33
4
MICOM_VCC33
1
47K
8
3EC1-1
ARX-HOTPLUG
ARX-HOTPLUG
10u
RES 2ECW
100n
100n
2EC8
VCC33
AIN-5V
20
22
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
FECG 21
23
100n
2EC7
2EC6
6
47K
3EC1-3
3
7EC1
SII9187B
ARX-DDC-SCL
ARX-DDC-SDA
FEC4
FEC5
+3V3
+3V3-HDMI
ARXCPCEC-HDMI
ARX-DDC-SCL
ARX-DDC-SDA
RES
5EC3
FEC7
AIN-5V
ARX0ARXC+
FEC1
FEC2
B04D
SII9187B = 0xB2
FECB
ARX2ARX1+
1P03
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
73
EPAD
IEC7
3ECE
22K
FECP
2EC0
HDMI CONNECTOR 3
1P04
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
FEC6 21
23
30R
220u 16V
+3V3
FEC3
FEC0
10K
5EC0
2EC2
HDMI
RES 2EC1
B04D
FECW
+3V3-STANDBY
7EC1
3ECF
9187B
4X 100K
100K
BLOCKBUSTER
INSTAPORT
+5V-VGA
3ECN
NON-INSTAPORT
6EC1
+5V
9287B
4X 100K
100K
SUNDANCE
BAT54
IE11
3ECG
3ECF
4R7
10-31-4
Q552.2E LA
FECZ
100K
DDCA-SDA
IE65
2
3ECU-2
7
+3V3
10K
2ECU
DDCA-SCL
IE66
4 3ECU-4 5
10K
1u0
2
SPB SSB TV550
2K11 4DDR EU SD
+5V-EDID
2011-02-01
3139 123 6519
19101_041_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 248
Headphone
Headphone
B04E
+3V3-STANDBY
5
4
PUMD12
7EE0-2
A-PLOP
3
6
A-STBY
FEE0
2
RESET-AUDIO
7EE0-1
PUMD12
1
2EE0
6
8
5
22K
3EE1-3
3EE1-4
2
4
22K
3EE1-2
22K
3
47p
3EE1-1
7
1
22K
2EE5
7EE1
TPA6111A2DGN
100n
2EE1
47p +3V3
8
3
IEE2
ADAC(4)
2EE3
1u0
IEE1
2EE4
1u0
8
3EE0-1
10K
IEE3
2
1
5
3EE0-4
6
4
10K
IEE4
5
2EE2
3
AMPLIFIER
A-PLOP
3 3EE0-3 6
1
1
IN-
2EE6
IEE7
4
3EE2-3
33R
3EE2-4
6
FE36
5
VO
SHUTDOWN
BYPASS
2
VIA
GND GND_HS
7
10
11
2EE7
AMP1
33R
4V 100u
2
4
1u0
IEE6
1
IEE8
2
4V 100u
1
3EE2-2
33R
3EE2-1
FE35
7
AMP2
8
33R
9
IEE0
ADAC(3)
Φ
VDD
IEE5
10K
22K
B04E
RES 3EE3
10-31-5
Q552.2E LA
2
SPB SSB TV550
2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_042_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 249
10.32 B05 313912365192
DDR
3B00-2
7
33R
6 3B00-3
33R
7
33R
5
33R
3B12
33R
3B13
2p2
DDR2-D16
DDR2-D17
DDR2-D18
DDR2-D19
DDR2-D20
DDR2-D21
DDR2-D22
DDR2-D23
DDR2-DQS2_P
DDR2-DQS2_N
33R
A2
H8
H3
H7
J2
J8
J3
J7
K2
K8
K3
H2
K7
L2
L8
G2
G3
G1
DDR2-BA2
DDR2-ODT
ODT
3B03
CK
CKE
CS
RAS
CAS
WE
DM|RDQS
VSS
NC
L3
L7
DDR2-A14
VSSQ
VSSDL
DDR2-CLK_P
DDR2-CLK_N
DDR2-CKE
DDR2-CS
DDR2-RAS
DDR2-CAS
DDR2-WE
DDR2-DQM3
F9
E8
F8
F2
G8
F7
G7
F3
B3
RES
240R
3B24
33R
2B17
100n
2B37
100p
VDD
VDDL
VDDQ
E2
A9
C1
C3
C7
C9
E1
A1
E9
L1
H9
100n
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A13
DDR2-BA0
DDR2-BA1
B7
A8
2B44
RES
NU|RDQS
2
6 3B02-3
33R 3
8 3B02-1
33R
3B02-2 2
5
3B02-4 4
33R
8
33R
C8
3
C2
D7
1
D3
D1
D9 3B00-4 4
B1
B9 3B00-1 1
B05A
VREF
Φ
0
1
2
3
4
5
6 A
7
8
9
10
11
12
13
SDRAM
DQ
0
1
2
3
4
5
6
7
DQS
C8
C2
3B05-3
D7
3B04-3
D3
D1
D9
3B04-4
B1
B9
3B04-1
3
3
4
1
B7
A8
2B45
0
1 BA
2
NU|RDQS
3B04-2
2
7
33R
6
6 33R
2
33R
7 3B05-2
33R
1
8 3B05-1
33R
5
5 3B05-4
4
33R
33R
8
33R
3B15
RES
2p2
3B14
33R
DDR2-D24
DDR2-D25
DDR2-D26
DDR2-D27
DDR2-D28
DDR2-D29
DDR2-D30
DDR2-D31
DDR2-DQS3_P
DDR2-DQS3_N
33R
A2
ODT
CK
CKE
CS
RAS
CAS
WE
DM|RDQS
VSS
+1V8
NC
L3
L7
DDR2-A14
VSSQ
VSSDL
A7
B2
B8
D2
D8
0
1
2
3
4
5
6
7
DQS
0
1 BA
2
100n
2B16
100n
2B15
100n
2B14
100n
2B13
100n
2B12
100n
2B11
100n
2B10
47u
2B09
E2
A9
C1
C3
C7
C9
E1
DQ
A3
E3
J1
K9
33R
Φ
SDRAM
DDR2-VREF-DDR
E7
3B23
7B03
EDE1108AGBG-1J-F
VREF
VDDQ
A3
E3
J1
K9
DDR2-CLK_P
DDR2-CLK_N
DDR2-CKE
DDR2-CS
DDR2-RAS
DDR2-CAS
DDR2-WE
DDR2-DQM2
F9
E8
F8
F2
G8
F7
G7
F3
B3
RES
240R
3B01
2B41
2B36
100p
2B08
100n
DDR2-ODT
VDDL
A7
B2
B8
D2
D8
DDR2-BA2
VDD
0
1
2
3
4
5
6 A
7
8
9
10
11
12
13
E7
G2
G3
G1
DDR2-BA0
DDR2-BA1
+1V8
DDR2-VREF-DDR
2B35
100n
2B39
100p
100n
100n
2B34
100n
2B33
100n
2B32
100n
2B31
100n
2B30
100n
2B29
100n
2B28
47u
2B27
2B43
100n
2B26
100n
2B38
100p
DDR2-VREF-DDR
100n
2B25
DDR2-CLK_P
DDR2-CLK_N
DDR2-CKE
DDR2-CS
DDR2-RAS
DDR2-CAS
DDR2-WE
DDR2-DQM0
3B25
33R
DQS
B7
A8
2B46
0
1 BA
2
NU|RDQS
3B17
RES
2p2
3
1
3
7
33R
6 3B07-3
33R
8 3B08-1
33R
6 3B08-3
33R
3B16
33R
DDR2-D0
DDR2-D1
DDR2-D3
DDR2-D2
DDR2-D4
DDR2-D5
DDR2-D6
DDR2-D7
DDR2-DQS0_P
DDR2-DQS0_N
33R
A2
H8
H3
H7
J2
J8
J3
J7
K2
K8
K3
H2
K7
L2
L8
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A13
G2
G3
G1
DDR2-BA0
DDR2-BA1
DDR2-BA2
DDR2-ODT
ODT
3B09
CK
CKE
CS
RAS
CAS
WE
DM|RDQS
VSS
NC
VSSDL
VSSQ
L3
L7
DDR2-A14
DDR2-CLK_P
DDR2-CLK_N
DDR2-CKE
DDR2-CS
DDR2-RAS
DDR2-CAS
DDR2-WE
DDR2-DQM1
RES
240R
3B26
33R
F9
E8
F8
F2
G8
F7
G7
F3
B3
VDD
VDDQ
E2
A9
C1
C3
C7
C9
E1
VDDL
VREF
Φ
0
1
2
3
4
5
6 A
7
8
9
10
11
12
13
SDRAM
DQ
0
1
2
3
4
5
6
7
DQS
C8
C2
3B11-3 3
D7
3B10-3 33R 3
D3
D1
D93B10-4 4
B1
B9 3B10-1 1
B7
A8
2B47
0
1 BA
2
NU|RDQS
6
6 33R
2 3B10-2 7
33R
2
1
5 3B11-1
4
33R
8
33R
3B19
RES
2p2
7 3B11-2
8 33R
33R
5 3B11-4
33R
3B18
33R
DDR2-D8
DDR2-D14
DDR2-D10
DDR2-D11
DDR2-D12
DDR2-D13
DDR2-D9
DDR2-D15
180R 1%
5
33R
7
33R
5
33R
8
33R
3B07-2
FB00
DDR2-VREF-DDR
180R 1%
2
3B20
C8
C23B08-4 4
D7
D3 3B08-2 2
D1
D9 3B07-4 4
B1
B9 3B07-1 1
3B21
DQ
0
1
2
3
4
5
6
7
A1
E9
L1
H9
E2
E1
Φ
SDRAM
DDR2-DQS1_P
DDR2-DQS1_N
33R
A2
ODT
CK
CKE
CS
RAS
CAS
WE
DM|RDQS
VSS
NC
VSSDL
L3
L7
DDR2-A14
VSSQ
1X20
HOOK1
A7
B2
B8
D2
D8
3B06
F9
E8
F8
F2
G8
F7
G7
F3
B3
7B01
EDE1108AGBG-1J-F
VREF
E7
RES
240R
VDDQ
A3
E3
J1
K9
DDR2-BA2
DDR2-ODT
VDDL
A7
B2
B8
D2
D8
G2
G3
G1
DDR2-BA0
DDR2-BA1
VDD
0
1
2
3
4
5
6 A
7
8
9
10
11
12
13
E7
H8
H3
H7
J2
J8
J3
J7
K2
K8
K3
H2
K7
L2
L8
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A13
A1
E9
L1
H9
7B00
EDE1108AGBG-1J-F
A9
C1
C3
C7
C9
+1V8
A3
E3
J1
K9
DDR2-CLK_P
DDR2-CLK_N
100n
2B24
240R
100n
2B23
3B28
100n
2B22
DDR2-CLK_P
DDR2-CLK_N
100n
2B21
3B27
240R
100n
2B20
DDR2-CLK_N
100n
2B19
DDR2-CLK_P
240R
47u
2B18
3B22
2B42
AT T-POINT
H8
H3
H7
J2
J8
J3
J7
K2
K8
K3
H2
K7
L2
L8
A1
E9
L1
H9
7B02
EDE1108AGBG-1J-F
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A13
+1V8
DDR2-VREF-DDR
100n
100n
2B07
100n
2B06
100n
2B05
100n
2B04
100n
2B03
100n
2B02
+1V8
100n
2B01
2B40
B05A
DDR
47u
2B00
10-32-1
1X21
HOOK1
1X22
HOOK1
1X24
HOOK1
1X23
HOOK1
2
SPB SSB TV550
2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_043_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 250
10.33 B06 313912365192
Display interfacing-Vdisp
Display interfacing-Vdisp
B06A
1G03
T 3.0A 32V
5G01
FG0H
1G00
+VDISP-INT
100n
T 3.0A 32V
RES
2G43
+VDISP
30R
RES
5G02
30R
RES
22u
RES
B06A
2G44
10-33-1
3G28
2K2
IG11
6G00
LTST-C190KGKT
For Development use only
2
SPB SSB TV550
2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_044_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 251
Video out - LVDS
B06B
Video out - LVDS
B06B
47p
47p
47p
47p
47p
2G7A
2G24
2G25
2G26
2G27
47p
47p
2G76
2G78
47p
2G75
2G79
47p
47p
1n0
5
6
7
8
CTRL-DISP
2G94
100n
FG2J
2G95
100n
FG30
FG31
FG32
FG33
FG11
FG1J
PX3DPX3D+
PX3EPX3E+
FG1K
FG1L
FG1M
FG1N
PX4APX4A+
PX4BPX4B+
PX4CPX4C+
FG12
FG13
FG14
PX4CLKPX4CLK+
PX4DPX4D+
PX4EPX4E+
FG15
FG16
FG17
FG18
FG19
FG1A
FG1B
FG1Q
FG1P
CTRL-DISP
BACKLIGHT-BOOST
3D-LR
3D-VS-DISP
CTRL-DISP
CTRL-DISP
3D-LR-DISP
3G38
3G37
3G2Z
3G36
RES 3G30
RES 3G31
3G39
100R
100R
100R
100R
100R
100R
100R
FG35
FG2R
FG2K
FG04
FG2L
FG2M
PX1APX1A+
PX1BPX1B+
PX1CPX1C+
FG2E
FG2F
FG1Y
FG1Z
FG20
FG21
PX1CLKPX1CLK+
FG22
FG23
PX1DPX1D+
PX1EPX1E+
FG24
FG25
FG26
FG27
PX2APX2A+
PX2BPX2B+
PX2CPX2C+
FG28
FG29
FG2A
FG2B
FG2C
FG2D
PX2CLKPX2CLK+
FG1R
FG1S
PX2DPX2D+
PX2EPX2E+
FG1T
FG1U
FG1W
FG1V
2G28
2G29
47p
47p
FG2P
RES 9G0G
FG2N
+VDISP
1G50
TO DISPLAY
EMC 100n
RES 2G9C
PX3CLKPX3CLK+
FG1C
FG1D
FG1E
FG1F
FG1G
FG1H
FG34
FG2H
FG2G
EMC 100n
RES 2G9E
PX3APX3A+
PX3BPX3B+
PX3CPX3C+
47p
47p
47p
47p
100R
100R
100R
EMC
RES 2G9F
2G96
2G99
2G97
2G98
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
RES 3G32
3G2W
3G2Y
100n
100n
SDA-DISP
SCL-DISP
100n
2G93
FI-RE41S-HF
50
51
48
49
46
47
44
45
42
43
2G91
100n
EMC 100n
RES 2G9D
2G92
FI-RE51S-HF
60 61
58 59
56 57
54 55
52 53
4
3
2
1
9G0K-4
9G0K-3
9G0K-2
9G0K-1
2G9B
RES
2G77
1n0
10K
3G35
2G9A
10K
10K
+VDISP
3G34
+3V3
3G33
10-33-2
Q552.2E LA
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
1G51
TO DISPLAY
1X05
REF EMC HOLE
2
SPB SSB TV550
2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_045_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 252
AmbiLight CPLD
AmbiLight CPLD
B06C
B06C
5GA0
FGA0
+3V3
VINT
5GA1
100n
100n
2GA2
2GA1
1u0
2GA0
30R
DEBUG ONLY
FGA1
+3V3
VIO
+3V3
100n
10K
RES
26
IXO2_36|GTS1
IXO2_34|GTS2
IXO2_33|GSR
IXO4_19
IXO4_20
IXO4_21
IXO4_22
IXO4_23
IXO4_27
IXO4_28
IXO2_29
IXO2_30
IXO2_31
IXO2_32
IXO2_37
IXO2_38
19
20
21
22
23
27
28
TCK
TDI
TDO
TMS
IGA1
CPLED2
9GA1 RES
3GA1
4
3G10-4
2
3G10-2
3G12
3
3G11-3
RES
47R
5
33R
3
7 3G10-3
33R
3G13
1
10R
6 3G10-1
33R
IGA3
GCK2
+3V3
3
+3V3
AMBI-PROG_B1
AMBI-BLANK_R1
6
33R
AMBI-SPI-CLK-OUT
AMBI-SPI-SDI-OUT_G1
AMBI-SPI-SDO-OUT
AMBI-LATCH2_DIS
+3V3
3
4
17
25
RES
3GA6-3
6 330R 3
5 330R 4
RES
3GA6-4
RES
3GA6-1
RES
3GA6-2
100n
SD51022
LTST-C190KGKT
8
RES
6GA3
FGA3
+3V3
LTST-C190KGKT
FGA5
FGA2
RES
6GA2
FGA4
LTST-C190KGKT
FGA6
1
2
3
4
5
6
RES
6GA1
100R
100R
100R
100R
LTST-C190KGKT
8
7
6
5
RES
6GA0
1
2
3
4
6
RES
7GA2-1
BC847BS(COL)
1
2
7 330R 2
RES
1G36
3GA2-1
3GA2-2
3GA2-3
3GA2-4
2GA4
7
RES
7GA2-2
BC847BS(COL)
4
5
GTS2
+3V3
DEBUG ONLY
RES
RES
RES
RES
2
GTS1
GSR
RES
1G35
6
RES
7GA1-1
BC847BS(COL)
1
AMBI-SPI-CS-EXTLAMPSn
33R
8
33R
RES
7GA1-2
BC847BS(COL)
4
5
GCK3
GND
+3V3
1
2
3
4
5
6
5
6 100R
7 100R
8 100R
100R
8 330R 1
11
9
24
10
4
3
2
1
IGA2
PNX-SPI-CSBn
BACKLIGHT-PWM
3D-LR
3D-VS-DISP
BL-SPI-SDO
BL-SPI-SDI
BL-SPI-CSn
BACKLIGHT-PWM_BL-VS
BL-SPI-CLK
10p
29
30
31
32
37
38
3GA5-4
3GA5-3
3GA5-2
3GA5-1
CPLED3
5
6
7
8
12
13
14
16
18
10p
2G19
33R
2
33R
IXO3_5
IXO3_6
IXO3_7
IXO3_8
IXO3_12
IXO3_13
IXO3_14
IXO3_16
IXO3_18
10p
2G18
1
3G14
33R
7
3G11-2
10p
10p
2G12
10p
2G11
10K
8
3G11-1
IXO1_2
IXO1_3
IXO1_39
IXO1_40
IXO1_41
IXO1_42
10p
2G16
36
34
33
GTS1
GTS2
GSR
AMBI-SPI-CS-OUTn_R2-R
AMBI-PWM-CLK_B2
AMBI-SPI-CS-OUTn_R2
AMBI-LATCH1_G2
AMBI-TEMP
CPLED3
CPLED2
3G15
33R
RES
RES
RES
RES
SD51022
AMBI-SPI-CLK-OUT-R
AMBI-SPI-SDI-OUT_G1-R
AMBI-SPI-SDO-OUT-R
10p
2G15
3GA3
GCK3
GTS1
GTS2
GSR
VCCIO
10p
2G14
PNX-SPI-CS-BLn
PNX-SPI-SDO
PNX-SPI-SDI
PNX-SPI-CLK
2
3
39
40
41
42
VCCINT Φ
IXO1_43|GCK1
IXO1_44|GCK2
IXO1_1|GCK3
2G13
43
44
1
15
35
7GA0
XC9572XL-10VQG44C0100
PXCLK54
GCK2
GCK3
VIO
1
2
3
4
5
6
+3V3
10p
RES
VINT
2GA6
3GA4
RES
1G37
10p
2G17
2GA5
1u0
2GA3
30R
2G10
10-33-3
Q552.2E LA
BACKLIGHT-PWM
9GA0
BACKLIGHT-PWM_BL-VS
2
SPB SSB TV550
2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_046_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 253
SPI buffer
SPI-Buffer
B06D
RESERVED
+3V3
20
3EN1
3EN2
G3
PNX-SPI-CLK
PNX-SPI-SDO
RES
7GE0
74LVC245A
1
PNX-SPI-CSBn
IGE0
19
2
1
2
17
16
15
14
13
12
11
RES
7GE1
PDTC114EU
RES 3GE0-3 3
6 47R
3
4
5
6
7
8
9
RES
RES
RES
RES
RES
8 47R
1 47R
4 47R
47R
47R
3GE0-1 1
3GE1-1 8
3GE1-4 5
3GE3
3GE4
BL-SPI-CLK
BL-SPI-SDO
AMBI-SPI-CLK-OUT-R
AMBI-SPI-SDO-OUT-R
PNX-SPI-SDI
10
AMBI-SPI-SDI-OUT_G1-R
BL-SPI-SDI
18
10K
RES
3GE2
+3V3
100n
B06D
RES
2GE0
10-33-4
Q552.2E LA
PNX-SPI-CLK
RES 8
9GE0-1
1
BL-SPI-CLK
PNX-SPI-SDO
RES 6
9GE0-3
3
BL-SPI-SDO
BL-SPI-SDI
RES
9GE1
RES
9GE2
PNX-SPI-CS-BLn
IGE1
RES 5 9GE0-4
PNX-SPI-SDI
*
** 4
BL-SPI-CSn
Buffer
*
**
Direct
2
SPB SSB TV550
2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_047_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 254
10.34 B07 313912365192
10-34-1
DVBS-FE
B07A
DVBS-FE
B07A
7R01-1
STV0903BAC
100n
10n
2R15
100n
2R14
10n
2R09
+3V3-DVBS
+3V3-DEMOD
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
VDD1V0
10n
10n
2R52
10n
2R51
100n
2R50
100n
2R49
100n
2R48
2R47
100n
2R46
22u
2R16
VIA
VDD3V3
2
3
100n
2R17
+1V-DVBS
VDDA2V5
8
7
IM
IP
60
56
RES 2R21
DISECQ-DET
F22-DISECQ-TX
128
20
126
NC
107
NC
IR04
47p
97
98
3R00 IR03
19
18
1n0
RES 2R22
SCL-SSB
SDA-SSB
100R
RES 2R23
3R01
47p
100R
SCLT
SDAT
RESET-DVBS
9R00
RES
3R11
+3V3-DVBS
10K
IR02
62
58
26
23
24
29
27
FR02
FR03
FR04
FR05
FR06
FR07
XTALO
VS
AGCRF1
I2C-ADDRESS : D0
DIRCLK
CLKI
CLKI2
CLKOUT27
N
I1
P
N
Q1
P
0
1
2
3
D
4
5
6
7
CLKOUT
STROUT
DPN
ERROR
0
CS
1
DISEQCIN1
DISEQCOUT1
FSKRX_IN
FSKRX_OUT
NC
SCL
SDA
SCLT
1
SDAT
RESETB
STDBY
TCK
TDI
TDO
TMS
TRST
COMP
0
1
1
2
3
4
5
6
GPIO 7
8
9
10
11
12
13
52
SENSE+1V0-DVBS
63
64
65
67
68
70
71
73
74
75
78
79
82
83
84
86
87
89
90
91
94
95
108
109
111
115
116
119
120
AGC
2R53
1K0
47n
* To be drawn near PNX85500
3R03
3R04
3R05
3R06
47R
47R
47R
47R
NC
NC
NC
NC
TS-DVBS-DATA 4
TS-DVBS-CLOCK
TS-DVBS-SOP 2
TS-DVBS-VALID 1
9R03-4 * 5
9R04 *
9R03-2 * 7
9R03-1 * 8
TS-FE-DATA
TS-FE-CLOCK
TS-FE-SOP
TS-FE-VALID
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
40
41
101
50
49
47
46
44
43
37
35
34
32
30
55
FR00
3R02
16
IR05
3R07
120K
DISECQ-RX
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
100n
2R26
100n
2R25
100n
2R24
100n
100n
2R19
+2V5-DVBS
2R18
VDDA1V0
5
9
13
114
118
123
127
11
12
QM
QP
Φ
MAIN
XTALI
6p8
GND_HS
21
38
54
76
80
92
96
106
+3V3-DEMOD
30R
59
104
103
100
129
IR00
5R00
NC
NC
124
2R20 RES
GNDA
NC
1K0
10n
100n
2R13
10n
2R12
100n
2R11
10n
2R06
2R05
2R08
100n
2R07
+1V-DVBS
122
XTAL
1
4
6
10
14
113
117
121
125
3R10
100n
10n
2R10
100n
2R03
10n
2R02
100n
2R01
2R00
100n
2R04
+1V-DVBS
Φ
POWER_VIA
10K
15
17
22
25
28
31
33
36
39
42
45
48
51
53
57
61
66
69
72
77
81
85
88
93
99
102
105
110
112
+1V-DVBS
3R13
7R01-2
STV0903BAC
+3V3RF
3R12
IR06
+3V3RF
IR01
NC
2R43
9
8
7
6
5
4
3
2
4
SCL
SDA
XTAL_OUT
IP
IN
Φ
SATELLITE
TUNER
I2C-ADDRESS : C6
QP
QN
RF_OUT
AGC
AS
NC
10u
2R61
SYN
VIA
RF_IN
3R09
18
19
2R40
1K0
32
100p
3
3R08-3
21
20
7
34
35
36
37
38
39
40
41
42
XTAL
2
3R08-2
NC
4
6 3R08-4
100R
1
7 3R08-1
100R
5
100R
QP
QM
8
100R
IP
IM
0p56
SYN HS
29 33
100p
2R62
1n0
1n0
2R35
1n0
2R33
1n0
2R34
28
10p
23
24
XTAL_CMD
GND
RF LNA LT MIX DIG BB VCO
5
3
9 10 15 17 25 26
27n
5R02
2R45
1n0
2R29
SM15T
FR01
6R00
LNB-RF1
16
VCO
27p
10n
2R28
2R27
220u 6.3V
10u
10p
2R39
5R01
+3V3-DVBS
9R02
RES
27
2R56
2
AGC
22
10p
12
13
IR08
14
MIX DIG BB
VSS
2R55
1
11
XTAL_IN
1 2
10p
1R01
73356-5070
1
8
10p
NC
16M
2R38
31
IR07
SCLT
SDAT
6
LNA LT
10p
7R02
STV6110AT
3 4
30
10K
10K
3R15 RES
3R14 RES
10p
2R41
+3V3RF
2R54
1R10
NX3225GA
2R37
+3V3RF
1n0
2R32
2R31
4R7
2
SPB SSB TV550
2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_048_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 255
10.35 B08 313912365192
DVBS supply
DVBS supply
5T00
B08A
IT00
6
SYNC
A
4
5T01
VFB
GND
P HS
8
9
+1V-DVBS
3T00 RES
15
14
1%
IT24
SENSE+1V0-DVBS
4n7
3T21
100n
2T06
11
+3V3-DVBS
4n7
2T36
3K3
12
22K
3T02
VIA
IT20
47K
1K0 1%
2T10 RES
IT02
13
10
3T03
FT06
IT18
2u0
3
RES 3T01
7T00-2
ST1S10PH
IT01
7
SW
VIN
22u
INH
5
RES 1n0
2T03
+2V5-DVBS
22u
2T05
1
A
2
2T04
7T00-1
ST1S10PH
22u
22u
2T02
22u
2T01
2T00
30R
SW
+5V-DVBS
1K0 1%
LD3985M25
7T01
30R
4
BP
+2V5-DVBS
IT19
COM
2
100n
5T02
INH
FT07
5
OUT
1u0
IN
1u0
1
3
2T07
BAS316
2T39
BAS316
+5V-DVBS
2T08
BAS316
IT03
10n
6T02 RES
2T09
6T00 RES
6T01 RES
7T02
LD1117DT33
IN
FT08
2
OUT
+3V3-DVBS
16V
3
1
22u
2T12
100n
2T11
COM
+24V
100u 35V
220n
2T17
2T14
IT05
5T03
FT00
2T16
2T13
47n
3R3
220n
IT04
100u 35V
2T15
3T04
7T04-1
BC847BS(COL)
1
IT10
13
12
6
8
IT09
10K
5T04
4u7
RES 2T22
4u7
RES 2T38
10u
1n0
IT11
RES 2T37
10u
2T24
2T23
6T04
SS24
16
17
18
19
20
21
22
23
24
25
26
22R
3T11
33u
100u 25V
+V-LNB
IT32
IT17
1n0
IT12
GND_HS
3T29
3T08
3T10
3R3
47n
15
4
10u
2T35
2
GND
IT26
2T26
1n0
2T25
100K
3T06
IT21
10K
ILIM2
SEQ
BP
IT27
IT08
3T07
BOOT2
SW2
EN2
FB2
VIA2
6
+3V3
PVDD2
2T27
9
10
11
IT07
+24V
BOOT1
SW1
EN1
FB1
Φ
1K0
2
3
5
7
1n0
2T21
PVDD1
2T20
14
7T03
TPS54283PWP
IT25
IT06
1
22R
3T05
22u
6T03
SS24
33u
220u 16V
2T19
2T18
+5V-DVBS
10K
IT29
3T23
IT13
33K
2T41
RES
2T28
1n0
FT04
RES
+V-LNB
4u7
RES
3T24
SENSE+1V0-DVBS
15K
220p
2T40
2T31 RES
RES
2T29
47K
5%
RES
47K
3T16
3K3
5%
3T15
IT14
2T30 RES
3T17
7T04-2
BC847BS(COL)
4
22n
3T12
3K3
5
IT23
22n
3T14
2K2
BZX384-C
13V
1K0
IT22
6T05
+24V
3T13
3
IT15
3T25
3K3
V0-CTRL
330K
3T28
100K
RES 10n
RES
IT16
RES 10K
100n
RES
3T26
2T43
RES 2T34
IT30
2T42
22n
RES
3T19
33K
3K3
5%
3T18
18K
5%
22u
22u
2T33 RES
22n
3T20
RES 3T09
+5V-DVBS
2T32 RES
B08A
RES
3T31
10-35-1
2
SPB SSB TV550
2K11 4DDR EU SD
FT05
2011-02-01
3139 123 6519
19101_049_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-35-2
Q552.2E LA
10.
EN 256
DVBS supply
DVBS supply
B08B
B08B
+12V
+3V3-DVBS
+12V
3T22
220R
22u
RES
5T50
3T50
100R
100n
2T51
2T50
RES
100u 35V
IT50
IT28
220n
2T52
V0-CTRL
IT60
5T52
6T50
220n
2T53
BAT54 COL
18
A_GND
7T50-2
LNBH23Q
34
35
36
DISECQ-DET
6T54 RES
RES
7T51
BC817-25W
IT68
BAS316
IT69
IT59
9T52 RES
VIA
VIA
10n
2K2
IT55
2T62 RES
10u
3T58 RES
2K2
STPS2L30A
6T51
2T60
IT64
2T61
20
+3V3-DVBS
10K
1R0
IT67
150R
BYP
1
2
3
7
8
16
17
23
24
25
26
31
32
3T57 RES
3T62
22R
NC
VUP
15R
3T59 RES
VCC_L
VCTRL
470n
VIA
DISECQ-RX
39
40
VIA
37
38
2T59
470n
15
2T58
100u 35V
2T57
470n
2T56
100u 35V
2T55
IT58
TTX
11
IT66
3T54 RES
27
EXTM
22
RES
14
DSQOUT
DSQIN
LNB-RF1
3T53
21
3T27
13
+V-LNB
RES
VOTX
22K
1n0
9T51
IT57
30R
DETIN
4
3T52
RES
12
IT63
30
5T51
VORX
GND_HS
RES
29
IT65
RS1D
6T53
STPS2L30A
6T52
RS1D
6T55
IT56
F22-DISECQ-TX
9T50
RES
ADDR
28
IT52
220u
IT54
10K 3T55 RES
2T54 RES
IT61
IT62
10K
3T56 10n
10K
ISEL
LX
P_GND
DISECQ-DET
10
IT53
33
LNB-RF1
100R
SCL
SDA
5
3T60 RES
+12V
9
6
3T61
SDA-SSB
Φ
VCC
100R
IT51
41
42
SCL-SSB
19
7T50-1
LNBH23Q
3T51
2
SPB SSB TV550
2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_050_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 257
10.36 B09 313912365192
Connectors comp
Connectors comp
B09A
+3V3
5C55-1
30R
1M59
FC77
FC76
FC78
3C70
100R
FC79
AMBI-TEMP-1
2C70
FC81
GND_AL
NC
FC83
+24V
*
1C86
FC82
AMBI-POWER
*
100n
RES
1C87
100n
*
2C95
FC84
+12V_AL
2C94
T 2.0A 63V
T 2.0A 63V
RES
Option table for Ambilight
27
2C96
ITEMS
BLOCKBUSTER
EMMY
SUNDANCE
/ INFINITY
1C86
N
Y
N
N
3C76
100p
IC73
100R
2C78
IC74
3C77
100p
47n RES
RC
LED-2
TO
LED PANEL
100R
FC90
FC91
FC92
FC93
3C78
FC94
+5V
100p
100R
LED-1
2C80
100p
FC95
KEYBOARD
1
2
3
4
5
6
7
8
FC89
2C79
IC75
**
1M19
FC88
+3V3-STANDBY
3C79
28
10R
100p
FH34SRJ-26S-0.5SH(50)
2C82
100n
RES
N
1C87
2C77
100n
V-AMBI
AMBI-BLANK_R1
AMBI-PROG_B1
AMBI-LATCH2_DIS
AMBI-TEMP
100p
100R
2C93
2C81
FC75
3C75
LIGHT-SENSOR
6C02
FC74
Y
RES
AMBI-SPI-CS-OUTn_R2
AMBI-LATCH1_G2
2C76
FC87
**
6C05
FC72
V-AMBI
RES
BZX384-C5V6
AMBI-PWM-CLK_B2
FC73
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
FC71
BZX384-C5V6
AMBI-SPI-SDO-OUT
AMBI-SPI-SDI-OUT_G1
6C03 RES
FC70
AMBI-SPI-CLK-OUT
BZX384-C5V6
FC9C
100K
RES
5C55
3C74
B09A
100n
1
2
3
4
5
6
7
8
9
10
11
GND_AL GND_AL
+3V3-STANDBY
+T
1
2
3
4
0R3
9C02-1
9C02-2
9C02-3
9C02-4
8
7
6
5
12
3C97
SDA-BL
FC86
100R
3C83
SDA-SET
*
FC97
FC98
1u0
1u0
2C91
**
2041145-4
TEMPERATURE
SENSOR
RES 3C92
100R
RES 3C93
1
2
3
4
FC9D
3D-LED
10K
FC99
+3V3
30R
RES 5C53
+12V
2C85
5C54
**
IC78
Option table for Leading Edge
Items
Yes
No
No
Yes
1M21
30R
Sundance / Infinity
1M20
RESERVED
BlockBuster / Emmy
1M19
T 1.0A 63V
*
FC9B
47R
1M71
FC96
FC64
47R
20
10p
FC63
100R
RES 3C82
+3V3
FAN-DRV
2C90
100R
3C81
9C00
RES
9C01
RES
19
FH52-18S-0.5SH
FC9A
10p
RES 2C87
FC85
SCL-SET
RES
3C94
RES
3C95
RES 2C86
FC62
100R
RES 3C80
100R
FAN-CTRL2
**
RES 3C91
1u0
TACH02
*
100p
SCL-BL
10K
13
0R3
RES 3C90
100p
2C84
TACH01
*
2C83
FAN-CTRL1
+3V3
FC61
+T
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
FH52-11S-0.5SH
+5V
* HOTEL TV
RES
1M21
1M20
RES 3C96
RES
1C85
10-36-1
No
No
2
SPB SSB TV550
2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_051_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 258
10.37 B10 313912365192
DVBT2
DVBT2
+1V2-DVBT2-M
2FJ4
100n
2FJ3
100n
2FJ2
100n
2FJC
100n
2FJB
100n
2FJA
100n
2FJ9
100n
2FJ8
100n
2FJ7
100n
2FJ6
100n
B10A
+1V2-DVBT2-C
B10A
+1V2-DVBT2-P
2FJJ
+2V5-DVBT2-A
+3V3-DVBT2-D
100n
+3V3-DVBT2-R
100n
+2V5-DVBT2-X
2FJE
100n
2FJF
100n
2FJP
100n
2FJD
100n
2FJL
2FJK
2FKB
IF-N-DVBT2
3FJM
RES 9FJ4
IFJ5
2FJY
DVBT2-IFN
DVBT2-IFN
3
47
IFJ1
3FJ0
46
1K0
50
49
5FJ9
9FK5
3FJB
2FJ1
3FJA
3FJ9
150K
100p
53
100R
330K
1M0
3FJN
3FJ2
2FJN
6
RF-AGC
5
7FJ1-2
BC847BPN(COL)
64
63
1K0
MVDD
P
3FJ7
1
7FJ1-1
BC847BPN(COL)
IFJ4
10K
3FJ8
+3V3-DVBT2-D
R
VDD
45
54
44
8
19
40
41
52
11
27
59
DVDD
XTALI
XTALO
0
1
2
3
TSDATA
4
5
6
7
AINP
AINM
RFAIN
58
57
IFAGC
RFAGC_GPIO1
SCL
SDA
TUNERCLK
TUNERDAT
I2C ADDRESS
0xD8, 0xDC
DFJ1
1
GPIO0
10K
3
+3V3-DVBT2-D
IF-AGC
IFJ8
RES 3FJ4
4K7
RES 3FJ3
32
33
TESTMODE
A0
4K7
DFJ2
REMOVE IN
NEXT LAYOUT
VIA
34
9FJ0
37
RESET-SYSTEMn
OSCENBN
RESETN
DFJ4
38
OSCMODE
DFJ3
PLLBPN
IFJA
PVSS
3FJG
3FJF-2 2
3FJF-3 3
3FJF-4 4
5
4
3
2
12
13
16
17
22
23
24
25
28
29
RES 9FJ1
7
6
5
47R
47R
47R
47R
9FK1
9FK2
9FK3
3FJF-1
8
47R
9FK4
1
IFJ9
TS-FE-CLOCK
TS-FE-VALID
TS-FE-SOP
TS-DVBT2-ERR
TS-FE-DATA
REMOVE IN
NEXT LAYOUT
9FJ2
3FJH
3FJJ
47R
47R
SCL-SSB
SDA-SSB
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
XVSS
48
MVSS
43
6
10
15
21
26
31
35
55
60
51
5FJ1
FFJ0
+3V3-DVBT2-D
+3V3
GND_HS
9
18
39
42
VSS
AVSS
65
62
6p8
X
TSCLK
TSVALID
TSSYNC
TSERR_GPIO2
DFJ0
IFJ3
4n7
2
4
CVDD
47p
+5V-TUN-PIN
820n
7
14
20
30
36
56
61
12p
AVDD
IFJ0
1
2FJV
100n
RES 2FJM
7FJ0
CXD2820R
2
4
1FJ0
41M
680n
10p
100n
100R
10n
47p
DVBT2-IFP
100R
10n
IFJ2
2FJW
DVBT2-IFP
5FJ0
3FJK
RES 9FJ3
RES 2FJ5
2FKA
IF-P-DVBT2
12p
2FJH
2FJT
820n
2FJG
100n
5FJ8
5
6
7
8
+1V2-FE
IFJB
5FJ5
+3V3-DVBT2-R
IFJE
+1V2-DVBT2-C
+1V2-FE
30R
2FK4
1u0
2FK1
30R
1u0
220u 16V
5FJ2
10u
2FKG
9FK6-4
9FK6-3
9FK6-2
9FK6-1
RES 2FKF
4
3
2
1
+1V2
1u0
2FK0
30R
RES 5FK2
+5V
7FK1
LD3985M25
5FJ6
+1V2-DVBT2-M
1u0
30R
30R
4
IFJF
+2V5-DVBT2-A
2FK5
COM
IFJC
+2V5-DVB
1u0
BP
5FJ3
+2V5-DVB
2FK2
INH
FFJ1
5
1u0
5FJ4
IFJD
5FJ7
IFJG
+1V2-DVBT2-P
+2V5-DVBT2-X
2FK6
1u0
1u0
30R
30R
2FK3
1u0
3
OUT
2FKE
30R
IN
10n
1
2FKD
5FK1
+3V3
2
30R
2FKC
10-37-1
2
SPB SSB TV550
2K11 4DDR EU SD
2011-02-01
3139 123 6519
19101_052_110504.eps
110504
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 259
10.38 313912365192 SSB Layout
1C87
1C86
3C70
2C70
2C96
2G13
3G13
3G12
3G11
3G14
3U81
3U42
7T03
IUD1
3UD3
2UD9
3U26
5UD3
2UE4
2T33
6GA0
3US2
3US3
2US3
7US3
2UE1
3UD4
6GA1 3GA6
7GA2
2UU2
1X10
5G01
2G44
1G03
3GA5
1X07
7GA1
1G36
3GA2
3G15
6G00
3G28
1P00
1G37
1G35
IG11
9GA0
2GA4
2G43
3UD5
9UU1 9UU0
5G02
1G00
1X08
3US9 3US6
2U15
IUS9
2UD4 2UD5
2UD6 6UD0
5U01
5C53
IU15
2UE2
5C54
2U16
2UD8
2UE3
2C85
3C82
IUS6
3U29
2UE6
3C93
3C92
1C85
IUT1
IUS5
2U17
6U00
7US2
2U09
2U11
2C84
3U24
2T18
5UD0
IUD2
2U18
IU18
IU17
3C90
2C83
5U00
IU23
3C80
3C91
3C83
5T03
IUD4
7UD1
IUT2
2T00
2T19
2UD2
2T32
2UD1
2T01
6GA2
2U27
3UD2
3UD0
3U06
2UD7
3UD1
3U07
7UD0
3US7
3C81
5UD1
2UE0
3US5
7US1
7U05
5UD2
9US0
3US4
3U23
7U01 7U04 7U02
7UU0
1M71
IUS4
2UE9
IUS3
2U28
7UD3
IU57
6GA3
2UE8
5U03
5U02
2U19
2U25
2U23
2U24
2UE7
2U20
2T22 2T12
2C95
IUD0
2UD0
2UD3
7T00
5T00
1UM0
5UM1
2U56
3U56
3U44
2U50
2U52
3U66
3U67
2U51
3U84
2U48
2U68
2U54
1F24 2T14 2T17 5T04
2C94
5C55
3G10
3U65
3U76
2U72
4U00
3U45
3U64
2U49
2U47
2D30
3U71
2U53
2U45
2U58
3U43
2U44
4U01
2U46
1M59
1M99
CXXX
2U43
1M95
5T01
Overview top side
3GA1
7GA0
3B11
3B26
IGA3
IGA2
7S02
3S31
3S02 3S01
3S24
3S23
3S29
3S62
3S21
3S3S
3S1K
2S4E
3S1J
3S3N
3S2A
3S1B
3S1L
3B13
2S4D
3B12
3S3T
3S3R
3B23
2B44
3S28
3S03
9S01
3S3Q
3B02
7S00
3S1C
3S3L
3R14
2R29
2R28
3R15
9R02
2R32
2R45
2R33
2R46
2R31
5R02
2R43
3R09
2R38
1R10
2R40
2R34
2R39
2R62
2R54
2R41
7R02
2R37
6T55
2T55
6T52
7T50
2T56
1X04
3S42
2F40
IF89
1P08
7FL5
5F70
2F9D
1E85
IF86
3F34
5F73
9F04
3FL4
9FLE
3ECG
2EC1
7EC1
3FL2
6FC7
2F97
6FC5
3FC3
1E37
1P03
1P02
1FC3 1FC4 1FC2
1FC5
1P04
1FC6
6FC2
6FC1
3FC5
3FC6
9FC6
9FC4
2FC1
1E09
1E10
2FC7
3FC2
2FC6
1E38
2ECC
9FC5
5EC2
9FC3
1N00
1P05
6FC3
6FC4
IEE3
9EC3
1E80
3F65
3F64
2F9B
2F86
3F75
2F60
3ECM
3FC4
7EE1
2EE1
1329
2FDC
3FDG
2FC2
3EE2
2FDD
2ECN
2ECM
2FC4
3E9C
3ECN IE42
2E67
IEE6
2EE2
6FC6
3FC1
4E21
3ECF
2E73
9E57
6FD2
6FC8
2FC8
1FC1
6E53
9E50
IEE4
IEE5
6E51
3FC7
2E77
2EE3
2EE7
3E89
2FC5
3C95
9E17
2F81
3C94
2C87
1FD2
3ECP
6FD3
4E24
2EE5
2C90
2C86
2C81
3EE3
2C91
1T01
1FD3
6EC1
2ECU
4E20
6C05
1E39
1E28
1P07
1F52
1E08
2F9A
2F99
2FC3
2E05
3E27
2E60
1E88
2E62
3E98
3E26
IC74
3EE0
3C79
5E01
3EE1
2C82
6E47
2EE6
3C97
9C02
6C03
5E02
1E03
2E63
2E56
3E28
3C77
5E08
3C96
2C78
IC75
2EE4
2E57
3C78
2EE0
3E25 3E22
2C93
2C80
7EE0
2E66
2E07
3C76
1E87
3C74
6C02
2C77
3E40
3C75
1E43
1E42
1E29
3F63 3F62
3E68
3E35
IE11
3E34
3E72
2ECP
IE07
2C76
1F51
2F98
2G75
2G77
IE09
2E54
9F71
4E22
2E27
5F72
9E15
4E23
2E71
9E13
6E38
3E96
2E40
6E06
9E11
1X06
3E88
9E29
6E40
IE10
2G76
3E87
9E52
1328
7E10
2G9B
2G27
2E55
3E30
2G78
1E70
3E33
3E97
2E52
3E51
3G38
2E39
2E72
2E53
2G26
9E04
3G39
1E32
2G9A
2G25
2F88
2F93
3E65
3E66
3E67
3E70
3E69
2E49
2E48
3E64
9E42
2G7A
3E80
3E71
2F9C
2G24
1X02
2FL7
9FLF
1E25
2FL6
9FLG
1E22
1E54
1E31
7F70
9FLL
2G28
3FLE
3F78
9FL3
2G29
6F72
9FLC
9FLD
9FLK
1E55
1E18
1E01
5D05
1F75
9F05 9F06
1E23
1E19
1E86
1E12
1E06
4E01
4E02
4E03
9E22
3FLC
9E05
3FL7
3E76
2E14
9E21
6E26
2E18
4E04
1E53
1E00
3E77
2E84
6E22
4E05
9FLH
9FLJ
1FL5
2F91
3F72
3E31
1X11
IF61
2F92 2F94
2F90 3F71
1E71
9E18
7F58
3F58
2F58
1F10
2S41
2E83
2FKG
3S83
3F59
3F60
7F52
3S84
BS13
2S4M
5E74
3E32
5T50
1P09
2S77
2S78
9E20
9E24
5T51
9F28
3S44
3S2M
BS10
2S87
2S7L
2S7N
2S7U
2S8G
9S18
3S6H
3S59
9S20
3S4P
3S4R
3S4T
3S4J 2S7J
2S7P
2S7R
9S19
2S7E
2S7H
2S7K
3S4L
9S21
2S7M
3S13
3S12
5D02 5D01
3S4K
2S2S
3S53
9F27
3S3W
3E17
2S2Y
2S2V
2S2Z
2S2W
2S30
2S31
4S14
2S32
3S26
2S34
7S08
3S6J
2S33
IS13
2S2T
1X24
3S3M
3S43
3S3G
2S2R
9F00 9F01
3S3F
9S06
3S3H
DBS8
1S02
3S3U
3B04
2B45
1X20
2D07
2D06
2D12 2D11
3S54
2S4G
3S50
2D09
2D10
3S52
DS50
3B14
6T51
6T53
3S80
2S4F
BS15
3B15
3S27
2G79
1M20
5T52
3B05
2D24
2D17
2D23
7B03
7D10
5D04
1G51
IF62
3S81
3B24
3S00
1D52
2D08
1735 1D38
1D50
3S6K
5D07
2R27
1R01
3R08
2R56
9S00
1X23
3S3Y
3S04
7R01
3T22
3R06
2T57
2T50
3R05
2S09
7B02
3R04
3B07
2R20
3B17
2R55
9S93
3B08
9S90
5R01
3R03
3B16
3B00
1X05
7F20
3B25
2B46
7B00
2D20
2D05
5D08
2D19
2G96
9S92
3B10
2G99
9S91
2S4P
2G97
2R35
IGA1
3R12
3B19
2G98
2R61
2B47
7B01
3B18
2F01
1X21
1G50
1X22
1M21 1M19
10-38-1
1X01
1E05
2
SSB Layout Top
2011-02-09
3139 123 6519
19100_804_110209.eps
110209
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 260
Overview bottom side
2G17
FC71
2G16
2G12
2G14
2G10
3UB6
IUB3
7F02
FGA4
2UB3
2UB4
3UB4
2E86
9E53
9E55
3E79
FE81
9E08
2F79
IU56
IU55
FU09
FE5E
FE5D
CU02
3U05
FU00
IU14
3U02
2U00
CU01
FUU0
7UU2
FG1J
FG32
2G94
2G95
3D06
IE63
3G36
FG2L
FG1Z
FG2F
3G2Z
FG2R
3G37
FG2K
FG2G
IE06
2FE4
3G2Y
FG35
IE32
3G2W
2E70
FG04
3G32
FG34
3G35
IE39
DFE6
FE31
FE29
IF18
FE34
DFF2
2FH3
2FF4
2FF8
3E29
FE27
FF63
5FA3
2FA3
FE28
5E03
3E99
FC88
2E59
5E04
3E39
FC93
IC73
IEE7
5FA4
2FF9
IF69
2FA4
2FF1
5FE8
FF61
2E58
2E08
3FE9
3FE8
2FF2
2FF7
2FE3
3E95
FE32
DFF1
IF68
2FH4
7FE3
FF62
2FG0
IF67
2E09
IF49
5FE5
FC89
FC87
DFE9
IF17
2FG4
FC9D
FE33
2FE8
FF03
2FH2
7FJ1
FG1Y
FG2E
3G30
IE38
FE49
3G34
IE26
IE64
FEA2
FE50
2E06
9E25
IE73
DFE7
IEE8
FC90
FFAF
FE30
IEE0
FC91
FC92
FC94
FE60
FECB
IE44
FFA2
FE48
9E54
6E52
IE76
FE5C
9E19
FE51
FEE0
FE5B
IE74
FC9B
2ECX
3EC5
2E68
3EC3
IE12
6E20
9E58
3ECJ
FECR
2EC7
2EC3
FECY
5EC3
3ECK
FEC7
3ECL
FEC3
FC9A
2ECW
IE43
IE45
2EC2
2E37
3E20
2E36
6E19
2E38
FE02
FE01
2E35
3ECH
7FA3
2ECQ
FE03
2FA2
FF76
3E21
FFC9
FE61
FECZ
2F59
2F61
3FJN
9FK5
3FBF
FG20
2C79
FF74
FFB1
IUU2
2UU0
3UU2
9G0K
2E04
3E82
3E07
FEA3
3E81
2E91
9E07
9E10
2E88
6E03
FE73
9E28
IE71
FE54
IE51
FE55
FFB6
FG21
3G33
2FG6
FF81
5FE9
FG24
FG22
FG2H
DFE8
4E06
FE5A
9E26
3E73
7FE0
BFE3
FE71
BFE2
FFDB
FFB5
2D22
2D26
FE82
FEA7
IE14
6E09
7E09
FE84
2E75
3E43
2E44
FEA8
FE42
6E29
IE16
2FF0
2FG1
2F84 3F76
9E16
2FF5
2FH7
2FG7
FFDA
FG29
FG25
IF29
2FG8
FFDC
FG28
FG23
3FG7
2FH6
5FE7
3FG2
FG26
IE33
2FE6
FG2B
ID08
FG2M
2FH5
2FG9
FL33
FG1R
FG2A
3G31
2FE0
IF65
FL40
FG1S
FG2D
FG27
2E24
FF82
FL41
FG1T
FG1U
FG2C
3D14
ID06
3E44
5FE0
5FE3
FG2N
FG2P
6E32
2FG3
IF63
IF48
FE72
3FG6
2FG2
5FE4
FF00
FF64
FL32
3D16
2G91
2E90
FE70
3FE6
2FF3
2FE5
3FG4
1FE0
IF66
ID30
CD10
6E07
2E15
IE50
IF82
IF27
IF64
2FF6
2D27
IEC1
3E24
7E01
6E23
5FG0
5FG2
AF70
IFLB
ID07
2E01
3E37
2E87
2F71
2F75
3F77
3FE5
3D10
ID05
9E27
FE75
3E74
FE74
2D21
2G9D
IE08
3E75
9E09
BEC3
3E53
3FE7
IF28
2D16
FD09
ID09
2E80
9G0G
6E28
2E76
6E30
9E06
FE43
FE80
9E51
2E85
5E76
6E01
3E19
2E10
FEA0
2EA4
IEC0
IE49
IF74
3F80
3F81
7D03
3D09
2B36
9E23
3EA7
FEA6
IE17
IE92
2E12
2E98
5E73
BEC5
3E48
3E62
IF14
3D02
2B12
2B11
2B03
2B02
2B08
2B04
2B07
2B05
IEC2
6E43
5F66
2F66
3FLG
IF78
2F63
2F64
2FH8
FL43
2UU1
2B14
2B16
2S24
2B06
2S39
2S38
3S72
2S3A
3S39
2S2H
2S2G
2S29
IS1M
2S3B
2S3C
2S3D
3S32
3S34
3S37
3S6L
2S2K
2S22
2S2J
3S51
2S3J
2S42
2EA5
2E79
FEA1
7E05
3EB6
IE96
3EB1
IE60
IE91
FE83
7E06
3EB3
2E99
IE13
2E74
9E01
3EA1
3E18
3E06
IE59
2E97
IF15
AF71
FF65
2U57
2D31
3D01
3S6P
IS42
3S20
2S4R
2S4Q
C001
2S3E
2S3F
3S08
2S40
2S19
3S5B
IS5C
2S8A
3S38
FE85
IF76
IF12
IF13
IFLA
3U11
3B21
2B26
3S6Q
2S60
5S93
2S68
2S45
2S3G
IS1A
2S3H
IS1B
3S09
3S10
2S18
2S2L
3S75
IS1P
FD02
3S0Z
6E44
9F03
9F02
FD06
2D13
ID10
IE70
2F78
2F74
FF71
3FLF
3FLD
IF10
IF11
FG1W
2D14
5D03
FD14
IF73
7F75
FF01
2FL8
2FL1
IFLE
3U80
2UB1
2UB2
FUA3
2B39
2B27
2B35
2B28
2B19
2B21
2S64
2S5P
2S4S
2S23
2S53
2S52
2S50
2S4Z
2S15
2S14
3S05
C000
2D01
ID31
IF81
IF77
FG1V
3B20
3S07
2S17
2S25
2S67
5S88
2S5H
2S5J
5S89
5S87
2S5A
5S81
2S4V
5S90
2S59
2S28
2S6K
2S55
5S04
2S6H
2S6A
2S2E
5E80
IF75
2FL9
3FLA
2FLD
IE61
2E81
FF75
3FLB
2S58
5S92
2S6M
2S5D
2S5C
3S40
3S47
3S49
3S3P
7E13
IE89
2EB3
FE56
2FLA
3FLH
3S36
FD05
ID32
IS12
IE68
3EA2
2F85
ID28
2B00
3B03
2B41
IS07
FEA4
FE57
FE58
2FL4
ID29
ID27
IE18
IF90
IFLC
3F32
ID19
IE90
2EB1
IFLG
FF66
ID37
FS57
2F96
IF59
IS0R
ID18
2B01
9E12
IF80
FF57
IS1H
3B28
IS1D
9E14
3F79
IF72
3S5E
7D15
ID15
FD03
IS03
7S05
IS1J
FD08
2D29
FS52
7E11
5F71
IF58
FF29
3E9E
2F95
2FKD
IFL1
IFLD
IS1N
FD01
3S1D
2F62
2F70
5F74
2F73 2F80
2F72 2F82
2F77
2F76 AF73
IF50
FF55
2D28
FD15
IS1S
FS53
3E9D
9FJ3
9FJ4
2FKA
IF52
FF56
9FK6
IF79
IFL3
IE67
3S16 3S17
IS02
7E12
IS11
FL36
2FL2
2S16
3S6N
3S5T
3S11
3S6M
AF72
3FJK
2FKB
5FJ9
1FJ0
2FJH
2FK3
5FJ4
5FJ7
5FJ6
2FJG
3FJ0
2FJK
2FJ2
2FJ8
3FJ4
3FJ3
9FJ0
5FJ5
2FK4
7FK1
3FJM
IFJ0
IFJD
2FK6
6E48
ID33
2B09
FS08
IS06
IS20
FS50
5F76
2F65
3F82
3F52
IFJ2
2FJW
2F49
2FJ5
2FJY
IFJ1
2FJJ
9S24
IS50
FS03
5FJ8
IFJG
IS19
IS1Q
2F52
3F43
3F41
3F42
IFJE
IFJF
IS5G
IS3E
2FK2
IF16
2D02
ID14
2B40
2S36
IS4V
IS3F
IS2V
FS44
FEA5
5FJ0 2FJT
FF41
IS4W
IS5H
IE05
IF54
DFJ4
3S2L
IS5J
IS1E
2E69
2FJP
2FJV
FFJ1
2FLC
2S76
IS2Z
3S46
IS0V
IFJ5
2FL3
IS5E
3S5S
IS3D
IF53
DFJ2
2FLB
IS3B
IS44
2FJ1
3FJ9
IFJC
2S6G
IFJB
2FJ9
2FK5
IS3L
FD07
ID11
2B13
3E78
2FK1
2FJ7 2FJF
2FJL
3FJ7
3FJ8
7FJ0
2S85
2B17
2S46
2S86
FS49
5FJ1
IFJ4
3S1H
3FJB
3FJA
5FJ3
3F40
IFJ3
9FK3
IS1K
IFJA
2FJ6
IFJ8
2S51
ID12
2B37
2B15
FS02
3S22
3S2S
3S25
2FK0
2FJN
DFJ3
3D15
2B10
3S0V
2S65
2S20
2S75
IS5D
3S1G
2S84
3S19
2S6E
2S6D
2S6N
3S76
3S5V
7S09
IS1L
5FJ2
3F45
3FJ2
2FJ4
2FKF
DS52
ID35
7D11
ID34
3B01
2S10
FS10
2B18
3S30
2SHW
FS45
9FK4
DFJ0
FF44
2S5K
5S95
IS5F
FS11
3B06
3B22
2S4U
IS4Z
FG31
2G9C
2B20
3S33
5S84
3S55
2S3L
IFJ9
9FK1
DFJ1
FFJ0
2FKE
9S09
2S21
5S83
2S5G
2S13
IS2U
2S3M
3FJF
9FJ1
2FJC
2FJD
3FJG
2FJ3
2FJB
3F44
9FJ2
2FJA
2FL5
FG30
2B24
2D03
2S4Y
FS51
FF48
FF42
3S0W
3S64
3S45
3S2H
FS0Z
FF43
3FJJ
2S6B
2S4W
2S43
9S0D
2S4K
IF51
FF04
IT51
2S3Q
3FJH
IS01
IS16
9FK2
2FJE
2S5B
3S2K
3S41
3S1P
2FJM
FF47
2S6L
2S27
3E45
IT54
IS05
FC95
7S20
IT67
3T62
5S80
2S4T
9S0E
IT69
IS3S
5S94
2S57
IS3Q
2S6C
3S2V
6T50
3T27
7T51
3T53
2T58
3T55
IT61
IT57
2T37
IFL2
5S82
3S1U
3S1R
3S1T
3S1S
IT68
2T60 2T53
IT53
3T60
3T52
3T58
2T54
IT62
FF45
5S85
IS10
FS64
3S1F
3T50
IT50
3T59
2T62
2S6F
2R22
3S82
IS04
9R04
IT64
IT60
IT52
IT59
9R03
2T59
9T52
IT28
3T54
FR01
3S69
3F06
2T61
2T51
3T61
2T38
3S6V
3S1X
2R15
2R26
2R25
2R21
3T56
9T50
9T51
6T54
2T52
3T51
IT55
3S6W
3S1E
IR04
2R09
2S62
IS3K
2S5M
2S56
3S1W
2S11
IS25
3S56
2S6P
3S2F
2S37
3S57
3S2G
3S6A
IR03
3R01
IT58
IT65
2S63
3S6D
3S5Y
2R52
2R23
IR00
2R17
3S6F
3S5Z
2R51
IS58
IT63
5FK1
3B27
2B22
3S06
3S60
3S6E
IS40
5R00
2S61
2R08
2R14
3T57
FF49
2B42
2S26
2R07
2R24
FG1D
2G93
FS01
3S15
2R19
FG1F
FG1C
2S66
3S1V
FG1E
2G92
2S4N
3S6G
IT66
IFLF
2B33
2B29
3S58
3S5W
FG1G
FG33
9S08
3R00
FF46
2B31
2B23
9S12
2B25
9S96
3S67
2B38
IS08
3S65
2S89
IS00
FG1L
FG1H
3B09
3S61
IF88
IFL4
9S94
9S95
FG1K
9S11
3S6C
IF87
FG1M
FG11
3S6B
9C00
FG1N
2G9F
2S12
9C01
FG12
2B34
2GA1
9S97
9S10
9S13
3F19
FG14
FG13
FB00
3GE4
2R13
2R16
IT56
2UB0
2GA3
2GA5
5GA1
2GE0
5GA0
2GA0
3GE3
2B32
FS31
7S01
3F22
IF22
3F20
2R12
2R49
FG16
FG15
2B43
FGA0
IS09
2R11
FR07
FG1A
FG18
FG17
IS26
2R18
CUA0
9GA1
IGE1
3GE1
2GA2
2GA6
3GA4
7GE0
3GA3
3S66
IS17
2F20
FG1Q
FG19
2B30
3F23
2R00
IR01
FG2J
FG1B
2R50
IR07
3UU0
FGA1
3GE2
3S68
9GE1
3F24
IF23
3F12
3R13
2R06
2R04
3R10
FR02
FR03
IUU3
7UU3
FG0H
9GE2
2F03
3F21
2R10
FR06
7UU1
3UU3
IUU4
FUU1
3GE0
2R01
FR04
IUD5
IUU5
FGA6
IGE0
IF21
2F21
2R05
2R03
FR05
IC78
2U14
FU03
FG1P
3R11
3R02
FC99
FGA5
2R48
2R02
2R53
FC97
2G9E
9GE0
9R00
FR00
FC98
2U29
IUU0
FGA3
7GE1
6R00
IU40
3U21
IU19
2U10
IUU1
3F05
IR02
FUD2
2UE5
FGA2
IF07
IR05
2UB6
IUB1
7UA3
7UA5
IUB6
3U15
5UA0
3U41
3F07
3R07
7U48
3U20
IU01
FUA4
IU44
3F03
IU21
CU05
IUB2
3U12
2UB7
7U42
9U41
IU26
3U13
7UA6
7UD2
IU47
IU43
2UB5
3F02
3F01
2F02
7F01
3F10
IF05
2R47
2U04
3U03
3UB1
2U71
3U16
7U43
3U59
FUD3
IF03
IF01
3F04
FC96
IU64
3U83
3UB0
IUA6
6UD1
3U74
IUB5
7UA7
IF04
7F00
2F00
3F11
2F06
7F05
IF02
IF08
IF06
FU06
IU25
IU02
7UC0
IUB4
3U53
FU05
2U05
IU09
2U13 2U12
2UB8
7U06
IU30
IU07
IU12
FU02
IU50
3U61
IU41
3U69
3U75
IU06
7U03
FU04
3UB7
3U70
3U17
IU20
2U02
IU29
IU45
3U18
IU13
3U82
2UA4
9U42
3U19
IUB0
3UB5
IUA5
FU76
2U08
3U09
IU04
3U14
IU10
IU61
IU52
IUS7
3U25
3F09
3U10
2U07
3U22
CU04
CU03
7UA0
3UA0
FUA0
3UB3
3UB2
FS2Y
FU62
IU08
3U63
7UA4
7F03
9FD2
IFD3
2FD1
3U60
FU55
2U03
IU24
2U21
FC63
3U68
9F25
9F26
2U01
IU05
IUS8
7F04
9FD1
3FD6
IFD1
FU53
FU08
FU72
IU11
7U41
FC62
2F04
2F05
3FD3
3FD4
6FD1
3FD1
3FD7
9FD5
3F53
IFD2
FU52
CU00
IU16
FU07
3F08
FL37
IU48
IU63
FS2W
3U01
3U27
3U73
IUD6
IF55
2FKC
IU03
IU49
3U62
IU27
FU51
3U00
2U55
FC85
FU67
2U06
FC86
7FD1
7F54
FF58
3F54
3F66
3FD2
3F69
2F53
9CH0
IFD5
7F53
3F67
5FK2
FU66
FU75
FU01
IU22
2U22
IUD3
IT06
FU61
FU63
IUD7
IF57
FL42
FU60
3U72
6U40
FU57
7U00
3FLJ
FU68
FU73
IFD4
FF50
IU51
1U40
3T31
3T07
FU74
FU56
IU62
IF56
IF47
FU59
FU78
FU58
IU28
3F68
IR06
FU54
FUS0
IT16
2T11
IR08
FU50
FC61
FC64
3UU1
3T20
FU49
FU48
IT05
3U08
2T31
FC9C
2G15
3U28
IT15
9FL1 9FL2
FC70
FC72
FC79
3U04
IT14
3T24
IT17
IUM0
FC78
FU77
IT07
2T30
2T28
2T25
IT13
3T12
2T29
2T23
2T24
3T29
2T21
2T40
IT32
IT08
FUM0
FC76
FC82
7U40
FT05
3T18
3T23
IT29
3T14
3T17
6T03
IT25
2T13
3T04
IT27
FL38
IT21
3T05
2T35
FC73
2G19
7T04
3T06
2G11
2T26
IT26
2T20
2T43
2G18
FT00
3T08
6T05
IT23
FC74
FC75
FC84
FL31
FC77
IT22
IT04
3T13
2T34
3T09 3T15
3T19 3T16
IT30
FT04
FL30
FL39
FC83
2T15 2T16
IT12
2T27
6T04
7T01
3T11
IT09
IT10
3T10
IT03
FC81
IT11
3T25
3T28
3T26
2T42
7T02
IT24
2T41
2T10 2T36
FT08
FT07
6T02
3T00 3T21
FT06
3T03
6T00
3T02
IT02
2T39
6T01 2T08
2T05
IT18
2T04
3T01
IT20
2T06
5T02
2T09
IT19
2T03
2T07
2T02
IT00
IT01
3E90
IEE1
2ECY
9EC2
2EC6
FFC7
IE65
IE66
FEC0
3ECU
FE36
FECA
FECW
FFC8
IEC7
FFC1
FFC6
IEC6
IEC5
7EC0 7E02
IEC4
FECE
FECJ
FE35
FEC1
FECM
3ECE
3E23
FEC2
3ECD
9EC0
3ECA
FECF
FEC5
9FC1
2EC8
FFC2
5EC0
FEC4
FFC5
FFB4
FFC4
2ECV
FFC3
FFB3
2EC0
IEE2
FFB2
9FC2
10-38-2
Q552.2E LA
3EC1
FECD
FEC6
FECK
FECL
FECP
FECN
FECC
FECG
2
SSB Layout Bottom
2011-02-09
3139 123 6519
19100_805_110209.eps
110209
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 261
10.39 B01 313912365351, 313912365371
Common Interface
Common Interface
B01A
+3V3
3F01
19
3F03-2 2
1
3F03-1
IF02
8
100R
7
100R
CA-CD2n
3EN1
3EN2
G3
CA-DATAENn
2
100R
CA-MOVAL
CA-MOSTRT
CA-CD1n
IF01
3F02
CA-MOCLK
3
4
5
6
7
8
9
IF03
2
18
MOCLK
17
16
15
14
13
12
11
1
MOVAL
MOSTRT
CA-DATADIR
CA-ADDENn
MOCLK
MOVAL
10
MOSTRT
MDO0
+3V3
2F02
19
MDO1
RES
MDO2
100n
20
7F01
74LVC245A
1
MDO3
3EN1
3EN2
G3
MDO4
IF05
CA-MDO0
3F04-1 1
2
8 100R
IF06
CA-MDO1
CA-MDO2
CA-MDO3
CA-MDO4
CA-MDO5
CA-MDO6
CA-MDO7
3F04-3 3
3F05-1 1
3F05-3 3
3F04-2
6 100R
3F04-4
8 100R
3F05-2
6 100R
3F05-4
2
3
4
5
6
7
8
9
7 100R
4
5 100R
2
7 100R
4
5 100R
1
2
18
MDO0
MDO5
17
16
15
14
13
12
11
MDO1
MDO2
MDO3
MDO4
MDO5
MDO6
MDO7
MDO6
MDO7
10
CA-WAITn
+3V3
CA-INPACKn
2F03
15-BIT ADDRESS
3EN1
3EN2
G3
XIO-A01
XIO-A02
XIO-A03
XIO-A04
XIO-A05
XIO-A06
XIO-A07
CA-WP
CA-VS1n
1
1
2
CA-ADDENn
2
17
16
15
14
13
12
11
19
CA-A00
3
4
5
6
7
8
9
CA-A01
CA-A02
CA-A03
CA-A04
CA-A05
CA-A06
CA-A07
10
XIO-A00
18
RES
100n
20
7F02
74LVC245A
5
10K
7
10K
3F07-3
3
6
10K
3F07-1
1
8
10K
2
1
1
20
17
16
15
14
13
12
11
2
CA-ADDENn
2
1
19
CA-A08
3
4
5
6
7
8
9
CA-A09
CA-A10
CA-A11
CA-A12
CA-A13
CA-A14
10
XIO-A09
XIO-A10
XIO-A11
XIO-A12
XIO-A13
XIO-A14
RES
100n
3EN1
3EN2
G3
18
+3V3
2F05
8-BIT DATA
17
16
15
14
13
12
11
1
2
CA-DATADIR
CA-DATAENn
CA-D00
3
4
5
6
7
8
9
CA-D01
CA-D02
CA-D03
CA-D04
CA-D05
CA-D06
CA-D07
10
18
XIO-D01
XIO-D02
XIO-D03
XIO-D04
XIO-D05
XIO-D06
XIO-D07
1
19
2
3EN1
3EN2
G3
XIO-D00
RES
100n
20
7F04
74LVC245A
+3V3
2F06
CONTROL
7F05
74LVC245A
RES
100n
3EN1
3EN2
G3
18
1
2
19
+3V3
3F08-1
8
10K
7
10K
3 3F08-3 6
10K
3F08-4
4
5
10K
2
1
3F08-2
3F09-1
8
10K
7
10K
3F09-3
3
6
10K
3F09-4
4
5
10K
2
1
3F09-2
IF04
3F10-1
8
10K
7
10K
3F10-3
3
6
10K
3F10-4
4
5
10K
2
3F10-2
3F12
10K
3F11-2
7
10K
3F11-3
3
6
10K
3F11-4
4
5
10K
3F11-1
8
1
10K
+3V3
2
IF08
+5VCA
+3V3
1P00
CA-REGn
3
4
5
6
7
8
9
CA-CE1n
CA-CE2n
CA-OEn
CA-WEn
CA-IORDn
CA-IOWRn
XIO-D10
CA-MIVAL
CA-MICLK
CA-A12
CA-A07
CA-A06
CA-A05
CA-A04
CA-A03
CA-A02
CA-A01
CA-A00
CA-D00
CA-D01
CA-D02
CA-WP
CA-CD1n
MDO3
MDO4
MDO5
MDO6
MDO7
CA-CE2n
CA-VS1n
CA-IORDn
CA-IOWRn
CA-MISTRT
CA-MDI0
CA-MDI1
CA-MDI2
CA-MDI3
+5VCA
CA-MDI4
CA-MDI5
CA-MDI6
CA-MDI7
MOCLK
CA-RST
CA-WAITn
CA-INPACKn
CA-REGn
MOVAL
MOSTRT
MDO0
MDO1
MDO2
CA-CD2n
CA-ADDENn
2
1
17
16
15
14
13
12
11
3F07-2
+5VCA
2F04
XIO-A08
100K
3F07-4
CA-D03
CA-D04
CA-D05
CA-D06
CA-D07
CA-CE1n
CA-A10
CA-OEn
CA-A11
CA-A09
CA-A08
CA-A13
CA-A14
CA-WEn
CA-RDY
+3V3
7F03
74LVC245A
XIO-D09
XIO-D08
XIO-OEn
XIO-WEn
XIO-D14
XIO-D15
CA-WAITn
4
CA-RDY
IF07
XIO-D11
3F06
CA-RST
RES
100n
20
7F00
74LVC245A
1
0R3
20
+T
2F00
TRANSPORT STREAM FROM CAM
+5VCA
71
72
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
1X07
REF EMC HOLE
1X04
EMC HOLE
1X08
REF EMC HOLE
1X01
REF EMC HOLE
92789-055LF
1
10
+5V
22u 16V
B01A
RES 2F01
10-39-1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_001_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 262
Flash
Flash
B01B
12
7F20
H27U4G8F2DTR-BC
Φ
37
100n
100n
2F21
2F20
+3V3
VCC
[FLASH]
4G × 16
3F20-1 1
8
3F20-3 3
6
3F21-1 1
8
3F21-3 3
6
100R
3F20-2
100R
3F20-4
100R
3F21-2
100R
3F21-4
2
7
4
5
100R
2
7
100R
4
5
100R
3F22-2
+3V3
XIO-OEn
XIO-WEn
NAND-WPn
2
3F23
3F22-4
4
100R
3F22-3 3
10K
3F22-1 1
5 100R
16
17
9
8
18
19
7
7
6
100R
8
100R
IF22
3F24
+3V3
NC
2K2
CLE
ALE
CE
RE
WE
WP
R
B
IF23
3F19
VSS
13
NAND-RDY1n
0
1
2
3
IO
4
5
6
7
IF21
NAND-CE1n
NAND-CLE
NAND-ALE
29
30
31
32
41
42
43
44
100R
1
2
3
4
5
6
10
11
14
15
20
21
22
23
24
25
26
27
28
33
34
35
38
39
40
45
46
47
48
36
XIO-D00
XIO-D01
XIO-D02
XIO-D03
XIO-D04
XIO-D05
XIO-D06
XIO-D07
10K
B01B
+3V3
10-39-2
Q552.2E LA
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_002_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 263
USB Hub
B01C
USB Hub
B01C
IF44
100n
2F25
+3V3
32
26
11
IF42
2 3F31-2 7
10K
IF32
+3V3
3F30
IF39
4 3F31-4 5
31
30
27
35
22
24
25
100n
100n
2F33
100n
2F32
100n
2F31
100n
2F30
1u0
2F29
2F28
XTALIN|CLKIN
XTALOUT
IF35
OSC1
USBDP_DN1|PRT_DIS_P1
USBDM_DN1|PRT_DIS_M1
BC_EN1|PWRTPWR1
RESET
OSC2
USBDP_DN2|PRT_DIS_P2
USBDM_DN2|PRT_DIS_M2
SUSP_IND|LOCAL_PWR|NON_REM0
BC_EN2|PWRTPWR2
TEST
DP
USBUP
DM
VBUS_DET
OSC3
USBDP_DN3|PRT_DIS_P3
USBDM_DN3|PRT_DIS_M3
BC_EN3|PWRTPWR3
RBIAS
SDA|SMBDATA|NON_REM1
SCL|SMBCLK|CFG_SEL0
HS_IND|CFG_SEL1
NC
13
2
1
12
USB-DP
USB-DP2
USB-DM
9F26
USB-DM2
RES 9F29
USB-DP3
RES 9F30
3F37
9F25
USB-DM3
10K
IF36
17
4
3
16
USB-OC2n
USB-DP2
USB-DM2
+5V
IF37
19
7
6
18
USB-OC3n
USB-DP3
USB-DM3
4 3F34-4
8
9
20
21
FF33
+5V-USB2
100K
3 3F34-3 6
USB-OC2n
100K
10K
2 3F34-2 7
VIA
38
39
40
41
GND_HS
37
10K
IF41
12K IF40
3 3F31-3 6
28
+3V3
3F32
IF30
33
VDD_3V3
Φ
USB HUB
+T 0R3
10p
IF33
RESET-USBn
IF31
36
23
15
5
10
29
CR PLL
FILT
24M
IF34
USB-DP
USB-DM
34
1u0
100n
2F27
7F25
USB2513B-AEZG
3
2F35
3F35
10p
4
2
1
1F25
14
3F28
+3V3
1M0
2F26
IF43
10K
2F34
10-39-3
Q552.2E LA
3F36
+3V3
USB-OC3n
100K
1 3F34-1 8
10K
SIDE USB
100K
1P08
+5V-USB2
USB-DM2
USB-DP2
FF36
FF37
5
FF32
1
2
3
4 IF45
6
5401
FF38
USB-DM3
USB-DP3
RES
1F24
+5V
FF39
1
2
3
4
5
FF30
FF31
6
7
502382-0570
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_003_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 264
SD Card
SD-Card
B01D
3F40
+3V3
+T
22u 16V
B01D
2F40
10-39-4
Q552.2E LA
FF45
+3V3-SD
0R3
+3V3
4
3F41-4
IF47
5
47K
SDIO-DAT3
3 3F41-3 6
SDIO-DAT3
SDIO-CMD
2
SDIO-CMD
3F44-2
FF47
7
100R
3 3F43-3 6
100R
47K
3F45 RES
SDIO-CLK
SDIO-CLK
1
10K
2
3F41-2
7
47K
SDIO-DAT0
1
3F41-1
SDIO-DAT0
SDIO-DAT1
SDIO-DAT1
SDIO-DAT2
8
47K
1 3F42-1 8
1P09-1
FF48
SDIO-DAT2
47K
2
3F44-1
100R
3F43-2
+3V3-SD
8
FF49
FF41
7
100R
1
3 3F44-3 6
3F43-1
100R
8
FF42
FF43
3F42-2
3F42-3
6
FF46
1P09-2
7
SDIO-CDn
SDIO-CDn
FF44
SDIO-WP
SDIO-WP
FF50
47K
3
14
16
SCDA7A0200
100R
2
13
15
1
2
3
4
5
6
7
8
9
10
11
12
SCDA7A0200
47K
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_004_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 265
PNX85500 Control
PNX85500-Control
B01E
+3V3-STANDBY
3F67
IF50
512K
FLASH
5
D
BACKLIGHT-BOOST
7F53 RES
PDTA114EU
PNX-SPI-SDO
IF52
6
C
10K
RES
10K
3F66
IF53
1
S
PNX-SPI-CSBn
IF54
3
W
7
HOLD
+5V
PNX-SPI-CLK
PNX-SPI-WPn
+3V3-STANDBY
FF29
VSS
IF55
BOOST-PWM
IF61
7F54-1 RES
BC847BPN(COL) 6
7F54-2 RES
BC847BPN(COL)
SPI-PROG
4
IF56
4
IF57
FF04
47K
Q
Φ
+3V3
+3V3
3F68 RES
2
3F52
8
7F52
M25P05-AVMN6
VCC
IF51
PNX-SPI-SDI
+3V3
100n
RES
2F52
100p
+3V3-STANDBY
10K
+3V3-STANDBY
2F49
2
1
5
IF62
SDM
3
FF58
1K0
RES
RES
3F69
10K
1u0
2F53
MAIN NVM
+3V3
RES
9CH0
10K
3F54
3F53
DEBUG ONLY
IF58
2F58 RES
3F58
IF59
1
2
3
SCL
ADR
SDA
100R
FF62
FF63
WC
RES
1F52
3F62
SDA-SSB
8
Φ
(8K × 8)
EEPROM
0
1
2
FF61
SCL-SSB
100n
7F58
3F63
4
100R
SCL
1
2
3
SDA
5
7
6
5
FF55
3F59
100R
3F60
SCL-UP-MIPS
FF56
SDA-UP-MIPS
100R
4
B01E
10K
10-39-5
Q552.2E LA
FF57
LEVEL
DEBUG / RS232 INTERFACE
TXD-UP
RXD-UP
RESET-STBYn
SPI-PROG
FF65
FF66
100R
SHIFTED
RES
1F51
3F64
FF64
3F65
100R
7
6
1
2
3
4
5
UP
FOR
DEBUG
USE ONLY
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_005_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 266
Tuner
B01F
Tuner
B01F
IF10
IF11
*
15p
820R
1p0
*
AF73
IF16
330n
3F82 RES
2F70 RES
2F62
*
*
RES 5F76
5F74
*
220R
2F80
10n
4 3F79-4
2F82
GND2
8
AGC CONTROL
IF80
2p2
2F77
2F79
RES
2F76
220R
2F65 RES
2F73
2F72
*
AF72
1 3F79-1
*
PNX-IF-N
IF79
3F81
220R
1
IF14
2F64
IF15
15p
IF-
10n
IF+
10n
2F91
* For BR NIM Tuner Only
3K3
3F78
4
470n
TUN-IF-P
2
5F70
TUN-IF-N
5F73
IF13
2F90
IF86
3
2F63
680n
2F66
10n
1K0
2F92
3F72
BA591
4K7
*
6F72
9F06
*
IF12
220R
5F66
3F80
+5V-TUN-PIN
3F71
9F05
47n
2F85
100p
IF76
5F71
IF78
10n
IF72
RES 2F95
100n
6
2F75
10n
10n
+5V-TUN-PIN
9F02
OUTPUT2
IF74
7
FF01
IF-AGC
FF82
9F03
1
VCC
INPUT2
VAGC
OUTPUT1
5
IF81
3
*
3F77
4K7
IF-AGC
FF75
FF81
IF82
PNX-IF-AGC
100p
2F61
TUN-IF-N
TUN-IF-P
RES 2F96
100n
* 9F04
IF77
INPUT1
4
5
4
GND
RES 2F9D
RES 2F9C
RES 2F9B
RES 2F9A
RES 2F99
RES 2F98
RES 2F97
4n7
FF00
O1
O2
2
PNX-IF-P
*
IF73
X7251M
36M17
AF71
AF70
2F93
TUN-P6
TUN-P7
2F60
RES 2F81
4n7
FF76
*
I
ISWI
2F74
GND1
6p8
6p8
6p8
6p8
6p8
6p8
6p8
1
2
3
FF74
10n
10n
2F78
IF75
*
+5V-TUN-PIN
7F75
UPC3221GV-E1
1F75
TUN-P1
2F71
9F01
9F00
NC
IF_OUT2
13
12
IF_OUT1
11
4MHZ_REF
14
10
9
B+_TUN
I2C_SDA
8
7
I2C_ADR
5
TUN
RF_AGC
4
B+_LNA
3
2
1
RF_IO
16
I2C_SCL
TUNER
15
6
*
FF71
1T01
RES 2F59
RES
ATB2012
10n
IF89
15p
47R
2F86
3F75
15p
47R
IF87
TUN-P6
SDA-TUNER
2F94
IF88
IF90
SELECT-SAW
SCL-TUNER
TUN-P7
7F70
PDTC114EU
10n
3F76
RES
2F84
* For EU Hybrid Tuner Only
9F71
5F72 RES
Item No.
1T01
2F61
2F62
9F02
9F03
9F04
9F05
9F06
2F73
2F82
2F72
2F80
2F77
5F71
5F74
30R
Component
Europe
Brazil
TH26X3
FA23X7
4u7
RES
10p
5p6
Used
RES
RES
Used
RES
Used
RES
Used
RES
Used
1p0
RES
1p0
RES
12p
15p
12p
15p
22p
18p
560n
680n
820n
680n
22u
*
+5V-TUN-PIN
+5V-TUN
Remarks
2F88
10-39-6
Q552.2E LA
For final component value, please refer to partlist.
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_006_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 267
Toshiba Supply
Toshiba supply
B01G
+1V2-BRA-DR1
+3V3
5FA3
30R
2
10u
OUT
5FA4
IN
2FA4
3
100n
7FA3
LD1117DT12
30R
2FA3
+1V2-BRA-VDDC
FFAF
1
COM
100n
B01G
2FA2
10-39-7
Q552.2E LA
FFA2
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_007_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 268
HDMI
HDMI
B01H
HDMI CONNECTOR SIDE
1P05
DRX2+
DIN-5V
DRX2DRX1+
DRX1DRX0+
DRX0DRXC+
DRXCPCEC-HDMI
FFB1
FFB2
FFB3
FFB4
20
22
DRX-DDC-SCL
DRX-DDC-SDA
47K
8
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
FFB5 21
23
3FBF-1
B01H
1
10-39-8
Q552.2E LA
DRX-DDC-SCL
DRX-DDC-SDA
2
3FBF-2
7
DIN-5V
47K
DIN-5V
DRX-HOTPLUG
FFB6
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_008_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 269
VGA
VGA
B01I
FFC1
CDS4C12GTA
12V
RES 6FC1
100p
1FC1
RES 2FC1
3FC5
CDS4C12GTA
12V
RES 6FC2
100p
1FC2
G-VGA
18R
100p
RES 6FC3
FFC4
1FC3
RES 2FC3
FFC3
CDS4C12GTA
12V
3FC7
B-VGA
18R
FFC5
V-SYNC-VGA
4K7
3FC3
CDS4C12GTA
12V
RES 6FC4
FFC6
1216-02D-15L-2EC
H-SYNC-VGA
9FC6
47p
9FC5
1FC4
CDS4C12GTA
12V
RES 6FC6
47p
2FC6
FFC9
47p
RES 6FC7
10K
3FC4
4K7
VGA-SDA-EDID-HDMI
9FC2
RES
VGA-SDA-EDID
9FC3
10K
RES
3FC2
CDS4C12GTA
12V
RES 6FC5
47p
9FC1
FFC8
CDS4C12GTA
12V
RES
3FC1
1FC5
2FC5
FFC7
VGA-SCL-EDID-HDMI
9FC4
RES
VGA-SCL-EDID
RES 6FC8
47p
1FC6
+5V-VGA
CDS4C12GTA
12V
17
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
2FC4
VGA
CONNECTOR
3FC6
RES 2FC2
1E05
R-VGA
18R
FFC2
2FC7
B01I
2FC8
10-39-9
Q552.2E LA
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_009_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 270
Temperature sensor & headphone
Temperature sensor & headphone
B01J
2
+VS
SDA
A1
SCL
1K0
3FD2
9FD2 RES
9FD1 RES
100n
IFD3
6
IFD5
5
A2
9FD5
RES
1
8
2FD1
1K0
IFD4
4
100R
100R
IFD1
7
A0
1K0
3FD4
OS
1K0
3FD7
SCL-SSB
3
3FD6
SDA-SSB
IFD2
7FD1
LM75BDP
GND
3FD3
LTST-C190KGKT
RES
3FD1
+3V3
RES
RES
1329
5
4
1
2
3
502382-0370
1328
MSJ-035-12D-B-AG-PBT-BRF
FFDA
AMP1
2
3
1
22n
FFDB
22n
2FDD
CDS4C12GTA
12V
2FDC
RES
6FD3
CDS4C12GTA
12V
1FD3
1FD2
6FD2
RES
1
1K0
1K0
3FDG-1
3FDG-2
7
8
AMP2
2
B01J
6FD1
10-39-10
Q552.2E LA
FFDC
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_010_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 271
Tuner Brazil
Tuner Brazil
B01K
5FE0
IF63
IF64
+1V2-BRA-VDDC
+2V5-BRA
+3V3-BRA-FLT
1u0
100n
2FF1
100n
2FF0
100n
2FE5
100n
2FE4
2FE3
1u0
2FE0
30R
AGND
5FE3
IF66
IF65
+3V3-BRA-FLT
5FE4
+3V3-BRA
30R
1u0
100n
2FF6
100n
2FF5
100n
2FF4
100n
2FF3
2FF2
1u0
2FE6
30R
AGND
5FE5
IF67
IF68
+1V2-BRA-DR1
IF48
5FE7
+3V3-BRA
+3V3
1u0
100n
2FF9
100n
2FF8
2FF7
1u0
2FE8
30R
30R
5FE8
IF69
+2V5-BRA
7FE3
LD3985M25
5FE9
1
+5V
30R
18p
2FG3
25M4
4 2
1u0
3
100n
2FG1
1FE0
2FG0
30R
1
18p
3
IN
OUT
INH
BP
FF03
5
+2V5-BRA
4
BFE2
28
27
2FG7
AGND
100n
2FG8
2FG9
100n
2FH6
100n
24
25
2FH7
100n
26
AGND
100n
BFE3
39
AGND
40
+3V3-BRA-FLT
8
3FE6
10K
3FE7
1
41
10K IF29
7
11
SCL-SSB
SDA-SSB
3FE8
100R
3FE9
IF49
100R
45
46
RSEORF
SBYTE
P
ADQ_AI
N
SLOCK
P
AD_VREF
N
SRCK
AD_VREF
SRDT
STSFLG1
DTCLK
AGCCNTI
DTMB
AGCCNTR
S_INFO
STSFLG0
0
TSMD
1
SYRSTN
AGCI
SLADRS
CKI
SCL
SDA
AGND
TN
VSS
0
1
SCL
SDA
58
53
54
55
1n5
3FG6-4
4
5
33R TS-BR-VALID
1
9F27-1
8
*
3FG6-3
3
6
33R
TS-BR-SOP
2
9F27-2
7
*
1u0
10n
TS-FE-SOP
*
TS-FE-CLOCK
*
TS-FE-DATA
DFE7
DFE8
DFE9
5FG0
3FG7
60
3FG6-2
33R
2
7
9F28
TS-BR-CLOCK
33R TS-BR-DATA
4
9F27-4
5
30R
5FG2
DFF1
30R
IF27
9
3FE5
18K
10
51
2
TS-FE-VALID
DFE6
61
38
1u0
AGND
59
52
2FH4
* To be drawn near PNX85500
2FH3
2FH5
2FH2
43
DR2VDD
34
48
DR1VDD
13
35
49
64
16
36
56
63
PLLVDD
22
RLOCK
P
ADI_AI
N
21
DFF2
IF28
IF-AGC
AGND
10n
30
29
FIL
PBVAL
2FH8
IF17
IF18
VDDS
42
6
5
12
14
3FG2-1
RESET-SYSTEMn
10K
3FG2-2
10K
3FG4-2
4K7
3FG4-1
4K7
+3V3-BRA-FLT
4
15
33
37
44
47
50
57
62
10n
PLLVSS
2FG6
Φ
RERR
AD_DVSS
10n
VDDC
0
XSEL
1
31
2FG4
IF+
IF-
X
O
17
3
2
I
AD_AVDD
18
AD_DVDD
19
32
7FE0
TC90517FG
AGND
AD_AVSS
AGND
20
COM
AGND
23
B01K
2FG2
10-39-11
Q552.2E LA
AGND
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_011_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 272
10.40 B02 313912365351, 313912365371
NANDflash - conditional access
PNX85500: NANDflash - conditional access
B02A
7S00-5
PNX85500
FLASH
J25
J26
H21
H22
H23
H24
H25
H26
G21
G22
G23
G24
G25
G26
F22
F23
IS25
00
01
02
03
04
05
06
07
XIO_A
08
09
10
11
12
13
14
15
XIO-D00
XIO-D01
XIO-D02
XIO-D03
XIO-D04
XIO-D05
XIO-D06
XIO-D07
XIO-D08
XIO-D09
XIO-D10
XIO-D11
XIO
B22
OE_
C22
WE_
XIO-OEn
XIO-WEn
CLK_BURST
CE1_
CE2_
NAND RDY2
RDY1
WP_
INPACK
XIO-D14
XIO-D15
B21
IS26
INPACK
3S15
10K
+3V3
E21
D21
A20
F21
A21
NAND-CE1n
NAND-RDY1n
NAND-WPn
9S08
10K
RES
D22
ALE
C21
NAND
CLE
XIO-A00
XIO-A01
XIO-A02
XIO-A03
XIO-A04
XIO-A05
XIO-A06
XIO-A07
XIO-A08
XIO-A09
XIO-A10
XIO-A11
XIO-A12
XIO-A13
XIO-A14
XIO-A15
D25
D26
C24
D23
C23
B23
A22
E22
F24
F25
F26
E23
E24
E25
E26
D24
00
01
02
03
04
05
06
07
XIO_D
08
09
10
11
12
13
14
15
3S1V
NAND-ALE
NAND-CLE
10K
3S1W
+3V3
IS00
7S00-11
PNX85500
3S01-1 8
33R
3S01-3 6
1
7 3S01-2 2
3 33R
33R 5 3S02-4 4
7 3S02-2 2
33R
33R 8 3S02-1 1
6
3 33R
3S02-3
33R 5 3S01-4 4
33R
CA-MDI0
CA-MDI1
CA-MDI2
CA-MDI3
CA-MDI4
CA-MDI5
CA-MDI6
CA-MDI7
P21
P22
P23
P24
P25
P26
N21
N22
CA-ADDENn
J22
CA-DATADIR
K25
CA-DATAENn
K26
3S03
CA-MICLK
N23
10R
L25
CA-MOCLK
N24
3S31
CA-MIVAL
33R
CA-MOSTRT
N25
L22
L23
CA-MOVAL
J21
L24
CA-RDY
VIDEO_STREAM
0
1
2
3
MDO
4
5
6
7
0
1
2
3
MDI
4
5
6
7
10K
3S1X
+3V3
N26
M21
M22
M23
M24
M25
M26
L21
CA-MDO0
CA-MDO1
CA-MDO2
CA-MDO3
CA-MDO4
CA-MDO5
CA-MDO6
CA-MDO7
ADD_EN
VS
K23
1
K24
2
CD
DATA_DIR
K21
1
K22
2
DATA_EN
I
MCLK
O
9S00
CA-VS1n
CA-MOCLK
CA-CD1n
CA-CD2n
CA
+3V3
MISTRT
TS-FE-DATA
3S1R
TS-FE-CLOCK
3S1S
MOVAL
TS-FE-VALID
3S1T
OOB_EN
TS-FE-SOP
3S1U RES
MIVAL
MOSTRT
J23
RES
9S01
CA-MISTRT
J24
+3V3
560R
560R
RES
560R
560R
RDY
RST
VCCEN
VPPEN
T21
DATA
T23
ERR
T22
TNR_SER1 MICLK
R23
MIVAL
R22
SOP
TS-FE-DATA
TS-FE-DATA
3S23
TS-FE-CLOCK
TS-FE-VALID
TS-FE-SOP
TS-FE-CLOCK
3S24
TS-FE-VALID
3S28
TS-FE-SOP
L26
CA-RST
3S29
TS-FE-ERR
470R
470R
RES 470R
RES 470R
100n
7S02
5
33R
B02A
3S04
2S09
10-40-1
1
4
2
3
74LVC1G08GW
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_012_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 273
SDRAM
SDRAM
B02B
3S07
180R 1%
DDR2-VREF-CTRL2
2S12
CLK
N
P
DQS0
N
P
DQS1
N
P
DQS2
N
P
DQS3
N
P
CASB
CKE
CSB
ODT
PCAL
RASB
WEB
VREF
1
2
N5
N4
DDR2-CLK_N
DDR2-CLK_P
3S30
10R
3S33
10R
E2
E3
DDR2-DQS0_N
DDR2-DQS0_P
D3
D4
DDR2-DQS1_N
DDR2-DQS1_P
R1
R2
DDR2-DQS2_N
DDR2-DQS2_P
T3
T4
DDR2-DQS3_N
DDR2-DQS3_P
K3
K4
L5
M4
M1
M5
H3
DDR2-CAS
DDR2-CKE
DDR2-CS
DDR2-ODT
DDR2-RAS
DDR2-WE
A2
V1
DDR2-CKE
3S6Q
10K
DDR2-ODT
3S6P
10K
RES
DDR2-VREF-CTRL2
DDR2-VREF-CTRL3
3S0V
FS01
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
DQ
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
1%
F3
C2
F2
C3
B4
F1
C1
E1
F4
B2
E5
C5
A4
G5
B3
F5
U3
P2
U2
P3
N1
U1
P1
T1
V4
R5
U5
P5
N3
V3
R4
V5
IS42
261R
DDR2-D0
DDR2-D1
DDR2-D3
DDR2-D2
DDR2-D6
DDR2-D5
DDR2-D4
DDR2-D7
DDR2-D8
DDR2-D9
DDR2-D10
DDR2-D11
DDR2-D12
DDR2-D13
DDR2-D14
DDR2-D15
DDR2-D16
DDR2-D17
DDR2-D19
DDR2-D18
DDR2-D22
DDR2-D23
DDR2-D20
DDR2-D21
DDR2-D24
DDR2-D30
DDR2-D26
DDR2-D25
DDR2-D28
DDR2-D31
DDR2-D27
DDR2-D29
M0
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A13
DDR2-A14
2S24
FS02
DDR2-VREF-CTRL3
100u 2.0V
3S06
180R 1%
3S20
180R 1%
+1V8
0
1
DM
2
3
J1
J3
K1
G4
L3
G3
L2
H5
L1
J5
J2
M3
J4
M2
K5
100p
D1
D5
R3
T5
0
1
2
3
4
5
6
7
A 8
9
10
11
12
13
14
100n
2S25
DDR2-DQM0
DDR2-DQM1
DDR2-DQM2
DDR2-DQM3
MEMORY
0
1 BA
2
100n
2S17
DDR2-BA2
H1
H2
G1
100p
2S20
7S00-8
PNX85500
DDR2-BA0
DDR2-BA1
3S22
B02B
180R 1%
10-40-2
Q552.2E LA
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_013_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 274
Digital video in
Digital video in
B02C
7S00-6
PNX85500
HDMI_DV
HDMIA-RX2+
HDMIA-RX2-
T25
T26
HDMIA-RX1+
HDMIA-RX1-
U25
P
RX1_A
U26
N
P
RX0_A
N
HDMIA-RX0+
HDMIA-RX0HDMIA-RXC+
HDMIA-RXC+3V3
SCL
DDC_A
SDA
V25
P
RX2_A
V26
HOT_PLUG_A
N
Y26
Y25
DDCA-SCL
DDCA-SDA
W25
P
W26
RXC_A
N
IS01
3S0W
W24
IS10
T24
RREF
12K
10u
B02C
RES
2S2E
10-40-3
Q552.2E LA
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_014_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 275
Audio
B02D
Audio
B02D
3S0Z
+24V-AUDIO-POWER
+2V5-AUDIO
3S53-1
4R7
100R
1u0
1u0
3S10
100R
2S2L
IS1B
1u0
AF8
L
AIN5
AE8
R
220n
2S3J
2S2S
10u RES
100u 4V
IS1S
3S3G-4
5
DBS8
AE5
3S39
-AUDIO-R
100R
ADAC(3)
33R
ADAC(4)
3
3S36-3
10K
6
5
10K
ADAC(5)
33R
3S3U
3S36-4
2S2H
4
47p
ADAC(6)
+24V-AUDIO-VDD
33R
SPDIF_OUT
2S3D
AF5
56R
7S05-3
LM324 8
11
3S3H
AE1
1
AF2
VREF_AADC
2
AE3
I2S_OUT_SD 3
AF3
AC8
VCOM_AADC
4
3S3F
4
33R
AD8
IS1A
10
9
3S3G-2
2
7
4
AD4
OSCLK
AD1
SCK
AD2
WS
I2S_OUT
AB9
POS
AB8
VR_AADC
NEG
IS03
ADAC(2)
SPDIF_IN1
1n0
7
1
2
3
4
5
6
ADAC(2)
1n0
2S38
2S32
IS07
3
ADAC(5)
4
7S05-1
LM324
1
AUDIO-OUT-L
2
11
3S37
3S6L
10K
22K
2S2K
+3V3
47p
+3V3-ARC
+24V-AUDIO-VDD
3S11
IS1L
1R0
5
ADAC(6)
4
IS06
7S05-2
LM324 7
AUDIO-OUT-R
6
14
IS1D
&
3
2
1 3S18-1 8
IS1G
SPDIF-OUT
220R
100n
3S18-2
+3V3
2S3K
7
SPDIF-OUT-PNX
11
7
2
+3V3
3S34
6
14
&
&
8
+3V3
10
2S3L
180R
100n
5
IS1K
2S3M
3S6M
IS44
eHDMI+
100n
3S25
7
IS1E
+3V3-ARC
7S09-3
74LVC00APW
9
+3V3-ARC
7S09-4
74LVC00APW
12
14
SEL-HDMI-ARC
22K
2S2J
47p
+3V3-ARC
7S09-2
74LVC00APW
4
3S32
10K
&
11
+3V3
13
7
SPDIF-OUT-PNX
7S09-1
74LVC00APW
1
68R
IS19
ADAC
AD9
L
AIN4
AC9
R
6
1n0
2S39
7
10K
3S3G-3
1n0
2S3A
2
8 3S36-1 1
2S2G
ADAC(1)
3
1n0
2S3B
3S17-2
10K
7
33R
14
3S13-2
22K
1u0
IS1Q
AD7
AE7
AF7
AD6
AE6
AF6
8
33R
220R
8
100n
2
2S33
10u
2S3G
AUDIO-IN4-R
22K
8
10K
100n
2S3H
1
1
IS1P
3S3G-1
AC6
P
ADACR
AB6
N
AE9
L
AIN3
AF9
R
1u0
10u
2S3E
AUDIO-IN4-L
AD10
L
AC10 AIN2
R
1
IS1N
1u0
1n0
2S3C
2S30
22K
3S13-1
+AUDIO-L
47p
3 3S18-3 6
6
10K
3S17-1
3S38
100R
+24V-AUDIO-VDD
AUDIO
AC7
AE10
L
P
AB7
AIN1
ADACL
AF10
R
N
1u0
3
3S17-3
6
3S36-2
10K
2S36
7
22K
5
3S13-3
3
7S05-4
LM324 14
13
11
100n
AUDIO-IN3-R
IS02
7S00-2
PNX85500
2S31
2S3Q
4
1u0
5
10K
10K
AUDIO-IN3-L
3S17-4
4
12
ADAC(1)
2
1u0
10K
4
IS0R
3S13-4
+2V5
IS1M
2S2Y
2S41
3S16-4 5
4S14
1u0
IS0V
4R7
2S42
4
3
2S2Z
6
10K
3S51
3S16-3 3
INH
IS13
1u0 RES
22K
BP
FS03
1
COM
2S2T
100R
4
IN
2S34
2S2V
OUT
2
3S53-4
7
10K
220R
2
3S16-2
7
5
IS12
2S2R
IS1J
2 3S12-2
3S19
AUDIO-IN1-R
100R
FS08
100n
22K
3S53-3
10u
2S2W
1u0
8
7S08
LD3985M25
100R
1 3S16-1 8
10K
IS1H
3S12-1
9S06
RES
1
AUDIO-IN1-L
+24V-AUDIO-VDD
+3V3
3S53-2
2S3F
10-40-4
Q552.2E LA
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_015_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 276
MIPS
MIPS
B02E
B02E
+3V3
7S00-3
PNX85500
CONTROL
1
RES 3S21
+3V3
10K
3S62
10K
10K
FS10 TXD2-MIPS
FS11 RXD2-MIPS
IS04
GPIO6
PNX-SPI-CS-BLn
+3V3
GPIO6
PNX-SPI-CS-BLn
BOOST-PWM
SELECT-SAW
SELECT-SAW
5K6
+3V3
FS64
SDA
SCL
3
4
R26
DN
R25
USB
IS4Z R24 DP
RREF
USB-DM
USB-DP
10K
3S64
GPIO_0
GPIO_1
GPIO_2
GPIO_3
GPIO_4
GPIO_5
GPIO_6
GPIO_7
GPIO_10
GPIO_11
SDA
SCL
SDA
SCL
TRSTN
TMS
TCK
TDO
TDI
RESET_SYS
BL_PWM
10K
CLK_54_OUT
3S83
+3V3
RXD1-MIPS
3D-VS
10K
3S84
+3V3
B26
A25
B25
A24
3S5Y
1
2
100R
B24
A23
SDA-SET
SCL-SET
SDA-SET
SCL-SET
3S6C
4K7
3S5Z
SDA-SSB
SCL-SSB
SDA-SSB
SCL-SSB
3S61
SDA-TUNER
SCL-TUNER
1
100R
3S58
1
2
100R
3S60
1
2
100R
2 3S5W
1
100R
1
100R
2
2
AA25
AA24
AA23
AB26
AB25
EJTAG-TRSTn-PNX85500
EJTAG-TMS-PNX85500
EJTAG-TCK-PNX85500
EJTAG-TDO-PNX85500
EJTAG-TDI-PNX85500
3S00
AE4
3S6D
2K2
2K2
3S6G
FS53
2K2
3S6F
3S6E
4K7
FS49
FS50
FS51
FS52
EJTAG-DETECTn
3S6B
SDA-TUNER
SCL-TUNER
FS44
EJTAG-TRSTn-PNX85500
EJTAG-TMS-PNX85500
EJTAG-TDO-PNX85500
EJTAG-TCK-PNX85500
EJTAG-TDI-PNX85500
10 9
1
2
3
4
5
6
7
8
FOR FACTORY
USE ONLY
2K2
3S6K
EJTAG-TRSTn-PNX85500
EJTAG-TMS-PNX85500
EJTAG-TCK-PNX85500
EJTAG-TDO-PNX85500
EJTAG-TDI-PNX85500
1
10K
8 3S6H-1
10K
3
6 3S6H-3
10K
2
10K
+3V3
FS57
+3V3-STANDBY
BM08B-SRSS-TBT
7 3S6H-2
5 3S6H-4
4
10K
RESET-SYSTEMn
33R
AD5
BACKLIGHT-PWM
AC5
IS14
+3V3
TXD1-MIPS
3S72
10K
3S4A
BACKLIGHT-PWM
+3V3
IS40
PXCLK54
47R
100R
3D-VS-DISP
IS15
3S4B
100R
RES
RES
+3V3
2S89
100n
+3V3
3
BOOST-PWM
10K
Y21
IS16 Y22
Y23
Y24
W21
W22
W23
V22
V23
U23
4K7
7S01
PCA9540B
VDD
1
SCL
SDA-SET
2
SDA
INP
FIL
I 2 C
-BUS
CTRL
5
SCL-DISP
SC1
SCL-SET
SC0
8
SCL-BL
SD0
4
SDA-DISP
SD1
7
SDA-BL
SCL-DISP
SCL-BL
SDA-DISP
SDA-BL
2
3S65
1
4K7
1
4K7
3S67
2
1
3S68 4K7
2
1
4K7
2
3S66
VSS
6
+3V3
+3V3
3S80
3S81
9S09
4K7
SDA-UP-MIPS
SCL-UP-MIPS
10K
3S82
+3V3
IS17
3S6A
2 3S57
3S27
DS52
10K
BOOTMODE
3D-LR
RXD1-MIPS
TXD1-MIPS
RXD2-MIPS
TXD2-MIPS
RES
1F10
3S69
SDA-UP-MIPS
SCL-UP-MIPS
1
100R
10K
+3V3
3D-LR
2
3S26
10K
3S40
3S6J
+3V3
1
100R
RES 10K
BOOTMODE
3S56
C25
SDA
C26
SCL
2
IS05
3S45
3S55
10-40-5
Q552.2E LA
FS31
9S10
IS08
SCL-BL
SDA-SET
IS09
9S11
FS2W
SCL-DISP
9S12
SCL-SET
FS2Y
SDA-DISP
9S13
SDA-BL
7S00-4
PNX85500
ETHERNET
ETH-RXCLK
AA3
ETH-RXD(0)
ETH-RXD(1)
ETH-RXD(2)
ETH-RXD(3)
Y5
0
Y6
1
RXD ETH
AB4
2
AC1
3
IS50
RXCLK
ETH-RXDV
ETH-RXER
AC2
RXDV
Y4
RXER
SDIO-DAT3
SDIO-CLK
SDIO-CMD
SDIO-DAT0
SDIO-DAT1
SDIO-DAT2
SDIO-CDn
SDIO-WP
W2
W1
W6
W5
W4
W3
U6
V6
TXCLK
0
1
2
3
TXEN
TXER
COL
CRS
MDC
MDIO
TXD
ETH
CC_DAT3
CLK
CMD
0
SDIO
1 DAT
2
SDCD
SDWP
AA2
ETH-TXCLK
AA1
AA4
AB1
AB2
AA5
AB3
AC3
Y2
Y3
Y1
ETH-TXD(0)
ETH-TXD(1)
ETH-TXD(2)
ETH-TXD(3)
ETH-TXEN
ETH-TXER
ETH-COL
ETH-CRS
ETH-MDC
ETH-MDIO
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_016_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-40-6
Q552.2E LA
10.
EN 277
Video out - LVDS
B02F
Video out - LVDS
B02F
7S00-7
PNX85500
PX1APX1A+
A7
B7
PX1BPX1B+
C8
B8
PX1CLKPX1CLK+
9S90
9S91
N
A
P
LVDS
A
B
N
B
P
C10
N
B10
CLK
P
PX1CPX1C+
A9
B9
PX1DPX1D+
N
P
N
P
CLK
D7
E7
PX3APX3A+
E8
D8
PX3BPX3B+
E10
N
D10
P
9S94
9S95
PX3CLKPX3CLK+
C
N
P
D9
E9
PX3CPX3C+
A11
N
B11
D
P
D
D11
N
E11
P
PX3DPX3D+
PX1EPX1E+
C12
N
B12
E
P
E
E12
N
D12
P
PX3EPX3E+
PX2APX2A+
A14
N
B14
A
P
A
D14
N
E14
P
PX4APX4A+
PX2BPX2B+
C15
N
B
B15
P
B
E15
N
D15
P
PX4BPX4B+
CLK
E17
N
D17
P
C
D16
N
E16
P
PX4CPX4C+
D
D18
N
E18
P
PX4DPX4D+
E
E19
N
D19
P
PX4EPX4E+
PX2CLKPX2CLK+
PX2CPX2C+
PX2DPX2D+
PX2EPX2E+
9S92
9S93
N
C
P
LOUT1 LOUT3
C17
N
B17
CLK
P
A16
B16 N
C
P
A18
B18 N
D
P
C19
B19 N
E
P
LOUT2 LOUT4
9S96
9S97
PX4CLKPX4CLK+
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_017_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 278
Standby controller
Stand-by controller
B02G
POL
+1V1
B02G
2S13
100n
1u0
2S10
30R
RES
5S04
IS3B
2S37
RXD-UP
TXD-UP
10K
3S2A
RXD-UP
TXD-UP
DETECT2
RESET-SYSTEMn
AV2-BLK
AV1-BLK
KEYBOARD
LIGHT-SENSOR
AV1-STATUS
AV2-STATUS
10K
RES
RESET-SYSTEMn
3S1J
100K
RES
KEYBOARD
2S4E
100n
3S1L
10K
SPI-PROG
SPI-PROG
PNX-SPI-WPn
AF22
4
P6
AE22
5
54M
AC17
AF26
AD23
0
AE26
1
P5
AE25
2
AE24
3
DETECT2
ALE
ALE
AC26
AC23
SDA
AC24
SCL
3S2G
3S2K
3S2H
100R
100R
100R
AE23
SDO
AF25
SDI
SPI
AF24
CLK
AF23
CSB
10K
3S43
10K 3S42
10K
PSEN
PSEN
3S2F
100R
3S44
IS3D
AB23
AD26
0
PWM AC25
1
AE21
0
AF21
1
AA22
2
AB22
P3
3
AC22
4
AD22
5
10K
RES
3S1K
MC
IS3F
IS3E
EA
SDA-UP-MIPS
SCL-UP-MIPS
RES
SDA-UP-MIPS
SCL-UP-MIPS
3S6V
LED1
LED2
RES
LED2
IS2V
IS2Z
CTRL-DISP
RESET-DVBS
RESET-USBn
RESET-ETHERNETn
SEL-HDMI-ARC
RESET-AVPIP
RESET-AUDIO
AUDIO-MUTE-UP
4K7
3S1P
RES
3S41
10K
10K
PNX-SPI-SDO
PNX-SPI-SDI
PNX-SPI-CLK
PNX-SPI-CSBn
AB17
0
AA18
1
AD18
2
AE18
3
AF18
P0
4
AA19
5
AB19
6
AC19
7
3S6W
4K7
LED1
RES
10K
RES 3S3Y
10K
CTRL-DISP
RESET-DVBS
RESET-USBn
RESET-ETHERNETn
SEL-HDMI-ARC
RESET-AVPIP
RESET-AUDIO
AUDIO-MUTE-UP
10K
3S2L
3S2S
RES
3S3W
4K7
RES
10K
RES
10K
10K
3S46
+3V3-STANDBY
3S47
3S2M
RES
3S49
4K7
+3V3-STANDBY
+3V3-STANDBY
2
3S1H
10K
3S1G
PSEN
EA
7S20
NCP303LSN28
2
FS45
1
IS2U
5
1K0
10K
+3V3-STANDBY
ALE
RESET-STBYn
AB24
3S2V
10K
3S3T
EA
AA26
FS0Z
1
10K
AC20
0
AD20
1
AE20
2
AF20
3
AA21
P2
4
AB21
5
AC21
6
AD21
7
+3V3-STANDBY
10p
AF17
INP
OUTP
CD
RESET-STBYn
1
NC GND
4
3S3P
RES 3S3S
LCD-PWR-ONn
EJTAG-DETECTn
LAMP-ON
STANDBY
FAN-CTRL1
FAN-CTRL2
POWER-OK
ENABLE-3V3n
RESET_IN
STANDBY
AE17
3
10K
LCD-PWR-ONn
EJTAG-DETECTn
LAMP-ON
STANDBY
FAN-CTRL1
FAN-CTRL2
POWER-OK
ENABLE-3V3n
XTAL_IN
XTAL_OUT
10p
2S4F
100n
3S3M
RES
10K
3S3N RES
10K
3S3Q RES
10K
3S3R
10K RES
1
2S4K
10K
AD19
0
AE19
1
AF19
2 P1
AA20
3
AB20
7
7S00-9
PNX85500
9S0E
3S3L
RC
TACHO
CEC-HDMI
BACKLIGHT-PWM-ANA-DISP
SDM
2
4
RES
+3V3-STANDBY
RC
TACHO
CEC-HDMI
BACKLIGHT-PWM-ANA-DISP
SDM
2S4G
3
1
9S0D
3S1E
10K
10K
3S1D
27K
DS50
VDD_XTAL
RES
10K
RES
3S1F
AD17
2S4D
1n0
3S1B
3S1C
VSS_XTAL
+3V3-STANDBY
VDDA_ADC2V5
AA17
IS20
1S02
100n
RES
9S24
1u0
2S11
VDDA_1V1_DCS
10-40-7
Q552.2E LA
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_018_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 279
Power
Power
B02H
5S80
IS3Q
2S5A
RES 10u
1
100n
2S6A
2
+1V1
30R
5S81
2S5B
RES 10u
5S82
+2V5
VDD_3V3_SBY
2S5D
RES 10u
VSSA_USB
VDDA_2V5_VADC
VDDA_2V5_VDAC
VDDA_3V3_USB
2S4M
10u
100n
100n
2S4Y
10u
2S50
100n
2S4Z
6.3V
10u
100n
+1V2
30R
c000
SENSE+1V2
Y17
D13
POL
T20
Y13
+2V5-AUDIO
Y10
100n
VDDA_2V5_USB
30R
R21
R20
+2V5-AUDIO
100n
2S45
C13
VDD_1V1_DDR
VSSA_2V5_LVDS_BG
VDDA_2V5_LVDS_BG
AA7
+2V5
30R
5S84
AA9
2S46
VDDA_2V5_DCS
5S95
Y12
RES 1u0
2S4W
+1V1
IS3L
2S52
VDDA_2V5_ADAC
5S83
B13
2S51
VDDA_2V5
2S6P
2
1
100n
100n
2S6C
Y19
Y18
AA15
Y15
VDDA_1V2
AA13
VDDA_2V5_AADC
+3V3
30R
+3V3-STANDBY
IS3K
VDDA_1V1_LVDS_PLL
220u 6.3V
10u
2S4P
100n
2S4N
2
100n
2S6N
1
2
W20
P20
M20
K20
V7
Y8
100n
1 2S6G 2
5S85
10u
2S4U
VDD_1V1
C7
C9
C11
C14
C16
C18
2S4V
VDD_3V3
+2V5-LVDS
N6
N7
2S6F
VDD_2V5_LVDS
U22
1
VDD_2V5
1
1
100n
2S6D
100n
2S6E 2
2
30R
U20
U21
HDMI_VDDA_3V3_TERM
HDMI_AGND
5S87
+2V5
1u0
2S56
100n
2S55
30R
5S88
30R
10u
100n
2S57
2S5M
+2V5-LVDS
5S89
100n
2S58
10u
2
2
100n
2S6K
1
1
2S6H
+2V5
30R
5S90
+2V5
10u
100n
100n
2S53
2S4T
30R
2SHW
5S92
1
1u0
100n
2S59
100n
2S6L
2
+3V3
30R
1
2
IS58
2S6M
1u0
2S21
2
100n
V20
V21
HDMI_VDDA_2V5
VSSA_1V1_LVDS_PLL
220u 2.5V
J7
30R
HDMI_VDDA_1V1
VDD
A13
100u
2S23
5
100n
5
100n
2S29
4
100n
2S5J-4
7
2
100n
2S5J-2
1
3
5S94
+1V1
1
VSS
2S5P
VSS
VSS
10u
RES
VSS
M7
N2
N20
P10
P12
P14
P16
P18
P4
P6
P7
T10
T12
T14
T16
T18
T2
T6
T7
U4
V10
V12
V14
V16
V18
V2
Y20
2S4S
VSSA
AF1
AE2
AD3
AC4
AB5
H20
F11
G11
F13
G13
F15
G15
F17
G17
F19
G19
J9
J11
J13
J15
J17
L9
L11
L13
L15
L17
N9
N11
N13
N15
N17
R9
R11
R13
R15
R17
U9
U11
U13
U15
U17
J6
AA6
Y7
W7
F9
G9
VDD_1V8
U24
V24
3
4
6
100n
2S5H-3
2
8
6
100n
2S5J-1
100n
2S5J-3
5
4
3
4
100n
2S5K-4
7
8
6
100n
2S5K-3
2
100n
2S5K-2
2S5K-1
1
A1
A10
A12
A15
A17
A19
A26
A3
A8
B1
B20
C20
C4
D2
D20
E13
E20
E4
F10
F12
F14
F16
F18
F20
F8
G10
G12
100n
2S5H-4
8
100n
2S5H-2
6
7
5
1
100n
2S5H-1
100n
2S5G-4
100n
2S5G-3
3
2
100n
2S5G-2
2S5G-1
1
22u
22u
2S4R
100n
2S4Q
100n
2S27
2S28
100n
2S43
8
7
+1V1
30R
5S93
L6
L7
R6
R7
U7
A5
A6
B5
B6
C6
D6
E6
F6
G6
F7
G7
7S00-10
PNX85500
7S00-12
PNX85500
100n
2S5C
2
+3V3
c001
SENSE+1V1
30R
1
100n
2S6B
2
+2V5
IS3S
100n
100n
2S68
100n
2S67
100n
2S66
100n
2S65
100n
2S64
100n
2S63
100n
2S62
100n
2S61
100u
2S60
2S26
+1V8
AA16
AA8
Y11
Y14
Y16
Y9
B02H
G14
G16
G18
G2
G20
G8
H4
H6
H7
J20
K10
K12
K14
K16
K18
K2
K6
K7
L20
L4
M10
M12
M14
M16
M18
M6
10-40-8
Q552.2E LA
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_019_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 280
Analog video
Analog video
B02I
2S87
AV1-CVBS
Y-SVHS
2S8A
47R
22n
3S5B
Connectivity
3S59
47R
22n
56R
B02I
3S05
10-40-9
Q552.2E LA
2S7J
AV1-R
2S22
3S4J
56R
22n
C-SVHS
22n
EU: SCART1
CVBS-MON-OUT1
22n
560R
3S5E
2S7K
AV1-B
56R
-
3S4L
AP:
3S08
560R
47p
2S7H
2S40
IS4V
22n
8K2
IS4W
3S09
56R
3S4K
AV1-G
2S7M
YPBPR1-SYNCIN1
10n
2S7L
56R
3S4P
AV3-Y
22n
2S7N
22n
7S00-1
PNX85500
2S8G
AV2-CVBS
*
9S18
22n
AB14
AF14
AE14
AC14
AD14
2S7R
AV4-Y
22n
SCART2
YPBPR2
9S19
EU:
AF15
AE15
AC15
AD15
AF16
AD16
AE16
AB18
AC18
AF4
AD24
AD25
AF11
AE11
AB10
AA11
AC16
AB16
AB13
AB12
AA12
AA10
AD12
AB11
AE12
AF12
IS5E
3S5S
10K
IS5D
IS5F
IS5G
IS5H
IS5J
3S75
BS15
PNX-IF-AGC
10K
BS10
IS11
3S76
10n
2S76
AA14
PNX-RF-AGC
47K
9S20
22n
2S14
BS13
AGND
AV4-PR
2S15
22n
AD11
AC11
+CVBS
2S7U
2S16
22n
IS5C
22n
AC12
AF13
2S18
22n
CVBS_Y1 ATV_CVBS_Y3
R
C3
B AV1
G
CVBS_Y7
C7
SYNCIN1
Y_G1
CVBS1_OUT
PR_R_C1
CVBS2_OUT
PB_B1
RESREF
CVBS_Y2
CURREF
SYNCIN2
Y_G2
1
PR_R_C2
2
PB_B2
3
REF
4
R
5
G VGA
6
B
HSYNC_IN
IF_AGC
RF_AGC
IN
VSYNC
OUT
P
SCL VGA_EDID
TUNER N
SDA
22n
AB15
AC13
AD13
AE13
22n
2S19
56R
3S4T
AV3-PB
AP:
ANALOG_VIDEO
2S7P
10n
56R
YPBPR1
2S75
AP:
YPBPR1
3S4R
AV3-PR
EU:
2S77
PNX-IF-P
10n
2S7E
AV4-PB
9S21
22n
2S78
PNX-IF-N
10n
2S84
56R
3S50
R-VGA
22n
2S85
56R
3S52
G-VGA
22n
2S86
100R
2
3S5V-2
7
5
100R
3S5V-4
7
5
8
4
100R
3S5T-3
100R
3
2
V-SYNC-VGA
3S5T-1
100R
1
3S5T-4
H-SYNC-VGA
4
AP: VGA
22n
3S5T-2
56R
EU: VGA
3S54
B-VGA
6
100R
VGA-SCL-EDID
RES
3
3S5V-3
6
100R
VGA-SDA-EDID
RES
1
3S5V-1
8
100R
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_020_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 281
10.41 B03 313912365351, 313912365371
Audio
Audio
+AVCC
B03A
7D03-1
BC847BS(COL)
+24V-AUDIO-POWER
FD14
1
6
3D09
+24V-AUDIO-POWER
220R
5D08
GND-AUDIO
3
6
3D02-3
3
5
7D15-2
BC847BS(COL)
4
4K7
ID19
ID18
6
5
18
17
2D16
2D17
ID29
11
7
4
2
1u0
ID30
1u0
AUDIO-MUTE-UP
L
ID37
Φ
PVCC
BSR
CLASS-D
AUDIO AMP
R
IN
L
2D22
220n
3D14-1
220n
1
2D26
RES
8
7
3D14-2
22K
2
3
3D14-3
22K
6
5
3D14-4
22K
22K
2D08
7D10-1
TPA3123D2PWP
R
AVCC
47n
GND-AUDIO
1
3
1u0
GND-AUDIO
10
12
2D23
ID15
19
20
2D29
4K7
FD03
3D02-1
8
1
+AUDIO-L
220n
2D19
4
7D15-1
BC847BS(COL)
1
220u 35V
2
4K7
ID28
2D07
7 3D02-2 2
2D20
FD08
47n
4
6
4K7
1u0
A-PLOP
ID27
2D24
ID14
220u 35V
2D28
3D02-4
FD01
5
-AUDIO-R
GND-AUDIO
220n
2D05
10u 35V
22K
220R
5D07
ID12
ID11
220n
3D16
2D06
2
4R7
R
OUT
L
0
GAIN
1
BSL
16
ID32
2D10
ID06
220R
5D01
ID09
ID31
2D09
2D12
22u
ID08
ID07
2D11
220R
ID05
RIGHT-SPEAKER
35V 220u
5D04
22u
22
21
5D05
5D02
ID10
220n
15
LEFT-SPEAKER
35V 220u
220n
VCLAMP
BYPASS
MUTE
SD
+3V3-STANDBY
5
2D21
220n
3D10-1
220n
1
2D27
RES
8
7
3D10-2
22K
2
3D10-3
22K
3
GND-AUDIO
GND-AUDIO
26
27
28
29
LEFT-SPEAKER
VIA
VIA
VIA
GND-AUDIO
VIA
37
36
35
34
GND-AUDIO
10n
GND-AUDIO
GND-AUDIO
40
39
38
2D03
7D10-2
TPA3123D2PWP
V_NOM
2D14
GND-AUDIO
3D10-4
22K
4n7
DETECT2
47K
100p
GND-AUDIO
5
GND-AUDIO
ID35
7D11-2
BC847BS(COL)
4
6
25
EMC 4n7
RES 2D31
ID34
4 3D01-4 5
22K
4K7
EMC
RES 2D30
CD10
1D50
3
MAINS SWITCH DETECT
GND_HS
4
2
7D11-1
BC847BS(COL)
1
+3V3-STANDBY
3D15
6
R
13
14
AGND
8
9
L
23
24
PGND
FD09
A-STBY
47K
VIA
1735
30
31
32
33
LEFT-SPEAKER
3
100K
6
3D06-2
7
100K
10n
4
RIGHT-SPEAKER
ID33
GND-AUDIO
100K
2041145-3
2041145-4
2
100K
4 3D06-4 5
1
2
3
5
8 3D06-1 1
RIGHT-SPEAKER
FD02
1D38
1
2
3
4
2D02
V_NOM
3D06-3 FD07
GND-AUDIO
10n
2D13
GND-AUDIO
2D01
220R
3 7D03-2
BC847BS(COL)
FD05
FD06
5D03
1D52
B03A
3 3D01-3 6
10-41-1
10u
GND-AUDIO
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_021_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-41-2
Q552.2E LA
10.
EN 282
DC/DC
B03B
DC/DC
B03B
5U03 RES
30R
5U02
FU05
IU22
+12V
1u0
2U20
10u
10u
7 8
IU10
12V/1V8 CONVERSION
1
2
3R3
3U11
2U19
2U25
7U02-1
SI4952DY
10u
10u
2U23
2U24
30R
5U00
FU02
2U21
FU03
+1V8
22u
47u
2U16
1
47R
2U15
8
7
3U23-2
47R
3U23-1
2
3
3u6
5 6
IU23
4
1n0
2U17
3
IU09
47R
47R
3U23-3
4
7U02-2
SI4952DY
6
5
220p
3U23-4
IU11
IU15
IU08
5 6 7 8
IU12
4
3U14
IU07
IU02
GND-SIG
20
VIN
2U06
V5FILT
VREG5
3U28
7
17
GND-SIG
18
19
FU04
1u0
2U05
6
10K
100n
2U14
22u
2U13
47u
2U12
10R
RES
IU17
IU25
GND
+1V1
IU18
1u0
2U10
GND-SIG
1n0
2U09
GND-SIG
3U21
FU00
SENSE+1V1
IU19
GND-SIG
RES 100p
22K
2U07
3U10
GND-SIG
FU08
100n
1% 330R
1% 1K0
CU00
5K6
FU09
IU04
3U19
3U22
1K0 1%
3U09
330R 1%
1K0 1%
3U08
+1V8
100p RES
IU20
RES
2U29
3U17
3U18
100R 1%
2U08
10K
1
2
10u
3U00
TEST
+1V1
RES 100u 2.0V
1
TRIP
2
22
15
3U20
1
PGND
2
FU01
2u0
47R
1
VFB
2
5U01
FU06
24
13
3U24-2
1
2
47R
3U24-1
SW
47R
1
VO
2
12V/1V1 CONVERSION
1
12
STPS2L30A
1
2
1 2 3
3U24-4
DRVH
5 6 78
4
IU14
47R
3U24-3
21
16
1
EN
2
23
14
1n0
3U03
12K
1
2
2U11
22K
GND-SIG
2
3U01
IU01
3U02
1
DRVL
7U04
SI4778DY
IU16
2U04
2U03
1n0 RES
5
8
GND-SIG
IU03
+3V3-STANDBY
4
9
+1V1
+1V8
1
VBST
2
220p
6U00
3
10
ENABLE-1V8
3R3
2U01
100n
2
11
IU24
3
3U05
7U03
TPS53126PW
IU13
10R
2U02
100n
7U00
BC847BW
3R3
2U22
IU06
IU05
RES
1 2 3
3R3
10u
2U00
10R
3U04
1n0
3U27
2U18
7U01
SI4778DY
IU21
CU01
CU02
CU03
CU04
CU05
GND-SIG
GND-SIG
GND-SIG
GND-SIG
GND-SIG
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_022_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 283
DC/DC
B03C
DC/DC
+3V3-STANDBY
+3V3
RES 10K
+5V +3V3-STANDBY
3U75
3U74
RES 10K
LED-2
IU43
*
3U69
RES 10K
optionally 1M99 is a 9 pin connector
10K
3U68
9U41
IU44
9U42
RES
LED-1
3U41
IU45
LED2
3U59
LED2
10K RES
10K RES
7U42 RES
BC847BW
*
IU47
7U43
BC847BW
+3V3
3U70
LED1
3U53
LED1
10K
10K
1M99
GND_AL
+12V_AL
FU54
3U44
FU07
3D-LR
100p
2U71
2
BL-SPI-SDO
BL-SPI-CSn
BL-SPI-CLK
+3V3-STANDBY
4
RES 100p
100R
RES
3U67
100R
RES
3U84
100R
RES
3U76
MAINS-OK
RES 100R
2U43
RES 100p
2U52
2U51
RES 100p
100p RES
2U72
1n0
2U48
1n0
RES 2U56
1-2041145-3
RES 2U57
3U66
FU56
FU57
FU74
FU68
3U71
STANDBY
7U48-2
BC857BS(COL)
5
5
100R
3U62-4
2
100K
IU40
IU56
100R
100R
FU53
LAMP-ON
3U42
10K
2
2
5
IU50
3U60-4
7U41-2
BC847BS(COL)
8 3U60-1 1
5
22K
4K7
IU62
6
1
7U41-1
BC847BS(COL)
1
8
RES 10K
7
3U61
10K
6
3
4
10K
2
IU57
ENABLE-3V3n
22K
IU52
BACKLIGHT-PWM_BL-VS
3U43
DETECT2
7
1K0
+3V3-STANDBY
3K3
3U45
FU51
3U62-1
ENABLE-1V8
FU72
IU63
3U73
10K
FU76
3U60-2
4
3U81
FU73
22K
3U63
+3V3
GND-AUDIO
3U62-2
7U40-1
BC847BPN(COL)
1
2U55
3U72
100p
RES
2U49
+24V
IU49
6
2
10n
+24V-AUDIO-POWER
FU67
2U50
T 3.0A 32V
FU66
3 3U60-3 6
3U80
IU51
+12VIN
3
IU61
22K
+12V
3U62-3
3
1U40
2U54
6U40
10n
1u0 RES
+3V3-STANDBY
FU52
BACKLIGHT-BOOST
100R
4U01
RES
4U00
RES
FU55
IU55
3U64
POWER-OK
Optional table for 4U00 and 4U01
100p
1n0
If 1M99
is mounted
For non-Amblight sets
yes
no
no
4U01
yes
no
no
2U46
Items
10n
2U45
If 1M99
is not mounted
4U00
2U44
100K
3U65
1n0
2U53
1K0
GND_AL
+12VIN
3U83-2
RES 10K
1-2041145-4
FU58
FU59
FU60
FU61
FU63
FU75
BZX384-C6V2
10n
FU62
100K
7
5
1n0
RES
1
2
3
4
5
6
7
8
9
10
11
12
13
14
3 3U83-3 6
4
IU48
4
1u0
2U47
7U40-2
BC847BPN(COL)
10K
2U68
1M95
ENABLE-3V3-5V
6
100K
IU41
100R
+12VIN
7U48-1
BC857BS(COL)
4 3U83-4 5
100K
10K
1 3U83-1 8
+3V3
FU50
1
GND_AL
1K0 RES
3U56
FU49
100n
GND_AL
IU64
3U82
FU48
3
1
2
3
4
5
6
7
8
9
10
11
12
13
2U58
10-41-3
Q552.2E LA
2U44
Dream Catcher
Core Range
3U43
1M95
0R
open
13 POLE
100p
100R
14 POLE
+12VD
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_023_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-41-4
Q552.2E LA
10.
EN 284
DC/DC
B03D
DC/DC
+3V3
B03D
*
7UC0
LF25ABDT
+12V
1
IN
3
OUT
2
1u0
2UA4
*
2K2
3UA0
COM
FUA0
+2V5-REF
R
7UA0
TS2431
K
1
A
2
3
FUA4
CUA0
IUB6
+5V5-TUN
+2V5
+2V5-LVDS
+5V
100R
100R
4 3U16-4 5
100R
FUA3
3 3U16-3 6
100R
4 3U15-4 5
22R
100R
3 3U15-3 6
IUA5
1 3UB0 2
100R
+1V2
1u0
2UB2
RES 1u0
+3V3
1 3U16-1 8
100R
2 3U16-2 7
100R
2 3U15-2 7
1u0
2UB0
7UA3
PHD38N02LT
IUB4
2
470R
3UB7-3
6
3
3UB7-4470R
5
4
3UB7-2
IU26
7UA7-1
BC847BS(COL)
3U13
7
2UB8
7UA7-2
4
BC847BS(COL)
2
*
+3V3
1 3U15-1 8
+5V
2UB1
470R
5
22u
+2V5-REF
*
+1V8
330R
1%
13UB6-1 8
1K0
8 3UB7-1 1
2 3UB6-2 7
1K0 IUB2
6
3 3UB6-3 6
1K0
3UB6-4
4
5
1K0
IUB5
3 1
470R
+12V
7UA6
BC817-25W
3U12
IUB3
330R
1%
+5V-TUN
*
NOT FOR 5000 SERIES
ENABLE-1V8
4 3U25-4 5
RESERVED
5UA0
1K0
30R
1 3U29-1 8 RES
+12V
7UA5
LDS3985M50
470R
RES
4 3U29-4 5
2
NC
NC
INH
BP
4K7
5
+5V-TUN
4
IUB1
COM
1
3UB3
470R
RES
2 3U26-2 7
+3V3
K
REF
470R
1 3U26-1 8 RES
470R
3 3U26-3 6 RES
A
3
OUT
1u0
IU30
2
3
IN
100n
2UB6
RES
7U06-1
BC847BS(COL)
1
5
3UB2
1u0
5
+3V3
7UA4
TS431AILT
2UB7
6
8
3
RES
7U06-2
BC847BS(COL)
4
1
+5V5-TUN
470R
3 3U29-3 6 RES
4K7
3U25-1
RES
2 3U29-2 7
4
1
IU29
100K RES
470R
2UB5
7
3U25-2
6
100K RES
IUA6
SENSE+1V2
2
3U25-3
2
3
100K RES
3UB1
100K RES
3UB5
3UB4
100K
IUB0
1K0
2UB3
+5V
22n
2UB4
470R
RES
4 3U26-4 5
330p
RES
470R
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_024_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 285
DC/DC
DC/DC
B03E
5UD0
IUD0
+12V
33K
1%
22u
IU27
3U06
120K
RES
12
68K
3UD1
1%
3UD0
VIA
10
4n7
3UD2
15
7UD0-2
ST1S10PH
13
IUD6
2
7U05-1
BC847BS(COL)
RES 1
10K
2UD7
RES 2UE9
6
100n
+1V1
RES 2U27
SS36
220u 16V
SW
8
A
FUD3
+5V
3u6
3
VFB
GND
P HS
6UD0
IUD7
2UD6
SYNC
5UD1
22u
5
IUD3
7
SW
VIN
22u
2UD5
INH
9
2
4
RES 1n0
2UD3
ENABLE-3V3-5V
2UD4
1
A
10u
2UD2
10u
2UD1
10u
7UD0-1
ST1S10PH
6
+5V5-TUN
30R
2UD0
14
11
5UD3
+3V3
7U05-2
RES
4
3U07
100n
IU28
RES
33K
1%
12
1M0
3UD5
3UD4
VIA
10
5
15
13
IUD2
7UD1-2
ST1S10PH
BC847BS(COL)
10K
3
RES 2U28
+1V1
220u 16V
2UE4
22u
22u
2UE3
2UE2
3u6
3
VFB
GND
P HS
8
4
A
FUD2
1% 100K
SYNC
5UD2
IUD4
7
SW
VIN
4n7
3UD3
5
INH
2UE1
2
9
ENABLE-3V3-5V
SW
A
1
7UD1-1
ST1S10PH
10u
14
11
7UD2
LD1117DT25
3
IN
S1D
OUT
2
+2V5
2UE6
1
100n
2UE5
COM
22u 16V
IUD5
(*) FOR 5000 SERIES ONLY
(**) NOT FOR 5000 SERIES
7UD3
LD1117DT33
IN
OUT
2
+3V3
100n
COM
22u 16V
3
2UE8
6UD1
+5V
1
*
2UE7
10u
2UD9
30R
6
IUD1
+12V
2UE0
**
10u
B03E
2UD8
10-41-5
Q552.2E LA
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_025_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-41-6
Q552.2E LA
10.
EN 286
Temperature sensor & AmbiLight
B03F
Temperature sensor + Ambilight
B03F
5UM1
IUM0
1UM0
+3V3
30R
FUM0
V-AMBI
T 1.0A 63V
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_026_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 287
Fan control
Fan control
B03G
+12V
+12V
1K0
FAN-CTRL1
IUS3 3US5-3
6
3
8
IUT1
100n
7US1-1
LM339P
14
2US3
3
10K 7
10K
9
2
3US7
+12V
3US5-2
3US2
1 3US4-1 8
+3V3
10K
IUS6
10K
7US2
BC807-25W
12
+12V
IUS7
+12V
11
3
IUT2
7US1-2
LM339P
13
10K
22R
3US9
IUS4 3US5-4
5
4
10
FAN-CTRL2
BC807-25W
7US3
IUS8
12
3US6
IUS9
47R
3US3
10K
1 3US5-1 8
+3V3
FAN-DRV
+3V3
3
10K
3US4-3
3
5
7US1-3
LM339P
2
10K
+12V
6
IUS5
4 3US4-4 5
+12V
4
+12V
+12V
3
10K
7
2
3US4-2
7
RES
12
TACH01
9US0
TACH02
7US1-4
LM339P
1
6
IUS0
12
B03G
10K
10-41-7
Q552.2E LA
TACHO
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_027_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 288
Vdisp switch
Vdisp switch
B03H
1 9UU0-1
RES
2 9UU0-2
RES
3 9UU0-3
RES
4 9UU0-4
RES
1 9UU1-1
RES
2 9UU1-2
RES
3 9UU1-3
RES
4 9UU1-4
RES
7UU0
SI4835DDY
3UU1
3
IUU0
47R
IUU1
3UU0-2
2
8
7
6
FUU0
5
6
1
47K RES
2UU1
2 3UU3-2 7
IUU2
1u0
+3V3-STANDBY
6
47K
47K
3UU0-1
3UU0-3
2
3
7UU2-1
PUMD12
1
22n
2UU2
+VDISP-INT
IUU3
47K RES
7UU3 RES
BC847BW
1
7
5
3
1
IUU4 3UU3-3 IUU5 3UU3-4
6
3
4
5
47K RES
2
VDISP-SWITCH
FUU1
3UU2
+3V3
47K RES
RES 100n
5
3UU3-1
6
2UU0
8
7
RES
7UU1
SI3441BDV
+12VD
4
PUMD12
7UU2-2
8
47K
B03H
8
10-41-8
Q552.2E LA
+3V3
4K7 RES
LCD-PWR-ONn
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_028_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 289
10.42 B04 313912365351, 313912365371
Analogue externals A
Analogue externals A
B04A
FE70
3E37-4
IEC0
3EA7-1
IEC1
IE67
2EA4
AUDIO-OUT-L
8 470R 1
FEA0
7E01-1 6
1n0
2E87
4
RES 6E01
100R
100p
2E01
5
1E00
AP-SCART-OUT-R
CDS4C12GTA
12V
B04A
1u0 16V
AP-SCART-OUT-L
2
1
PUMH7
IE22
IEC2
3EA7-4
IE68
2EA5
AUDIO-OUT-R
5 470R 4
FEA1
7E01-2 3
1n0
2E88
1E31
CDS4C12GTA
12V
5
RES 6E03
1K0
100p
2E06
4
RES
FE71
3E07-4
AUDIO-IN1-R
1u0 16V
AP-SCART-OUT-R
5
4
PUMH7
RES
FE72
3E37-1
AP-SCART-OUT-L
IE23
1n0
2E90
1E53
IE05
1n0
100p
IE14
17
9E09
IE17
**
4E03
RES
4K7
18p
2E98
39p
18K
4K7
3E73
39K
1u0
3E18 2
1
3E19
+5V
**
3
100R
3E37-3
100R
3E07-2
7
6
IE96
1
3EB6-1
IE91
8
IE92
7E05
BC847BW
3EB6-4
RES
3 470R 6
3
3EB6-2
470R
3EB6-3
7
6
470R
4
FE85
CVBS-OUT-SC1
2
470R
** 4E01
3E45
68R
5
20
1K0 6
3EA7-2
2 470R 7
3EA7-3
470R
19
1K0 7
3E07-3
3
4E02
RES
18
FE84
100n
2E24
4K7
3E44
5K6
3E06
1K0
2
3EB3
3E37-2
2E74
100p
2E12
1E19
CDS4C12GTA
12V
RES 6E28
150p
2E86
2E85
CVBS-MON-OUT1
2
RES 9E06
MTJ-505H-01 NI LF
IE48
RES
3E48
GND_A
6
68R
RES 2E75
100p
100p
1E22
1E25
1E23
*
2E44
CDS4C12GTA
12V
CDS4C12GTA
12V
6E29
RES
75R
3E43
1
CDS4C12GTA
2
7E09-1
PUMH7
IE52
10u
2
16
21
AV1-CVBS
5E80
15
FE82
+3V3
AV1-BLK
IE59
12
14
FE83
* EU
2u2
1
100p
2E14
RES
13
FE81
RES
2E81
1
BC847BPN(COL)
** 4E04
10
RES 9E05
18R
18R
2
820R
IE08
RES 9E08
IE16
1u8
IE70
IE60
IE51
AV2-BLK
4p7
1
1
8
9E10
5E76 3E79BEC5
IE55
3 BC847BPN(COL)
3EB1
2E99
11
9E55
3E78
AV1-R
7E06-1
2
RES 9E07
AP
9E54
6
7
9
1E18
150p
RES
YPBPR1-PR
5
100n
18R
7E06-2
FE80
CDS4C12GTA
12V
1u8
**
4
6
FE74
3E77
2E84
150p
2E83
5E74
RES 6E26
IE54
IE61
4E05
2E97
FE73
** 4E06
5
2
100p
2E18
1E55
CDS4C12GTA
12V
4
FE75
AV1-G
IE89
**
330R
3E76 18R
RES 6E22
9E53
4K7
3E32
12K
+3V3
IE13
3
3E31
2EB3
* EU
IE18
9E52
3EA1
1
2
AV1-STATUS
YPBPR1-SYNCIN1
IE90
1E01
2EB1
1E12
2E15
(AV1)
9E01
RES
CDS4C12GTA
12V
150p
2E80
150p
2E79
18R
1R0
SCART1
1u8
AP
3EA2
3E17
2E91
1E54
AV2-STATUS
+5V
5E733E75
BEC3
RES 6E23
AV1-B
* EU
100n
3E74 18R
IE53
CDS4C12GTA
12V
6E09
RES
9E51
9E50
A-PLOP
2K2
RES
1K0 8
100p
2E04
1
YPBPR1-PB
3E24
3E07-1
AUDIO-IN1-L
AP
CDS4C12GTA
12V
RES 6E07
100p
2E10
8 100R 1
150p
3E62
RES 6E32
27R
*
1X06
EMC HOLE
1X02
REF EMC HOLE
100p
RES 2E76
12V
CVBS-OUT-SC1
RES 6E30
10-42-1
GND_A
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_029_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 290
Analogue externals B
Analogue externals B
B04B
SPDIF out
YPBPR
GND_A
GND_A
IE74
9E57
3E89
YPBPR1-SYNCIN1
RES 6E46
30R
AV2-CVBS
IE75
1E07
MTJ-032-68B-46-NI-FE
1
FE59
10p
1E44
IE73
5E06
CDS4C12GTA
12V
IE15
SPDIF-OUT
2
FE41
AV3-PB
18R
YPBPR1-PB
IE76
9E58
3E90
IE77
AV3-PR
18R
CDS4C12GTA
12V
1E39
100p
FE42
9E04
EU
RES 6E52
RES
2E68
1
** 4E22
AV3-Y
27R
FE48
MTJ-032-21B-42 NI FE
2
1E04
3E88
CDS4C12GTA
12V
RES 6E51
1E28
100p
2E67
1
** 4E21
AP
EU
2
1E03
IE72
18R
FE51
MTJ-032-21B-45 NI FE (PBT)
3E87
2E22
** 4E20
IE71
9E29
CDS4C12GTA
12V
RES 6E40
1E43
100p
1
GREEN
2E27
*
EU
FE54
MSP-305H-BBB-732-03 NI
2
1E08-3
YPBPR1-PR
GND_A
YPBPR AUDIO
+3V3
CDS4C12GTA
12V
*
3E97
MSP-305H-BBB-732-03 NI
6
1E08-1
FE50
RES
1E32
AUDIO-IN3-R
IE31
1K0
RES 6E38
1E42
**
3
RES
4E24 WHITE
GND_A
100p
2E72
100p
2E35
CDS4C12GTA
12V
RES 6E19
V_NOM
1n0
1E37
2E36
AUDIO-IN4-L
1K0
9E13
9E20
RES
RES
9E21
9E22
RES
RES
AP-SCART-OUT-R
AV1-STATUS
AUDIO-IN1-R
AV1-BLK
AP-SCART-OUT-L
AUDIO-IN1-L
9E23
9E24
9E25
9E26
9E27
9E28
RES
RES
RES
RES
RES
RES
31
100p
2E38
CDS4C12GTA
12V
RES 6E20
V_NOM
1n0
1E38
2E37
AUDIO-IN4-R
1K0
100R
100R
RES
1ECB
1481-702-06S-51
RES 3E58
+T
6
5
4
RES 3E56
RES 3E57
+5V
0R3
100R
100R
IE34
IE35
RES 3E36
RES 3E41
100R
IE36 RES 3E38 100R RXD2-MIPS
3D-VS
TXD2-MIPS
3D-LR
100R
FE53
FE52
BZX384-C5V1
RES 6E18
BZX384-C5V1
BZX384-C5V1
RES 6E17
RES 6E16
BZX384-C5V1
RES 6E15
1E79
100p
RES 2E26
100p
RES 2E25
1E78
100n
RES 2E23
1E76
100p
RES 2E21
RES 2E20
100p
FE46
FE45
1E77
FE47
FE44
1E75
7
RES
RES
IE10
3E20
RES 3E54
RES 3E55
3
2
1
9E11
9E18
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
32
DF50-30DP
FE03
8
RES
RES
IE09
3E21
FE01
9
9E17
9E14
AUDIO-IN3-R
AV1-B
FE02
2
3
1
RES
RES
AV3-PB
TXD1-MIPS
VGA ( OR DVI ) AUDIO
1E09
MSJ-035-29D PPO
9E19
9E12
AUDIO-IN3-L
1K0
100p
CDS4C12GTA
12V
MSP-305H-BBB-732-03 NI
4
AV3-PR
RXD1-MIPS
IE29
3E96
1E08-2
RES
RES
2E71
1E29
1n0
FE49
9E15
9E16
CVBS-OUT-SC1
AV1-R
FE43
GND_A
*
RES 6E06
RES
2E39
RED
AV3-Y
AV1-CVBS
AUDIO-IN3-L
AV1-G
5
** 4E23
1n0
B04B
2E40
10-42-2
Q552.2E LA
FOR 3D
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_030_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 291
Ethernet & Service
Ethernet & service
B04C
IE07
5E08
+3V3
+3V3-ET-ANA
7
3E53-2
IE49
1
2
47R
RXD1-MIPS
3E53-4
IE50
3
4
6E43
IE38
IE32
3E30
47R
3E53-3
FE56
8
6
1E06
2
3
1
FE57
MSJ-035-29D PPO (PHT)
FE58
RES
1E71
10u
2E48
100n
2E49
4n7
100n
2E53
2E52
1
2
3
TXD1-MIPS
RXD1-MIPS
19
15
3E71
RES
21
22
23
24
25
18
ETH-TXD(0)
ETH-TXD(1)
ETH-TXD(2)
ETH-TXD(3)
ETH-TXER
1K5
1
12
ETH-RXER
3E64
IE64
7
10K
3E65
10K
3E68
RES
3E35
RES
3E34
10K
3E72
2
+3V3
ETH-REGOFF
10K
+3V3
ETH-INTSEL
10K
+3V3
9E42
14
CRS
ETH-RXCLK
10K
RES
3
REGOFF
1
LED
2
INTSEL
+3V3
RES
ETH-CRS
32
IE39
MDC
MDIO
VSS
+3V3
33
3E51
ETH-RXDV
IE63
13
RBIAS
17
16
ETH-MDC
ETH-MDIO
ETH-TXCLK
26
RXER
RXD4
0
PHYAD
1
RXCLK
0
1
2 TXD
3
4
INT
TXER
ETH-TXP
ETH-TXN
20
RXDV
TXEN
ETH-RXP
ETH-RXN
29
28
P
N
TXCLK
COL
CRS_DV
MODE2
10K
ETH-TXEN
TX
0
MODE
1
RMIISEL
PHYAD2
RXD & lt; 0:3 & gt;
10K
9E43
provision for BUH
31
30
P
RX
N
RST
11
10
9
8
3E70
RES
IO
3E40
IE26
1A 2A
VDD
12K1
1%
CR
ETH-RXD(0)
ETH-RXD(1)
ETH-RXD(2)
ETH-RXD(3)
ETH-COL
27
6
CLKIN
1
XTAL
2
2E55
10K
10K
3E33
10K
7E10-1
LAN8710A-EZK
5
4
3E69
RES
10K
4
502382-0370
10p
10p
2E54
25M
3E67 RES
3E66 RES
5
RESET-ETHERNETn
UART
SERVICE
CONNECTOR
47R
IE33
1M0
1E70
NX3225GA
+3V3
IE06
6E44
47R
+3V3
BZX384-C5V1
+3V3-ET-ANA
5
3E53-1
1E86
TXD1-MIPS
1E85
100n
2E62
10u
2E63
100n
2E66
30R
BZX384-C5V1
B04C
7E10-2
LAN8710A-EZK
34
35
36
VIA
40
41
42
VIA
CONFIGURATION RESISTOR SETTINGS
37
38
39
VIA
Resistor
POP
EMPTY
3E64 (RES)
FE28
4
ETH-RXP
FE29
1E88
3 ACM2012 2
ETH-RXN
FE31
4
Internal 1.2V reg. disabled
Internal 1.2V reg. enabled
MODE(0) = 0
MODE(0) = 1
MODE(1) = 0
MODE(1) = 1
1
FE30
3E71 (RES)
FE61
22n
9 11
10 12
2E60
5
CDA5C16GTH
16V
6E47-4
4
CDA5C16GTH
16V
RES
6
6E47-3
3
7
2
CDA5C16GTH
16V
RES
1
6E47-2
8
RES
6E47-1
CDA5C16GTH
16V
RES
1
FE34
1
2
3
4
5
6
7
8
MODE(2) = 0
MODE(2) = 1
INTERRUPT FUNCTION
INTERRUPT FUNCTION
DISABLED ON
ENABLED ON
nINT/TXER/TXD4 SIGNAL
3E72
nINT/TXER/TXD4 SIGNAL
5450-323-183-H3
15p
2E59
RES
5E04
RES 27n
MII mode selected
RES 15p
2E09
15p
3E39
0 ohm
RES
RES 27n
RES 15p
2E58
0 ohm
RES
RES
5E03
2E08
15p
2E57
RES
3E29
5E02
RES 27n
2E07
RES 15p
0 ohm
RES
15p
3E28
RES
2E56
5E01
RES 27n
RES 15p
2E05
3E27
RMII mode selected
1N00
FE60
RES
PHYADD(2) = 0
3E70 (RES)
22R
22R
3E98
3E26
3E99
49R9
1%
49R9
1%
3E95
3E25
49R9
1%
3E22
49R9
1%
ETH-TXN
PHYADD(2) = 1
3E68 (RES)
1E87
3 ACM2012 2
PHYADD(1) = 0
3E69 (RES)
FE27
PHYADD(1) = 1
3E67 (RES)
ETH-TXP
PHYADD(0) = 0
3E66 (RES)
ETHERNET CONNECTOR
PHYADD(0) = 1
3E65 (RES)
+3V3-ET-ANA
+3V3-ET-ANA
0 ohm
10-42-3
Q552.2E LA
FE32
ETH-INTSEL
ETH-REGOFF
FE33
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_031_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 292
HDMI
HDMI
B04D
ARX2+
ARX1ARX0+
1u0
10u
100n
2ECV
65
66
BRX2+
ARX0ARX0+
67
68
BRX2BRX1+
ARX1ARX1+
69
70
ARX2ARX2+
71
72
AIN-5V
HDMI CONNECTOR 2
BRX1BRX0+
BIN-5V
BRX-HOTPLUG
47K
3ECM-3
6
10R
BRX-DDC-SDA
BRX-DDC-SCL
1u0
7
100K
IE43
2ECN
35
36
33
34
FECC
FECD
BRXCBRXC+
BRX-DDC-SCL
BRX-DDC-SDA
8
BRX-DDC-SCL
BRX-DDC-SDA
BIN-5V
47K
BRX-HOTPLUG
BRX0BRX0+
2 3ECM-2 7
CIN-5V
1P02
3
3ECN-3
10R
1u0
CRX-DDC-SDA
CRX-DDC-SCL
CRX2+
CRX2CRX1+
100R
4
3ECA-4
47K
+3V3-STANDBY
8
10R
1u0
DRX-DDC-SDA
DRX-DDC-SCL
13
14
15
16
17
18
5
100K
IE45
2ECQ
5EC2
45
46
43
44
DRXCDRXC+
21
22
DRX1DRX1+
23
24
DRX2DRX2+
10p
19
20
DRX0DRX0+
ARC-eHDMI+
2ECC
9EC0
4
3ECN-4
30R
CIN-5V
IEC4
1
DIN-5V
3ECM-1
eHDMI+
22K
RES
7EC0
BC847BW
3ECD
11
12
CRX2CRX2+
6
3E23
RES
7E02
BC847BW
PCEC-HDMI
47K
CRX-HOTPLUG
3ECA-3
CIN-5V
20
22
39
40
2ECP
DRX-HOTPLUG
CRX-DDC-SCL
CRX-DDC-SDA
3
FECM
FECN
41
42
CRX1CRX1+
5
CRXCPCEC-HDMI
ARC-eHDMI+
CRX-DDC-SCL
CRX-DDC-SDA
FECA
IE44
CRX0CRX0+
CIN-5V
CRX0CRXC+
FECJ
6
100K
CRXCCRXC+
CRX1CRX0+
FECK
FECL
7
8
CRX-HOTPLUG
HDMI CONNECTOR 1
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
21
23
5
6
BRX2BRX2+
1
BIN-5V
3
4
BRX1BRX1+
3ECA-1
FECE
FECF
20
22
1
2
25
26
IEC6
CEC-HDMI
IEC5
100n
2EC3
CEC_D
49
6
8
DSCL4
DSDA4
N
R0X0
P
10u
RES 2ECW
38
37
9
27
64
R4PWR5V
N
R0XC
P
48
47
VGA-SCL-EDID-HDMI
VGA-SDA-EDID-HDMI
51
9EC2
CEC-HDMI
RES
N
R0X1
P
N
R0X2
P
TX2
N
P
TX0
DSDA1
DSCL1
N
P
TX1
(CBUS) HPD1
R1PWR5V
N
P
7
3ECA-2
BRXCPCEC-HDMI
3
BIN-5V
2
BRX0BRXC+
2
3ECN-2
DSDA0
DSCL0
+5V-EDID
10K
29
30
ARXCARXC+
(CBUS) HPD0
R0PWR5V
N
R1XC
P
TXC
N
R1X0
P
N
P
57
56
HDMIA-RX2HDMIA-RX2+
59
58
HDMIA-RX1HDMIA-RX1+
61
60
HDMIA-RX0HDMIA-RX0+
63
62
HDMIA-RXCHDMIA-RXC+
3ECJ RES
N
R1X1
P
TPWR_CI2CA
N
R1X2
P
CEC_A
(CBUS) HPD2
R2PWR5V
INT
55
50
52
4K7
IE12
FECR
RES
3ECK
MICOM-VCC33
4K7
9EC3
RES
PCEC-HDMI
FECY
3ECL RES
+3V3
4K7
DSDA2
DSCL2
N
R2XC
P
CSCL
CSDA
N
R2X0
P
RSVDL
N
R2X1
P
54
53
10
28
N
R2X2
P
(CBUS) HPD3
R3PWR5V
DSDA3
DSCL3
N
R3XC
P
VIA
N
R3X0
P
N
R3X1
P
N
R3X2
P
3EC3
3EC5
100R
100R
SCL-SSB
SDA-SSB
10p
2ECM
31
32
10K
3ECP-3
1u0
IE42
3
10R
ARX-DDC-SDA
ARX-DDC-SCL
8
100K
1
1
3ECN-1
10p
2ECY
5
30R
RES
AIN-5V
3ECM-4
SBVCC33
4
RES 2ECX
8
VCC33
ARX-HOTPLUG
MICOM_VCC33
1
47K
ARX-HOTPLUG
3EC1-1
AIN-5V
20
22
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
FECG 21
23
100n
100n
2EC8
2EC6
100n
2EC7
6
47K
3EC1-3
3
7EC1
SII9187B
ARX-DDC-SCL
ARX-DDC-SDA
FEC4
FEC5
+3V3
+3V3-HDMI
ARXCPCEC-HDMI
ARX-DDC-SCL
ARX-DDC-SDA
RES
5EC3
FEC7
AIN-5V
ARX0ARXC+
FEC1
FEC2
SII9187B = 0xB2
FECB
ARX2ARX1+
1P03
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
EPAD
73
FECP
3ECH
3ECP-1
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
FEC6 21
23
FEC0
2EC0
1P04
30R
220u 16V
RES 2EC1
+3V3
MICOM-VCC33
10K
5EC0
HDMI CONNECTOR 3
FEC3
2EC2
I2C Address
IEC7
3ECE
22K
B04D
7EC1
FECW
3ECN
3ECF
+3V3-STANDBY
NON-INSTAPORT
+5V-VGA
4X 3K3
3K3
9187B
4X 100K
100K
INSTAPORT
6EC1
+5V
9187A
NON-INSTAPORT
9287B
4X 100K
100K
BAT54
IE11
3ECG
3ECF
4R7
10-42-4
Q552.2E LA
FECZ
100K
DDCA-SDA
2ECU
DDCA-SCL
IE65
IE66
2
4
3ECU-2
10K
3ECU-4
7
+3V3
5
10K
1u0
+5V-EDID
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_032_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 293
Headphone
Headphone
B04E
+3V3-STANDBY
5
4
PUMD12
7EE0-2
A-PLOP
3
6
A-STBY
FEE0
2
RESET-AUDIO
7EE0-1
PUMD12
1
2EE0
47p
2
22K
3EE1-3
4 3EE1-4 5
3
22K
22K
3EE1-2
7
6
1 3EE1-1 8
22K
2EE5
3 3EE2-3 6
8
7EE1
TPA6111A2DGN
100n
2EE1
47p +3V3
IEE2
ADAC(4)
2EE3
1u0
IEE1
2EE4
1u0
IEE3
8 3EE0-1 1
10K
2
5
3EE0-4
6
4
10K
IEE4
5
2EE2
3
AMPLIFIER
A-PLOP
3 3EE0-3 6
33R
1
2EE6
1
IN-
IEE7
4 3EE2-4 5
VO
SHUTDOWN
BYPASS
2
VIA
GND GND_HS
2EE7
7
4V 100u
10
11
FE36
AMP1
33R
4V 100u
2
4
1u0
IEE6
1
VDD
IEE8
2 3EE2-2 7
FE35
AMP2
33R
1 3EE2-1 8
33R
9
IEE0
ADAC(3)
Φ
IEE5
10K
22K
B04E
RES 3EE3
10-42-5
Q552.2E LA
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_033_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 294
10.43 B05 313912365351, 313912365371
DDR
DDR
3B28
DDR2-CLK_P
240R
DDR2-CLK_N
DDR2-BA2
DDR2-ODT
RES
240R
3B01
DDR2-CLK_P
DDR2-CLK_N
DDR2-CKE
DDR2-CS
DDR2-RAS
DDR2-CAS
DDR2-WE
DDR2-DQM2
F9
E8
F8
F2
G8
F7
G7
F3
B3
3B23
0
1
2
3
4
5
6
7
DQS
NU|RDQS
3B12
3B13
B7
A8
7 33R
6 33R
5 33R
8 33R
33R
33R
DDR2-D16
DDR2-D17
DDR2-D18
DDR2-D19
DDR2-D20
DDR2-D21
DDR2-D22
DDR2-D23
DDR2-DQS2_P
DDR2-DQS2_N
H8
H3
H7
J2
J8
J3
J7
K2
K8
K3
H2
K7
L2
L8
G2
G3
G1
2p2
A2
DDR2-BA2
DDR2-ODT
ODT
3B03
CK
CKE
CS
RAS
CAS
WE
DM|RDQS
VSS
NC
L3
L7
DDR2-A14
VSSQ
VSSDL
DDR2-CLK_P
DDR2-CLK_N
DDR2-CKE
DDR2-CS
DDR2-RAS
DDR2-CAS
DDR2-WE
DDR2-DQM3
RES
240R
F9
E8
F8
F2
G8
F7
G7
F3
B3
3B24
33R
2B17
100n
2B37
100p
VDD
VDDL
E2
A9
C1
C3
C7
C9
E1
A1
E9
L1
H9
100n
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A13
DDR2-BA0
DDR2-BA1
3B00-2 2
6 33R
3B00-3 3
8 33R
7 33R
3B00-4 4
5 33R
3B00-1 1
C8
C2 3B02-3 3
D7
D3 3B02-1 1
D1 3B02-2 2
D9
B1 3B02-4 4
B9
2B44
RES
0
1 BA
2
100n
2B16
100n
2B15
100n
2B14
100n
2B13
100n
2B12
100n
2B11
100n
2B10
47u
2B09
E2
E1
A9
C1
C3
C7
C9
DQ
VREF
VDDQ
Φ
0
1
2
3
4
5
6 A
7
8
9
10
11
12
13
SDRAM
DQ
0
1
2
3
4
5
6
7
DQS
C8
C2
D7
D3
D1
D9
B1
B9
0
1 BA
2
NU|RDQS
3B04-2 2
6 33R
3B04-3 3
7 33R
8 33R
3B04-4 4
5 33R
3B04-1 1
3B05-3 3
3B05-2 2
3B05-1 1
3B05-4 4
B7
A8
3B14
3B15
2B45
7 33R
6 33R
5 33R
8 33R
33R
33R
DDR2-D24
DDR2-D25
DDR2-D26
DDR2-D27
DDR2-D28
DDR2-D29
DDR2-D30
DDR2-D31
DDR2-DQS3_P
DDR2-DQS3_N
RES
2p2
A2
ODT
CK
CKE
CS
RAS
CAS
WE
DM|RDQS
VSS
A3
E3
J1
K9
A3
E3
J1
K9
33R
2B41
2B36
100p
2B08
100n
G2
G3
G1
Φ
SDRAM
+1V8
NC
L3
L7
DDR2-A14
VSSQ
VSSDL
A7
B2
B8
D2
D8
DDR2-CLK_P
DDR2-CLK_N
7B03
EDE1108AGBG-1J-F
VREF
VDDQ
B05A
DDR2-VREF-DDR
E7
3B27
240R
VDDL
A7
B2
B8
D2
D8
DDR2-CLK_N
VDD
0
1
2
3
4
5
6 A
7
8
9
10
11
12
13
E7
DDR2-CLK_P
240R
H8
H3
H7
J2
J8
J3
J7
K2
K8
K3
H2
K7
L2
L8
DDR2-BA0
DDR2-BA1
3B22
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A13
A1
E9
L1
H9
7B02
EDE1108AGBG-1J-F
AT T-POINT
+1V8
DDR2-VREF-DDR
100n
100n
2B07
100n
2B06
100n
2B05
100n
2B04
100n
2B03
100n
2B02
100n
2B01
2B40
+1V8
47u
2B00
B05A
+1V8
DDR2-VREF-DDR
3B25
33R
DQ
0
1
2
3
4
5
6
7
DQS
C8
C2
D7
D3
D1
D9
B1
B9
NU|RDQS
3B07-2 2
5 33R
3B07-3 3
7 33R
8 33R
3B07-4 4
6 33R
3B07-1 1
3B08-4 4
3B08-2 2
3B08-1 1
3B08-3 3
B7
A8
3B16
3B17
2B46
0
1 BA
2
7 33R
6 33R
5 33R
8 33R
33R
33R
DDR2-D0
DDR2-D1
DDR2-D3
DDR2-D2
DDR2-D4
DDR2-D5
DDR2-D6
DDR2-D7
DDR2-DQS0_P
DDR2-DQS0_N
RES
2p2
A2
H8
H3
H7
J2
J8
J3
J7
K2
K8
K3
H2
K7
L2
L8
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A13
G2
G3
G1
DDR2-BA0
DDR2-BA1
DDR2-BA2
DDR2-ODT
ODT
3B09
CK
CKE
CS
RAS
CAS
WE
DM|RDQS
VSS
NC
VSSDL
L3
L7
DDR2-A14
VSSQ
DDR2-CLK_P
DDR2-CLK_N
DDR2-CKE
DDR2-CS
DDR2-RAS
DDR2-CAS
DDR2-WE
DDR2-DQM1
RES
240R
3B26
33R
F9
E8
F8
F2
G8
F7
G7
F3
B3
2B35
100n
2B39
100p
VDD
VDDL
VDDQ
E2
A9
C1
C3
C7
C9
E1
A1
E9
L1
H9
100n
100n
2B34
100n
2B33
100n
2B32
100n
2B31
100n
2B30
100n
2B29
100n
2B28
47u
2B27
2B43
2B26
100n
2B38
100p
E2
E1
SDRAM
VREF
Φ
0
1
2
3
4
5
6 A
7
8
9
10
11
12
13
SDRAM
DQ
0
1
2
3
4
5
6
7
DQS
C8
C2
D7
D3
D1
D9
B1
B9
3B11-4 4
B7
A8
NU|RDQS
2
7 33R
3
6 33R
4
5 33R
1
8 33R
3B18
3B19
2B47
0
1 BA
2
3B10-2
6 33R
3B10-3
7 33R
8 33R
3B10-4
5 33R
3B10-1
3B11-3 3
3B11-2 2
3B11-1 1
33R
33R
DDR2-D8
DDR2-D14
DDR2-D10
DDR2-D11
DDR2-D12
DDR2-D13
DDR2-D9
DDR2-D15
DDR2-DQS1_P
DDR2-DQS1_N
RES
2p2
A2
ODT
CK
CKE
CS
RAS
CAS
WE
DM|RDQS
VSS
NC
VSSDL
L3
L7
DDR2-A14
VSSQ
A7
B2
B8
D2
D8
180R 1%
DDR2-VREF-DDR
DDR2-CLK_P
DDR2-CLK_N
DDR2-CKE
DDR2-CS
DDR2-RAS
DDR2-CAS
DDR2-WE
DDR2-DQM0
F9
E8
F8
F2
G8
F7
G7
F3
B3
Φ
0
1
2
3
4
5
6 A
7
8
9
10
11
12
13
E7
180R 1%
3B20
FB00
RES
240R
3B06
7B01
EDE1108AGBG-1J-F
VREF
A3
E3
J1
K9
DDR2-BA2
DDR2-ODT
VDDQ
A7
B2
B8
D2
D8
G2
G3
G1
VDDL
E7
DDR2-BA0
DDR2-BA1
VDD
A3
E3
J1
K9
+1V8
H8
H3
H7
J2
J8
J3
J7
K2
K8
K3
H2
K7
L2
L8
A1
E9
L1
H9
7B00
EDE1108AGBG-1J-F
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A13
A9
C1
C3
C7
C9
100n
100n
2B25
100n
2B24
100n
2B23
100n
2B22
100n
2B21
100n
2B20
100n
2B19
47u
2B18
2B42
DDR2-VREF-DDR
3B21
10-43-1
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_034_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 295
10.44 B06 313912365351, 313912365371
Display interfacing Vdisp
Display interfacing Vdisp
B06A
1G03
T 3.0A 32V
5G01
FG0H
1G00
+VDISP-INT
100n
T 3.0A 32V
RES
2G43
+VDISP
30R
RES
5G02
30R
RES
22u
RES
B06A
2G44
10-44-1
RES
3G28
2K2
IG11
RES
6G00
LTST-C190KGKT
For Development use only
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_035_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 296
Video out - LVDS
Video out - LVDS
B06B
FG2J
2G95
100n
FG30
FG31
FG32
FG33
FG1F
FG1G
FG1H
FG11
FG1J
PX4APX4A+
PX4BPX4B+
PX4CPX4C+
FG12
FG13
FG14
PX4CLKPX4CLK+
PX4DPX4D+
PX4EPX4E+
FG15
FG16
FG17
FG18
FG19
FG1A
FG1B
FG1Q
FG1P
47p
60 61
58 59
56 57
54 55
52 53
2G27
47p
47p
47p
2G26
2G25
2G24
47p
2G7A
47p
47p
47p
47p
2G79
2G78
2G76
2G75
2G77
100R
100R
100R
100R
100R
100R
FG35
FG2R
FG2K
3G38
3G37
3G2Z
3G36
3G30
3G31
FG2L
FG2M
PX1APX1A+
PX1BPX1B+
PX1CPX1C+
FG2E
FG2F
FG1Y
FG1Z
FG20
FG21
PX1CLKPX1CLK+
FG22
FG23
PX1DPX1D+
PX1EPX1E+
FG24
FG25
FG26
FG27
PX2APX2A+
PX2BPX2B+
PX2CPX2C+
FG28
FG29
FG2A
FG2B
FG2C
FG2D
PX2CLKPX2CLK+
FG1R
FG1S
PX2DPX2D+
PX2EPX2E+
FG1T
FG1U
FG1W
FG1V
2G28
2G29
47p
47p
FG2P
RES 9G0G
FG2N
+VDISP
1G50
TO DISPLAY
EMC 100n
RES 2G9C
PX3DPX3D+
PX3EPX3E+
FG1K
FG1L
FG1M
FG1N
FG04
RES
RES
RES
RES
RES
RES
EMC 100n
RES 2G9E
PX3CLKPX3CLK+
FG1C
FG1D
FG1E
BACKLIGHT-BOOST
3D-LR
3D-VS-DISP
CTRL-DISP
CTRL-DISP
EMC
RES 2G9F
PX3APX3A+
PX3BPX3B+
PX3CPX3C+
47p
47p
47p
47p
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
CTRL-DISP
FI-RE51S-HF
FG34
FG2H
FG2G
100n
100n
100R
100R
100R
100n
100n
2G94
SDA-DISP
SCL-DISP
2G91
2G93
FI-RE41S-HF
50
51
48
49
46
47
44
45
42
43
EMC 100n
RES 2G9D
100n
2G96
2G99
2G97
2G98
RES 3G32
3G2W
3G2Y
CTRL-DISP
2G92
47p
10K
RES 3G35
10K
RES 3G33
5
6
7
8
RES
RES 3G34
+VDISP
10K
+3V3
9G0K-4
9G0K-3
9G0K-2
9G0K-1
B06B
4
3
2
1
10-44-2
Q552.2E LA
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
1G51
TO DISPLAY
1X05
REF EMC HOLE
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_036_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 297
AmbiLight CPLD
Ambilight CPLD
B06C
B06C
5GA0
FGA0
+3V3
VINT
5GA1
100n
100n
2GA2
2GA1
1u0
2GA0
30R
DEBUG ONLY
FGA1
+3V3
VIO
+3V3
100n
29
30
31
32
37
38
11
9
24
10
10K
RES
10p
RES
5
6 100R
7 100R
8 100R
100R
IXO2_36|GTS1
IXO2_34|GTS2
IXO2_33|GSR
IGA2
IXO4_19
IXO4_20
IXO4_21
IXO4_22
IXO4_23
IXO4_27
IXO4_28
IXO2_29
IXO2_30
IXO2_31
IXO2_32
IXO2_37
IXO2_38
IGA1
CPLED2
CPLED3
5
6
7
8
12
13
14
16
18
19
20
21
22
23
27
28
TCK
TDI
TDO
TMS
PNX-SPI-CSBn
BACKLIGHT-PWM
3D-LR
3D-VS-DISP
BL-SPI-SDO
BL-SPI-SDI
BL-SPI-CSn
BACKLIGHT-PWM_BL-VS
BL-SPI-CLK
9GA1 RES
3GA1
4
3G10-4
2
3G10-2
3G12
3
3G11-3
RES
47R
5
33R
3
7 3G10-3
33R
3G13
10R
1
6 3G10-1
33R
IGA3
GCK2
+3V3
3
5
GCK3
AMBI-SPI-CS-EXTLAMPSn
6
AMBI-SPI-CLK-OUT
AMBI-SPI-SDI-OUT_G1
AMBI-SPI-SDO-OUT
AMBI-LATCH2_DIS
33R
8
33R
2
GTS1
7GA1-1
BC847BS(COL)
1
+3V3
3
5
GTS2
7GA2-2
BC847BS(COL)
4
GND
4
17
25
+3V3
7GA1-2
BC847BS(COL)
4
+3V3
AMBI-PROG_B1
AMBI-BLANK_R1
6
33R
10p
33R
2
33R
IXO3_5
IXO3_6
IXO3_7
IXO3_8
IXO3_12
IXO3_13
IXO3_14
IXO3_16
IXO3_18
10p
2G19 RES
1
3G14
7
33R
3G11-2
10p
10p
2G12 RES
10p
2G11 RES
10K
2G10 RES
8
3G11-1
IXO1_2
IXO1_3
IXO1_39
IXO1_40
IXO1_41
IXO1_42
10p
2G18 RES
36
34
33
GTS1
GTS2
GSR
AMBI-SPI-CS-OUTn_R2-R
AMBI-PWM-CLK_B2
AMBI-SPI-CS-OUTn_R2
AMBI-LATCH1_G2
AMBI-TEMP
CPLED3
CPLED2
3G15
33R
4
3
2
1
SD51022
AMBI-SPI-CLK-OUT-R
AMBI-SPI-SDI-OUT_G1-R
AMBI-SPI-SDO-OUT-R
10p
2G16 RES
3GA3
3GA5-4
3GA5-3
3GA5-2
3GA5-1
GCK3
GTS1
GTS2
GSR
VCCIO
10p
2G15 RES
PNX-SPI-CS-BLn
PNX-SPI-SDO
PNX-SPI-SDI
PNX-SPI-CLK
2
3
39
40
41
42
VCCINT Φ
IXO1_43|GCK1
IXO1_44|GCK2
IXO1_1|GCK3
10p
2G14 RES
43
44
1
2G13 RES
PXCLK54
GCK2
GCK3
15
35
7GA0
XC9572XL-10VQG44C0100
VIO
1
2
3
4
5
6
+3V3
26
VINT
2GA6
3GA4
RES
1G37
10p
2G17 RES
2GA5
1u0
2GA3
30R
+3V3
6
3GA6-3
6 330R 3
3GA6-4
5 330R 4
3GA6-1
FGA3
+3V3
SD51022
BACKLIGHT-PWM
9GA0
6GA3
FGA5
LTST-C190KGKT
FGA4
FGA2
6GA2
FGA6
LTST-C190KGKT
1
2
3
4
5
6
6GA1
100R
100R
100R
100R
LTST-C190KGKT
8
7
6
5
6GA0
1
2
3
4
LTST-C190KGKT
8
2GA4
7
3GA2-1
3GA2-2
3GA2-3
3GA2-4
8 330R 1
RES
1G36
1
2
3
4
5
6
7GA2-1
BC847BS(COL)
1
3GA6-2
DEBUG ONLY
RES
1G35
2
7 330R 2
GSR
100n RES
10-44-3
Q552.2E LA
BACKLIGHT-PWM_BL-VS
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_037_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 298
SPI buffer
SPI buffer
B06D
+3V3
+3V3
20
3GE2
3EN1
3EN2
G3
PNX-SPI-CLK
PNX-SPI-SDO
PNX-SPI-CSBn
7GE0
74LVC245A
1
IGE0
19
3 3GE0-3 6
2
1
2
17
16
15
14
13
12
11
47R
3
4
5
6
7
8
9
3GE1-3 6
3GE4
3
47R RES
3GE3
47R
BL-SPI-CLK
1
3GE0-1
5
8
47R
4 3GE1-4
47R RES
BL-SPI-SDO
AMBI-SPI-CLK-OUT-R
AMBI-SPI-SDO-OUT-R
PNX-SPI-SDI
RES
47R
10
AMBI-SPI-SDI-OUT_G1-R
BL-SPI-SDI
18
7GE1
PDTC114EU
10K
100n
B06D
2GE0
10-44-4
Q552.2E LA
PNX-SPI-CLK
7
9GE0-2
2
BL-SPI-CLK
PNX-SPI-SDO
6
9GE0-3
3
BL-SPI-SDO
9GE1
BL-SPI-SDI
9GE2
PNX-SPI-CS-BLn
IGE1
5 9GE0-4
PNX-SPI-SDI
*
** 4
BL-SPI-CSn
Buffer
*
**
Direct
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_038_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 299
10.45 B07 313912365351, 313912365371
DVBS-FE
B07A
DVBS-FE
B07A
7R01-1
STV0903BAC
100n
10n
2R15
100n
2R14
10n
2R09
+3V3-DEMOD
+3V3-DVBS
10n
10n
2R52
10n
2R51
100n
2R50
100n
2R49
100n
2R48
2R47
100n
2R46
22u
2R16
30R
VIA
VDD3V3
2
3
100n
2R17
+1V-DVBS
VDDA2V5
60
56
RES 2R21
DISECQ-DET
F22-DISECQ-TX
128
20
126
NC
107
NC
IR04
47p
97
98
3R00 IR03
19
18
1n0
RES 2R22
SCL-SSB
SDA-SSB
100R
RES 2R23
3R01
47p
100R
SCLT
SDAT
RESET-DVBS
IR02
9R00
RES
3R11
+3V3-DVBS
10K
62
58
26
23
24
29
27
FR02
FR03
FR04
FR05
FR06
FR07
XTALO
VS
AGCRF1
I2C-ADDRESS : D0
DIRCLK
CLKI
CLKI2
CLKOUT27
N
I1
P
N
Q1
P
0
1
2
3
D
4
5
6
7
CLKOUT
STROUT
DPN
ERROR
0
CS
1
DISEQCIN1
DISEQCOUT1
FSKRX_IN
FSKRX_OUT
NC
SCL
SDA
SCLT
1
SDAT
RESETB
STDBY
TCK
TDI
TDO
TMS
TRST
COMP
0
1
1
2
3
4
5
6
GPIO 7
8
9
10
11
12
13
52
SENSE+1V0-DVBS
63
64
65
67
68
70
71
73
74
75
78
79
82
83
84
86
87
89
90
91
94
95
108
109
111
115
116
119
120
AGC
2R53
1K0
47n
* To be drawn near PNX85500
3R03
3R04
3R05
3R06
47R
47R
47R
47R
NC
NC
NC
NC
TS-DVBS-DATA 4
TS-DVBS-CLOCK
TS-DVBS-SOP 2
TS-DVBS-VALID 1
9R03-4 * 5
9R04 *
9R03-2 * 7
9R03-1 * 8
TS-FE-DATA
TS-FE-CLOCK
TS-FE-SOP
TS-FE-VALID
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
40
41
101
50
49
47
46
44
43
37
35
34
32
30
55
FR00
3R02
16
6p8
8
7
IM
IP
Φ
MAIN
XTALI
IR05
3R07
120K
DISECQ-RX
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
100n
100n
2R26
2R25
100n
2R24
100n
100n
2R19
+2V5-DVBS
2R18
VDDA1V0
5
9
13
114
118
123
127
11
12
QM
QP
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
VDD1V0
21
38
54
76
80
92
96
106
+3V3-DEMOD
NC
59
104
103
100
129
GND_HS
IR00
5R00
NC
124
2R20 RES
GNDA
NC
1K0
10n
100n
2R13
10n
2R12
100n
2R11
10n
2R06
2R05
2R08
100n
2R07
+1V-DVBS
1
4
6
10
14
113
117
121
125
3R10
100n
10n
2R10
100n
2R03
10n
2R02
100n
2R01
2R00
100n
2R04
+1V-DVBS
Φ
POWER_VIA
10K
15
17
22
25
28
31
33
36
39
42
45
48
51
53
57
61
66
69
72
77
81
85
88
93
99
102
105
110
112
+1V-DVBS
122
XTAL
3R13
7R01-2
STV0903BAC
+3V3RF
3R12
IR06
IR01
1R01
73356-5070
1
2R43
9
8
7
6
5
4
3
2
4
XTAL_CMD
XTAL_OUT
SCL
SDA
IP
IN
QP
QN
RF_OUT
AGC
AS
NC
VIA
RF_IN
10u
2R61
2R40
1K0
18
19
100p
3
3R08-3
21
20
7
34
35
36
37
38
39
40
41
42
XTAL
2
3R08-2
NC
4
6 3R08-4
100R
1
7 3R08-1
100R
5
100R
QP
QM
8
100R
IP
IM
SYN HS
29 33
0p56
2R62
3R09
32
100p
2R45
1n0
1n0
2R35
1n0
2R33
1n0
2R34
SYN
Φ
SATELLITE
TUNER
I2C-ADDRESS : C6
GND
RF LNA LT MIX DIG BB VCO
5
3
9 10 15 17 25 26
27n
5R02
1n0
2R29
6R00
FR01
SM15T
LNB-RF1
23
24
28
27p
10n
2R28
2R27
10u
10p
2R39
5R01
+3V3-DVBS
NC
16
VCO
10p
2
9R02
RES
27
2R56
12
13
IR08
22
10p
1
14
MIX DIG BB
VSS
XTAL_IN
1 2
10p
11
2R55
31
AGC
+3V3RF
8
10p
NC
16M
2R38
IR07
SCLT
SDAT
6
LNA LT
10p
7R02
STV6110AT
3 4
30
10K
10K
3R15 RES
3R14 RES
10p
2R54
+3V3RF
2R41
1R10
NX3225GA
2R37
+3V3RF
1n0
2R32
2R31
4R7
220u 6.3V
10-45-1
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_039_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 300
10.46 B08 313912365351, 313912365371
DVBS supply
DVBS supply
B08A
5T00
IT00
6
SYNC
A
4
5T01
+1V-DVBS
GND
P HS
8
9
3T00 RES
14
11
+3V3-DVBS
1%
IT24
SENSE+1V0-DVBS
4n7
3T21
100n
2T06
4n7
2T36
3K3
12
22K
3T02
15
VIA
10
47K
1K0 1%
2T10 RES
IT02
13
IT20
3T03
FT06
IT18
2u0
3
VFB
RES 3T01
7T00-2
ST1S10PH
IT01
7
SW
VIN
22u
INH
5
RES 1n0
2T03
+2V5-DVBS
22u
2T05
A
1
2
2T04
7T00-1
ST1S10PH
22u
22u
2T02
22u
2T01
2T00
30R
SW
+5V-DVBS
1K0 1%
LD3985M25
7T01
BP
FT07
5
4
+2V5-DVBS
IT19
COM
2
5T02
INH
30R
100n
2T07
3
OUT
1u0
IN
1u0
1
2T39
IT03
2T08
BAS316
10n
6T02 RES
BAS316
BAS316
2T09
6T00 RES
6T01 RES
+5V-DVBS
7T02
LD1117DT33
OUT
FT08
2
+3V3-DVBS
16V
IN
2T12
100n
2T11
COM
1
22u
3
+24V
100u 35V
2T16
2T14
IT05
5T03
FT00
220n
2T17
2T13
47n
3R3
220n
IT04
100u 35V
2T15
3T04
10K
IT09
10K
5T04
4u7
RES 2T22
4u7
RES 2T38
10u
1n0
IT11
RES 2T37
10u
2T24
2T23
6T04
SS24
16
17
18
19
20
21
22
23
24
25
26
22R
3T11
33u
100u 25V
+V-LNB
IT32
GND_HS
IT17
1n0
IT12
3T29
3T08
3T10
3R3
47n
15
4
GND
7T04-1
BC847BS(COL)
1
10u
2
2T35
IT21
IT26
2T26
1n0
2T25
3T06
100K
IT27
6
3T07
ILIM2
SEQ
BP
VIA2
IT08
+3V3
BOOT2
SW2
EN2
FB2
IT10
2T20
13
12
6
8
2T27
9
10
11
IT07
+24V
BOOT1
SW1
EN1
FB1
Φ PVDD2
1K0
1n0
2T21
PVDD1
2
3
5
7
14
7T03
TPS54283PWP
IT25
IT06
1
22R
3T05
22u
6T03
SS24
33u
220u 16V
2T19
2T18
+5V-DVBS
10K
IT29
3T23
IT13
33K
2T41
RES
2T28
1n0
FT04
4u7
RES
3T24
SENSE+1V0-DVBS
15K
220p
2T40
2T31 RES
RES
2T29
47K
5%
RES
47K
3T16
3K3
5%
IT14
2T30 RES
3T17
7T04-2
BC847BS(COL)
4
3T15
5
IT23
22n
3T14
2K2
BZX384-C
13V
1K0
IT22
6T05
+24V
22n
3T12
3K3
3T13 RES
+V-LNB
3
IT15
3T25
3K3
V0-CTRL
330K
3T28
100K
RES
RES 10n
IT16
RES 10K
100n
RES
3T26
2T43
RES 2T34
IT30
2T42
22n
RES
3T19
33K
3K3
5%
3T18
18K
5%
22u
22u
2T33 RES
22n
3T20
RES 3T09
+5V-DVBS
2T32 RES
B08A
RES
3T31
10-46-1
FT05
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_040_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-46-2
Q552.2E LA
10.
EN 301
DVBS supply
B08B
DVBS supply
B08B
+12V
+3V3-DVBS
+12V
3T22
220R
22u
RES
5T50
100R
3T50
100n
2T51
2T50
RES
100u 35V
IT50
IT28
220n
2T52
V0-CTRL
IT60
5T52
14
TTX
VCTRL
NC
VUP
P_GND
6T50
220n
2T53
34
35
36
10u
3T58 RES
2K2
IT55
DISECQ-DET
6T54 RES
RES
7T51
BC817-25W
IT68
RES
IT69
IT59
9T52 RES
VIA
VIA
10n
2T60
2T62 RES
1R0
IT67
IT64
2T61
7T50-2
LNBH23Q
3T62
2K2
+3V3-DVBS
10K
BAS316
33
A_GND
5
20
GND_HS
BYP
470n
VIA
DISECQ-RX
39
40
VIA
37
38
2T59
470n
2T58
15
1
2
3
7
8
16
17
23
24
25
26
31
32
3T57 RES
STPS2L30A
EXTM
11
IT66
6T51
DSQOUT
IT58
100u 35V
BAT54 COL
18
19
DSQIN
22
150R
13
27
2T57
470n
VOTX
22R
9T51
IT57
30R
2T56
100u 35V
2T55
DETIN
15R
21
3T54 RES
12
IT63
+V-LNB
RES
VORX
22K
IT54
29
30
5T51
ADDR
4
LNB-RF1
3T53
RES
9T50
RES
LX
28
3T52
3T27
10K
ISEL
IT52
220u
3T59 RES
10
10K 3T55 RES
2T54
RES
IT61
IT62
10K
3T56 10n
IT65
RS1D
RES
100R
SCL
SDA
IT53
41
42
IT56
DISECQ-DET
F22-DISECQ-TX
6T53
STPS2L30A
6T52
RS1D
6T55
LNB-RF1
RES
IT51
1n0
3T60
9
6
VCC_L
100R
3T61
SDA-SSB
Φ
VCC
SCL-SSB
+12V
7T50-1
LNBH23Q
3T51
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_041_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 302
10.47 B09 313912365351, 313912365371
Connectors comp
Connectors comp
B09A
5C55
+3V3
30R
FC79
2C70
FC81
GND_AL
NC
FC83
1C86
+24V
FC82
AMBI-POWER
100n
RES
100n
2C95
1C87
FC84
2C94
T 2.0A 63V
+12V_AL
27
2C96
T 2.0A 63V
RES
100p
IC73
100R
2C78
IC74
LED-2
3C77
100p
100R
FC89
FC90
FC91
FC92
FC93
2C79
IC75
3C78
FC94
+5V
100p
100R
LED-1
2C80
100p
FC95
KEYBOARD
28
1M19
FC88
+3V3-STANDBY
1
2
3
4
5
6
7
8
3C79
10R
100p
FH34SRJ-26S-0.5SH(50)
2C82
100n
RES
GND_AL
TO
LED PANEL
100n
100R
3C76
47n RES
2C81
FC78
3C70
RC
6C02
FC77
FC76
2C77
RES
V-AMBI
AMBI-BLANK_R1
AMBI-PROG_B1
AMBI-LATCH2_DIS
AMBI-TEMP
100p
100R
2C93
6C05
FC75
3C75
LIGHT-SENSOR
RES
BZX384-C5V6
FC74
AMBI-SPI-CS-OUTn_R2
AMBI-LATCH1_G2
2C76
FC87
BZX384-C5V6
FC73
AMBI-PWM-CLK_B2
6C03 RES
FC72
V-AMBI
BZX384-C5V6
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
FC71
AMBI-SPI-SDO-OUT
AMBI-SPI-SDI-OUT_G1
3C74
1M59
FC70
AMBI-SPI-CLK-OUT
100K
RES
B09A
100n
GND_AL
1M21 RES
TACH02
100R
RES 3C81
FC63
RES 3C82 100R
FC96
FC97
FC98
100R
FC64
19
20
FH52-18S-0.5SH
Dream Catcher
FC99
RES 5C54
+3V3
30R
RES 5C53
+12V
30R
IC78
1u0
FAN-DRV
* RES 3C93
10K
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
2041145-4
TEMPERATURE
SENSOR
RES 2C85
+3V3
3C92
* RES 100R
T 1.0A 63V
FAN-CTRL2
100p
RES 3C83
FC86
100p
RES 2C84
SDA-BL
RES 2C83
100R
1
2
3
4
RES
1u0
FC85
RES
1M71
3C97 RES 47R
1u0
2C91
RXD2-MIPS
100R
RES 3C80
3C96 RES 47R
2C90
*
FC62
TXD2-MIPS
RES 3C91
3C95 RES 47R
10p
10K
+3V3-STANDBY
+5V
47R
10p
2C89 RES
SCL-BL
*
3C94
10p
2C88 RES
TACH01
+3V3
FC61
SDA-SET
RES 3C90
9C00
RES
9C01
RES
9C02
RES
9C03
RES
10p
2C87 RES
FAN-CTRL1
SCL-SET
2C86 RES
* HOTEL TV
RES
1C85
10-47-1
RESERVED
1
SPB SSB TV550
2K11 4DDR EU HF
2011-06-17
3139 123 6535
19106_042_110920.eps
110920
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 303
10.48 B10 313912365371
10-48-1
DVBT2
B10A
DVBT2
B10A
+1V2-DVBT2-C
2FJ4
100n
2FJ3
100n
2FJ2
100n
2FJC
100n
2FJB
100n
2FJA
100n
2FJ9
100n
2FJ8
100n
2FJ7
100n
2FJ6
100n
+1V2-DVBT2-M
+1V2-DVBT2-P
2FJJ
+2V5-DVBT2-A
+3V3-DVBT2-D
100n
+3V3-DVBT2-R
100n
+2V5-DVBT2-X
2FJE
100n
2FJF
100n
2FJP
100n
2FJD
100n
2FJL
2FJK
2FKB
IF-N-DVBT2
3FJM
RES 9FJ4
IFJ5
2FJY
DVBT2-IFN
DVBT2-IFN
IFJ0
1
3
47
IFJ1
3FJ0
46
1K0
50
49
5FJ9
9FK5
3FJB
2FJ1
150K
100p
3FJA
3FJ9
53
100R
330K
1M0
3FJN
3FJ2
2FJN
6
RF-AGC
5
7FJ1-2
BC847BPN(COL)
MVDD
IFJ4
10K
3FJ8
+3V3-DVBT2-D
54
45
44
8
19
40
41
11
27
59
7
14
20
30
36
56
61
DVDD
R
VDD
TSCLK
TSVALID
TSSYNC
TSERR_GPIO2
XTALI
XTALO
0
1
2
3
TSDATA
4
5
6
7
AINP
AINM
RFAIN
DFJ1
58
57
IFAGC
RFAGC_GPIO1
SCL
SDA
TUNERCLK
TUNERDAT
I2C ADDRESS
0xD8, 0xDC
1
GPIO0
10K
3
+3V3-DVBT2-D
IF-AGC
IFJ8
RES 3FJ4
4K7
RES 3FJ3
32
33
TESTMODE
A0
4K7
DFJ2
REMOVE IN
NEXT LAYOUT
VIA
34
9FJ0
37
RESET-SYSTEMn
OSCENBN
RESETN
DFJ4
38
OSCMODE
DFJ3
PLLBPN
IFJA
3FJG
3FJF-2 2
3FJF-3 3
3FJF-4 4
5
4
3
2
12
13
16
17
22
23
24
25
28
29
RES 9FJ1
7
6
5
47R
47R
47R
47R
9FK1
9FK2
9FK3
3FJF-1
8
47R
9FK4
1
IFJ9
TS-FE-CLOCK
TS-FE-VALID
TS-FE-SOP
TS-DVBT2-ERR
TS-FE-DATA
REMOVE IN
NEXT LAYOUT
9FJ2
3FJH
3FJJ
47R
47R
SCL-SSB
SDA-SSB
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
XVSS
48
PVSS
43
6
10
15
21
26
31
35
55
60
51
5FJ1
FFJ0
+3V3-DVBT2-D
+3V3
GND_HS MVSS
9
18
39
42
VSS
AVSS
65
62
6p8
X
DFJ0
IFJ3
3FJ7
1
7FJ1-1
BC847BPN(COL)
64
63
1K0
4n7
2
4
CVDD
P
47p
+5V-TUN-PIN
820n
52
12p
AVDD
2FJV
100n
RES 2FJM
7FJ0
CXD2820R
2
4
1FJ0
41M
680n
10p
100n
100R
10n
47p
DVBT2-IFP
100R
10n
IFJ2
2FJW
DVBT2-IFP
5FJ0
3FJK
RES 9FJ3
RES 2FJ5
2FKA
IF-P-DVBT2
12p
2FJH
2FJT
820n
2FJG
100n
5FJ8
5
6
7
8
+1V2-FE
IFJB
5FJ5
+3V3-DVBT2-R
30R
IFJE
+1V2-DVBT2-C
+1V2-FE
2FK4
1u0
2FK1
30R
1u0
5FJ2
220u 16V
10u
2FKG
9FK6-4
9FK6-3
9FK6-2
9FK6-1
RES 2FKF
4
3
2
1
+1V2
1u0
2FK0
30R
RES 5FK2
+5V
7FK1
LD3985M25
5FJ6
+1V2-DVBT2-M
30R
1u0
4
IFJF
+2V5-DVBT2-A
30R
2FK5
COM
IFJC
+2V5-DVB
1u0
BP
5FJ3
+2V5-DVB
2FK2
INH
FFJ1
5
1u0
OUT
2FKE
5FJ4
IFJD
5FJ7
IFJG
+2V5-DVBT2-X
30R
+1V2-DVBT2-P
1u0
2FK6
1u0
30R
2FK3
1u0
2FKC
3
IN
10n
1
30R
2FKD
5FK1
+3V3
2
30R
1
SPB SSB TV550
2K11 4DDR EU SD HF
2011-06-17
3139 123 6537
19106_048_110922.eps
110922
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 304
10.49 313912365351 SSB Layout
1X08
3E65
3C83
3C81
3C80
CXXX
2U46
3U42
3C82
2C84
3C93
2C83
2U09
3US7
7US1
7UD3
3U56
2U56
2U28
7UD1
7U05
3U07
5UM1
3U06
3UD0 3UD2
2UD3
2U27
3UD1 2UD7
1UM0
2UD0
2UD8
3U44
2UE8
IUD0
3G14
3G12
3G13
3G102G13
2C70
3C70
5UD1
2C95
2C94
2C96
6GA1
2T32
6GA0
2T19
6GA3
5T03
2T33
3GA6
1G37
3GA5
7GA1
1G36
3GA2
3GA1 9GA0
1G35
7GA2
3S3Y
3S62
3S21
3S3S
3S1K
2T14
6T03
3R082R55
2R46
1P09
2R61
9R02
7R02
2R38
2R40 3R09 2R39
2R62
2R33
2R32
2R28
2R31
5R02 2R45
1R01
5R01
2R37
1R10
2R35
2T00
2F29
3R15 3R14
2R29
2T17
7T00
2T11
2T12
2R56
2R41
2T01
2R54
2R34
2R43
3F37
2T55
2F33
5T04
7T03
7T02
6T55
3T22
2T22
2F01
1P00
3R04
3R05
3R06
3R03
2T50
2R20
7R01
7T50
2T56
5T50
2T57
2R27
1P08
1M59
5C55
3G11
7UD0
2UD1
5UD0
2UD5 2UD4
2UD2
5UD2
2T18
3S04
3S3T
3S24
5T51
2F40
1F24
7F70
6T51
6T53
3F36
7F25
1M99
2UE7
3US5
2UE0
7US3
2UE1 3UD5
2UE4
2UD9
1X22
2U43
3S1J
2S4E
3S1C
3S3L
3S3N
3S29
3S23
1X04
1328
1X01
IUD1
3R12
1FD2
1P05
5T52
2F92 2F94
2F90 3F71
2F32
1FD3
IUS6
IUD2
2U50
1C87
1C86
6GA2
3S28
3S4A
6T52
5F70
9F04
IF89
2F91
3F72
1F75
6F72
2FDD
2F9D
5F73
2F9C
3F78
2FDC
2F93
2F9A
2F99
3FC3 3FC4
IUS3
IUS4
2F58
3F31
3FC5
6FC8
6FC6
6FC1
6FC2
6FC4
6FC3
6FC5
6FC7
2FC8
3FC1
7US2
3U66
3F59
3F60
IF86
1F25
2FC6
2F88
2F34 3F28 2F35
2FC1 3FC6
3F65
3FDG
2FC2
3F64
1F51
3F63 3F62
1FC1
9FC5
1F52 1329
2F60
2F97
9FC6 9FC3
2FC7
3FC7
2FC4
6FD3
3U67
2U52
3S03
3S4B
3S1B
3S6H
2GA4
IGA3
3S31
7S02
3S2A
3S1L
IS14
1FC6
9FC4 3FC2
1FC2 1FC4 1FC3
2FC3
6FD2
9F05 9F06
2U51
3S3Q
3S3R
2S4D
1E71
7GA0
9S00
2S09
9S01
3S81
3S80
3S52
3S50
3S3M
3S42
3S54
3S84
3S02 3S01
1E86
1T01
9F00 9F01
2US3
3UD3 3UD4
3B26
3B18
3B19
8239_125_15921_+1V8_2
8204_000_89531_+1V8
IGA2
IGA1
IF61
9F71
3U29
3US6 3US9
7B01
7B00
3B16
3S43
3S2M 3S44
2S77
2S78
BS10
1F10
3S3W
3S59 2S87
IF62
5F72 2F9B
2U72
9S18 2S8G
7F58
2FC5
5C53 5C54
5G01
5G02
2UU2
9UU0 9UU1
5U01
1G03
2G44
2U15
2S4F
DS50
9S93
9F28
2F86
3F75
3U76
2U48
IUT2
2UD6 6UD0
9S92
3F58
2F98
3US3
9S91
7F20
2E37
IU57
3S4R 2S7N
3S83
6E20
3E20
2F81
3U71
2U54
2U68
3G15
3S4J 2S7J
9S20 2S7U
2S4G
1S02
3S4P 2S7L
3US2
2UE9
9S90
3E17
2S7M
3S4T 2S7P
1E85
6E19
IE09
2E35
3B25
7B02
3S4L 2S7K
BS13
IE10
IE35
8239_125_15921_DDR2_D27
8204_000_89531_DDR2_D27
8239_125_15921_DDR2_D22
8204_000_89531_DDR2_D22
BS15
9F27
6E16
3E21
1E38
1E37
IE36
3E41
1E06
1X06
1E09
3B17
3B24
3B15
3S3G
2UE2
7S00
3S27
2S2R
2S2T
2S34
3S53
7S08
3S13
3S12
2S4M
9E20
9E18
1E25
4E23
2E36
IE42 3ECN
2ECN
2ECM
3E58
2E26
3E57
1E75
IS13
2E38
1FC5
5U03
2UE3
3S6K
3E36
3E56
2E25
5U02
2U19
IUD4
3S3U
9C02
6E15
3E38
2U49
3U84
2S4P
9C03
6E18 IE34
3ECM
1E79
1E77
1ECB
3E55
2E20
3S3F
DBS8
2S33
2S32
2S30
2S31
2S2W
2S2V
2S2Z
2S2Y
IE11
3E54
9S06
9S19 2S7R
3ECG
6EC1
3B14
8239_125_15921_DDR2_DQS2_N
8204_000_89531_DDR2_DQS2_N
3E31
2E18 4E05
6E22
3E32 9E24
2E83
2E14 4E04
6E26
5E74
3E76 3E77 2E84
9E22
1E19
1E22
2ECU
3ECP
4S14
8239_125_15921_DDR2_D138204_000_89531_DDR2_D7
8204_000_89531_DDR2_D138239_125_15921_DDR2_D7
8239_125_15921_DDR2_D10
8204_000_89531_DDR2_D10
8239_125_15921_DDR2_D15 8204_000_89531_DDR2_D9
8204_000_89531_DDR2_D15 8239_125_15921_DDR2_D9
8239_125_15921_DDR2_D0 8239_125_15921_DDR2_D12
8204_000_89531_DDR2_D0 8204_000_89531_DDR2_D12
8239_125_15921_DDR2_D8 8239_125_15921_DDR2_DQM1
8204_000_89531_DDR2_D8 8204_000_89531_DDR2_DQM1
8239_125_15921_DDR2_D5 8204_000_89531_DDR2_D14
8204_000_89531_DDR2_D5 8239_125_15921_DDR2_D14
8239_125_15921_DDR2_D3 8204_000_89531_DDR2_D11
8204_000_89531_DDR2_D3 8239_125_15921_DDR2_D11
8239_125_15921_DDR2_DQS1_N
8204_000_89531_DDR2_DQS1_N
8239_125_15921_DDR2_DQS1_P
8204_000_89531_DDR2_DQS1_P
3S3H
9S21 2S7E
3ECF
6E17
2D30
3US4
IUT1
2UE6
3B11
3S00
3S4K 2S7H
1E01
7EC1
2ECC
3S6J 3S26
2S2S
4E01
1E04
3EC3
1E03
1E39
2ECP
3U43
2U45
9US0
IUS9
2B47
3B10
8239_125_15921_DDR2_D1
8204_000_89531_DDR2_D1
8239_125_15921_DDR2_D2
8204_000_89531_DDR2_D2
8204_000_89531_DDR2_DQS0_N
8239_125_15921_DDR2_DQS0_N
8239_125_15921_DDR2_DQS0_P
8204_000_89531_DDR2_DQS0_P
8239_125_15921_DDR2_D4
8204_000_89531_DDR2_D4
8239_125_15921_DDR2_DQM0
8204_000_89531_DDR2_DQM0
8239_125_15921_DDR2_D6
8204_000_89531_DDR2_D6
8239_125_15921_DDR2_D218204_000_89531_DDR2_DQS2_P
8239_125_15921_DDR2_D16 8204_000_89531_DDR2_DQM2
8204_000_89531_DDR2_D16 8239_125_15921_DDR2_DQM2
8239_125_15921_DDR2_D20
8239_125_15921_DDR2_D17
8204_000_89531_DDR2_D17
8239_125_15921_DDR2_D19
8204_000_89531_DDR2_D19
8204_000_89531_DDR2_D218239_125_15921_DDR2_DQS2_P
8204_000_89531_DDR2_D20
8239_125_15921_DDR2_D23 8204_000_89531_DDR2_D18
8204_000_89531_DDR2_D23 8239_125_15921_DDR2_D18
8239_125_15921_DDR2_D30
8204_000_89531_DDR2_D30
8239_125_15921_DDR2_D25
8204_000_89531_DDR2_D25
8239_125_15921_DDR2_D28
8204_000_89531_DDR2_D28
2S41
1E23
2EC1
3EC5
9EC3
5EC2
9E15
3B08
8239_125_15921_DDR2_DQS3_P
8204_000_89531_DDR2_DQS3_P
8239_125_15921_DDR2_DQS3_N
8204_000_89531_DDR2_DQS3_N
8239_125_15921_DDR2_DQM3
8204_000_89531_DDR2_DQM3
9E21
4E22
3B07
3B02
8239_125_15921_DDR2_D29
8204_000_89531_DDR2_D29
8239_125_15921_DDR2_D26
8204_000_89531_DDR2_D26
8239_125_15921_DDR2_D24
8204_000_89531_DDR2_D24
8204_000_89531_DDR2_D31
8239_125_15921_DDR2_D31
4E02
1E28
3B00
3B05
2B46
3B12
1X24
1E53
1E12
1E55
3E87
9E29 9E52
3E88
6E40
2E27
6E51
2E67
2B44
3B23
1E31
1E54
1E32
1E08
3E89 9E17
9E50
4E03
9E05
1P03
3B04
1E18
9E04
2B45
3B13
1E00
IEE6
1E43
1P02
7B03
6E38
2E40
4E24
1E78
6G00 3G28
2E71 3E96
4E21
2E21
2G98
9E13
1E42
2E23
2G97
4E20
9E57
2U53
2U44
3U81 3U45
IU23 3U23
IUS5
2E39
IEE4
2U17
1X21
1E29
2EE5
1E76
1X23
IU15
3U26
1X20
2U18
5UD3
6E06
IEE53EE3
2EE2
2EE1
IEE3
1P04
9E11
2E72
2EE4
7EE1
2EE0
5U00
8204_000_89531_+1V8_1
8239_125_15921_+1V8_1
2U24
2U23
2U25
2U47
3E97
6E46
3EE2
3EE1 3EE0
8204_000_89531_+1V8_2
8239_125_15921_+1V8
7EE0
2EE7
5E06
2EE3
1E44
8204_000_89531_+1V2_1
8239_125_15921_+2V5
8204_000_89531_+2V5
8239_125_15921_SENSE+1V2_1
8204_000_89531_SENSE+1V2_1
8239_125_15921_+1V2_1
2EE6
2D19
2U58
3U65
1M95
2D07
2D09
2D20
4U00 4U01
3U64
2U20
2E52
2D23
7U02 7U04 7U01
3E30
5D02 5D01
3E66
2E55
2E54
1E70
2D24
3E67
2E53
3E68 3E34
3E72
2E63
3E70
IU17
2U16
3E69
5D08
2D17
IU18
2U11
2D05
5D07
2E48
IE07
2D08
7D10
2E49
2D12 2D11
2D06
3E64
2D10
5D04
9E42
7E10
3E35
3E28
3E27 2E05
9E43
3E40
5E01 5E02
1E87
2E07
6E47
1E88
3E71
5D05
2E56 2E57
2E60
7UU0
3E51
3E33
3E26
3E22 3E25
2E66
2E62
3E98
1E07
2G99
2G96
2G28
2G29
2G24
2G25
2G79
2G7A
2G27
2G78
2G76
3G38 2G26
2C76
2G75
2G77
6C02
3C74 3C75
6C03
2C93 3C76 2C77
3C78 2C80
6C05
3C77 2C78
3C79 2C82
3C94 2C86
2C90 2C91
2C81
3C95 2C87
3C96 3C97
2C88 2C89
5E08
2E22
1G00
IC75
IC74
1N00
IG11
3C92
1M71
2G43
3C90 3C91
1G50
3U24
1D50
6U00
1D52
1C85
1735 1D38
1G51
1M21
2C85
1X02
1X05
1M19
Overview top side
1E05
10-49-1
5T00
1X07
5T01
1
Layout top
2011-06-17
3139 123 6535
19106_044_110922.eps
110922
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 305
Overview bottom side
FC89
FG29
FG2A
FG1R
FG24
FG22
FG31
FG2B
FG2C
FG28
FG27
FG20
FG1Z
FG2F
FG23
FG25
FG21
FG1Y
FG2E
FG26
FG2R
3E39
2E58
2E59
3E95 3E99
3E29
3EC1
FECD
3ECE
7EC0 7E02 3E23
3ECU
3ECA
5EC0
9EC2
3E90 9E19
2EC8
2FE4
DFE8
2FF0
2FF5
2FF8
2FA4
IF68
3FE9
IF69
2FE3
2FF7
FF62
FF61
2FF1
5FE8
2FF2
5FE5
2FE8
2FG4
2FG6
BFE2
IF65
5FE7
3F76 2F84
2FH2
FFA2
5FE9
2FG7
2FG8
2FH6
7FE3
FF81
IF48
2FA2
FF63
2FH4
FF03
2FH7
2FH5
2FG9 2FE6
IF63
5FE4
2F66 IF15
5FE3
2FG2 2FG3
5F66
IF17
BFE3
1FE0
5FE0 2FE0
5FG2
2FH3
IF18
2FG1
5FA3 2FA3
2FG0
DFF1
IF67
5FG0
FFAF
5FA4
2FF9
IF49 3FE8
IF28
2FH8
IF14
DFF2
7FA3
7FE0
3FG2
3FG4
IF64
3FE5
3F77
3F80
3F81
IF77
FF71
3T53
3T62
3F44
FF43
FF47
FF49
3F40
3T55
3F42
FF50
IT52
IT56
IF12
2FE5
2FF4
FF30
3T52
3T60
FR00
IF78
IF13
2T54 IT61
3T58
IT55
DFE6
IF47
FF45
3F41
FF39
9F29
9F30
FF38
3F43
FF48
FF46
FF41
FF42
2T37
3T59
2T62
FF01
IF27
IT67
2T58
IT62
7F75
IF11
2T60
2T38
IT66
2F74
2F78
IF29
2FF3
IF82
IF74
IF10
3F45
7T51
3T50
2T52
2T61
6T54 9T52
2T51
IT57
IT53
2R21
3T57
2R26
3T51
3T61
IF90
IF79
AF71
FF75
IF72
AF70
FFDA
FF00
FF76
FFDB
FF82
FF32
IF37
2F26
2F27
IF35
IF43
IF42
IF39
FF37
3F35
FF64
FF65
FFC4
2F61
FFDC
2F28
IF32
FF36
FFC7
IF34
IF33
FF66
IF41
FFC9
FF33
FR01
IF30
2F25
3F30
IF45
3F32
2F30
IF40
IF31
IT65
IR08
IF36
9F25
9F26
IR07
FF74
2F59
IR01
2F31
2R53
2R01
3R02
2R00
2R18 2R19
FR04
2R17
IT50
2F71
FF44
IT54
2T53
IF73
9F03
9F02
IF75
2F79
2F75
IF52
2F63
2F64
7F52
3FE7
2FF6 IF66
3F52
2F49
3FE6
FF57
2F52
IT51
6T50
FE01
DFE7
DFE9
FF56
IT69
IT60
FR03
2R03
FR05
9T51
9T50
3T56
2R25
FR02
2R24
FR06
2R02
2R47
3R07
3FG6
IF59
2F85
IF08
FF58
3F67
FR07
2R10
IT68
5EC3
FE52
FE03
3T54
IT28
2T59 IT58
2R04
IR05
IF55
2R14 2R09
3R01
3R00
2R16
2R15
9E54
2F96
FE45
3F79
IF80
5F71
5F74
2F73 2F80
2F72 2F82
2F77
2F76 AF73
AF72
2F65
3F82
2F70
2F62
IF58
IT63
2R51
5R00
2R08
2R07
2R13
2R49
2R50
2R12
2R11
3R11
9R00
2R48
2R05
IF06
3R10
3F54
3F66
7F53
IF57
3F53
FECZ
FE44
IS1L
5F76
9R04
3F12
2R23 IR03
IE45
FE46
FE57
IF16
3T27
2ECQ
3E53
FE53
9E14
FC95
IT59
IE43
IS1K
3S1F
2R22
FEC3
3ECH
9E12
IS11
3S25
3F34
IT24
3G33
2EC3
2S3M
IS1E
2EC2
FE47
IR06
3T00 3T21
6T02
6T00
6T01
3F69
2F02
FE02
3FG7
2S3L
FS44
3S11
3S6M
FS0Z
FE58
FECB
2F95
3S18
IS1G
2S3Q 3S19
3S2V
6E44
FE56
FF55
2R06
FECN
FECW
2ECW
IE44
FE42
FS49
IF53
IR02
FECL
FECK
3ECL
FEC7
6E43
IE50
IE49
IS44
FS50
3S55
3S41 3S2K
3S1P
IS2U
9S0E
2S3K
FF04
IR04
FECA
2EC6
FS52
FS53
2S84
2S86
3S5T IS2V
9S0D
FF31
IF05
2F06
9E25
2EC7
IF54
IR00
7F54
2E04
FE85
FEC0
2ECV
2EC0
FECP
IF51
2R52
IE12
3ECJ
FECM
2E97
IE59
FF29
7F01
9E26
2ECY
FECY
3S1T
9R03
3R13
IE76
FE48
2ECX
3S1S
6R00
FT07
2T08
2T39
7F05
3FD2
2F53
2T07
3FD7
9FD5
IFD5
IF56
6E03
2E68
9E58
IS3E
IF50
3F04 3F05
6FD1 3FD1
IE77
FECR
3F01
3F10
7FD1
IE66
FE84
3S3P
3F20
IF07
9FD2
IE48
6E52
IE70
FECC
IE65
3ECK
3EB6
3E48
2E99 2E98 3E19
IE60
3EB3
2E81
2EB3
5E80
IE89
3EA2
2EB1
3S49
3S47
FE51
9E16
IF81
IFD3
3E072E06
2E88
9E09
7E09
7E05
IE13
3S2S
3E06
FECF
IE74
IE52
7E06
IE61
3S1D
IS3F
9E06
IS1D
3S38
9E01
3EA1
3E18
FECG
9EC0
5E76
3S0Z
3S36
3S5E
IS0V
IF02
3F09
2FD1
3T24
IFD4
9FD1
9E28
4E06
6E23
3E75
9E08
BEC3
2E80
3E74
5E73
2E15
2E79
7S05
IS20
IEC4
3E73
2E24
3E44
2E44
3E62
FECE
3ECD
IEC6
FE82
6E32
3EB1
IE96
IE90
3S1H
3S1G
2E76
IE91
IE75
IE51
3E43
IE92 3E45
2E74
IS1H
IEC5
IE73
2E75
6E29
6E30
IS0R
IS1Q
IS2Z
3S46
3S2L
IS1P
FE54
IS3D
3S5V
2S4K
3S1E
3S2F
3S2G
3S6A 3S6W 3S6V 3S69
IF21
IT14
2T28
3T12
3FD4
2T24
2T23
IE64
3D14
6E01
7E01
3E37
FEA0
3EA7 2E01
2EA5 2EA4
2B00
3B03
2B41
IS5C
3S76
FS64
3S82
3F19
2F20
3F23
3F24
IE72
FS11
7S20
IT64
3FD6
IFD1
IFD2
3FD3
3F68
3T23
3T29
IT27
2T40
3T10
2T35
2T43
IT29
5E03 5E04
ID29
IS1M
2S36
2S75
2S76
2S10
2S4U
2S5B
2S6B
2S6C
2S2G
IS02
3S1R
7F02
IE71
2E12
FE83
IS04
2F21
3F03
IF03
3F08
FT00
7T01
3T02
IT03
5T02
2T10 2T36
FT08
9E10
FS57
IS17
3F22
IEC7
9E07
IE14
3E78
FS10
FS51
2F05
2T30
2T29
9CH0
3T03
IE08
3E79
FE81
IS1J
IE54
FS45
3F21
3T20
2T31
IT13
2T42
IT32
3T26
IT30 3T28
3T25
2T41
IT02
FEC6
FEC4
3S45
3S64
IS4Z
3F07
7T04
3T06
2T13
2T20
FT05
IT26
FT04
2T06
3S5S
2SHW
2S4T 2S51 2S6G
2S46
IS16
IS05
FEC1
2E91
IF76
IT10
FECJ
6E09
FE43
IF88
2F03
3F11
FEC2
IE23
FE74
9E55
IE17
3T18
6T04
IT19
FE73
6E28
3S39
2S2H
IT15
IT09
2T03
IE67
2S22
3S05
2S14
IS5D
FS03
IF01
3T11
IT00
2D13
2D01 2D14
3S56
3S57
3S5Y
3S6F
3S5Z
3S6E
3S6D
3S60
3S61
IF87
IS01
3S0W
IT06
7F04
FEC5
2S2E
5S82
IS15
IT17
2T26IT12 2T27
2T02
2S16
3S40
3S1U
2T09
3S5B
IS5J
DS52
2S5D
IS3S
IS00
9S09
IS10
3F06
2S5C
9S08
3S5W
3S1X
3S1W
IS26
3S15
3S6G
9S10 9S13
IGE0
9C00 3S6C
9S12
2S89 3S58
3S67
7S01
9C01 3S6B
3GA3 3S66
3S65
9S11
3GE4
FS31
3GE3 3S68
IS09
IS40
IT20
3S6L
IS06 2S2K
2S19
IS5H
2S6A
IS58
IS25
IS08
FC83
2F00
FE36
FE71
2E86
2E85
IE05
IF23
IT11
IS4V
2S18
3S75
9S24
2S20
2S6N
2S65
2S6E
2S6D
2S5K
5S95
2S6L
2S4V
IF22
3F02
3S37
2S8A
IS3B
IS5F
2S15
2S55
3S34
IS5G
2S4Z
3S32
3S16 3S17
3S22
3S0V IS42
2S5G
5S94
2S21
5S80
5S84
2S2J
2S3B
2S3D
2S40
2S85
IGE1
IS5E
2S2L
2S13
IS3L
5S04 2S37
2S11
2S56
2S28
IS4W 3S09
2S50
FS08
3S08
7S09
FGA4
2S52
2S53
2S3C
2S3F
IS1B
2S42
2S3J
2S38
2S3A IS03
IS1N
IS19 2S3E
2S3H3S10
2S3G
2S45
3S2H
FGA3
9GE2
FGA2
3GA4
9GA1
2GA6
FGA6
IS1A
IS07
FGA0
2GA0
7GE0
9GE0
FS2Y
2GE0
2GA5
2GA2
FU07
5GA0
3GE2 2GA1
3GE1 3GE0
FC86
5GA1
7GE1 9GE1
2GA3
FGA5
FC85
3T16 3T19
IT16
3T15 3T09
2T34
3T13
IEE2
FE41
9E51
IE55
3S51 IS12
2S39
2S4R
5S90
5S81
2S5A 2S58
5S85
FGA1
3S1V
9S97
2T15
IE29
IE16
2S4Q
IS1S
IS3Q
2S6K
2S59
2S6F 5S92 2S6M 2S6H
2S6P
9S96
FC84
3S72
2S68
2S43
2S62
2S5M
2S57 2S4W
2S5H
IUD7
3S20
5S87
2S5J 5S89
FC82
2T16
FE75
FE80
2S24
2S23
5S83
2S4S
5S88
7F00
FE72
6E07
IS50
3S6P
2S64 2S60 5S93
2S5P
FC79
IF04
FE35
IEE1
9E27
BEC5
3S33
3S30
3S6Q
2S63
IS3K
7F03
2B07
2S67
9S95
2F04
FEE0
IE31
FE50
IE22
FE70
2E90 2E87
2S29
2S27
2S12
9U41
9S94
2T25
2B06
2B04
FS02
2S25
FUD3
2T21
2B05
2B03
3B22
3U41
3S06 3S07
IUD3
3T05
FE59
9E53
2G14
IT07
ID30
3B28
2B12
IEC2
IE68
IE18
2S26
FS01 2S17
2G12
IT25
FE32
FE49
IUB12UB5
IUB6
FC74 2G11
3T04
ID19
2B09
3B01
2B13
2B15
2B16
2B36
2B08
2B02
2UB6
FC72
IT04
FE33
IE32
IEC1
FEA1
9E23
IE53
FC73
2G15
2B17
2B37
2B19
2B11
2B40
2B25
2G10
FS2W
2B01
2B10
2B18
3B06
2B24
2B42
2B43
2B29
2B33
2B14
2S4N
3U59 IU43
2B21
2S4Y
2UB7
7UA5
7UA6
5UA0
3U74
IU44
7U42
9U42
3U68
3U75 3U69
FC70
FC71
2G17
IU47
3U53
IU27
7U43
2B23
2S61
3U13
7U06
3U70
IU45
2B28
2S66
IUB3
3U25
7UD2
2B27
2B38
2B20
2B39 2B35
3B27
IUD5
2UE5
IUB2
IU26
2B31
FB00
3B09
6UD1
2B22
IEC0
FUD2
3U15 3U16
7UA7
3UB6
IU29
IUM0
3T17
3T14
FD09
3E24
7UA3
IU30
IU28
2E10
3B21 2B26 3B20
2UB0
FUA3
IE15
3U12
2UB8
3UB7
7UA0
IUB4
IUB5
IUD6
6T05
FE60
FE27
2D26ID06
2UB2
2B30
2UA4
IUS7
2UB1
FUA0 3UA0
IT22
FE28
7U48
3UB0
IUS8
FU48
IT08
2D22
FE61
2E08
IEE0
2B34
FU57
2UB3 2UB4
7UA4
3T07IT21 3T08 IT05
FE29
IE38
IEE7
2B32
3UB4
IUB0
IU41
7UC0
FC63
FU49
IT23
ID31
ID27
FUA4
2G18
7D15
ID37
FC64
3T31
FE31
IE39
ID09
2U71
IU52
3UB5
3U63
7U41
FC62
ID08
ID07
FD14
ID18
FD03
IEE8
IU64
FC61
2G19
FD08
FD01
ID14
2E09
FU03
IU50
FU50
FC76
2D28
3D09
FC94
IU40
IU61
IU62
3UB2 3UB3
FC78
3D16 ID11
IE63
2D27ID05
IUA5
FC77
ID34
3D01
2D31
FC93
FE30
FE34
ID32
3D02 ID15
2D21
FU58
FC75
7D03
IU09
FU54
FC81
ID12
FC91 2C79 FC92
FC90
IE06
IE26
ID10
FU02
3U80
3U60
FU73
FC88
ID28
2D16
2D02
2D03
FUU1
3D06
FU04
IUS0
FUM0
FD07
ID33
ID35
3D15
3UU2
IUU0
IUU1
2UU1
7D11
3UU0
7UU1
IUU4
7UU3
3UU3
IUU5
7UU2
3UU1
FG04
IC73
3D10
IU02
2UU0
IUU3
FD02
FD06
FG34
FG35
FC87
2D29
2U05
2U04
3U03
IU21
IUU2
2U13 2U12
2U00
2U14
3U20
2U10
3U14
7U03
2U21
3U62
2U55
3U02
IU25
3U11
FU68
FU56
2G16
FD05
IU11
FU72
7U40
IU01
3U61
2U03
3U09 3U18
IU16 3U28 IU10
IU48
IU49
IU19
3U04
3U73
FU63
FU74
IU24
IU22
6U40
IU51 3U72
FU59
3U08
IU03
FU01
1U40
FU60
IU04
IU63
FU75
3U22
3U00
3U01
2U06
7U00
2U57
FU61
2U07 2U08
FU09
IU56
FU66
IU05 2U01
FU51
3U10 3U19
IU20
FU67
FU00
IU14
IU12
IU08
3U82
3U17
FU08
IU55
FU52
FU06
FU05
2U22
3U27
3U21
IU07 3U05
IU13
FU53
3U83
IU06
FU55
IUA63UB1
2U02
FU62
2U29
FU76
5D03
IC78
2G9F
FC99
2G9E
FC97
FUU0
FC98
3G31
FG2M
FC96
FG2H
FG2G
FG2L
FG2D
FG2P
FG2N
3G30
FG30
3G36
9G0K
9G0G
2G91
2G95
FG0H
3G34
2G94
2G9C
FG33
FG32
2G93
FG1H
FG1K
FG13
2G92
FG17
FG1S
FG1U
3G2Y
FG1V
3G2W
FG1W
FG1C
3G37
FG1D
3G35
2G9D
FG1F
FG1E
3G32
FG11
IE33
FG1N
FG19
FG1B
FG2K
FG15
FG1P
3G2Z
FG1M
FG1G
FG1J
FG1A
FG1L
FG14
FG18
FG1Q
FG1T
FG12
FG16
FG2J
3T01
10-49-2
Q552.2E LA
IF44
FFC3
FFC2
FFC5
FFC1
9FC1
9FC2
FFC8
FT06
IT01
3FBF
2T05
FFB4
FFC6
FFB3
2T04
FFB1
FFB5
FFB6
FFB2
IT18
1
Layout bottom
2011-06-17
3139 123 6535
19106_045_110922.eps
110922
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 306
10.50 313912365371 SSB Layout
1M19
Overview top side
1735 1D38
1G51
1D52
1M71
1G50
1D50
3C83
7U02 7U04 7U01
9FLC
3US7
3U42 3U65 3U64
7US1
2U43
3U44
3U56
2U56
2UE8
2U28
7UD1
2UD8
1M99
2UE7
7UD3
3US5
IUD1
2U50
3U07
7U05
2UE1 3UD5
IUD2
3U26
5UM1
3U06
2U27
3UD1 2UD7
3UD0 3UD2
2UD3
3UD3 3UD4
2UE0
7US3
IUS6
2UD0
7US2
2UD9
1M95
3U81 3U45
2U49 2D30 2U46
3U24
6U00
3U29
3US6 3US9
IUS4
IUT2
2US3
5UD3
3B26
3B18
2U20
3C92
3C81
3C80
3C82
2C84
3C93
2C83
2U09
3C90 3C91
5C53 5C54
5G01
5G02
2UU2
9UU0 9UU1
5U01
1G03
2G44
7B01
1UM0
IUD0
3G12
3G13
2C70
3C70
5UD1
2C95
2C94
2C96
6GA2
2T19
1C87
1C86
5T03
6GA3
1P09
1M59
3G14
3G102G13
2T18
1G37
2T32
6GA0
5C55
3G11
7UD0
2UD1
5UD0
2UD5 2UD4
2UD2
5UD2
2T33
3GA6 6GA1
3GA5
7GA1
1G36
3GA2
1G35
3GA1 9GA0
IGA1
3S04
2S4E
1R10
2R37
7R02
2R38
2R40 3R09 2R39
2R62
2R33
2R32
5R01
2R28
2R31
5R02 2R45
1R01
2R29
5T04 2T17 2T14 1F24
7T03
2T12 2T22
3R15 3R14
9R02
2R35
2T01
1P00
2R46
2T00
3R03
3R04 2R20
3R05
3R06
3R082R55
7T00
7F20
3S3Y
6T55
2T56
2R56
2R41
2R27
1P08
2R54
2R34
2R61
2R43
9FLH
9FLJ
9FLD
1P07
3T22
3R12
9FLL
9FLF
7R01
7T50
6T52
7F70
5T50
2T55
7FL5
7GA2
2F01
2T50
5T51
2F92 2F94
2F90 3F71
9FLK
1P05
6T51
6T53
3FL2
9FLG
3B19
3B16
3B25
7B00
3S31
3S62
3S21
3S3S
3S1K
IF61
2T57
1FL5
9FL3
IUS3
IF62
7F52
2F40
2U52
3U66
3S1J
3S3T
3S3N
3S3L
3S1C
9F27
3S23
3S24
2FKG
1F75
6F72
3FLC
3US3
2U51
3U67
3S03
3S29
3FLE
5F70
2F9D
IF86
9F04
5F73
2F9C
2F93
3F78
2FC8
3FC3 3FC4
2F91
3F72
2FL6
1F52
6FC8
6FC6
6FC1
6FC2
6FC4
6FC3
6FC5
6FC7
3FC1
3FC5
3FL7
3FL4
2FC6
IF89
2U72
IGA3
7S02
3S28
2FL7
3FC7
9FC5
3F34
3F65
2F88
9F05 9F06
9F00 9F01
9FLE
3F64
3F63 3F62
2FC1 3FC6
9F71
3U76
2U48
2S09
9S01
3S80
3S81
3S52
2GA4
3S2A
3S1L
7GA0
9S00
5T52
5F72 2F9B
IU57
3S3Q
3S3R
2S4D
2F58
3U71
2U47
2U68
3G15
2S4F
DS50
2S4G
1S02
9S93
9F28
1F51
2F9A
2F99
2F86
3F75
3US2
2UD6 6UD0
9S92
3S43
3S54
3S3M
3S42
3S6H
1E85
3B17
3B23
3B12
3B13
3B15
3B14
3B24
2UE4
3S27
3S02 3S01
3S1B
1328
1FD3
1FD2
6FD3
6FD2
1329
2F97
2F60
9FC6 9FC3
2F98
IUT1
9S91
IGA2
1E71
3F59
3F60
2U54
3U84
3E17
3S3W
3S2M 3S44
3S6K
1FC6
2FC7
1FC2 1FC4 1FC3
9FC4 3FC2
2FC2
6G00 3G28
IUS5
2S2T
2S2R
3S3G
BS15
6EC1
1E86
5U02
5U03
3US4
2UE9
9S90
2S77
2S78
3S84
3S83
3ECG
3U43
2U45
9US0
9S18 2S8G
1F10
2FC4
1FC1
2G98
2U15
3S13
9S20 2S7U
2U53
2U44
2U19
IU23 3U23
3S4R 2S7N
3S59 2S87
2U58
2U24
2U23
2U25
IUD4
2UE2
IS13
2S7M
1E01
3S4J 2S7J
4U00 4U01
2UE3
9S19 2S7R
1E06
3B11
3S3U
3S4T 2S7P
1T01
2FC3
2U17
2S4P
3S3H
2S33
2S32
2S30
2S31
2S2W
2S2V
2S2Z
2S2Y
3S4P 2S7L
7F58
2FC5
IU15
2UE6
2B47
3B10
3S3F
DBS8
3S4K 2S7H
1E39
2ECU
3ECP
9S06
9S21 2S7E
IE09
3B08
3S00
3S4L 2S7K
BS13
4E01
3ECF
3FDG2FDD
2B46
3B07
3B02
7S00
9E20
9E18
1E23
4S14
3S12
2S4M
1E22
2S2S
2S34
3S53
7S08
3E31
2E18 4E05
6E22
1E19
3S6J 3S26
BS10
2FDC
2B44
3E32 9E24
9E22
2S41
1E25
4E22
1E08
1E28
7EC1
3B00
3B05
3F58
2F81
2U18
IUS9
2E83
5E74
2E14 4E04
6E26
9E05
3E76 3E77 2E84
3E87
9E29 9E52
3E88
6E40
2E27
1E43
4E23
7B02
7B03
1E00
1E53
1E12
1E55
1E42
4E24
3E89 9E17
6E51
2E67 9E57 9E50
9E04
4E03
3S50
1E29
1E31
1E54
2B45
3B04
IE10
1FC5
2G97
2D19
IU17
2U16
7D10
2D20
6E38
1E18
IE42 3ECN
2ECN
3ECM
5D07
2E53
2E52
2E55
2E54
3E35
3E72
3E68 3E34
2D09
IE11
2ECM
2D23
2D07
2E40 9E13
1E32
IEE6
2EC1
9EC3
5EC2
2ECC
2D24
3E96 2E71
9E15
1E38
5D08
2D17
6E06
9E21
1P02
2D06
2E07
2E63
5D02 5D01
3E66
4E02
1E37
2D05
3E67
3E65
4E21
1E09
2G99
2G96
2G29
2G28
2G25
2G7A
2G9A 2G79
2G27
3G39 2G24
2G76
2G9B 2G78
2C76
3G38 2G26
3E51
3E69
1E70
2D08
IU18
2U11
7EE0
1E03
7EE1
IEE4
2EE5
2ECP
7UU0
2E39 3E97
IEE53EE3
1P03
2D12 2D11
2D10
3E70
4E20
2EE4
2EE2
IEE3
1P04
2EE1
2EE0
2E49
2E48
2EE7
3EE1 3EE0
1G00
9E11 2E72
2EE3
3E9C 2E73
3EE2
1E10
3E64
IE07
3E30
IG11
5U00
2EE6
6E53
1E80
2E77
3E27 2E05
9E42
7E10
3E40
5E01 5E02
3E28
6E47
1E88
3E80
5D04
2E56 2E57
2E60
3E71
5D05
3E26
1E87
2G75
3E33
3E98
1N00
2G77
6C02
3C74 3C75
2C93 3C76 2C77
2E66
3C77 2C78
2E62
IC74
IC753C78 2C80
3C79 2C82
2C81
3C95 2C87
3C94 2C86
5E08
2C90 2C91
6C03
6C05
3C96
3E22 3E25
9C02
2G43
3C97
1C85
1M20
2C85
1M21
1E05
10-50-1
5T00
5T01
1
Layout top
2011-06-17
3139 123 6537
19106_046_110922.eps
110922
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 307
Overview bottom side
3G2W
FG2G 3G2Y
3G37
FG2K
3G36
3G30
3G34
3G33
3G2Z
FG04
2C79
FG25
FG2M
3G31
3G35
3G32
FG2A
2E70
3E39
2E58
2E59
5E03 5E04
3E29
3D14
3D10
6E07
2E90
9E25
9EC0
FECE
7EC0 7E02 3E23
3ECE
6E52
IE65
3ECU
9E19
3ECA
2ECY
2ECX
3EC3
9EC2
3EC5
5EC0
2EC6
FECW
2EC8
2EC3
5EC3
3ECL
FEC7
2ECW
IE44
2EC2
2ECQ
FECB
FE57
3ECH
IE43
FE56
2E69
2E37
IS1K
FE033E20
2F96
2E38
FE42
2E36
5F71
AF72
IF80
3F79
5F74
FE02
3E21
9FJ0
3FJ3
3FJ4
DFF2
7FA3
5FA3 2FA3
IF69
2FF1
3F76 2F84
2FH2
FFA2
5FE9
7FE3
2FG7
5FE7
2FH3
2FG4
2FG6
BFE2
2FG8
2FH6
FF03
2FH7
2FG9 2FE6
2FH5
5FE3
5FE5
3FE5
2FH8
5FE0 2FE0
IF65
IF48
2FA2
FF63
2FH4
FF81
5FE4
2FF6 IF66
IF63
2FE8
3F77
2FF8
3FG2
3FG4
2F79
2F75
3F80
3F81
FF01
9F03
9F02
2F85
IF12
2F63
2F64
2FG2 2FG3
2F66 IF15
IF17
BFE3
1FE0
5FJ6
2FKF
IF79
IF72
IF90
AF71
FF75
IFLE
2FL2
2FLC
FL36
3FLB
2FL3
2FLA
IFLF
3FLH
IFL3 3FLG
FL43
3F32
FF64
IFLB
IFLD
2FLD
2FL5
IFLG
IFL4
IFLA
2FL8
2FL1
2FL4
3FLF
3FLD
3FLA
IFL1
FL37
FFDA
FF00
FF76
FF74
2F59
FF82
2FL9
IFLC
FL42
AF70
FFDB
7FK1
3F42
FF50
FF62
FF61
5FG2
5FJ7
IFL2
FR01
2FF7
IF18
2FG1
5FE8
2FF2
IF67
5FG0
5F66
IF13
2FG0
2FE3
5FJ5
FF44
5FK1
3F41
IF11
2FLB
FF42
IF64
FFAF
5FA4
2FF9
2FK4
2FKC 2FKE
FF41
3F43
2FE5
2FA4
IF68
3FE9
IF28
IF14
IF10
5FK2
FF49
IF27
IF78
2FK3
FFJ1
2FJ9
3FJJ
2FJE
2FJA
FF46
FF45
FF48
3FJH
2FJ4
2T37
FF43
IF77
2FJ5 IFJ2
2FJY 2FJW
3FJM 3FJK
IFJ0 2FJG
2FJ8
IFJ8
3F40
IT65
9FK6
2FJP
2FJ2
DFJ4
DFJ2
FF71
7F75
2FF3
IF82
IF74
5FJ4
2FJK
IR06
IR08
IFJD
IFJ1
IFJF
IFJE
FF47
2F74
2F78
2F71
3FJ0 2FJH
IFJG
2T54IT61
3T58
IT52
IF73
1FJ0
2FKD
3T55
FFJ0
IF81
9F25
9F26
2FJ3
5FJ9
2FK5 2FK6
2FJC
IF76
IF75
9FJ4 2FKB
2FJJ
9FJ2
2FJM
3FJG
5FJ8
9FJ3 2FKA
IF29
2FF4
IF49 3FE8
DFF1
3FE6
FF57
FF56
IFJC
7FJ0
DFJ1
9FJ1
IF47
DFE6
7FE0
FF55
FF29
IFJ5
5FJ0 2FJT
2FJV
2FK2
2FJ1
3FJB
5FJ3
3FJ9
3FJA
2FJ6
3FJ2 2FJN
IFJ3
3F44 3F45
IR07
2FJL
2FJF 2FJ7
2FJB
IT56
IR01
DFJ3
2FK1
3FJ8
3FJ7
2FJD
FR00
FE01
DFE7
DFE9
IF52
DFJ0
3T52
3T60
IT53
IT62
2FE4
2FF0
2FF5
3FG7
DFE8
IF50
3F52
2F52
5FJ2IFJB
IFJ4
IFJ9
2T58
3FG6
IF59
FF65
FFDC
7FJ1
FFC4
2F61
9FK5
FFC7
3FJN
FF66
FL32
FL33
FFC9
FFC2
2F65
3F82
2F73 2F80
2F72 2F82
2F77
2F76 AF73
5F76
2F70
2F62
9FK3
9FK2
9FK4
9FK1
5FJ1
IT57
IT67
6E20
FE58
3S25
3S11
6E19
IS11
IFJA
3T62
3T50
2T51
2T52
FECN
FECK
2E35
2S3M
IF53
2T60
2T38
IT66
FECL
FECM
FEC3
3E53
IE49
6E43
FECZ
IS1L
IF51
7T51
2R21
FECA
2EC0
IE50
IE45
FS53
2F95
2S3Q 3S19
6E44
7E11
3E9E 3E9D
IF16
IT54
6T50
3T57
2R26
3E90
9E26
7E09
3E48
2E99 2E98 3E19
2E97
3ECJ
2EC7
9E14
7E13
6E48
2S84
2S86
2S85
FS52
7E12
IS1E
3S6M
2S3L
IS44
FS50
FS49
3FJF
IT55
3R02
2R53
2R00
2R18 2R19
2R01
6R00
2R02
2R17
FEC0
2ECV
3ECK
FE85
IE70
9E12
FS44
3T53
2T53
3T59
2T62
FR03
2T61
9T51
9T50 IT63
3T56
2R25
FR02
9E54
9E09
9E06
IE92
3EB6
2E81
5E80
3EA2
IE12
IE59
2EB3
IE89
2EB1
9E58
FECR
IF58
IT69
IT50
3T51
3T61
FR06
2R24
2R47
3R07
FR07
2R10
IT68
IT28
2T59
2R04
IE66
IE76
2E68
FECP
3S5T IS2V
3S6N
7S09
3S2H
3S1P
3S41 3S2K
9S0E
3S2V
3T27
IT60
2R15
IT59
6T54 9T52
2R05
2R14 2R09
3R00
3R01
2R23 IR03
IR00
3EC1
6E03
FE71 2E88
3E072E06
2E04
FE73
9E28
4E06
2E15
6E23
3E75
9E08
3E74
5E73
FE802E80
5E76
FE83
3S38
IS1P
7E05
IE60
3EB3
FECC
FECY
3T54
2R22
IT58
2R51
5R00
2R16 2R08
2R13
2R07
2R49
2R50
2R12
3R11
9R00
2R11
2R06
2R48
3F04 3F05
IR02
2R52
IR04
3R10
IF06
FE84
9E16
3S3P
IT51
IF05
3F09
FEC5
3E37
2E10
3S0Z
3S36
3S5E
IE05
3S49
3S47
2FK0
3F10
2F02
FE5C
IS3E
FC95
3F01
IR05
IF55
9E27
2EA4
3EA7
7S05
IS1M
IS1B
3S2L
3S46
3S2S
3S1D
3S1F
9R04
3F12
2F21
3F03
3E06
3S1H
3S1G
3S55
IS04
3S1E
3S2F
3F07
7T02
3F53
2F06
3E62
3FE7
FR05
2T11
3T02
2T10 2T36
3T00 3T21
IT24
3T01
IS2U
FS0Z
7F02
7F01
7E06
IE61
3E18
2F49
FR04
2T39
IT02
9E01
3EA1
IE90
IF54
2R03
FT07
2T02
3F54
3F66
7F54
3F69
7F05
9FD5
3FD2
IF57
3T03
2T06
2T07
3FD7
IFD5
IF56
3E44
FEA7
FE48
3S1T
3F20
3R13
FECF
FE51
FEA8
IE13
FECG
FECD
IEC6
3E73
2E24
6E32
3EB1
IEC4
3ECD
FE82
2E44
3E45
IE91
IE96
IS0V
FF04
FF58
3F68
6FD1 3FD1
3F67
IFD4
7FD1
2F53
FT085T02 IT03
2E74
IS3D
3S5V
2S4K
9R03
IF07
9FD2
2E76
IS0R
IS1H
IF02
IFD3
7F53
3FD4
2FD1
3T24
2T28
3T12
2T29
2T24
2T23
6T02
7T01 6T00
IT19
2T09
2T08 6T01
IT00
3F08
3T20
2T31
IT09
3T29
2T40
3T23
2T35
2T43
2T20
3T10
IT29
FT04
3FD3
9FD1
9CH0
IT20
3S6A 3S6W 3S6V 3S69
3S2G
9FL1 9FL2
7T04
3T06
IT23
IT04
2T15 2T16
6T04
2T41
IT30
IS02
IS1Q
IE74
IE51
3E43
6E30
IS1J
IEC5
IE73
2E75
6E29
FE43
2S2G
FE54
FE5B
6E28
IE17
IS1D
IS2Z
9S0D
7S20
IT64
3FD6
IFD1
IFD2
FE5A
FS11
FS51
2F05
2T30
FE81
3S45
3S64
IT14
IT10
IS20
3T18
IT13
IE71
2E12
3S39
2S2H
IF01
3F11
9E10
3E78
3S1S
3F21
7F04
IE14
9E55
3S1R
2F03
IF08
IEC7
9E07
2E86
3E79
FS57
IT06
2F00
FEC6
FEC4
FS10
IS05
3S0W
FS64
3S57
3S56
3S6F
3S5Y
3S6D
3S60
IS16
2S2E
5S82
3F19
2F20
3F23
3F24
3F22
IT17
3T11
2S22
3S05
IS3F
3S40
3S1U
2T42
IT32
3T26
3T28
3T25
FS03
FEA5
2S76
2S75
3S5S
3S76
2S10
2S5B
2S6B
2S4U
IS5D
FS45
IS40
2T25
2E91
6E09
IE08
2E85
IF88
IF21
IT27
IE67
IS5C
2S16
2S14
3S82
IF87
3FLJ
IT26
3S6L
IS06 2S2K
3S5B
IS5J
DS52
IS01
2S5D
9S08
3S1W
3F06
2S5C
IS10
9S09
3S1X
IS3S
IF23
FT05
IS4V
2S19
IS5H
3S75
2S6A
IF22
2T26IT12 2T27
2S8A
2S18
IS4Z
IT11
3S37
2S40
IS3B
IS5F
2S15
IS58
IS17
3F02
3S34
IS5G
2S4V
2S6C
2S36
2S6N
2S4T 2S51 2S6G
2S46
2SHW
IS3L
2S65
2S6E
2S6D
2S43
5S84
3S32
3S08
2S2L
2S13
2S4Z
2S55
2S6L
5S85
IS5E
2S2J
2S3B
2S3D
3S16 3S17
3S22
2S20
3S0V
5S80
2S27
2S62
2S5G
2S5K
5S95
2S57 2S4W
2S5M
2S21
5S94
2S61
2S66
IS3Q
5S04 2S37
2S11
2S56
2S28
IS4W 3S09
2S50
2S3C
FS08
2S3F
FEC1
FE74
FEA6
2S42
2S3J
2S38
2S3A IS03
IS1N
IS19 2S3E
2S3H3S10
2S3G
2S45
2S52
2S53
2S5A 2S58
3S5Z
9S10 9S13
IGE0
3S5W
2S89 3S58
3S65
3S67
9S12
9S11
3GA3 3S66
3S15
IS00
3S61
3GA4 2GA6
IS09
7S01
IS26
3S6E
IGE1
FS31
3GE3 3S68
3S6G
9GA1
IS08
9C00 3S6C
FGA2
9GE0
9GE2
FGA3
FS2Y
7GE0
IS1A
5S90
5S81
2S6K
2S59
2S6F 5S92 2S6M 2S6H
IS25
9C01 3S6B
2GA2
2GA0
3GE2 2GA1
3GE1
FGA4
2GE0
2S4R
2S68
IS07
FGA0
3GE4
FGA6
FU07
5GA0
7GE1 9GE1
FC86
2GA5
5GA1
3S51 IS12
2S39
IS1S
5S87
2S5J 5S89
3S1V
FGA1
3GE0
FC85
2F04
FEC2
FECJ
FEA3
IE16
2S4Q
2S23
5S83
2S4S
2S6P
9S97
2GA3
FGA5
IF03
FE36
9E51
BEC3
3S72
3S6P
2S64 2S60 5S93
2S5P
5S88
FC84
IT15
2EA5
2E79
2S24
9S24
3S33
3S30
3S6Q
2S63
2S5H
3T16 3T19
IT16
3T15 3T09
2T34
3T13
FE75
IS50
2S67
9S96
IT25
3B03
3B28
3B22
3U41
2S12
9U41
IUD7
2T13
IE68
BEC5
3S20
FC79
FC83
2B07
2S29
2S25
IS3K
2T21
2B06
2B04
FS02
IS42
9S94
6T03
2B05
2B03
IEE2
FE5E
FEA2
9E53
3S06 3S07
7F00
FE35
IEE1
FE70
IEC2
IE18
2S26
FS01 2S17
9S95
IT07
2B08
IUB12UB5
IUB6
FUD3
IF04
2B36
2B02
2UB6
IUD3
7F03
FEE0
FE5D
FE50
2E87
FE72
FE49
FEA4
2G14
3T05
2B00
2B01
2B09
3B01
2B13
2B12
2B16
2G12
FS2W
2B17
2B37
2B19
2G10
3T04
IE33
FE32
IEC0
2B41
2B25
2B11
2B40
2B29
2B33
2B14
2G11
6T05
3E95 3E99
2D29
2B10
2B18
2B21
2B15
2B43
2B23
2S4N
3U59 IU43
IU44
7U42
3U68
3U75 3U69
IU47
3U53
9U42
FC70
7U43
3U74
2B28
2S4Y
5UA0
2UB7
7UA5
3U13
7UA6
7U06
3U70
IUD6
7UD2
2B27
2B38
FC72
IT22
2D13
2D01 2D14
7D15
2D02
2D28
3D15
2D03
2B39 2B35
3B06
IUD5
FC73
IT08
FE33
IE32
6E01
2E01
FEA1
7E01
IUB3
IU30
FC9C
IEC1 3E24
2B20
6UD1
2UE5
IUB2
IU26
3UB6
3U25
IU29
FC71
3T17
3T14
FE27
IE64
2D26ID06
9E23
FB00
2B24
3U15 3U16
2B22
FUD2
7UA7
2G17
3T08 IT05
FE60
3B21 2B26 3B20
2UB0
FUA3
7UA3
FUA0 3UA0
IU27
3T31
FE61
2E08
IE38
2D22
FEA0
IU45
FT003T07IT21
FE29
IE39
3E81
ID37
2UB1
3U12
2UB8
3UB7
7UA0
FU77
IUB4
IUB5
IUM0
FL38
FE31
3E82
FD14
2UB2
3B27
2UA4
IUS7
IU28
FL39
FC9B
2E09
FD09
ID31
FC9A
FC94
FC92
IEE0
3UB0
IUS8
FU48
FL30
ID08
ID07
ID19
ID18
FC91
FE55
2B42
FU56
7UA4
2G15
ID30
FD03
FD01
FC90
IEE7
IUA6
FU49
FL31
IE63
ID27
FUA4
2G18
ID32
FD15
FC64
2G19
FD08
FC93
FE30
FE34
IE26
ID10
ID09
2B31
3UB4
IUB0
2UB3 2UB4
FC82
3D16 ID11
ID14
3B09
FC63
IU41
FC61
FC81
7D03
IE06
ID28
3D02 ID15
3D09
2B30
IU52
3UB2 3UB3
FC78
ID34
3D01
2B34
3U73
7U41
FU50
FC74
2G91
FG30
2G9F
FUU1
ID12
FC88
FC87
IEE8
IU64
FUS0
FC76
FG34
FG35
FU03
IU50
IUA5
FC77
FG2H
IU40
IU61
FU58
FC75
FG2R
FG2L
FG2N
2D27ID05
FU54
2G16
FG26
FG2P
9G0G
2D21
3U80
FC62
FG2E
ID29
2D16
IU09
IU62
IU63
FUM0
7D11
2U14
3UU0
7UU1
3UU3
2U13 2U12
7UU3
3U21
3U20
2U05
2U04
3U03
ID33
3D06
FD07
ID35
2B32
3U62
FU73
FU57
FU68
FU78
IUU0
IUU1
2UU1
2D31
7UC0
FU74
2U55
3U72
6U40
IU51
3UU2
FG2F
FG1Y
7U48
FU72
7U40
IUU4
FG1Z
FG21
IC73
FU04
IU48
IU49
IU02
IUU5
7UU2
3UU1
FG27
FG2D
FG20
FG23
FC9D
FU02
3U11
3U60
IU22
FU63
1U40
IU21
2UU0
IUU3
FG22
FD02
FD06
IU11
IU05 3U04
FU59
2U10
3U14
IU16 3U28 IU10
2U00
IUU2
FG24
2U71
IU24
3U02
IU25
3U61
3U10 3U19
2U03
3U08
IU03
FU01
FU61
IU01
3UB5
FU75
IU04
2U01
2U57
3U22
3U00
3U01
2U06
7U00
FU66
2U07 2U08
FU09
IU56
2U21
FU51
3U09 3U18
IU20
FU67
IU19
7U03
FU52
FU00
IU14
IU12
IU08
3U63
FU08
3U82
3U17
IU55
FU06
FU05
2U22
3U27
2U29
IU07 3U05
IU13
FU53
3U83
IU06
FU55
3UB1
2U02
FU62
FU60
FD05
FUU0
FU76
5D03
IC78
FC99
2G9E
FC97
FG29
FG2B
FG2C
2G95
9G0K
FC98
FG1S
FG31
2G94
2G9C
FG33
FG32
2G93
FG1H
FG1K
FG13
FG1V
2G92
FG17
FG1W
FG1C
FG0H
FC96
FG1T
FG1D
FG1E
FG28
2G9D
FG11
FG19
FG1B
FG1R
FG1N
FG1F
FG1J
FG15
FG1P
FC89
FG1G
FG1M
FE28
FG1L
FG14
FG18
FG1Q
FG1U
FG12
FG16
FG1A
FG2J
2T03
10-50-2
Q552.2E LA
FFC3
FFC5
FFC1
FL41
FL40
9FC1
9FC2
FFC8
FT06
IT01
3FBF
2T05
FFB4
FFC6
FFB3
2T04
FFB1
FFB5
FFB6
FFB2
IT18
1
SSB Layout bottom
2011-06-17
3139 123 6537
19106_047_110922.eps
110922
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 308
10.51 E 27221719026x IR/LED/Key Board
Leading Edge Module
Leading Edge Module
+3.3V
+3.3V
A
VDD
L1
BZ1
B
E
100uH
2
C6
104
1
R2
10K
VPP
C1
4.7uF/16V
BUZZER
BUZZER
Q1
R9
8
1K
VDDHI JP1
2SC8050
10
9
BUZZER
C2
105
ZD1
1K
C3
105
11
12
PWM
SCL
R1
ANALOG_VOUT
13
14
VPP/M
CLR/RE3
SEG12/Vcap(2)/SS(1)/SRNQ(1)/C2OUT(1)/C12IN0-/AN0/RA0
SEG7/C12IN1-/AN1/RA1
COM2/DACOUT/VREF-/C2IN+/AN2/RA2
SEG15/COM3/VREF+/C1IN+/AN3/RA3
SEG4/CCP5/SRQ/T0CKI/CPS6/C1OUT/RA4
SEG5/VCAP(2)/SS(1)/SRNQ(1)/CPS7/C2OUT(1)/AN4/RA5
+5V
ANALOG_VOUT
LED1
+3.3V
LED2
IR
100R
100R
100R
100R
CPS0
18
17
16
15
HOM
E
AL
1
R8
19
RC7/RX/DT
RC6/TX/CK
RC5/SDO
RC4/SDI/SDA
CPS1
CH-
1
R7
C5
104
SEG3/P1A/CCP1/RC2
SEG6/SCL/SCK/RC3
CPS2
CH+
1
R6
SEG1/VCAP(2)/CLKOUT/OSC2/RA6
SEG2/CLKIN/OSC1/RA7
VSS
CPS3
R5
VDD
20
VDD
1
1
CPS4
100R
VSS
CPS5
R4
26
25
24
23
22
21
RB5/AN13/CPS5/T1G
RB4/AN11/CPS4
RB3/AN9/CPS3/CCP2(1)
RB2/AN8/CPS2
RB1/AN10/CPS1
RB0/AN12/CPS0/INT
P2B(1)/T1CKI/T1OSO/RC0
P2A(1)/CCP2(1)/T1OSI/RC1
1
100R
VOL+
1
VOL-
SDA
J2
CONNECTOR
8
7
6
5
4
3
2
1
28 ICSPDAT
27 ICSPCLK
RB7/ICSPDAT
RB6/ICSPCLK
5.6V
J1
Proxim
ity
R3
1
2
3
4
5
6
7
C4
104
R11
100R
PIC16LF1933
U1
JP2
MCU
CAP TOUCHSENCE
E
LIGHT
2.0- 8pin
SDA
1
2
3
4
5
6
7
8
9
10
11
12
13
SCL
+5V
IR
IR
+3.3V
IR
ANALOG_VOUT
+3.3V
TVS1
RES
LED2
LED1
LIGHT
3
R18
5.6V
1
VDD
4
C10
4.7uF/6.3V
1
OUT
2
100R
ZD4
Proximity Sensor
U2
R17 10Ω
2
GND
1
CX
ANTENNA
OUT
5
VSSVDDHI
Proxim 3
ity
GND
R27
6
CX
2K
VDDHI
C8
1u
4
VREG
IQS127D
C9
104
C7
1u
TSOP75236
HEADER13
+5V
+3.3V
R10
4.7kΩ / 100Ω
R15
47Ω
+5V
8
TEMT6200FX01
D1
G1
WHITE
5
VSS
2
1
R26
LIGHT
100R
LM358
4
1
C12
R20
R16
22kΩ
R19
47kΩ
C
ZD3
5.6V
U3A
3
LM358
Q3*
BC847
2
B
E
10kΩ
B
3
R14
C
LED2
E
Q2
BC847
1
R13
10kΩ
B
R22
470Ω
6
3
1
10kΩ
2
C
R12
E
LED1
U3B
7
RED
R21
104
ZD5
R24
R25
100kΩ
C11 104
10kΩ
R23
18kΩ
D2
Q3
BC857
2
+5V
LIGHT Sensor
RED LED
15kΩ
WHITE LED
3
10-51-1
3.3V
100kΩ
C13 104
8
Leading Edge Module
2010-07-15
9
2010-07-15
2722 171 9026
19100_815_110217.eps
110217
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 309
10.52 E 27221719027x IR/LED/Key Board
Leading Edge Module
Leading Edge Module
E
U1
R16
CPS6
+3.3V
VDD
L1
100uH
R2
103
C1
C4
PIC16F1827
IN0 19
IN6 20
IN1 1
IN2 2
IN3 3
MCLR 4
17
18
3.9kΩ
10uF
5
6
104
7
8
9
10
11
12
13
14
VSS
VSS
VDD
VDD
PWM R1
1
SDA
1K
IN4
IN5
PWM
2-SCL R27
BUZZER 1K
ICSPCLK
ICSPDAT
16
15
RA0/AN0/CPS0/C12IN0RB0/SRI/T1G/CCP1(1)/P1A(1)/INT/FLT0
RA1/AN1/CPS1/C12IN1RB1/AN11/CP S11/RX(1)/DT(1)/SDA1/SDI1
RA2/AN2/VREF-/DACOUT/CPS2/C12IN2-/C12IN+
RB2/AN10/CP S10/M
DMIN/TX(1)/CK(1)/RX(1)/DT(1)/SDO(1)
RA3/AN3/CPS3/C12IN3-/C1IN+/Vref+/C1OUT/CCP3(2)/SRQ
RB3/AN9/CPS9/MDOUT/CCP1(1)/P1A(1)/Vcap
RA4/AN4/CPS4/C2OUT/T0CKI/CCP4(2)/SRNQ
RB4/AN8/CPS8/SCL1/SCK1/MDCIN2
RA5/M
CLR/VPP/SS1
RB5/AN7/CPS7/P1B/TX(1)/CK(1)/SS1(1)
RA6/OSC2/CLKOUT/CLKR/P1D(1)/SDO1(1)
RB6/AN5/CPS5/T1OSI/T1CKI/PGC/P1C(1)
RA7/OSC1/CLKIN/P1C(1)
RB7/AN6/CPS6/T1OSO/PGD/P1D(1)/MDCIN1
VDD
KEYBOARD
C2
105
C3
105
ZD2
5.6V
VDD
C5
104
CAP
touchsence
J1
NOT USED
TV CONNECTOR
J7
1
2
3
4
5
6
7
8
2.0-8pin
VDD
IR
IR
LED2
L2
R11 100R
IN5 R3
100uH
LIGHT
IR
3
LED1
KEYBOARD
R18 100R
+5V
ZD4
5.6V
ESD
VDD
1
BUZZER R9
test VDD
BUZZER
T1
BC847
T3
1
J6
IN0 R8
CPS0
3.9K
R15
47Ω/15Ω
5
7
6
E
1
470Ω
2
R19
R20
BC847
R28
C12
R21
100kΩ
R23
R24
104
LIGHT
R26
100R
4
B
22kΩ
C
ZD3
5.6V
E
B
BC857
U3A
3
LM358
47kΩ
C
E
B
E
10kΩ
B
Q4
C
LED2 R14
R22
LM358
1
Q3
Q2
BC847
U3B
18kΩ
D2
G1
8
LIGHT Sensor
TEMT6200
D1
RED
1
+5V
15kΩ
Red LED
+5V
C
R10
4.7kΩ / 100Ω
C
CPS1
3.9K
+5V
R13
10kΩ
1
J5
IN1 R7
+3.3V
10kΩ
CPS2
3.9K
T5
B
1
J4
IN2 R6
ICSPCLK
MCLR
2
CPS3
3.9K
ICSPDAT
LED1 R12
1
J3
IN3 R5
T4
WHITE
CPS4
3.9K
T2
TSOP75236
White LED
1
J2
IN4 R4
Q1
1K
GND
CPS5
3.9K
BZ1
C6
104
BUZZER
GND
4
C10
10uF/6.3V
10uF/6.3V
OUT
2
+3.3V
C7
105
C8
U2
R17 10Ω
+3.3V
E
E
3
10-52-1
ZD1
3.3V
R25
100kΩ
10kΩ
C11 104
C13 104
8
Leading Edge Module
2010-08-23
2722 171 9027
19101_057_110505.eps
110624
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 310
10.53 E 27221719028x IR/LED/Key Board
10-53-1
Leading Edge Module
E
Leading Edge Module
E
3
Leading Edge Module
2010-08-24
2722 171 9028
19101_058_110505.eps
110505
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 311
10.54 E 272217190284/5 IR/LED/Key Board
Leading Edge Module
Leading Edge Module
CPS6
copper
M09
1
+3.3V
E
U1
R16 100Ω
100uH
C14
4.7uF
M11
C1
R2
103
M12
+5V
10uF
PIC16F1827
M10
VDD
L1
C4
104
IN0 19
IN6 20
IN1 1
IN2 2
IN3 3
MCLR 4
17
18
M17
R27
18K
5
6
VSS
VSS
L2
100uH
option
R11 1k
M32
1
2
3
4
5
6
7
8
IR
LED2
C7
105
C8
10uF/6.3V
LED1
KEYBOARD
M08
105
BUZZER
+3.3V
R17 10Ω
M03
IR
Q1
1K
M30
+3.3V
BC847
M34
M29
ESD
+5V
R18 100Ω
C10
10uF/6.3V
ZD4
5.6V
option
option
U2
3
T1
T4
J4
CPS2
3.9K
MCLR
J5
CPS1
3.9K
M43
5
B
B
C
10kΩ
M20
BC857
ZD3
5.6V
option
3.9K
U3B
R22
R19
R20
R28
10kΩ
1
FM46
M25
8
1
470Ω
LM358
U3A
3
2
M26
LM358
C12
R21
100kΩ
R23
M01
M28
ZD1
3.3V
R24
104
LIGHT
R26
100R
M27
4
option
B
22kΩ
B
E
LED2 R14
M24
Q4
BC847
47kΩ
M22
C
E
R13
10kΩ
B
M23
7
Q3
C
1
2
G1
6
M19
Q2
BC847
LIGHT Sensor
18kΩ
D2
M21
CPS0
+5V
15kΩ
D1
RED
M18
C
M16
+5V
TEMT6200
C
WHITE
Red LED
E
option
R15
47Ω/4.7kΩ(MTK)
E
R10
4.7kΩ / 100Ω
White LED
J6
IN0 R8
M45
1
M44
TSOP75236
+5V
1
M42
IN1 R7
T5
GND
1
M40
ICSPDAT
GND
1
J3
CPS3
3.9K
M41
1
M38
IN2 R6
+3.3V
10kΩ
3.9K
T3
VDD
4
J2
CPS4
IN3 R5
ICSPCLK
1
M36
IN4 R4
M39
OUT
2
ZD2
option
5.6V
CPS5
3.9K
M35
T2
IR
2.0- 8pin
LED1 R12
105
CAP
touchsence
J1
M37
M48
BUZZER R9
M33
VDD
BZ1
C6
105
BUZZER
M05
M06
M07
C3
M15
test
M47
J7
M01
M02
M03
M04
C2
M14
IN5 R3
M31
LIGHT
KEYBOARD
VDD
16
15
VDD
VDD
1K
C5
104
VDD
TV CONNECTOR
R1
1
7 PWM
8 SDA
9 IN4 M13
10 IN5
2-SCL
11 PWM
12 BUZZER
13 ICSPCLK
14 ICSPDAT
RA0/AN0/CPS0/C12IN0RB0/SRI/T1G/CCP1(1)/P1A(1)/INT/FLT0
RA1/AN1/CPS1/C12IN1RB1/AN11/CP S11/RX(1)/DT(1)/SDA1/SDI1
RA2/AN2/VREF-/DACOUT/CPS2/C12IN2-/C12IN+
RB2/AN10/CP S10/M
DMIN/TX(1)/CK(1)/RX(1)/DT(1)/SDO(1)
RA3/AN3/CPS3/C12IN3-/C1IN+/Vref+/C1OUT/CCP3(2)/SRQ
RB3/AN9/CPS9/MDOUT/CCP1(1)/P1A(1)/Vcap
RA4/AN4/CPS4/C2OUT/T0CKI/CCP4(2)/SRNQ
RB4/AN8/CPS8/SCL1/SCK1/MDCIN2
RA5/M
CLR/VPP/SS1
RB5/AN7/CPS7/P1B/TX(1)/CK(1)/SS1(1)
RA6/OSC2/CLKOUT/CLKR/P1D(1)/SDO1(1)
RB6/AN5/CPS5/T1OSI/T1CKI/PGC/P1C(1)
RA7/OSC1/CLKIN/P1C(1)
RB7/AN6/CPS6/T1OSO/PGD/P1D(1)/MDCIN1
R29
33K
E
E
3
10-54-1
R25
100kΩ
C11 104
C13 104
4
Leading Edge Module
2010-07-25
2722 171 9028
19106_043_110921.eps
110921
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 312
10.55 E 27221719029x IR/LED/Key Board
Leading Edge Module
Leading Edge Module
E
U1
R16
CPS6
+3.3V
VDD
L1
100uH
C1
C4
R2
103
10uF
R29
1K
104
5
6
KEY2 SCL
C16
ZD5
5.6V
PIC16F1827
IN0 19
IN6 20
IN1 1
IN2 2
IN3 3
MCLR 4
17
18
3.9kΩ
VSS
VSS
105
C14
101
R11 100R
C7
105
10uF/6.3V
IR
IN5 R3
IR
3
ESD
ZD4
5.6V
T1
T3
GND
1
GND
T5
R15
47Ω/15Ω
5
7
E
C
6
1
470Ω
2
BC847
R28
R20
C12
R21
100kΩ
R23
R24
104
LIGHT
R26
100R
4
R19
22kΩ
C
BC857
B
E
B
ZD3
5.6V
U3A
3
LM358
47kΩ
C
E
B
E
10kΩ
B
Q4
C
B
LED2 R14
R22
LM358
1
R13
10kΩ
C
2
Q2
BC847
U3B
18kΩ
D2
G1
8
LIGHT Sensor
TEMT6200
D1
RED
1
+5V
15kΩ
Red LED
+5V
Q3
10kΩ
CPS0
3.9K
R10
4.7kΩ / 100Ω
1
J6
IN0 R8
+5V
LED1 R12
CPS1
3.9K
+3.3V
1
J5
IN1 R7
MCLR
WHITE
CPS2
3.9K
ICSPDAT
1
J4
IN2 R6
T4
TSOP75236
HEADER13
CPS3
3.9K
BC847
1
J3
IN3 R5
T2
1
J2
CPS4
3.9K
ICSPCLK
4
C10
10uF/6.3V
CPS5
IN4 R4
Q1
1K
VDD
test VDD
BUZZER
BUZZER R9
OUT
2
+3.3V
R18 100R
White LED
ZD2
5.6V
3.9K
BZ1
C6
104
BUZZER
U2
R17 10Ω
C15
101
LED2
LED1
LIGHT
L2
C8
SDA
+5V
105
CAP
touchsence
J1
100uH
R30
1K
KEY2 SCL
C3
VDD
105
TV CONNECTOR
JP1
+3.3V
VDD
KEYBOARD
C2
C5
104
VDD
IR
KEYBOARD
PWM R1
1
SDA
1K
IN4
IN5
PWM
2-SCL R27
BUZZER 1K
ICSPCLK
ICSPDAT
16
15
VDD
VDD
VDD
1
2
3
4
5
6
7
8
9
10
11
12
13
7
8
9
10
11
12
13
14
RA0/AN0/CPS0/C12IN0RB0/SRI/T1G/CCP1(1)/P1A(1)/INT/FLT0
RA1/AN1/CPS1/C12IN1RB1/AN11/CP S11/RX(1)/DT(1)/SDA1/SDI1
RA2/AN2/VREF-/DACOUT/CPS2/C12IN2-/C12IN+
RB2/AN10/CP S10/M
DMIN/TX(1)/CK(1)/RX(1)/DT(1)/SDO(1)
RA3/AN3/CPS3/C12IN3-/C1IN+/Vref+/C1OUT/CCP3(2)/SRQ
RB3/AN9/CPS9/MDOUT/CCP1(1)/P1A(1)/Vcap
RA4/AN4/CPS4/C2OUT/T0CKI/CCP4(2)/SRNQ
RB4/AN8/CPS8/SCL1/SCK1/MDCIN2
RA5/M
CLR/VPP/SS1
RB5/AN7/CPS7/P1B/TX(1)/CK(1)/SS1(1)
RA6/OSC2/CLKOUT/CLKR/P1D(1)/SDO1(1)
RB6/AN5/CPS5/T1OSI/T1CKI/PGC/P1C(1)
RA7/OSC1/CLKIN/P1C(1)
RB7/AN6/CPS6/T1OSO/PGD/P1D(1)/MDCIN1
C17
105
E
E
3
10-55-1
ZD1
3.3V
R25
100kΩ
10kΩ
C11 104
C13 104
7
Leading Edge Module
2010-08-27
2722 171 9029
19101_059_110505.eps
110505
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 313
10.56 E 272217190301 IR/LED/Key Board
Leading Edge Module
Leading Edge Module
E
CPS6
+3.3V
U1
R16 100Ω
copper
1
E
M31
M32
VDD
L1
M33
100uH
C16
4.7uF
470Ω
R34
R2
103
C1
10uF
M34
+5V
C4
104
IN0 19
IN6 20
IN1 1
IN2 2
IN3 3
MCLR 4
17
18
M35
R27
18K
PIC16F1827
5
6
VSS
VSS
J7
11PIN*0.5m
m
SDA
47Ω
SDA1
M06
R31 47Ω
SCL1
IR
M01
KEY1M02
+5V
C14
10pF
+3.3V
SCL
M07
L2
M28
100uH
R11 150Ω
C7
105
C8
M05
C6
104
10uF/6.3V
M26
BZ1
M45
T2
IR
IR
M16
Q1
M27
1K
U2
R17 10Ω
3
2
R18 100Ω
C10
10uF/6.3V
ZD4
5.6V
option
ICSPCLK
M41
VDD
M18
4
1
M39
GND
47Ω
R33
M40
T4
M49
M51
M38
+3.3V
M53
R15
47Ω/4.7kΩ(MTK)
D1
RED
D2
M14
6
M13
BC857
ZD3
5.6V
option
3.9K
J3
R28
10kΩ
R19
R20
J4
CPS2
3.9K
C12
100kΩ
1
M50
J5
CPS1
3.9K
1
M52
J6
CPS0
3.9K
M54
1
8
2
R23
LM358
M25
M24
R24
104
LIGHT
R26
100R
M23
R21
1
M48
U3A
3
1
M21
1
M46
CPS3
3.9K
4
option
B
22kΩ
B
M22
M20
47kΩ
C
E
B
E
10kΩ
R22
470Ω
LM358
Q4
BC847
E
R13
10kΩ
M12
B
U3B
5
C
E
M09
LED2 R14
C
10kΩ
B
M19
7
Q3
C
1
M08
2
G1
M15
M11
C
LED1 R12
LIGHT Sensor
TEMT6200
M10
Q2
BC847
+5V
18kΩ
Red LED
+5V
15kΩ
R10
4.7kΩ / 100Ω
J2
IN0 R8
+5V
1
CPS4
IN1 R7
T5
MCLR
TSOP75236
3.9K
IN2 R6
M42
47Ω
ICSPDAT
GND
T3
R32
CPS5
M44
IN3 R5
M47
OUT
M17
+3.3V
BC847
option
WHITE
ZD2
option
5.6V
IN4 R4
T1
M29
ESD
option
105
CAP
touchsence
J1
M43
VDD
LED2
LED1
LIGHT
White LED
C3
105
test
M47
BUZZER
BUZZER R9
M03
option
M30
BUZZER
C15
10pF
E
1
2
3
4
5
6
7
8
9
10
11
M04
C2
IN5 R3
M31
R30
KEYBOARD
M37
VDD
16
15
VDD
VDD
1K
C5
104
VDD
TV CONNECTOR
R1
1
7 PWM
8 SDA M36
9 IN4
10 IN5
2-SCL
11 PWM
12 BUZZER
13 ICSPCLK
14 ICSPDAT
RA0/AN0/CPS0/C12IN0RB0/SRI/T1G/CCP1(1)/P1A(1)/INT/FLT0
RA1/AN1/CPS1/C12IN1RB1/AN11/CPS11/RX(1)/DT(1)/SDA1/SDI1
RA2/AN2/VREF-/DACOUT/CPS2/C12IN2-/C12IN+
RB2/AN10/CPS10/M
DMIN/TX(1)/CK(1)/RX(1)/DT(1)/SDO(1)
RA3/AN3/CPS3/C12IN3-/C1IN+/Vref+/C1OUT/CCP3(2)/SRQ
RB3/AN9/CPS9/MDOUT/CCP1(1)/P1A(1)/Vcap
RA4/AN4/CPS4/C2OUT/T0CKI/CCP4(2)/SRNQ
RB4/AN8/CPS8/SCL1/SCK1/MDCIN2
RA5/M
CLR/VPP/SS1
RB5/AN7/CPS7/P1B/TX(1)/CK(1)/SS1(1)
RA6/OSC2/CLKOUT/CLKR/P1D(1)/SDO1(1)
RB6/AN5/CPS5/T1OSI/T1CKI/PGC/P1C(1)
RA7/OSC1/CLKIN/P1C(1)
RB7/AN6/CPS6/T1OSO/PGD/P 1D(1)/MDCIN1
R29
33K
3
10-56-1
ZD1
3.3V
R25
120kΩ
C11 104
C13 104
1
Leading Edge Module
2011-01-25
2722 171 9030
19104_043_110624.eps
110624
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 314
10.57 E 272217190328 IR/LED Board
IR/LED
IR/LED
E
+5V
+3.3V
R11
4.7kΩ / 100Ω
C
R23
4.7kΩ / 100Ω
R12
47Ω/15Ω
D3
IR-out
TSML1020
100uF/10V
D2
D4
R22
220Ω
1
10kΩ
B
LED2
R8
10kΩ
R9
2
10kΩ
+3.3V
Keyboard
VSS
R10
10kΩ
VSS
Q3
2
B
BC857
J2
3
2
1
B
E
2
Q2
Q1
BC847
BC847
1
LED1
R7
C
2.0- 8pin
1
RED
3
WHITE
C
D5
E
D1
VSS
3
+5V
Keyboard
LED1
+3.3V
LED2
IR
VSS
LIGHT
E
8
7
6
5
4
3
2
1
C
J1
3
VSS
2.0- 3pin
+5V
2
+3.3V
R3 100Ω
C1
10u
4
1
VSS
8
G1
OUT
U2B
5
7
6
VDD
TSOP75236
U2A
3
1
470Ω
2
R21
LIGHT
100Ω
LM358
GND
GND
R17
LM358
4
3
TEMT6200FX01
R13
C4
R15
VSS
R16
0.1u
R18
ZD1
R19
18kΩ
R6
U1
15kΩ
IR
10Ω
+5V
22kΩ
E
22kΩ
10-57-1
VSS
100kΩ
VSS
100kΩ
VSS
C3 0.1u
3.3V
R20
VSS VSS
VSS
C50.1u
8
IR/LED
2011-03-28
2722 171 9032
19104_047_110624.eps
110624
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 315
10.58 E 27221719033x IR/LED/Key Board
10-58-1
Leading Edge Module
E
Leading Edge Module
R2
KEYBOARD
1K
C7
1uF
C6
1uF
ZD1
5.6V
option
+3.3V
VDD
L1
C3
4.7uF/6.3V
R7
10K
MM
Z1608S601A
R3
470R
U1
19
20
1
2
3
MCLR 4
17
18
C2
10uF/6.3V
R4
RA0/AN0/CPS0/C12IN0RA1/AN1/CPS1/C12IN1RA2/AN2/VREF-/DACOUT/CPS2/C12IN2-/C12IN+
RA3/AN3/CPS3/C12IN3-/C1IN+/Vref
+/C1OUT/CCP3(2)/SRQ
RA4/AN4/CPS4/C2OUT/T0CKI/CCP4(2)/SRNQ
RA5/M
CLR/VPP/SS1
RA6/OSC2/CLKOUT/CLKR/P1D(1)/SDO1(1)
RA7/OSC1/CLKIN/P1C(1)
5
6
C8
100nF
E
MCU
RB0/SRI/T1G/CCP1(1)/P1A(1)/INT/FLT0
RB1/AN11/CPS11/RX(1)/DT(1)/SDA1/SDI1
RB2/AN10/CPS10/M
DMIN/TX(1)/CK(1)/RX(1)/DT(1)/SDO(1)
RB3/AN9/CPS9/MDOUT/CCP1(1)/P 1A(1)/Vcap
RB4/AN8/CPS8/SCL1/SCK1/MDCIN2
RB5/AN7/CPS7/P1B/TX(1)/CK(1)/SS1(1)
RB6/AN5/CPS5/T1OSI/T1CKI/PGC/P1C(1)
RB7/AN6/CPS6/T1OSO/PGD/P 1D(1)/MDCIN1
VSS
VSS
VDD
VDD
7
8
9
10
11
12
13
14
RDY
47R
R5
SDA1
SDA
47R
BUZZER
R6 SCL1
SCL
47R
ICSPCLK
ICSPDAT
VDD
16
15
C9
100nF
1827
VDDHI
+3.3V
option
BUZZER
L2
R1
MM
Z1608S601A
1K
C1
C4
10uF/6.3V
1uF
VDD
BZ1
2
C5
1uF 1
BUZZER
Q1
BC847
BUZZER R10
C19
1uF
VDDHI
B
A
C17
100pF
R31
51R
CPS5
R28 2K
CPS2
R29 2K
CPS7
R30 2K
C16
C18
100pF
1uF
1K
R33
100K
RDY 3
4
5
6
7
VREG 8
9
10
11
12
R32
43K
RDY
RFIN
VDDHI
Vss
ICTRL
VREG
CX5
CS2
CX2
CX7
1
2
3
4
5
6
7
8
9
10
11
SDA-EX
CONNECTOR
SCL-EX
IR
KEYBOARD
LED2
LED1
LIGHT
+5V
+3.3V
R27 SCL
47R
C13
10pF
R14
C20
33nF
IQS222
C14
10pF
2
1
20
19
18
17
16
15
14
13
GND
VDDHI
RDY
SDA
SCL
R37 2K CPS0
R39 2K CPS6
R40 2K CPS1
R41 2K CPS4
C22
R36
1M
33nF
CAP
touchsence
1
2
3
4
5
SIP-5-2.54
R35
4.7K
R38 2K CPS3
33nF
J6
1
2
3
4
5
SDA
47R
SCL
SDA
ICA0
CX0
CS0
CX3
CX6
CX1
CS1
CX4
R34
4.7K
SCL1
SDA1
C21
J5
J4
11PIN*0.5m
m
IQS222
U4
pat4
CPS3
SIP-5-2.54
pat3
CPS2
J3
J2
1
2
3
4
5
MCLR
VDD
ICSPDAT
ICSPCLK
+5V
7
6
5
4
3
2
1
1
+3.3V
CPS1
1
CPS0
1
1
pat6
CPS5
pat1
LIGHT
1
pat7
CPS6
pat2
LED1
LED2
IR
1
pat8
CPS7
1
pat5
CPS4
1
Cable
3
Leading Edge Module
2011-03-28
2722 171 9033
19104_045_110624.eps
110624
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 316
10.59 E 27221719046x IR/LED/Key Board
Leading Edge Module
Leading Edge Module
E
CPS6
copper
M09
1
+3.3V
E
U1
R16 100Ω
100uH
C14
4.7uF
M11
C1
R2
103
M12
+5V
10uF
PIC16F1827
M10
VDD
L1
C4
104
IN0 19
IN6 20
IN1 1
IN2 2
IN3 3
MCLR 4
17
18
M17
R27
18K
5
6
VSS
VSS
L2
100uH
option
R11 1k
M32
1
2
3
4
5
6
7
8
IR
LED2
C7
105
C8
10uF/6.3V
LED1
KEYBOARD
M08
105
+3.3V
IR
BUZZER
R17 10Ω
M03
IR
Q1
1K
M30
+3.3V
BC847
M34
M29
ESD
+5V
option
R18 100Ω
C10
10uF/6.3V
ZD4
5.6V
option
U2
3
T4
J4
CPS2
3.9K
GND
MCLR
J5
CPS1
3.9K
M43
5
10kΩ
B
M20
3.9K
U3B
B
BC857
ZD3
5.6V
option
option
B
R22
R19
R20
R28
10kΩ
1
FM46
M25
8
1
470Ω
LM358
U3A
3
2
M26
LM358
C12
R21
100kΩ
R23
M01
M28
ZD1
3.3V
R24
104
LIGHT
R26
100R
M27
4
Q4
BC847
22kΩ
B
M24
47kΩ
E
M22
E
LED2 R14
C
B
M23
7
Q3
C
1
R13
10kΩ
C
2
G1
6
M19
Q2
BC847
M21
18kΩ
D2
E
M16
LIGHT Sensor
15kΩ
D1
RED
M18
CPS0
+5V
C
WHITE
+5V
TEMT6200
C
option
Red LED
E
White LED
R15
47Ω/4.7kΩ(MTK)
E
R10
4.7kΩ / 100Ω
J6
IN0 R8
M45
1
M44
TSOP75236
+5V
1
M42
IN1 R7
T5
1
M40
ICSPDAT
GND
1
J3
CPS3
3.9K
M41
1
M38
IN2 R6
+3.3V
10kΩ
3.9K
T3
VDD
4
J2
CPS4
IN3 R5
ICSPCLK
1
M36
IN4 R4
T1
M39
OUT
2
ZD2
option
5.6V
CPS5
3.9K
M35
T2
2.0- 8pin
LED1 R12
105
CAP
touchsence
J1
M37
M48
BUZZER R9
M33
VDD
BZ1
C6
105
BUZZER
M05
M06
M07
C3
M15
test
M47
J7
M01
M02
M03
M04
C2
IN5 R3
M31
LIGHT
M14
VDD
16
15
VDD
VDD
KEYBOARD
1K
C5
104
VDD
TV CONNECTOR
R1
1
7 PWM
8 SDA
9 IN4 M13
10 IN5
2-SCL
11 PWM
12 BUZZER
13 ICSPCLK
14 ICSPDAT
RA0/AN0/CPS0/C12IN0RB0/SRI/T1G/CCP1(1)/P1A(1)/INT/FLT0
RA1/AN1/CPS1/C12IN1RB1/AN11/CP S11/RX(1)/DT(1)/SDA1/SDI1
RA2/AN2/VREF-/DACOUT/CPS2/C12IN2-/C12IN+
RB2/AN10/CP S10/M
DMIN/TX(1)/CK(1)/RX(1)/DT(1)/SDO(1)
RA3/AN3/CPS3/C12IN3-/C1IN+/Vref+/C1OUT/CCP3(2)/SRQ
RB3/AN9/CPS9/MDOUT/CCP1(1)/P1A(1)/Vcap
RA4/AN4/CPS4/C2OUT/T0CKI/CCP4(2)/SRNQ
RB4/AN8/CPS8/SCL1/SCK1/MDCIN2
RA5/M
CLR/VPP/SS1
RB5/AN7/CPS7/P1B/TX(1)/CK(1)/SS1(1)
RA6/OSC2/CLKOUT/CLKR/P1D(1)/SDO1(1)
RB6/AN5/CPS5/T1OSI/T1CKI/PGC/P1C(1)
RA7/OSC1/CLKIN/P1C(1)
RB7/AN6/CPS6/T1OSO/PGD/P1D(1)/MDCIN1
R29
33K
3
10-59-1
R25
100kΩ
C11 104
C13 104
5
Leading Edge Module
2011-05-10
2722 171 9046
19104_046_110624.eps
110624
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 317
10.60 AL1 820400091254
10-60-1
LiteOn 9 LED 12V
AL1A
LiteOn 9 LED 12V
AL1A
+3V3
2B11
100n
1M83
3 3B00-3 6
22
25
32
3B21
33R
+3V3
FB20
3B18
FB35
100p
2B07
100p
100p
2B06
100p
2B05
150R
PROG
BLANK
BLANK
GSCLK
IREF
MODE
SCLK
SIN
SOUT
XERR
XHALF
XLAT
12
13
28
29
NC
GND
FB12
PWM-CLOCK
+3V3
1K43
SPI-CLOCK
FB15
+3V3
42
41
40
37
38
39
SPI-DATA-RETURN
SPI-DATA-IN
FB16
3B31
7B26-2
TLC5946RHB
34
VIA
35
VIA VIA
36
VIA
+3V3
FB13
PWM-R1
PWM-G1
PWM-B1
PWM-B2
PWM-R2
PWM-G2
PWM-B5
PWM-R5
PWM-G5
PWM-G4
PWM-R4
PWM-B4
PWM-G3
PWM-R3
PWM-B3
DATA-SWITCH
GND_HS
30
LATCH
SPI-CSn
FB11
4
5
6
7
8
9
10
11
14
15
16
17
18
19
20
21
0
1
2
3
4
5
6
7
OUT
8
9
10
11
12
13
14
15
33
FB10
7
150R
2B04
+3V3
2
3B00-2
TEMP-SENSOR
FB06
FB05
1K3
4 3B00-4 5
150R
LATCH
FB07
31
24
26
3
1
2
23
8
150R
PROG
SPI-CLOCK-BUF
SPI-DATA-IN-BUF
SPI-DATA-IN
SPI-DATA-OUT
FB04
VCC
3B00-1
1u0
1
BLANK
PWM-CLOCK-BUF
+12V
2B12
FB01
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
7B26-1
TLC5946RHB
28 27
FH34SRJ-26S-0.5SH(50)
+3V3
CLK-BUFFER
100n
4
LMV331IDCK
6B10
TEMP-SENSOR
BAT54 COL
FB40
SPI-CLOCK
4
3B01-4
5
3
4
33R
4
3B30-4
5
FB29
2B10
RES
3B05
2
33p
3B35
7000
LTW-008RGB2-PH1
SPI-CLOCK-BUF
150R
2B01
33R
33p
3B22
SPI-DATA-RETURN
10K
5
3B11
7B20-2
74LVC2G17
+3V3
-T 10K
4
GND
1K0
W
3
REF
3B42
+3V3
9B10
5
3B40
3B39
1K5 1%
1
2
7
FB41
100n
3B41
HOLD
1K5 1%
8
S
PWM-CLOCK-BUF
+3V3
7B30
150R
33R
C
FB28
2B09
3
6
1
1 3B30-1 8
1K5 1%
3
+3V3
PWM-CLOCK
1 3B01-1 8
33p
2
DATA-SWITCH
2
2B02
1
4
Q
100K
2
1
SPI-CSn
Φ
33p
6
5
7B06
74LVC1G32GW
D
2B00
5
7B20-1
74LVC2G17
VCC
RES 3B34
+3V3
+3V3
5
SPI-CLOCK-BUF
7B07
M95010-WDW6
100n
TEMP SENSOR
2B17
100n
2B20
SPI-DATA-IN-BUF
+3V3
2B08
+3V3
EEPROM
7002
LTW-008RGB2-PH1
7001
LTW-008RGB2-PH1
22R
6
cb01
5
BLUE
6
5
BLUE
6
GREEN
2
9B01
1
GREEN
2
1
GREEN
2
PWM-R1
3
RED
4
3
RED
4
3
RED
4
1 3B03-1 8
+12V
2B03
220R
2 3B03-2 7
100n
BLUE
1
100n
5
PWM-G1
2B13
PWM-B1
220R
FB30
FB31
FB32
FB52
FB50
FB51
FB60
FB61
FB62
B010
B011
B012
4
AL 2K11 LiteOn
9 LED 12V
2010-10-27
2
2010-10-19
1
8204 000 9125
2010-12-22
3
2010-04-01
19104_048_110628.eps
110628
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 318
LiteOn 9 LED 12V
LiteOn 9 LED 12V
AL1B
3B50
BLUE
6
5
BLUE
6
PWM-G2
1
GREEN
2
1
GREEN
2
PWM-R2
3
RED
4
3
RED
4
cb02
BLUE
6
9B02
1
5
1
GREEN
2
3
RED
4
3B53-1
+12V
8
2B50
220R
2 3B53-2 7
100n
5
PWM-B2
7100
LTW-008RGB2-PH1
22R
100n
7101
LTW-008RGB2-PH1
7102
LTW-008RGB2-PH1
2B52
AL1B
220R
1 3B55 2
7202
LTW-008RGB2-PH1
7201
LTW-008RGB2-PH1
7200
LTW-008RGB2-PH1
22R
PWM-B3
5
BLUE
6
5
BLUE
6
5
BLUE
6
cb03
PWM-G3
1
GREEN
2
1
GREEN
2
1
GREEN
2
9B03
PWM-R3
3
RED
4
3
RED
4
3
RED
4
+12V
1 3B58-1 8
2
220R
3B58-2
7
100n
100n
2B53
220R
2B51
10-60-2
Q552.2E LA
4
AL 2K11 LiteOn
9 LED 12V
2010-11-26
2
2010-10-19
1
8204 000 9125
2011-12-22
3
2010-04-01
19104_049_110628.eps
110628
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 319
10.61 AL1 820400091574
10-61-1
LiteOn 5 LED 12V 50%
AL1A
LiteOn 5 LED 12V 50%
AL1A
+3V3
2B11
100n
+12V
3B18
FB35
22
25
32
3B21
33R
+3V3
FB20
31
24
26
3
1
2
23
BLANK
GSCLK
IREF
MODE
SCLK
SIN
SOUT
XERR
XHALF
XLAT
12
13
28
29
1p0
2B07
1p0
100p
2B06
150R
PROG
BLANK
NC
GND
FB12
PWM-CLOCK
FB16
3B31
SPI-CLOCK
FB15
+3V3
1K43
42
41
40
37
38
39
SPI-DATA-RETURN
SPI-DATA-IN
+3V3
PWM-G4
PWM-R4
PWM-B4
PWM-G3
PWM-R3
PWM-B3
DATA-SWITCH
7B26-2
TLC5946RHB
VIA
34
35
VIA VIA
36
VIA
+3V3
FB13
PWM-R1
PWM-G1
PWM-B1
PWM-B2
PWM-R2
PWM-G2
GND_HS
30
LATCH
SPI-CSn
FB11
4
5
6
7
8
9
10
11
14
15
16
17
18
19
20
21
0
1
2
3
4
5
6
7
OUT
8
9
10
11
12
13
14
15
33
FB10
6
150R
100p
2B05
+3V3
2 3B00-2 7
TEMP-SENSOR
FB06
FB05
3
3B00-3
LATCH
FB07
1K3
4 3B00-4 5
150R
PROG
SPI-CLOCK-BUF
SPI-DATA-IN-BUF
SPI-DATA-IN
SPI-DATA-OUT
FB04
VCC
8
150R
1u0
1
BLANK
PWM-CLOCK-BUF
2B04
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
3B00-1
2B12
FB01
27
7B26-1
TLC5946RHB
1M83
28 27
FH34SRJ-26S-0.5SH(50)
+3V3
+3V3
1
+3V3
9B10
5
3B40
1K5 1%
3B39
FB41
4
W
3
2
HOLD
7
PWM-CLOCK-BUF
+3V3
7B30
150R
1K5 1%
C
S
FB28
1K5 1%
1 3B30-1 8
6
1
33R
100n
3
3
+3V3
2 3B01-2 7
3B41
1
PWM-CLOCK
2B09
4
Q
33p
2
Φ
2B02
1
DATA-SWITCH
D
2
100K RES
2
SPI-CSn
6
5
7B06
74LVC1G32GW
VCC
33p
5
2B00
+3V3
7B20-1
74LVC2G17
8
7B07
M95010-WDW6
100n
3B34
+3V3
+3V3
5
SPI-CLOCK-BUF
100n
2B17
SPI-DATA-IN-BUF
2B08
TEMP SENSOR
CLK-BUFFER
100n
2B20
EEPROM
LMV331IDCK
6B10
TEMP-SENSOR
BAT54 COL
FB40
SPI-CLOCK
4
3B01-4
5
3
4
3
33R
3B30-3
6
FB29
2B10
3B05
2
33p
3B35
7000
LTW-008RGB2-PH1
SPI-CLOCK-BUF
150R
2B01
33R
33p
3B22
SPI-DATA-RETURN
10K
5
3B11
7B20-2
74LVC2G17
+3V3
-T 10K
4
RES
GND
7002
LTW-008RGB2-PH1
7001
LTW-008RGB2-PH1
22R
6
cb01
5
BLUE
6
5
BLUE
6
GREEN
2
9B01
1
GREEN
2
1
GREEN
2
PWM-R1
3
RED
4
3
RED
4
3
RED
4
+12V
2B03
3 3B03-3 6
220R
2 3B03-2 7
100n
BLUE
1
100n
5
PWM-G1
2B13
PWM-B1
220R
FB30
FB31
FB32
FB50
FB51
FB52
FB60
FB61
FB62
B010
B011
B012
3
AL 2K11 LiteOn
5 LED 12V 50%
8204 000 9157
2010-12-02
2
2010-10-05
1
2010-07-15
19050_008_110418.eps
110418
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-61-2
Q552.2E LA
10.
EN 320
LiteOn 5 LED 12V 50%
AL1B
LiteOn 5 LED 12V 50%
AL1B
7100
LTW-008RGB2-PH1
7101
LTW-008RGB2-PH1
PWM-B2
5
BLUE
6
5
BLUE
6
PWM-B2-R
PWM-G2
1
GREEN
2
1
GREEN
2
PWM-G2-R
PWM-R2
3
RED
4
3
RED
4
PWM-R2-R
4
AL 2K11 LiteOn
5 LED 12V 50%
2010-12-02
2
2010-10-05
1
8204 000 9157
2011-01-21
3
2010-07-15
19050_009_110418.eps
110418
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 321
10.62 AL1 820400091575
LiteOn 5 LED 12V 50%
LiteOn 5 LED 12V 50%
AL1A
AL1A
+3V3
2B11
100n
1M83
8
150R
3B18
FB35
3B21
33R
+3V3
FB20
31
24
26
3
1
2
23
22
25
32
BLANK
GSCLK
IREF
MODE
SCLK
SIN
SOUT
XERR
XHALF
XLAT
12
13
28
29
1p0
2B07
1p0
100p
2B06
100p
2B05
150R
PROG
BLANK
NC
GND
FB12
PWM-CLOCK
FB16
3B31
SPI-CLOCK
FB15
+3V3
1K43
42
41
40
37
38
39
SPI-DATA-RETURN
SPI-DATA-IN
+3V3
PWM-G4
PWM-R4
PWM-B4
PWM-G3
PWM-R3
PWM-B3
DATA-SWITCH
7B26-2
TLC5946RHB
VIA
34
35
VIA VIA
36
VIA
+3V3
FB13
PWM-R1
PWM-G1
PWM-B1
PWM-B2
PWM-R2
PWM-G2
GND_HS
30
LATCH
SPI-CSn
FB11
4
5
6
7
8
9
10
11
14
15
16
17
18
19
20
21
0
1
2
3
4
5
6
7
OUT
8
9
10
11
12
13
14
15
33
FB10
6
150R
2B04
+3V3
2 3B00-2 7
TEMP-SENSOR
FB06
FB05
3
3B00-3
LATCH
FB07
1K3
4 3B00-4 5
150R
PROG
SPI-CLOCK-BUF
SPI-DATA-IN-BUF
SPI-DATA-IN
SPI-DATA-OUT
FB04
VCC
3B00-1
1u0
1
BLANK
PWM-CLOCK-BUF
+12V
2B12
FB01
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
7B26-1
TLC5946RHB
28 27
FH34SRJ-26S-0.5SH(50)
+3V3
+3V3
1
+3V3
9B10
5
3B40
1K5 1%
3B39
FB41
4
W
3
2
HOLD
7
+3V3
7B30
150R
1K5 1%
S
PWM-CLOCK-BUF
1K5 1%
1 3B30-1 8
100n
3
3
+3V3
6
1
33R
3B41
1
2 3B01-2 7
2B09
4
PWM-CLOCK
C
FB28
33p
DATA-SWITCH
2
2
2B02
1
Q
100n
3B34
+3V3
100K RES
2
SPI-CSn
6
Φ
33p
7B06
74LVC1G32GW
D
VCC
2B00
5
7B20-1
74LVC2G17
8
7B07
M95010-WDW6
+3V3
+3V3
5
SPI-CLOCK-BUF
100n
2B17
SPI-DATA-IN-BUF
2B08
TEMP SENSOR
CLK-BUFFER
100n
2B20
EEPROM
5
LMV331IDCK
6B10
TEMP-SENSOR
BAT54 COL
FB40
SPI-CLOCK
33R
4
3B01-4
5
4
3
3
3B30-3
6
FB29
2B10
3B05
2
33p
3B35
7000
LTW-008RGB2-PH1
SPI-CLOCK-BUF
150R
33R
33p
3B22
SPI-DATA-RETURN
10K
5
3B11
7B20-2
74LVC2G17
+3V3
-T 10K
4
RES
GND
2B01
7001
LTW-008RGB2-PH1
22R
7002
LTW-008RGB2-PH1
6
cb01
5
BLUE
6
5
BLUE
6
GREEN
2
9B01
1
GREEN
2
1
GREEN
2
PWM-R1
3
RED
4
3
RED
4
3
RED
4
3 3B03-3 6
+12V
220R
2 3B03-2 7
100n
BLUE
1
100n
5
PWM-G1
2B13
PWM-B1
2B03
10-62-1
220R
FB30
FB31
FB32
FB50
FB51
FB61
B011
B012
FB52
FB60
B010
FB62
5
AL 2K11 LiteOn
5 LED 12V 50%
2010-12-02
2
2010-10-05
1
8204 000 9157
2011-07-04
3
2010-07-15
19051_155_110802.eps
110802
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10-62-2
Q552.2E LA
10.
EN 322
LiteOn 5 LED 12V 50%
AL1B
LiteOn 5 LED 12V 50%
AL1B
7100
LTW-008RGB2-PH1
7100
LTW-008RGB2-PH1
5
PWM-B2
BLUE
5
PWM-B2
1
PWM-G2
GREEN
1
PWM-G2
3
PWM-R2
PWM-R2
RED
3
6
BLUE
2
GREEN
4
RED
7101
LTW-008RGB2-PH1
7101
LTW-008RGB2-PH1
BLUE
5
6
5
GREEN
1
2
1
RED
3
4
3
6
BLUE
2
GREEN
4
RED
PWM-B2-R
6
PWM-B2-R
PWM-G2-R
2
PWM-G2-R
PWM-R2-R
4
PWM-R2-R
5
4
2010-12-02
2011-01-21
3
2
2010-12-02
2010-10-05
2
1
8204 000 9157
2011-07-04
2011-01-21
3
4
2010-10-05
2010-07-15
1
AL 2K11 LiteOn
5 LED 12V 50%
2010-07-15
19051_156_110802.eps
19050_009_110418.eps
110802
110418
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 323
10.63 AL3 820400091232
LiteOn 3 LED 12V
LiteOn 3 LED 12V
AL3A
9C02
5
BLUE
6
5
BLUE
6
PWM-G4
1
GREEN
2
1
GREEN
2
PWM-R4
RED
4
3
RED
4
FC10
cc01
FC11
1M84
7300
LTW-008RGB2-PH1
22R
6
5
BLUE
1
GREEN
2
3
9C01
SPI-CLOCK
RED
4
+12V
SPI-DATA-OUT
SPI-DATA-RETURN
+3V3
PWM-CLOCK
FC12
1 3C03-1 8
2
220R
3C03-2
7
220R
SPI-CSn
LATCH
100n
PWM-B4
3
3C04
7301
LTW-008RGB2-PH1
100n
7302
LTW-008RGB2-PH1
2C02
AL3A
2C01
10-63-1
+3V3
BLANK
PROG
TEMP-SENSOR
9C03
+12V
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
28
27
FH34SRJ-26S-0.5SH(50)
2
AL 2K11 LiteOn
3 LED 12V
2010-12-22
1
2010-10-28
8204 000 9123
19104_050_110628.eps
110628
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 324
10.64 AL3 820400091242
LiteOn 6 LED 12V
LiteOn 6 LED 12V
AL3A
9C02
3C04
7301
LTW-008RGB2-PH1
5
BLUE
6
5
BLUE
6
PWM-G4
1
GREEN
2
1
GREEN
2
PWM-R4
3
RED
4
3
RED
4
22R
FC10
cc01
BLUE
6
9C01
FC11
5
1
GREEN
2
3
RED
SPI-CLOCK
4
+12V
SPI-DATA-OUT
SPI-DATA-RETURN
+3V3
PWM-CLOCK
FC12
4 3C03-4 5
3
220R
3C03-3
6
220R
SPI-CSn
LATCH
100n
PWM-B4
1M84
7300
LTW-008RGB2-PH1
100n
7302
LTW-008RGB2-PH1
2C02
AL3A
2C01
10-64-1
+3V3
BLANK
PROG
TEMP-SENSOR
9C03
+12V
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
28
27
FH34SRJ-26S-0.5SH(50)
2
AL 2K11 LiteOn
9 LED 12V
2010-12-22
1
2010-10-28
8204 000 9124
19104_051_110628.eps
110628
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 325
LiteOn 6 LED 12V
LiteOn 6 LED 12V
AL3B
7402
LTW-008RGB2-PH1
3C10
7401
LTW-008RGB2-PH1
7400
LTW-008RGB2-PH1
22R
BLUE
6
5
BLUE
6
c001
5
BLUE
6
PWM-G5
1
GREEN
2
1
GREEN
2
3C11
1
GREEN
2
PWM-R5
3
RED
4
3
RED
4
3
RED
4
3 3C12-3 6
4
220R
3C12-4
5
+12V
100n
5
100n
PWM-B5
2C11
AL3B
2C10
10-64-2
Q552.2E LA
220R
FC20
FC16
FC17
FC50
FC51
FC52
FC18
2
AL 2K11 LiteOn
9 LED 12V
2011-12-22
1
2010-10-28
8204 000 9124
19104_052_110628.eps
110628
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 326
10.65 AL3 820400091562
LiteOn 1 LED 12V 50%
AL3A
LiteOn 1 LED 12V 50%
AL3A
1M84
SPI-CLOCK
3C30
7102
LTW-008RGB2-PH1
22R
BLUE
PWM-G2-R
9C02
1
GREEN
2
3
RED
+3V3
6
4
1 3C33-1 8
220R
PWM-CLOCK
+12V
2 3C33-2 7
SPI-CSn
LATCH
+3V3
BLANK
PROG
100n
5
2C31
cc02
100n
PWM-B2-R
PWM-R2-R
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
SPI-DATA-OUT
SPI-DATA-RETURN
2C30
10-65-1
TEMP-SENSOR
220R
+12V
27
28
FH34SRJ-26S-0.5SH(50)
B013
2
AL 2K11 LiteOn
1 LED 12V 50%
2010-12-02
1
2010-10-05
8204 000 9156
19101_053_110505.eps
110505
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 327
10.66 AL3 820400091583
10-66-1
LiteOn 4 LED 12V 50%
AL3A
LiteOn 4 LED 12V 50%
AL3A
1M84
SPI-CLOCK
PWM-B4
SPI-DATA-OUT
SPI-DATA-RETURN
PWM-G4
+3V3
PWM-CLOCK
PWM-R4
SPI-CSn
LATCH
+3V3
BLANK
PROG
TEMP-SENSOR
+12V
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
FH34SRJ-26S-0.5SH(50)
B013
B014
FC10
FC20
FC11
FC50
FC12
FC51
FC52
3
AL 2K11 LiteOn
4 LED 12V 50%
8204 000 9158
2010-12-02
2
2010-10-05
1
2010-07-15
19050_010_110418.eps
110418
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 328
LiteOn 4 LED 12V 50%
AL3B
LiteOn 4 LED 12V 50%
AL3B
3C11
7200
LTW-008RGB2-PH1
7202
LTW-008RGB2-PH1
7201
LTW-008RGB2-PH1
22R
6
cc10
5
BLUE
6
5
BLUE
6
GREEN
2
9C10
1
GREEN
2
1
GREEN
2
PWM-R3
3
RED
4
3
RED
4
3
RED
4
1 3C13-1 8
+12V
220R
2 3C13-2 7
100n
BLUE
1
100n
5
PWM-G3
2C11
PWM-B3
2C10
10-66-2
Q552.2E LA
220R
3
AL 2K11 LiteOn
4 LED 12V 50%
8204 000 9158
2010-12-02
2
2010-10-05
1
2010-07-15
19050_011_110418.eps
110418
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 329
LiteOn 4 LED 12V 50%
LiteOn 4 LED 12V 50%
AL3C
3C31
7102
LTW-008RGB2-PH1
22R
5
BLUE
9C30
1
GREEN
2
3
RED
4
PWM-R2-R
1 3C33-1 8
220R
2 3C33-2 7
6
+12V
100n
cc30
PWM-G2-R
2C31
PWM-B2-R
100n
AL3C
2C30
10-66-3
Q552.2E LA
220R
3
AL 2K11 LiteOn
4 LED 12V 50%
8204 000 9158
2010-12-02
2
2010-10-05
1
2010-07-15
19050_012_110418.eps
110418
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 330
10.67 AL3 820400091584
10-67-1
LiteOn 4 LED 12V 50%
AL3A
LiteOn 4 LED 12V 50%
AL3A
1M84
PWM-B4
SPI-CLOCK
PWM-G4
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
SPI-DATA-OUT
SPI-DATA-RETURN
PWM-R4
+3V3
PWM-CLOCK
SPI-CSn
LATCH
+3V3
BLANK
PROG
TEMP-SENSOR
+12V
27
28
FH34SRJ-26S-0.5SH(50)
B013
B014
FC10
FC20
FC11
FC50
FC12
FC51
FC52
4
AL 2K11 LiteOn
4 LED 12V 50%
2010-12-02
2
2010-10-05
1
8204 000 9158
2011-07-04
3
2010-07-15
19051_157_110802.eps
110802
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 331
LiteOn 4 LED 12V 50%
AL3B
LiteOn 4 LED 12V 50%
AL3B
7200
LTW-008RGB2-PH1
7201
LTW-008RGB2-PH1
3C11
7202
LTW-008RGB2-PH1
22R
6
cc10
5
BLUE
6
5
BLUE
6
GREEN
2
9C10
1
GREEN
2
1
GREEN
2
PWM-R3
3
RED
4
3
RED
4
3
RED
4
1 3C13-1 8
+12V
220R
2 3C13-2 7
100n
BLUE
1
100n
5
PWM-G3
2C11
PWM-B3
2C10
10-67-2
Q552.2E LA
220R
4
AL 2K11 LiteOn
4 LED 12V 50%
2010-12-02
2
2010-10-05
1
8204 000 9158
2011-07-04
3
2010-07-15
19051_158_110802.eps
110802
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 332
LiteOn 4 LED 12V 50%
LiteOn 4 LED 12V 50%
AL3C
3C31
7102
LTW-008RGB2-PH1
22R
5
BLUE
6
9C30
1
GREEN
2
3
RED
4
PWM-R2-R
1 3C33-1 8
220R
2 3C33-2 7
+12V
100n
cc30
PWM-G2-R
100n
PWM-B2-R
2C31
AL3C
2C30
10-67-3
Q552.2E LA
220R
4
AL 2K11 LiteOn
4 LED 12V 50%
2010-12-02
2
2010-10-05
1
8204 000 9158
2011-07-04
3
2010-07-15
19051_159_110803.eps
110803
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 333
10.68 AL3 820400091592
LiteOn 7 LED 12V 50%
LiteOn 7 LED 12V 50%
AL3A
5
BLUE
PWM-G4
1
GREEN
2
PWM-R4
3
RED
22R
6
1M84
SPI-CLOCK
5
4
3C01-1
5
BLUE
6
GREEN
2
1
GREEN
2
3
1
6
1
9C04
cc04
BLUE
RED
4
3
RED
4
+12V
100n
PWM-B4
7302
LTW-008RGB2-PH1
7301
LTW-008RGB2-PH1
3C03
100n
7300
LTW-008RGB2-PH1
2C02
AL3A
2C01
10-68-1
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
SPI-DATA-OUT
SPI-DATA-RETURN
+3V3
PWM-CLOCK
SPI-CSn
LATCH
8
+3V3
220R
BLANK
PROG
2 3C01-2 7
220R
TEMP-SENSOR
+12V
27
28
FH34SRJ-26S-0.5SH(50)
B013
B014
B015
B016
FC10
FC20
FC11
FC21
FC12
2
AL 2K11 LiteOn
7 LED 12V 50%
2010-12-02
1
2010-10-07
8204 000 9159
19101_054_110505.eps
110505
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 334
LiteOn 7 LED 12V 50%
AL3B
LiteOn 7 LED 12V 50%
AL3B
7200
LTW-008RGB2-PH1
PWM-B3
5
BLUE
7201
LTW-008RGB2-PH1
3C14
6
22R
7202
LTW-008RGB2-PH1
5
BLUE
6
5
BLUE
6
1
GREEN
2
1
GREEN
2
3
RED
4
3
RED
4
9C12
PWM-G3
1
GREEN
2
PWM-R3
3
RED
4
+12V
100n
220R
4 3C13-4 5
100n
2C04
cc12
3 3C13-3 6
2C10
10-68-2
Q552.2E LA
220R
2
AL 2K11 LiteOn
7 LED 12V 50%
2010-12-02
1
2010-10-07
8204 000 9159
19101_055_110505.eps
110505
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 335
LiteOn 7 LED 12V 50%
LiteOn 7 LED 12V 50%
AL3C
7102
LTW-008RGB2-PH1
3C15
PWM-R2-R
220R
GREEN
2
3
3 3C33-3 6
6
1
9C32
cc32
PWM-G2-R
BLUE
RED
4
+12V
4 3C33-4 5
100n
5
2C05
22R
PWM-B2-R
100n
AL3C
2C30
10-68-3
Q552.2E LA
220R
FC17
FC50
FC18
FC51
FC16
FC52
2
AL 2K11 LiteOn
7 LED 12V 50%
2010-12-02
1
2010-10-07
8204 000 9159
19101_056_110505.eps
110505
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 336
10.69 AL 310431364752 AmbiLight Layout
FB04
FB13
FB61
FB11
3B58
7301
FC10
9C01
Cc01
2C01
3C03
FC12
9C02
1M84
FC11
B013
FB50
3C04
2B11
3B18
2C02
FB31
FB52
9C03
3B21
7300
FB51
FB30
2B53
FB20
2B06
7202
FB62
cb03
9B03
cb02
9B02
3B31
7B26
FB60
2B51
2B10
7201
FB32
3B55
3B22
FB28
2B05
2B02
2B04
FB35
B012
2B12
3B53
7200
2B07
FB29
FB05
FB15
3B50
2B52
2B50
2B00
7B07
7102
3B00
FB16
7B20
FB01
B011
3B42
3B01
1M83
7101
FB10
2B01
2B09
3B41
FB12
2B20
7100
2B17
FB07
2B13
3B05
3B11
7B30
2B03
3B34
7B06
7002
FB06
2B08
3B30
7001
9B10
3B40
Cb01
9B01
3B03
3B39
FB41
FB40
6B10
7000
B010
9 LED 12 V LiteOn
3B35
10-69-1
7302
2
AL 2K11 LITEON
9 LED 12V
2010-12-21
1
2010-10-05
3104 313 6475
19104_053_110628.eps
110628
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 337
10.70 AL 310431364762 AmbiLight Layout
1M84
FC52
FC51
FC50
2C10
2C11
FC17
B013
9C01
Cc01
2C01
2C02
FC11
FC18
FC16
FC11
1M84
3C12
7402
B014
FC12
FC12
9C02
C001
3C11
FC10
7302
7401
3C10
3B58
2B53
FB11
FC10
9C03
FB61
7301
7400
9C03
3C03
3C03
9C02
3B58
Cc01
9C01
FB61
FB11
3C04
FB13
3B55
FB50
FB04
B013
FB13
cb03
9B03
FB04
FB50
FB31
7300
7302
3C04
7202
7301
FB51
FB52
FB51
FB52
FB31
7300
FB30
FB62
2B51
3B21
FB30
FB60
3B55
FB20
2B06
B012
7202
2B53
2B11
3B18
FB20
3B21
2B05
7B26
2B06
2B07
3B00
B011
cb02
9B02
FB35
2B11
3B18
3B31
2B52
2B50
2B20
3B50
2B04
7201
FB32
FB62
2C02
2B10
3B22
7B26
7201
2B04
FB60
2C01
FB28
3B53
7200
FB32
9B03
cb03
2B02
FB29
2B10
FB28
7200
FB35
2B51
2B12
2B02
7102
B012
FB05
FB15
3B22
3B50
2B12
FB29
3B31
3B30
2B00
2B13
2B03
3B01
2B01
7B07
FB05
FB15
FB01
2B20
FB16
3B53
2B05
FB16
3B42
7B20
2B52
FB12
7102
2B07
3B42
7B06
1M83
1M83
2B50
2B09
3B41
7B07
7101
3B00
3B41
7B30
7B20
FB01
B011
7B30
2B09
7100
FB10
FB06
3B30
3B11
2B17
FB07
2B00
3B05
7002
3B01
3B34
3B11
7101
FB10
7B06
7100
2B17
FB07
FB12
2B01
9B10
2B08
3B05
2B13
7001
3B34
9B02
cb02
7002
FB06
2B08
6B10
3B40
Cb01
9B01
3B35
3B03
7001
2B03
3B40
Cb01
9B01
3B35
FB40
3B03
3B39
FB41
B010
7000
9B10
FB41
FB40
6B10
7000
B010
9 LED 12 V LiteOn
3B39
10-70-1
FC20
2
AL 2K11 LITEON
9 15 LED
LED 12V
2010-12-21
2010-12-22
1
2010-10-05
3104 313 6475
6476
19104_053_110628.eps
19104_054_110628.eps
110628
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 338
10.71 AL 310431364792 AmbiLight Layout
6 LED 50% 12 V LiteOn
2B02
FB28
2B04
2B05
FB20
FB60
FB52
FB50
FB04
FB13
FB61
7102
FB62
FB51
FB30
FB11
1M84
cc02
9C02
3B21
2C31
FB35
3C30
7B26
7101
FB32
2B11
2C30
7100
3B18
2B06
2B07
FB29
3B22
3C33
FB01
B013
2B10
FB31
FB05
2B01
B012
2B00
7B07
3B30
3B01
3B34
7B20
FB15
3B00
FB16
B011
7B06
2B17
3B11
2B08
2B13
FB10
FB06
7B30
7002
3B31
2B20
2B12
FB07
FB12
2B09
2B03
7001
1M83
3B05
FB41
FB40
3B03
3B39
7000
3B35
B010
Layout Top
Cb01
9B01
10-71-1
Layout Bottom
2
AL 2K11 LITEON
6 LED 50%
2010-12-02
1
2010-09-30
3104 313 6479
19050_068_110506.eps
110506
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 339
10.72 AL 310431364803 AmbiLight Layout
9 LED 50% 12 V LiteOn
3B22
FB31
FB50
FB04
FB13
FB61
FB11
FC12
FC11
3C13
FC17
7202
FC20
1M84
2C31
FC51
FC50
FC16
2C10
7201
FC52
7200
3C11
7102
FB52
FC18
3C33
FC10
cc30
9C30
FB62
FB51
FB30
cc10
9C10
FB20
3C31
7101
FB32
3B21
2C11
FB35
2C30
7B26
FB60
7100
3B18
2B11
B014
FB28
2B06
2B07
2B04
2B05
B013
2B102B02
FB29
B012
2B01
7B06
B011
7B07
FB05
7002
3B31
2B20
FB10
2B13
2B12
2B17
7B20
2B03
2B00
3B01
FB15
3B00
2B09
FB16
1M83
3B34
FB06
3B11
2B08
FB01
FB07
FB12
7B30
3B30
7001
3B05
FB41
FB40
3B03
3B39
7000
3B35
B010
Layout Top
Cb01
9B01
10-72-1
Layout Bottom
3
AL 2K11 LITEON
9 LED 50%
2010-12-02
2
2010-10-05
3104 313 6480
19050_069_110506.eps
110506
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 340
10.73 AL 310431364804 AmbiLight Layout
FB05
FB15
2B01
2B10
2B02
FB28
FB29
3B22
FB31
FB50
FB04
FB13
FB61
FB11
FC12
FC11
7200
7201
FC18
FC52
FC51
FC50
3C13
FC16
FC17
7202
FC20
1M84
2C31
FC10
2C10
7102
9C10
cc10
3C33
3C31
FB62
9C30
cc30
FB60
FB51
3C11
FB20
FB30
2C11
3B21
2C30
FB35
FB52
2B04
2B05
7B26
7101
FB32
2B11
B014
FB16
2B07
B012
3B41
7100
3B18
2B06
B011
3B30
2B00
3B01
3B11
3B05
2B09
FB01
3B00
9B10
7B30
7B07
2B13
7B06
2B17
7B20
2B03
FB10
FB06
1M83
7002
3B31
2B20
2B12
FB07
FB12
3B34
3B40
3B39
Cb01
9B01
7001
2B08
FB41
FB40
3B03
6B10
7000
3B35
B013
9 LED LiteOn 50%
B010
10-73-1
4
AL 2K11 LITEON
9 LED 50%
3104 313 6480
2011-01-21
3
2010-12-02
2
2010-10-05
19070_014_110629.eps
110629
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 341
10.74 AL 310431364812 AmbiLight Layout
10-74-1
12 LED 50% 12 V LiteOn
FB61
FB11
FC12
FC10
FC11
7201
FC18
FC51
FC50
FC16
FC17
FC52
3C13
7202
FC20
7300
FC21
7301
3C01
3C03
7200
1M84
7302
2C02
3C33
9C04
Cc04
7102
FB62
2C01
FB13
B016
FB04
B015
FB60
FB51
FB50
9C12
cc12
FB30
FB31
2C04
FB20
3C14
7101
FB32
3B21
9C32
cc32
FB35
2C05
7B26
2C30
7100
3B18
2B11
3C15
2B06
2B07
2B04
2B05
2C10
FB29
FB52
7B06
FB01
3B22
B014
FB28
B013
2B102B02
2B13
7B07
FB05
7002
3B31
2B20
FB10
2B03
2B12
2B17
7B20
2B01
B012
FB15
B011
FB16
3B00
2B08
2B00
3B11
3B01
FB06
7B30
3B30
FB07
FB12
2B09
3B34
Cb01
9B01
7001
1M83
3B05
FB41
FB40
3B03
3B39
7000
3B35
B010
Layout Top
Layout Bottom
2
AL 2K11 LITEON
12 LED 50%
2010-12-02
1
2010-10-05
3104 313 6481
19050_070_110506.eps
110506
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 342
10.75 AL 310431365671 AmbiLight Layout
10-75-1
9 LED 50% 12 V LiteOn
3B22
FB31
FB50
FB04
FB13
FB61
FB11
FC12
FC11
7201
FC18
FC50
3C13
FC52
FC16
FC17
7202
FC20
1M84
2C31
7200
2C10
FC10
FC51
7102
2C11
3C33
2C30
cc30
9C30
FB62
3C31
2B13
2B03
FB60
FB51
FB52
cc10
9C10
FB20
FB30
3C11
2B04
2B05
3B21
B014
FB28
FB35
B013
2B10 2B02
7B26
7101
FB32
2B11
B012
2B01
2B07
B011
FB15
7100
3B18
2B06
3B00
FB16
7B06
FB01
FB29
2B09
3B41
7B07
7002
3B31
2B20
FB10
2B17
7B20
3B30
FB06
FB05
3B01
FB12
7B30
2B12
FB07
2B00
9B10
1M83
6B10
Cb01
9B01
3B40
3B39
7001
2B08 3B11
FB41
FB40
3B03
3B34 3B05
7000
3B35
B010
Layout Top
Layout Bottom
1
AL 2K11 LITEON
9 LED 50%
2011-07-04
3104 313 6567
19051_160_110803.eps
110803
2012-Mar-16 back to
div. table
�Circuit Diagrams and PWB Layouts
Q552.2E LA
10.
EN 343
10.76 TS1 313912365252
Temp Sensor
Temp Sensor
TS1
100n
4u7
2101
2102
1K0
RES
3153
+3V3
A2
2101
6111
I103
I106
9112
1K0
3105
1K0
3104
8
SCL
I104
7
1X00
EMC HOLE
I105
6
I106
5
6
5
4
3
2
1
1K0
3106
9111
RES
9110
2110
+VS
A1
+3V3
2102
I101
I100
I105
F109
3153
3105
9110 3106 9112
9111
9113 2123 2116
2110 3124 3123
502386-0470
2
SDA
GND
9113
10p
5
SCL-TEMP1
I101
F110 100R 3124
100R
F111
SDA-TEMP1
1
SDA-TEMP1
A0
4
F112
SCL-TEMP1
OS
7104
F109
10p
2123
1
2
3
4
6
I103
3
I100
3123
RES
RES
7104
LM75ADP
100n
1T02
SML-310
6111 RES
I102
1T02
TS1
2116
10-76-1
I102
I104
3104
F110
F111
F112
1X00
2
TEMP SENSOR 2K11
2011-03-09
3139 123 6525
19100_817_110309.eps
110505
2012-Mar-16 back to
div. table
�Styling Sheets
Q552.2E LA
11.
EN 344
11. Styling Sheets
11.1
Berlinale 32 "
Berlinale 32 "
1150
5213
5217
0011
1005
5216
0260
Pos No.
0040
8308
1004
1108
0004
0004
0011
0040
0260
1004
1005
1085
1108
1150
5213
5216
5217
8191
8308
8G51
Description
Front Cabinet
Back Cover
Hard Switch bracket
Stand
Display panel
Power Supply Unit
Remote Control
Keyboard + IR assy
Board SSB
Loudspeaker box
Tweeter
Tweeter
Mainscord 1.8m
Main (power) switch
Cable LVDS FFC
Remarks
Not displayed
Not displayed
Not displayed
19130_049_110615.eps
110615
2012-Mar-16 back to
div. table
�Styling Sheets
11.2
Q552.2E LA
11.
EN 345
Berlinale 40 " & 46 "
Berlinale 40 " - 46 "
1150
1005
5216
0012
0039
5213
5216
0039
0260
POS. NO.
0040
1004
1108
0004
0004
0012
0040
0093
0260
1004
1005
1085
1108
1150
5213
5216
8191
8G51
DESCRIPTION.
Front Cabinet
Back Cover
Hard Switch bracket
Bottom Vesa Bracket
Stand
Display panel
Power Supply Unit
Remote Control
Leading Edge (IR + Keyb. Assy)
Board SSB
Loudspeaker box
Tweeter
Mainscord 1.8m
Cable LVDS FFC
REMARKS
Not Displayed
Not Displayed
Not Displayed
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9
19150_002_110511.eps
110914
2012-Mar-16 back to
div. table
�Styling Sheets
11.3
Q552.2E LA
11.
EN 346
Blockbuster 32 "
Blockbuster 32 "
1150
5213
5216
0011
1005
5216
0260
0062
0029
8308
1004
1108
0004
Pos No.
0004
0011
0029
0062
0260
1004
1005
1085
1108
1150
5213
5216
8191
8308
8G50
8G51
Description
Front Cabinet
Back Cover
Hard Switch bracket
Hard Switch Cover
Stand
Display panel
Power Supply Unit
Remote Control
Keyboard + IR assy
Board SSB
Loudspeaker box
Tweeter
Mainscord 1.8m
Main (power) switch
Cable LVDS FFC
Cable LVDS FFC
Remarks
Optional for Hotel TV
Not displayed
Not displayed
Not displayed
Not displayed
19100_806_110210.eps
111202
2012-Mar-16 back to
div. table
�Styling Sheets
11.4
Q552.2E LA
11.
EN 347
Blockbuster 37 "
Blockbuster 37 "
1150
5213
0011
1005
5216
5216
0260
Pos No.
0029
8308
1004
0004
1108
0004
0011
0029
0260
1004
1005
1085
1108
1150
5213
5216
8191
8308
8G50
8G51
Description
Front Cabinet
Back Cover
Hard Switch bracket
Stand
Display panel
Power Supply Unit
Remote Control
Keyboard + IR assy
Board SSB
Loudspeaker box
Tweeter
Mainscord 1.8m
Main (power) switch
Cable LVDS FFC
Cable LVDS FFC
Remarks
Not displayed
Not displayed
Not displayed
Not displayed
19100_810_110214.eps
110217
2012-Mar-16 back to
div. table
�Styling Sheets
11.5
Q552.2E LA
11.
EN 348
Blockbuster 40 " & 46 "
Blockbuster 40 " - 46 "
1150
1005
5216
0011
5213
0260
5216
POS. NO.
0062
0040
1004
1108
0004
8308
0004
0011
0040
0062
0260
1004
1005
1085
1108
1150
5213
5216
8191
8308
8G50
8G51
DESCRIPTION.
Front Cabinet
Back Cover
Hard Switch bracket
Hard Switch Cover
Stand
Display panel
Power Supply Unit
Remote Control
Keyboard + IR assy
Board SSB
Loudspeaker box
Tweeter
Mainscord 1.8m
Main (power) switch with cable
Cable LVDS FFC
Cable LVDS FFC
REMARKS
Optional for Hotel TV
Not Displayed
Not Displayed
Not Displayed
Not Displayed
19100_802_110202.eps
111202
2012-Mar-16 back to
div. table
�Styling Sheets
11.6
Q552.2E LA
11.
EN 349
Blockbuster 55 "
Blockbuster 55 "
1150
5216
1005
0011
5213
5216
0260
0062
0040
POS. NO.
8308
1004
0004
1108
0004
0011
0040
0062
0260
1004
1005
1085
1108
1150
5213
5216
8191
8308
8G50
8G51
DESCRIPTION.
Front Cabinet
Back Cover
Hard Switch bracket
Hard Switch Cover
Stand
Display panel
Power Supply Unit
Remote Control
Keyboard + IR assy
Board SSB
Loudspeaker box
Tweeter
Mainscord 1.8m
Main (power) switch with cable
Cable LVDS FFC
Cable LVDS FFC
REMARKS
Optional for Hotel TV
Not Displayed
Not Displayed
Not Displayed
Not Displayed
19100_816_110307.eps
111202
2012-Mar-16 back to
div. table
�Styling Sheets
11.7
Q552.2E LA
11.
EN 350
Infinity 32 "
Infinity 32 "
1150
5213
1163
0011
5216
1005
1163
0260
Pos No.
0026
0040
1004
1115
5216
0017
1108
1112
0011
0017
0026
0040
0260
1004
1005
1108
1112
1115
1150
1163
5213
5216
8191
8G51
8G51
1085
Description
Remarks
Rear Cover
Front Glassplate Cover
Wifi Interface Bracket
Main Switch + Main Inlet Bracket
Stand Assy
Display Panel
Board PSU
Keyboard Assy
IR Assy
Board Wifi Interface
Board SSB
Ambilight Assy
Loudspeaker
Loudspeaker (Tweeter)
Mainscord 1.8m
Cable LVDS FFC
Cable LVDS FFC
Remote Control
19100_822_110708.eps
110708
2012-Mar-16 back to
div. table
�Styling Sheets
11.8
Q552.2E LA
11.
EN 351
Infinity 42 "
Infinity 42 "
1150
1005
1163
5216
0011
5213
0260
1163
0017
Pos No.
1004
0026
1115
5216
1108
0040
1112
0011
0017
0026
0040
0260
1004
1005
1108
1112
1115
1150
1163
5213
5216
8191
8G51
8G51
1085
Description
Remarks
Rear Cover
Front Glassplate Cover
Wifi Interface Bracket
Main Switch + Main Inlet Bracket
Stand Assy
Display Panel
Board PSU
Keyboard Assy
IR Assy
Board Wifi Interface
Board SSB
Ambilight Assy
Loudspeaker
Loudspeaker (Tweeter)
Mainscord 1.8m
Cable LVDS FFC
Cable LVDS FFC
Remote Control
19100_823_110708.eps
110708
2012-Mar-16 back to
div. table
�Styling Sheets
11.9
Q552.2E LA
11.
EN 352
Sundance 32 " & 37 "
Sundance 32 " - 37 "
1150
0035
1163
0011
5216
1005
5213
0260
1163
0062
0026
5216
1115
0004
1004
1108
Pos No.
0062
0004
0026
1004
1163
1108
1005
1115
0260
5216
0011
5213
0035
1027
1150
8191
8G50
Description
Main switch + bracket with cable
Front Cabinet
Wifi bracket
Display panel
Ambilight module
Keyboard touch control assy
Power Supply Unit
Wifi module
Stand assy
Tweeter
Back Cover
Loudspeaker box
Swivel Bracket
Temperature Sensor
Board SSB
Mainscord 1.8m
Cable LVDS FFC
Remarks
Not Displayed
Not Displayed
Not Displayed
Not Displayed
Not Displayed
19100_820_110505.eps
110708
2012-Mar-16 back to
div. table
�Styling Sheets
11.10
Q552.2E LA
11.
EN 353
Sundance 42 " , 47 " & 55 "
Sundance 42 " - 55 "
1150
0021
1005
0024
1163
0035
5216
0011
5213
0257
1163
0258
Pos No.
5216
0026
0062
1115
1004
0004
1108
0062
0004
1004
1163
1108
1005
0257
0258
5216
0011
5213
0035
0026
1115
1027
1150
0270/0269
8191
8G50
8G51
1085/1185
Description
Main switch + bracket with cable
Front Cabinet
Display panel
Ambilight module
Keyboard touch control assy
Power Supply Unit
Stand neck
Stand base
Tweeter
Back Cover
Loudspeaker box
Swivel Bracket
Wifi Bracket
Wifi module
Temperature Sensor
Board SSB
3D Glasses
Mainscord 1.8m
Cable LVDS FFC
Cable LVDS FFC
Remote Control
Remarks
Not Displayed/Optional
Not Displayed/Optional
Not Displayed
Not Displayed
Not Displayed
Not Displayed
Not Displayed
Not Displayed
19100_821_110505.eps
110708
2012-Mar-16 back to
div. table
�
