NOKIA 6230 instrukcja obsługi ENGLISH Producent: NOKIA Model: 6230 Jezyk: ENGLISH
CCS Technical Documentation
RH-12/RH-28 Series Transceivers
2 - Parts Lists and Component
Layout
Issue 1 02/04
Nokia Corporation
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
[This page left intentionally blank]
Page 2
Nokia Corporation
Issue 1 02/04
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
Table of Contents
Page No
Exploded View of Nokia 6230/6320b, RH-12/RH-28 .................................................. 5
Mechanical Parts ..........................................................................................................6
Variant Parts ...............................................................................................................8
Swap Units ...................................................................................................................9
EZ4Z module parts - RH-12 ......................................................................................10
EZ4Z BOM II module parts - RH-28 ........................................................................24
Component layout (top side) .....................................................................................25
Component layout (bottom side) ...............................................................................25
Issue 1 02/04
Nokia Corporation
Page 3
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
[This page left intentionally blank]
Page 4
Nokia Corporation
Issue 1 02/04
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
Exploded View of Nokia 6230/6320b, RH-12/RH-28
For the individual parts, refer to the next page.
Issue 1 02/04
Nokia Corporation
Page 5
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
Mechanical Parts
ITEM/
CIRCUIT REF.
QTY
PART NO
PART NAME
1
XXXXXXX
A-COVER ASSY
I001
1
-
A-COVER
I002
1
-
LOGO
I003
1
XXXXXXX
TOP DECORATION
I004
1
XXXXXXX
KEYMAT
I005
6
6150121
SCREWS 1.8X7.4 T6 PLUS
1
0275784
UI-BOARD ASSY
(ONLY FOR RH-12)
0275785
UI-BOARD ASSY
(ONLY FOR RH-28)
I006
1
-
UI-BOARD
I007
1
-
DOMESHEET
1
9491820
C-COVER ASSY
I008
1
-
C-COVER
I009
1
-
BB A-SHIELD INCL. GASKET
I010
1
-
EARPICE
I011
1
9511167
METAL FRAME
I012
1
4850339
LCD
I013
1
-
ENGINE MODULE
I014
1
4858009
VGA CAMERA
I015
1
6800057
VIBRA MOTOR
I016
1
5140265
MICROPHONE
I017
1
5400243
DC-JACK
I018
1
9790886
VOLUME KEY
I019
1
5200063
POWER KEY
I020
1
9453545
IRDA WINDOW
1
9491812
D-COVER ASSY
I021
2
-
IHF PIN
I022
1
-
MMC SPRING
I023
1
-
SIM LID
Page 6
Nokia Corporation
Issue 1 02/04
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
I024
1
-
D-COVER
I025
1
-
RELEASE SPRING
I026
1
5140253
IHF SPEAKER
I027
1
9371068
TYPE LABEL
9370997
TYPE LABEL
0660308
ANTENNA ASSY
(ONLY FOR RH-12)
0660307
ANTENNA ASSY
(ONLY FOR RH-28)
1
(Americas)
I028
1
-
ANTENNA
I029
1
-
ANTENNA POGO PINS
XXXXXXX
B-COVER ASSY
I030
1
-
B-COVER
I031
1
-
CAMERA WINDOW
I032
1
-
RELEASE KEY
Issue 1 02/04
Nokia Corporation
Page 7
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
Variant Parts
ITEM/
CIRCUIT
REF.
QTY
PART NO
PART NAME
I001
1
9458914
A-COVER GRAPHITE / MOCCA
EMEA, AMERICAS
I001
1
9492096
A-COVER PEARL WHITE / SILVER
EMEA, AMERICAS
I001
1
9492098
A-COVER GRAPHITE / SILVER
AMERICAS, APAC
I001
1
9492097
A-COVER TIN GRAY / SILVER
APAC
I002
1
9459984
TOP DECORATION SILVER
I002
1
9452973
TOP DECORATION GRAY MOCCA
I004
1
9790890
KEYMAT GRAY MOCCA LATIN
I004
1
9791330
KEYMAT GRAY MOCCA LATIN-US
I004
1
9791543
KEYMAT SILVER LATIN
I004
1
9791550
KEYMAT SILVER LATIN-US
I004
1
9791278
KEYMAT GRAY MOCCA RUSSIAN
I004
1
9791546
KEYMAT SILVER RUSSIAN
I004
1
9791275
KEYMAT GRAY MOCCA HEBREW
I004
1
9791544
KEYMAT SILVER HEBREW
I004
1
9791276
KEYMAT GRAY MOCCA ARABIC
I004
1
9791542
KEYMAT SILVER ARABIC
I004
1
9791277
KEYMAT GRAY MOCCA GREEK
I004
1
9791545
KEYMAT SILVER GREEK
I004
1
9791549
KEYMAT SILVER BOPOMOFO
I004
1
9791547
KEYMAT SILVER STORKE
I004
1
9791548
KEYMAT SILVER THAI
1
9452978
B-COVER ASSY GRAPHITE
EMEA, AMERICAS,
APAC
1
9491667
B-COVER ASSY PEARL WHITE
EMEA, AMERICAS
1
9491837
B-COVER ASSY TIN GREY
APAC
Page 8
Nokia Corporation
REGION
Issue 1 02/04
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
Swap Units
QTY
PART NAME
0059226
RH-12 N6230 SWAP UNIT EURO-A
0051180
RH-12 N6230 SWAP UNIT EUROPE & AFRICA
0051181
RH-12 N6230 SWAP UNIT FRANCE
0051182
RH-12 N6230 SWAP UNIT TURKEY
0051183
RH-12 N6230 SWAP UNIT POLAND
0051184
RH-12 N6230 SWAP UNIT SOUTH AFRICA
0051185
RH-12 N6230 SWAP UNIT CZECH/SLOVAKIA
0051186
RH-12 N6230 SWAP UNIT RUSSIA
0051187
Issue 1 02/04
PART NO
RH-12 N6230 SWAP UNIT UKRAINE
Nokia Corporation
Page 9
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
EZ4Z module parts - RH-12
Item
Code
Side
XY
Description and value
A100
9511187
Top
C5
PA SHIELD ASSY DMC05946 HDE12
Shield Assembly
A101
9511200
Top
J4
RF SHIELD ASSY DMC05948 HDE12
Shield Assembly
A102
9511181
Top
O6
BB-B SHIELD ASSY DMC05950 HDE12
Shield Assembly
A103
9511186
Top
I7
VCO-SHIELD DMD10246 HDE12
Shield
B200
4510219
Bot
S4
CRYSTAL 32.768KHZ+-30PPM 9PF
Crystal
C100
2320546
Top
F3
CHIPCAP NP0 27P J 50V 0402
Ceramic Capacitor
C101
2320744
Top
K9
CHIPCAP X7R 1N0 K 50V 0402
Ceramic Capacitor
C103
2320546
Bot
T7
CHIPCAP NP0 27P J 50V 0402
Ceramic Capacitor
C104
2320544
Top
F3
CHIPCAP NP0 22P J 50V 0402
Ceramic Capacitor
C105
2320778
Top
Q5
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C106
2321013
Top
Q5
CHIPCAP NP0 270P J 50V 0402
Ceramic Capacitor
C108
2320805
Bot
S6
CHIPCAP X5R 100N K 10V 0402
Ceramic Capacitor
C109
2315269
Top
P5
CHIP ARRAY X5R 2X1U K 6V3 0405
Ceramic Capacitor
C110
2320536
Bot
T5
CHIPCAP NP0 10P J 50V 0402
Ceramic Capacitor
C111
2320536
Bot
T4
CHIPCAP NP0 10P J 50V 0402
Ceramic Capacitor
C112
2320536
Bot
T5
CHIPCAP NP0 10P J 50V 0402
Ceramic Capacitor
C113
2320536
Bot
T5
CHIPCAP NP0 10P J 50V 0402
Ceramic Capacitor
C120
2320481
Top
H5
CHIPCAP X5R 1U K 6V3 0603
Ceramic Capacitor
C121
2318015
Bot
T6
CHIPCAP FEEDTHRU 100N M 25V 0805
Ceramic Capacitor
C130
2320540
Top
N8
CHIPCAP NP0 15P J 50V 0402
Ceramic Capacitor
C131
2320518
Top
N8
CHIPCAP NP0 1P8 C 50V 0402
Ceramic Capacitor
C132
2320518
Top
N8
CHIPCAP NP0 1P8 C 50V 0402
Ceramic Capacitor
C133
2320560
Top
L6
CHIPCAP NP0 100P J 50V 0402
Ceramic Capacitor
C134
2320520
Top
M7
CHIPCAP NP0 2P2 C 50V 0402
Ceramic Capacitor
C135
2320778
Top
M7
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C136
2320778
Top
M7
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C137
2320602
Top
N8
CHIPCAP NP0 4P7 C 50V 0402
Ceramic Capacitor
C138
2320778
Top
M7
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C139
2316001
Top
O7
CHIPCAP X5R 2U2 K 6V3 0603
Ceramic Capacitor
C140
2320778
Top
O7
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
Page 10
Nokia Corporation
Issue 1 02/04
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
Item
Code
Side
XY
Description and value
C141
2320540
Top
O8
CHIPCAP NP0 15P J 50V 0402
Ceramic Capacitor
C142
2320125
Top
O7
CHIPCAP X5R 1U K 16V 0603
Ceramic Capacitor
C143
2320778
Top
O7
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C144
2320125
Top
O7
CHIPCAP X5R 1U K 16V 0603
Ceramic Capacitor
C151
2320805
Bot
S5
CHIPCAP X5R 100N K 10V
Ceramic Capacitor
C157
2320744
Bot
S5
CHIPCAP X7R 1N0 K 50V 0402
Ceramic Capacitor
C158
2320805
Bot
S5
CHIPCAP X5R 100N K 10V
Ceramic Capacitor
C159
2315213
Top
Q4
CHIP ARRAY NP0 2X22P K 25V 0405
Ceramic Capacitor
C162
2315213
Top
E5
CHIP ARRAY NP0 2X22P K 25V 0405
Ceramic Capacitor
C165
2320556
Bot
S6
CHIPCAP NP0 68P J 50V 0402
Ceramic Capacitor
C166
2320783
Bot
R6
CHIPCAP X7R 33N K 10V 0402
Ceramic Capacitor
C167
2320783
Bot
R5
CHIPCAP X7R 33N K 10V 0402
Ceramic Capacitor
C168
2320744
Bot
R6
CHIPCAP X7R 1N0 K 50V 0402
Ceramic Capacitor
C169
2320744
Bot
R6
CHIPCAP X7R 1N0 K 50V 0402
Ceramic Capacitor
C170
2320783
Bot
R5
CHIPCAP X7R 33N K 10V 0402
Ceramic Capacitor
C171
2320783
Bot
R5
CHIPCAP X7R 33N K 10V 0402
Ceramic Capacitor
C172
2320560
Top
H5
CHIPCAP NP0 100P J 50V
0402
Ceramic Capacitor
C173
2320137
Top
G6
CHIPCAP X5R 470N K 10V
0603
Ceramic Capacitor
C174
2315201
Top
H7
CHIP ARRAY NP0 2X27P K 25V 0405
Other Capacitor
C175
2315261
Top
H7
CHIP ARRAY X5R 2X47N K 10V 0405
Other Capacitor
C176
2315201
Top
Q4
CHIP ARRAY NP0 2X27P K 25V 0405
Other Capacitor
C177
2320560
Top
G6
CHIPCAP NP0 100P J 50V
0402
Ceramic Capacitor
C200
2320805
Bot
S3
CHIPCAP X5R 100N K 10V
0402
Ceramic Capacitor
C202
2320778
Bot
S4
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C209
2320536
Bot
S3
CHIPCAP NP0 10P J 50V 0402
Ceramic Capacitor
C210
2320536
Bot
S5
CHIPCAP NP0 10P J 50V 0402
Ceramic Capacitor
C218
2320805
Bot
P4
CHIPCAP X5R 100N K 10V
Ceramic Capacitor
C220
2320778
Bot
P4
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C236
2320805
Bot
P3
CHIPCAP X5R 100N K 10V
0402
Ceramic Capacitor
C237
2320805
Bot
P3
CHIPCAP X5R 100N K 10V
0402
Ceramic Capacitor
C238
2320805
Bot
S3
CHIPCAP X5R 100N K 10V
0402
Ceramic Capacitor
C239
2320805
Bot
P5
CHIPCAP X5R 100N K 10V
0402
Ceramic Capacitor
Issue 1 02/04
Nokia Corporation
0402
0402
0402
Page 11
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
Item
Code
Side
XY
Description and value
C240
2320778
Bot
P5
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C241
2320744
Bot
S5
CHIPCAP X7R 1N0 K 50V 0402
Ceramic Capacitor
C245
2320778
Bot
Q5
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C260
2315269
Bot
Q2
CHIP ARRAY X5R 2X1U K 6V3
0405
Ceramic Capacitor
C261
2315269
Bot
P6
CHIP ARRAY X5R 2X1U K 6V3
0405
Ceramic Capacitor
C262
2315269
Bot
R2
CHIP ARRAY X5R 2X1U K 6V3
0405
Ceramic Capacitor
C270
2318013
Top
O5
CHIPCAP X5R 10U M 6V3 T 1.0 0805
Ceramic Capacitor
C271
2318013
Top
O5
CHIPCAP X5R 10U M 6V3 T 1.0 0805
Ceramic Capacitor
C272
2318013
Top
O6
CHIPCAP X5R 10U M 6V3 T 1.0 0805
Ceramic Capacitor
C282
2315269
Bot
S4
CHIP ARRAY X5R 2X1U K 6V3
0405
Ceramic Capacitor
C283
2315269
Bot
Q6
CHIP ARRAY X5R 2X1U K 6V3
0405
Ceramic Capacitor
C284
2315269
Bot
Q6
CHIP ARRAY X5R 2X1U K 6V3
0405
Ceramic Capacitor
C285
2315269
Bot
Q5
CHIP ARRAY X5R 2X1U K 6V3
0405
Ceramic Capacitor
C286
2315269
Bot
S5
CHIP ARRAY X5R 2X1U K 6V3
0405
Ceramic Capacitor
C287
2315269
Bot
S4
CHIP ARRAY X5R 2X1U K 6V3
0405
Ceramic Capacitor
C288
2315269
Bot
S5
CHIP ARRAY X5R 2X1U K 6V3
0405
Ceramic Capacitor
C289
2315269
Bot
S4
CHIP ARRAY X5R 2X1U K 6V3
0405
Ceramic Capacitor
C290
2320125
Bot
S3
CHIPCAP X5R 1U K 16V 0603
C291
2315269
Bot
R3
CHIP ARRAY X5R 2X1U K 6V3
0405
Ceramic Capacitor
C292
2315269
Bot
P3
CHIP ARRAY X5R 2X1U K 6V3
0405
Ceramic Capacitor
C293
2315269
Bot
Q3
CHIP ARRAY X5R 2X1U K 6V3
0405
Ceramic Capacitor
C294
2315269
Bot
Q3
CHIP ARRAY X5R 2X1U K 6V3
0405
Ceramic Capacitor
C295
2315269
Bot
R3
CHIP ARRAY X5R 2X1U K 6V3
0405
Ceramic Capacitor
C296
2315269
Bot
R3
CHIP ARRAY X5R 2X1U K 6V3
0405
Ceramic Capacitor
C297
2315269
Bot
S3
CHIP ARRAY X5R 2X1U K 6V3
0405
Ceramic Capacitor
C298
2320481
Bot
S3
CHIPCAP X5R 1U K 6V3
0603
Ceramic Capacitor
C299
2320481
Bot
S3
CHIPCAP X5R 1U K 6V3
0603
Ceramic Capacitor
C300
2320778
Top
R5
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C301
2320546
Top
C8
CHIPCAP NP0 27P J 50V 0402
Ceramic Capacitor
C302
2320778
Top
B6
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C304
2320125
Top
M5
CHIPCAP X5R 1U K 16V 0603
Ceramic Capacitor
C305
2320481
Top
M5
CHIPCAP X5R 1U K 6V3
Ceramic Capacitor
Page 12
Nokia Corporation
0603
Ceramic Capacitor
Issue 1 02/04
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
Item
Code
Side
XY
Description and value
C306
2320540
Top
C8
CHIPCAP NP0 15P J 50V 0402
Ceramic Capacitor
C307
2320540
Top
E8
CHIPCAP NP0 15P J 50V 0402
Ceramic Capacitor
C308
2320546
Top
M6
CHIPCAP NP0 27P J 50V 0402
Ceramic Capacitor
C309
2320805
Top
M5
CHIPCAP X5R 100N K 10V
Ceramic Capacitor
C310
2320546
Top
M6
CHIPCAP NP0 27P J 50V 0402
Ceramic Capacitor
C311
2320805
Top
L6
CHIPCAP X5R 100N K 10V
0402
Ceramic Capacitor
C312
2320805
Bot
N7
CHIPCAP X5R 100N K 10V
0402
Ceramic Capacitor
C313
2320546
Bot
M7
CHIPCAP NP0 27P J 50V 0402
Ceramic Capacitor
C321
2315213
Top
M5
CHIP ARRAY NP0 2X22P K 25V 0405
Ceramic Capacitor
C322
2315213
Top
M4
CHIP ARRAY NP0 2X22P K 25V 0405
Ceramic Capacitor
C323
2315213
Top
M4
CHIP ARRAY NP0 2X22P K 25V 0405
Ceramic Capacitor
C324
2315213
Top
M4
CHIP ARRAY NP0 2X22P K 25V 0405
Ceramic Capacitor
C325
2320546
Top
M4
CHIPCAP NP0 27P J 50V 0402
Ceramic Capacitor
C326
2315213
Bot
N7
CHIP ARRAY NP0 2X22P K 25V 0405
Ceramic Capacitor
C327
2315213
Bot
M8
CHIP ARRAY NP0 2X22P K 25V 0405
Ceramic Capacitor
C350
2320505
Top
F2
CHIPCAP X5R 4U7 K 6.3V
Ceramic Capacitor
C351
2320544
Top
G2
CHIPCAP NP0 22P J 50V 0402
Ceramic Capacitor
C352
2320805
Top
G2
CHIPCAP X5R 100N K 10V
0402
Ceramic Capacitor
C353
2320805
Top
G2
CHIPCAP X5R 100N K 10V
0402
Ceramic Capacitor
C357
2320620
Top
P8
CHIPCAP X7R 10N J 16V 0402
Ceramic Capacitor
C358
2320785
Top
P8
CHIPCAP X7R 47N K 10V 0402
Ceramic Capacitor
C359
2321007
Top
P6
CHIPCAP X7R 22N K 16V
Ceramic Capacitor
C361
2320744
Top
R7
CHIPCAP X7R 1N0 K 50V 0402
Ceramic Capacitor
C362
2321007
Top
P7
CHIPCAP X7R 22N K 16V
Ceramic Capacitor
C363
2315261
Top
R8
CHIP ARRAY X5R 2X47N K 10V 0405
Other Capacitor
C364
2321007
Top
Q6
CHIPCAP X7R 22N K 16V
Ceramic Capacitor
C365
2315209
Top
R8
CHIP ARRAY X5R 2X33N M 10V 0405
Other Capacitor
C366
2320785
Top
R8
CHIPCAP X7R 47N K 10V 0402
Ceramic Capacitor
C367
2320560
Top
Q8
CHIPCAP NP0 100P J 50V
Ceramic Capacitor
C370
2320760
Top
P8
CHIPCAP X7R 4N7 K 25V 0402
Ceramic Capacitor
C371
2321007
Top
Q8
CHIPCAP X7R 22N K 16V
Ceramic Capacitor
C372
2320481
Top
Q8
CHIPCAP X5R 1U K 6V3
Issue 1 02/04
Nokia Corporation
0402
0603
0402
0402
0402
0402
0402
0603
Ceramic Capacitor
Page 13
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
Item
Code
Side
XY
Description and value
C373
2321007
Top
R6
CHIPCAP X7R 22N K 16V
C374
2320744
Top
Q6
CHIPCAP X7R 1N0 K 50V 0402
Ceramic Capacitor
C375
2320752
Top
Q6
CHIPCAP X7R 2N2 K 50V 0402
Ceramic Capacitor
C378
2320546
Top
Q8
CHIPCAP NP0 27P J 50V 0402
Ceramic Capacitor
C379
2320552
Top
P8
CHIPCAP NP0 47P J 50V 0402
Ceramic Capacitor
C380
2320805
Top
R7
CHIPCAP X5R 100N K 10V
0402
Ceramic Capacitor
C382
2320805
Top
R7
CHIPCAP X5R 100N K 10V
0402
Ceramic Capacitor
C384
2320805
Top
R7
CHIPCAP X5R 100N K 10V
0402
Ceramic Capacitor
C385
2320805
Top
R7
CHIPCAP X5R 100N K 10V
0402
Ceramic Capacitor
C390
2320805
Top
K7
CHIPCAP X5R 100N K 10V
0402
Ceramic Capacitor
C401
2320778
Bot
N2
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C402
2320778
Bot
M2
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C403
2320778
Bot
M4
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C404
2320778
Bot
P6
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C405
2320778
Bot
N2
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C406
2320778
Bot
N2
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C407
2320778
Bot
M2
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C408
2320778
Bot
M4
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C409
2320778
Bot
M4
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C410
2320481
Top
N5
CHIPCAP X5R 1U K 6V3
0603
Ceramic Capacitor
C411
2320744
Top
N5
CHIPCAP X7R 1N0 K 50V 0402
Ceramic Capacitor
C412
2320744
Bot
O2
CHIPCAP X7R 1N0 K 50V 0402
Ceramic Capacitor
C413
2320744
Bot
O2
CHIPCAP X7R 1N0 K 50V 0402
Ceramic Capacitor
C421
2320560
Bot
P2
CHIPCAP NP0 100P J 50V
0402
Ceramic Capacitor
C422
2320560
Bot
N2
CHIPCAP NP0 100P J 50V
0402
Ceramic Capacitor
C450
2320778
Bot
O7
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C451
2320805
Bot
O8
CHIPCAP X5R 100N K 10V
0402
Ceramic Capacitor
C454
2320779
Bot
O8
CHIPCAP X7R 100N K 16V
0603
Ceramic Capacitor
C455
2320778
Bot
Q6
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C456
2320805
Bot
R6
CHIPCAP X5R 100N K 10V
0402
Ceramic Capacitor
C459
2320779
Bot
Q8
CHIPCAP X7R 100N K 16V
0603
Ceramic Capacitor
C463
2320143
Bot
O7
CHIPCAP X5R 220N K 6.3V
0402
Ceramic Capacitor
Page 14
Nokia Corporation
0402
Ceramic Capacitor
Issue 1 02/04
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
Item
Code
Side
XY
Description and value
C464
2320143
Bot
M7
CHIPCAP X5R 220N K 6.3V
C465
2320778
Bot
M6
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C466
2320778
Bot
O8
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C500
2320598
Top
L4
CHIPCAP X7R 3N9 J 50V 0402
Ceramic Capacitor
C501
2320744
Top
I8
CHIPCAP X7R 1N0 K 50V 0402
Ceramic Capacitor
C502
2320584
Top
K3
CHIPCAP X7R 1N0 J 50V 0402
Ceramic Capacitor
C503
2320564
Top
I6
CHIPCAP NP0 150P J 50V
Ceramic Capacitor
C504
2322023
Top
I6
CHIPCAP NP0 2N2 J 16V 0603
Ceramic Capacitor
C505
2321013
Top
K5
CHIPCAP NP0 270P J 50V
Ceramic Capacitor
C506
2320526
Top
I3
CHIPCAP NP0 3P9 C 50V 0402
Ceramic Capacitor
C508
2320633
Top
I2
CHIPCAP NP0 220P J 25V
0402
Ceramic Capacitor
C511
2320560
Top
C7
CHIPCAP NP0 100P J 50V
0402
Ceramic Capacitor
C512
2320592
Top
H5
CHIPCAP X7R 2N2 J 50V
0402
Ceramic Capacitor
C513
2322023
Top
J2
CHIPCAP NP0 2N2 J 16V 0603
Ceramic Capacitor
C514
2320560
Top
K5
CHIPCAP NP0 100P J 50V
Ceramic Capacitor
C515
2320538
Top
L4
CHIPCAP NP0 12P J 50V 0402
Ceramic Capacitor
C520
2320554
Top
K4
CHIPCAP NP0 56P J 50V 0402
Ceramic Capacitor
C522
2320604
Top
K2
CHIPCAP NP0 18P J 50V 0402
Ceramic Capacitor
C531
2320546
Top
B4
CHIPCAP NP0 27P J 50V 0402
Ceramic Capacitor
C532
2320604
Top
I3
CHIPCAP NP0 18P J 50V 0402
Ceramic Capacitor
C533
2320554
Top
J2
CHIPCAP NP0 56P J 50V 0402
Ceramic Capacitor
C535
2320552
Top
K5
CHIPCAP NP0 47P J 50V 0402
Ceramic Capacitor
C536
2320552
Top
K5
CHIPCAP NP0 47P J 50V 0402
Ceramic Capacitor
C537
2320560
Top
K5
CHIPCAP NP0 100P J 50V
0402
Ceramic Capacitor
C540
2320805
Top
L3
CHIPCAP X5R 100N K 10V
0402
Ceramic Capacitor
C543
2320558
Top
I5
CHIPCAP NP0 82P J 50V 0402
Ceramic Capacitor
C545
2315017
Top
H5
CHIP ARRAY NP0 4X470P J 16V 0612
Ceramic Capacitor
C549
2320805
Top
I5
CHIPCAP X5R 100N K 10V
0402
Ceramic Capacitor
C550
2320560
Top
K3
CHIPCAP NP0 100P J 50V
0402
Ceramic Capacitor
C551
2320546
Top
K5
CHIPCAP NP0 27P J 50V 0402
Ceramic Capacitor
C552
2320805
Top
J5
CHIPCAP X5R 100N K 10V
0402
Ceramic Capacitor
C553
2320805
Top
J5
CHIPCAP X5R 100N K 10V
0402
Ceramic Capacitor
Issue 1 02/04
Nokia Corporation
0402
0402
0402
0402
Ceramic Capacitor
Page 15
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
Item
Code
Side
XY
Description and value
C554
2320778
Top
J3
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C555
2320805
Top
I5
CHIPCAP X5R 100N K 10V
Ceramic Capacitor
C560
2320536
Top
I8
CHIPCAP NP0 10P J 50V 0402
Ceramic Capacitor
C568
2320923
Top
K4
CHIPCAP NP0 HQ 0P7 B 16V 0402
Ceramic Capacitor
C700
2320744
Top
E4
CHIPCAP X7R 1N0 K 50V 0402
Ceramic Capacitor
C701
2320744
Top
B4
CHIPCAP X7R 1N0 K 50V 0402
Ceramic Capacitor
C702
2320744
Top
B5
CHIPCAP X7R 1N0 K 50V 0402
Ceramic Capacitor
C703
2320620
Top
C3
CHIPCAP X7R 10N J 16V 0402
Ceramic Capacitor
C704
2320620
Top
D3
CHIPCAP X7R 10N J 16V 0402
Ceramic Capacitor
C705
2320546
Top
J3
CHIPCAP NP0 27P J 50V 0402
Ceramic Capacitor
C706
2320546
Top
J3
CHIPCAP NP0 27P J 50V 0402
Ceramic Capacitor
C707
2320518
Top
C2
CHIPCAP NP0 1P8 C 50V 0402
Ceramic Capacitor
C709
2320540
Top
J3
CHIPCAP NP0 15P J 50V 0402
Ceramic Capacitor
C710
2320540
Top
J3
CHIPCAP NP0 15P J 50V 0402
Ceramic Capacitor
C718
2320744
Top
B4
CHIPCAP X7R 1N0 K 50V 0402
Ceramic Capacitor
C723
2320540
Top
C3
CHIPCAP NP0 15P J 50V 0402
Ceramic Capacitor
C725
2312243
Top
D6
CHIPCAP X5R 4U7 K 6V3 0805
Ceramic Capacitor
C726
2320546
Top
D6
CHIPCAP NP0 27P J 50V 0402
Ceramic Capacitor
C727
2611755
Top
F5
CHIPTCAP 68U M 16V
Electrolytic Capacitor
C728
2320560
Top
D5
CHIPCAP NP0 100P J 50V
C729
2320554
Top
C5
CHIPCAP NP0 56P J 50V 0402
Ceramic Capacitor
C804
2320540
Top
B7
CHIPCAP NP0 15P J 50V 0402
Ceramic Capacitor
C805
2320546
Top
B6
CHIPCAP NP0 27P J 50V 0402
Ceramic Capacitor
C806
2320540
Top
B7
CHIPCAP NP0 15P J 50V 0402
Ceramic Capacitor
C807
2320560
Top
I3
CHIPCAP NP0 100P J 50V
0402
Ceramic Capacitor
C808
2320560
Top
I3
CHIPCAP NP0 100P J 50V
0402
Ceramic Capacitor
C809
2320508
Top
D7
CHIPCAP NP0 1P0 C 50V 0402
Ceramic Capacitor
C810
2320524
Top
D7
CHIPCAP NP0 3P3 C 50V 0402
Ceramic Capacitor
C826
2320520
Top
C8
CHIPCAP NP0 2P2 C 50V 0402
Ceramic Capacitor
C827
2320805
Top
B8
CHIPCAP X5R 100N K 10V
Ceramic Capacitor
C828
2320540
Top
B8
CHIPCAP NP0 15P J 50V 0402
Ceramic Capacitor
C829
2320514
Top
B7
CHIPCAP NP0 1P2 C 50V 0402
Ceramic Capacitor
Page 16
Nokia Corporation
0402
6.0X3.2X2.6
0402
0402
Ceramic Capacitor
Issue 1 02/04
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
Item
Code
Side
XY
Description and value
C831
2320552
Top
B6
CHIPCAP NP0 47P J 50V 0402
Ceramic Capacitor
C900
2320805
Top
G8
CHIPCAP X5R 100N K 10V
Ceramic Capacitor
C901
2320546
Top
G7
CHIPCAP NP0 27P J 50V 0402
Ceramic Capacitor
C902
2320805
Top
G7
CHIPCAP X5R 100N K 10V
Ceramic Capacitor
C903
2320546
Top
G7
CHIPCAP NP0 27P J 50V 0402
Ceramic Capacitor
C904
2320778
Top
G7
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C905
2320536
Bot
P4
CHIPCAP NP0 10P J 50V 0402
Ceramic Capacitor
C910
2320805
Top
P4
CHIPCAP X5R 100N K 10V
Ceramic Capacitor
C911
2320481
Top
P4
CHIPCAP X5R 1U K 6V3
0603
Ceramic Capacitor
C912
2320778
Top
O3
CHIPCAP X7R 10N K 16V 0402
Ceramic Capacitor
C913
2312201
Top
P4
CHIPCAP X5R 4U7 K 6V3 T-EQUAL-0.95 0805
Ceramic Capacitor
D130
4341583
Top
M7
1XINV 1.8-5.5V SC70-5
Logic IC
D400
4375107
Bot
O4
TIKUEDGE1.1 F751728A C035 288UBGA
Digital ASIC
D450
4347041
Bot
P7
FLASH 8MX16 1.8/1.8V FBGA44
Combo Memory
D451
4347157
Bot
R7
COMBO ADAPTER + 64M NAND TBGA44
Combo Memory
D455
4347039
Bot
N6
SDRAM 4MX16 1.8V/1.8V WBGA60
DRAM Memory
F100
5119025
Bot
T7
SM FUSE FF 1.5A 32V
Fuse And Protector
G300
4700141
Top
K8
CELL CAPACITOR 0.015MAH 3V3
Battery And Battery
Cell
G500
4350443
Top
I7
VCO 3296-3980MHZ 2.7V 20MA EDGE
VCO
G501
4520015
Top
K4
VCTCXO 26MHZ+-2PPM 2.7V GSM
VCTCXO
L102
3203755
Bot
S5
FERRITE BEAD 0.6R 600R/100MZ 0402
EMC Component
L103
3645011
Bot
T5
CHIP COIL 68NH J Q12/100MHZ 0603
Fixed Inductor
L104
3203741
Bot
T6
FERRITE BEAD 0R5 600R/100MHZ 0603
EMC Component
L105
3203741
Bot
T5
FERRITE BEAD 0R5 600R/100MHZ 0603
EMC Component
L130
3646063
Top
N8
CHIP COIL 22N J Q28/800MHZ 0402
Fixed Inductor
L131
3646047
Top
N8
CHIP COIL 3N3 +-0N3 Q28/800M 0402
Fixed Inductor
L132
3646047
Top
N8
CHIP COIL 3N3 +-0N3 Q28/800M 0402
Fixed Inductor
L133
3646063
Top
M7
CHIP COIL 22N J Q28/800MHZ 0402
Fixed Inductor
L134
3646063
Top
M7
CHIP COIL 22N J Q28/800MHZ 0402
Fixed Inductor
L150
3203801
Top
A7
CHIP BEAD ARRAY 2X1000R
EMC Component
L151
3203755
Bot
S6
FERRITE BEAD 0.6R 600R/100MZ 0402
EMC Component
L152
3203801
Top
R4
CHIP BEAD ARRAY 2X1000R
EMC Component
Issue 1 02/04
0402
0402
0402
0402
Nokia Corporation
0405
0405
Page 17
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
Item
Code
Side
XY
Description and value
L153
3203801
Bot
T4
CHIP BEAD ARRAY 2X1000R
0405
EMC Component
L154
3203801
Bot
T3
CHIP BEAD ARRAY 2X1000R
0405
EMC Component
L155
3648903
Top
E4
CHIP COIL 30nH J Q65/500MHz 0805
Fixed Inductor
L156
3648903
Top
F4
CHIP COIL 30nH J Q65/500MHz 0805
Fixed Inductor
L206
3203727
Bot
Q6
FERRITE BEAD 0R3 47R/100MHZ 0603
EMC Component
L260
3203741
Bot
Q2
FERRITE BEAD 0R5 600R/100MHZ 0603
EMC Component
L261
3203741
Bot
P6
FERRITE BEAD 0R5 600R/100MHZ 0603
EMC Component
L262
3203741
Bot
R2
FERRITE BEAD 0R5 600R/100MHZ 0603
EMC Component
L263
3203741
Bot
S2
FERRITE BEAD 0R5 600R/100MHZ 0603
EMC Component
L264
3203741
Bot
Q2
FERRITE BEAD 0R5 600R/100MHZ 0603
EMC Component
L265
3203741
Bot
Q6
FERRITE BEAD 0R5 600R/100MHZ 0603
EMC Component
L270
3648905
Top
O5
CHOKE 10U 0R33 0.69A 4.6X4.6X1.2
Fixed Inductor
L300
3203755
Top
Q5
FERRITE BEAD 0.6R 600R/100MZ 0402
EMC Component
L301
3203755
Top
M6
FERRITE BEAD 0.6R 600R/100MZ 0402
EMC Component
L302
3203755
Top
M6
FERRITE BEAD 0.6R 600R/100MZ 0402
EMC Component
L303
3640161
Top
N6
CHOKE 22U M 0.33A 1R5 3.3X3.3X1.3
Fixed Inductor
L309
3203755
Bot
M7
FERRITE BEAD 0.6R 600R/100MZ 0402
EMC Component
L356
3645373
Top
P7
CHIP COIL 33N G Q40/250MHZ 0603
Fixed Inductor
L357
3645373
Top
P7
CHIP COIL 33N G Q40/250MHZ 0603
Fixed Inductor
L358
3645233
Top
Q8
CHIP COIL 120N G Q32/150MHZ 0603
Fixed Inductor
L500
3646221
Top
K4
CHIP COIL 4N7 +-0N3 Q7/100M 0402
Fixed Inductor
L501
3646221
Top
K4
CHIP COIL 4N7 +-0N3 Q7/100M 0402
Fixed Inductor
L502
3646237
Top
I8
CHIP COIL 18N J Q7/100MHZ
Fixed Inductor
L504
3203755
Top
J5
FERRITE BEAD 0.6R 600R/100MZ 0402
EMC Component
L515
3645345
Top
L5
CHIP COIL 4U7 K Q35/10MHZ
0603
Fixed Inductor
L700
3646243
Top
J3
CHIP COIL 33N J Q7/100MHZ
0402
Fixed Inductor
L701
3646239
Top
C2
CHIP COIL 22N J Q7/100MHZ
0402
Fixed Inductor
L703
3203743
Top
D6
FERR.BEAD 0R03 42R/100MHZ 3A 0805
EMC Component
L800
3646215
Top
B7
CHIP COIL 3N3 +-0N3 Q6/100M 0402
Fixed Inductor
L804
3646119
Top
D7
CHIP COIL 6N8 +-0N1 Q26/1GHZ 0402
Fixed Inductor
L805
3646227
Top
I3
CHIP COIL 8N2 J Q7/100MHZ
0402
Fixed Inductor
L806
3646237
Top
I4
CHIP COIL 18N J Q7/100MHZ
0402
Fixed Inductor
Page 18
Nokia Corporation
0402
Issue 1 02/04
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
Item
Code
Side
XY
Description and value
L807
3646237
Top
I4
CHIP COIL 18N J Q7/100MHZ
L822
3646217
Top
I4
CHIP COIL 3N9 +-0N3 Q7/100M 0402
Fixed Inductor
L823
3646217
Top
I3
CHIP COIL 3N9 +-0N3 Q7/100M 0402
Fixed Inductor
L824
3646215
Top
C8
CHIP COIL 3N3 +-0N3 Q6/100M 0402
Fixed Inductor
L900
3203755
Top
G8
FERRITE BEAD 0.6R 600R/100MZ 0402
EMC Component
L901
3203755
Top
G7
FERRITE BEAD 0.6R 600R/100MZ 0402
EMC Component
N100
4370961
Top
Q5
NUT/CP2137 ASIC HBCC16++
RF ASIC
N120
4341705
Top
H5
CURRNT SENS LM3820 USMD10 PB-FREE
Power Management
IC
N130
4370975
Top
N7
BC213143A-17-RK-E4
Mixed Signal ASIC
N131
4341473
Top
O8
REG+MAS9161B2GB06 2.8V 80MA TSOT5
Power Management
IC
N150
4341429
Top
G5
AF AMP 0.4W/2.6V(LM4890ITLX)USMD9
Analog IC
N270
4349869
Top
O5
DC/DC CONV LM2708H-1.57V/1.35V
Power Management
IC
N300
4342981
Top
M5
DC/DC CONV LM3500 / TK65600 USMD8
Power Management
IC
N350
4860183
Top
G2
IRDA CIM-50M5A **** RESERVED ****
LED
N356
4341427
Top
Q7
FM RECEIVER(TEA5767HN) LQFP40
Other IC
N500
4370949
Top
J4
HELGO73A TFC4B TFBGA108
RF ASIC
N700
4359017
Top
C4
PW AMP RF9304 QUAD GSM/EDGE
Power Amplifier
N910
4341561
Top
O4
VREG 2.85/150MA(LP3987-2.85)USMD5
Analog IC
R100
1820039
Top
K9
NTC RES 0W1 47K J B 4050+-3% 0402
Variable Resistor
R101
1430804
Top
R5
CHIPRES 0W06 100K J 0402
Fixed Resistor
R102
1430726
Top
R5
CHIPRES 0W06 100R J 0402
Fixed Resistor
R104
1430812
Top
P5
CHIPRES 0W06 220K J 0402
Fixed Resistor
R105
1430812
Top
Q6
CHIPRES 0W06 220K J 0402
Fixed Resistor
R106
1430714
Bot
T5
CHIPRES 0W06 33R J 0402
Fixed Resistor
R107
4129265
Top
Q5
ASIP EMIF02-USB02F2 ** PB-FREE **
Integrated Discretes
R108
1825133
Bot
T5
CHIP VARISTOR VWM14V VC50V 0402
Variable Resistor
R121
1430762
Top
H4
CHIPRES 0W06 2K2 J 0402
Fixed Resistor
R122
1430762
Top
H4
CHIPRES 0W06 2K2 J 0402
Fixed Resistor
R130
1430778
Top
M7
CHIPRES 0W06 10K J 0402
Fixed Resistor
R131
1430832
Top
M7
CHIPRES 0W06 2K7 J 0402
Fixed Resistor
Issue 1 02/04
Nokia Corporation
0402
Fixed Inductor
Page 19
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
Item
Code
Side
XY
Description and value
R132
1430691
Top
M7
CHIPRES 0W06 2R2 J
0402
Fixed Resistor
R133
1430804
Top
L7
CHIPRES 0W06 100K J 0402
Fixed Resistor
R150
1620035
Bot
Q5
RES NETWORK 0W06 2X10R J 0404
Resistor Network
R153
1430726
Bot
S5
CHIPRES 0W06 100R J 0402
Fixed Resistor
R154
1430762
Bot
S6
CHIPRES 0W06 2K2 J 0402
Fixed Resistor
R156
1430726
Bot
S5
CHIPRES 0W06 100R J 0402
Fixed Resistor
R157
1620105
Bot
S6
RES NETWORK 0W06 2X2K2 J 0404
Resistor Network
R158
1430792
Bot
R5
CHIPRES 0W06 33K J 0402
Fixed Resistor
R159
1620035
Top
Q4
RES NETWORK 0W06 2X10R J 0404
Resistor Network
R160
1620035
Top
Q4
RES NETWORK 0W06 2X10R J 0404
Resistor Network
R161
1825037
Bot
T4
VAR.ARRAY 2X16V 824-915MHZ 0405
Variable Resistor
R162
1620105
Bot
Q6
RES NETWORK 0W06 2X2K2 J 0404
Resistor Network
R163
1825037
Bot
T3
VAR.ARRAY 2X16V 824-915MHZ 0405
Variable Resistor
R164
1620105
Bot
Q5
RES NETWORK 0W06 2X2K2 J 0404
Resistor Network
R165
1430778
Bot
S5
CHIPRES 0W06 10K J 0402
Fixed Resistor
R166
4129253
Bot
R5
ASIP MIC W/ESD RES+CAP+ZDI BGA11
Integrated Discretes
R167
1825037
Top
A7
VAR.ARRAY 2X16V 824-915MHZ 0405
Variable Resistor
R168
1430121
Top
H5
CHIPRES 0W06 22K F 200PPM
Fixed Resistor
R169
1620029
Top
H7
RES NETWORK 0W06 2X4K7 J 0404
Resistor Network
R170
1620033
Top
H7
RES NETWORK 0W06 2X5K6 J 0404
Resistor Network
R171
1430121
Top
G6
CHIPRES 0W06 22K F 200PPM
0402
Fixed Resistor
R200
1419003
Bot
S4
CHIPRES 0W5 0R22 J 200PPM
1210
Fixed Resistor
R202
1430804
Bot
P5
CHIPRES 0W06 100K J 0402
Fixed Resistor
R203
1430804
Bot
P4
CHIPRES 0W06 100K J 0402
Fixed Resistor
R206
1430770
Bot
P4
CHIPRES 0W06 4K7 J 0402
Fixed Resistor
R207
1430770
Bot
P5
CHIPRES 0W06 4K7 J 0402
Fixed Resistor
R300
1430690
Top
R5
CHIPRES JUMPER 0R0
Fixed Resistor
R302
1430778
Top
A6
CHIPRES 0W06 10K J 0402
Fixed Resistor
R303
1430758
Bot
M8
CHIPRES 0W06 1K5 J 0402
Fixed Resistor
R304
1430748
Bot
M8
CHIPRES 0W06 680R J 0402
Fixed Resistor
R305
1825133
Bot
N7
CHIP VARISTOR VWM14V VC50V 0402
Variable Resistor
R306
1430714
Top
M5
CHIPRES 0W06 33R J 0402
Fixed Resistor
Page 20
Nokia Corporation
0402
0402
Issue 1 02/04
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
Item
Code
Side
XY
Description and value
R307
1430804
Top
L6
CHIPRES 0W06 100K J 0402
Fixed Resistor
R308
1430722
Bot
M6
CHIPRES 0W06 68R J 0402
Fixed Resistor
R312
1430690
Bot
M6
CHIPRES JUMPER 0R0
Fixed Resistor
R350
1419009
Top
F2
CHIPRES 0W5 4R7 J 200PPM 1210
Fixed Resistor
R356
1430702
Top
P6
CHIPRES 0W06 12R J 0402
Fixed Resistor
R357
1430792
Top
P7
CHIPRES 0W06 33K J 0402
Fixed Resistor
R358
1430718
Top
P7
CHIPRES 0W06 47R J 0402
Fixed Resistor
R359
1430778
Top
P8
CHIPRES 0W06 10K J 0402
Fixed Resistor
R360
1430804
Top
P8
CHIPRES 0W06 100K J 0402
Fixed Resistor
R362
1430693
Top
Q8
CHIPRES 0W06 5R6 J
0402
Fixed Resistor
R363
1430778
Top
P6
CHIPRES 0W06 10K J 0402
Fixed Resistor
R367
1430264
Top
Q8
CHIPRES 0W06 18K F 100PPM
R369
1430792
Top
Q6
CHIPRES 0W06 33K J 0402
Fixed Resistor
R388
4129071
Top
L8
ASIP SIM INTERFACE ** PB-FREE **
Integrated Discretes
R396
1620103
Top
M3
RES NETWORK 0W06 2X22R J 0404
Resistor Network
R397
1620103
Top
M3
RES NETWORK 0W06 2X22R J 0404
Resistor Network
R398
1825133
Top
M4
CHIP VARISTOR VWM14V VC50V 0402
Variable Resistor
R399
1430726
Top
M4
CHIPRES 0W06 100R J 0402
Fixed Resistor
R402
1430718
Bot
P6
CHIPRES 0W06 47R J 0402
Fixed Resistor
R406
1430778
Bot
O5
CHIPRES 0W06 10K J 0402
Fixed Resistor
R409
1430700
Top
N5
CHIPRES 0W06 10R J
Fixed Resistor
R414
1430690
Bot
O2
CHIPRES JUMPER 0R0
0402
Fixed Resistor
R420
1430726
Bot
N2
CHIPRES 0W06 100R J 0402
Fixed Resistor
R421
1430778
Bot
P3
CHIPRES 0W06 10K J 0402
Fixed Resistor
R422
1430873
Bot
Q3
CHIPRES 0W06 27K F
0402
Fixed Resistor
R450
1430770
Bot
O2
CHIPRES 0W06 4K7 J 0402
Fixed Resistor
R455
1430804
Bot
S6
CHIPRES 0W06 100K J 0402
Fixed Resistor
R460
1430722
Bot
O6
CHIPRES 0W06 68R J 0402
Fixed Resistor
R501
1430754
Top
I6
CHIPRES 0W06 1K0 J 0402
Fixed Resistor
R502
1430919
Top
I6
CHIPRES 0W06 9K1 F 100PPM
R503
1430770
Top
I2
CHIPRES 0W06 4K7 J 0402
Fixed Resistor
R504
1430780
Top
I2
CHIPRES 0W06 12K J 0402
Fixed Resistor
Issue 1 02/04
0402
0603
0402
Nokia Corporation
0402
Fixed Resistor
Fixed Resistor
Page 21
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
Item
Code
Side
XY
Description and value
R505
1430776
Top
J2
CHIPRES 0W06 8K2 J 0402
Fixed Resistor
R506
1430726
Top
H5
CHIPRES 0W06 100R J 0402
Fixed Resistor
R511
1620505
Top
H7
RES NETWORK 0W04 2DB ATT 0404
Resistor Network
R512
1430700
Top
K3
CHIPRES 0W06 10R J
Fixed Resistor
R516
1620033
Top
K5
RES NETWORK 0W06 2X5K6 J 0404
Resistor Network
R517
1620033
Top
K5
RES NETWORK 0W06 2X5K6 J 0404
Resistor Network
R520
1430784
Top
L4
CHIPRES 0W06 15K J 0402
Fixed Resistor
R522
1430784
Top
I5
CHIPRES 0W06 15K J 0402
Fixed Resistor
R523
1430865
Top
I5
CHIPRES 0W06 5K6 F
0402
Fixed Resistor
R525
1430770
Top
I5
CHIPRES 0W06 4K7 J 0402
Fixed Resistor
R529
1430690
Top
J5
CHIPRES JUMPER 0R0
0402
Fixed Resistor
R531
1430726
Top
J2
CHIPRES 0W06 100R J 0402
Fixed Resistor
R538
1430917
Top
I2
CHIPRES 0W06 3K3 F
0402
Fixed Resistor
R539
1430690
Top
K3
CHIPRES JUMPER 0R0
0402
Fixed Resistor
R540
1430754
Top
C7
CHIPRES 0W06 1K0 J 0402
Fixed Resistor
R700
1430700
Top
E4
CHIPRES 0W06 10R J
0402
Fixed Resistor
R701
1430700
Top
B3
CHIPRES 0W06 10R J
0402
Fixed Resistor
R702
1430700
Top
B5
CHIPRES 0W06 10R J
0402
Fixed Resistor
R703
1430714
Top
C3
CHIPRES 0W06 33R J 0402
Fixed Resistor
R704
1430714
Top
D3
CHIPRES 0W06 33R J 0402
Fixed Resistor
R706
1430681
Top
C2
CHIPRES 0W06 4R3 J
0402
Fixed Resistor
R707
1430690
Top
D6
CHIPRES JUMPER 0R0
0402
Fixed Resistor
R709
1430690
Top
E2
CHIPRES JUMPER 0R0
0402
Fixed Resistor
R710
1430758
Top
E2
CHIPRES 0W06 1K5 J 0402
Fixed Resistor
R712
1430690
Top
D2
CHIPRES JUMPER 0R0
0402
Fixed Resistor
R713
1430690
Top
E3
CHIPRES JUMPER 0R0
0402
Fixed Resistor
R715
1430691
Top
C3
CHIPRES 0W06 2R2 J
0402
Fixed Resistor
R716
1430691
Top
D3
CHIPRES 0W06 2R2 J
0402
Fixed Resistor
R800
1430700
Top
B8
CHIPRES 0W06 10R J
0402
Fixed Resistor
R801
1430746
Top
B7
CHIPRES 0W06 560R J 0402
Fixed Resistor
R900
1430832
Bot
P4
CHIPRES 0W06 2K7 J 0402
Fixed Resistor
R901
1430770
Top
O4
CHIPRES 0W06 4K7 J 0402
Fixed Resistor
Page 22
Nokia Corporation
0402
Issue 1 02/04
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
Item
Code
Side
XY
Description and value
R902
1430770
Top
O4
CHIPRES 0W06 4K7 J 0402
Fixed Resistor
R906
1430117
Bot
P5
CHIPRES 0W06 100R F 200PPM 0402
Fixed Resistor
R907
1430784
Bot
P5
CHIPRES 0W06 15K J 0402
Fixed Resistor
R910
4129101
Top
P4
ASIP MMC FILTER *** PB-FREE ***
Integrated Discretes
R913
1430117
Bot
P5
CHIPRES 0W06 100R F 200PPM 0402
Fixed Resistor
S320
5201001
Top
C9
SM VOLUME BUTTON 16VDC 50MA
Switch And Knob
S321
5201001
Top
E9
SM VOLUME BUTTON 16VDC 50MA
Switch And Knob
S323
5200025
Top
A5
SM TACT SW SIDE TRAVEL 0.2 MM
Switch And Knob
T130
4550267
Top
N8
TRANSF BALUN 2400+/-100MHZ
Balun
T500
4550187
Top
H6
TRANSF BALUN 3290-3980MHZ
Balun
T700
4550223
Top
D2
TRANSF BALUN 1800+-100MHZ 2X1.25
Balun
T800
3640427
Top
H3
TRANSF BALUN 1.9GHZ+/-100MHZ 1206
Balun
V101
4111099
Bot
T7
TVS DI 1SMF16B 16V 175W SOD123F
Diode
V356
4110965
Top
P8
CAP.DI BB202 CT 2.5 FM 0R8 SOD523
Diode
V357
4110965
Top
P8
CAP.DI BB202 CT 2.5 FM 0R8 SOD523
Diode
V802
4210261
Top
C8
TR BGA428 LNA1.8GHZ 19.5DB SOT363
Bipolar Transistor BJT
X100
5409255
Top
G3
SM LYNX BATT CONN 3POL 12V 2A H7.
Battery Connector
X102
5460061
Top
T5
SM SYSTEM CONNECTOR 14POL
System Connector
X300
5460123
Bot
L7
SM CONN 2X6 M P1.2250V 0.5A
Board To Board Connector
X301
5460123
Bot
L3
SM CONN 2X6 M P1.2250V 0.5A
Board To Board Connector
X302
5469235
Bot
L5
SM CONN 2X12F P0.5 PWB/PWB
Multipole Connector
X386
5409273
Top
K7
SIM CONN 2X3POL H 2.20MM
SIM Connector
X900
5409297
Top
F7
CAMERA MOD.SOCKET 2X7POL SPR P1.4
Socket
X910
5409271
Top
P3
MMC CONN 1X7POL H 1.7MM
Other Customized
Connector
Z131
4550265
Top
M8
CER FILT 2441+-41.75MHZ 2.7X2.2
Ceramic Filter
Z300
4129031
Top
M4
ASIP KEYBOARD INTERFACE *PB-FREE*
Integrated Discretes
Z301
4129031
Bot
N8
ASIP KEYBOARD INTERFACE *PB-FREE*
Integrated Discretes
Z700
4511465
Top
C2
SAW FILT 897.5+-17.5MHZ 2X2.5
SAW Filter
Z806
4511467
Top
D8
SAW FILT 1960+-30MHZ/3.2DB 2X2.5
SAW Filter
Z807
4511483
Top
H3
SAW FILT 1842.5+-37.5MHZ 2.5X2
SAW Filter
Z808
4511481
Top
H4
SAW FILT 942.5+-17.5MHZ
SAW Filter
Issue 1 02/04
Nokia Corporation
2.5X2
Page 23
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
Item
Code
Side
XY
Description and value
Z809
4550293
Top
C7
ANT.SWITCH 824-960/1710-1990MHZ
Antenna Switch
EZ4Z BOM II module parts - RH-28
Item
Product
Code
Side
XY
Description and value
C810
2320526
Top
D7
CHIPCAP NP0 3P9 C 50V
G501
4510417
Top
K4
VCTCXO 26MHZ+-3PPM 2.7V 1.3MA GSM
VCTCXO
Z700
4511477
Top
C2
SAW FILT 836.5+-12.5MHZ
2X2.5
SAW Filter
Z808
4511475
Top
H4
SAW FILT 881.5+-12.5MHZ 2.5X2.0
SAW Filter
Page 24
Nokia Corporation
0402
Ceramic
Capacitor
Issue 1 02/04
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
Component layout (top side)
Component layout (bottom side)
Issue 1 02/04
Nokia Corporation
Page 25
RH-12/RH-28
Parts List and Component Layout
CCS Technical Documentation
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Nokia Corporation
Issue 1 02/04
CCS Technical Documentation
RH-12/RH-28 Series Transceivers
6(a) - Baseband Troubleshooting
Instructions
Issue 1 02/04
Nokia Corporation
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
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Nokia Corporation
Issue 1 02/04
CCS Technical Documentation
RH-12/RH-28
Baseband Troubleshooting Instructions
Table of Contents
Page No
Introduction.................................................................................................................... 5
General Failures ............................................................................................................. 6
Phone is dead ...............................................................................................................6
Flash programming doesn’t work ................................................................................7
Charging Failure ..........................................................................................................8
Phone doesn’t stay on, or phone is jammed ................................................................9
Display Information: “Contact Service” ....................................................................10
Function Failures.......................................................................................................... 12
Camera Failure ...........................................................................................................12
No picture................................................................................................................ 12
Viewfinder working but no picture taken when pressing select-key ...................... 14
FM-radio Failure ........................................................................................................15
Infrared Communication Failure ...............................................................................16
SIM Failure ................................................................................................................17
MMC Failure .............................................................................................................18
Bluetooth Failure .......................................................................................................19
Display Failure ...........................................................................................................20
USB Data Transmission Failure ................................................................................21
Functional Cover Failure ...........................................................................................22
Audio Failure .............................................................................................................24
Uplink or downlink failure...................................................................................... 24
Uplink missing audio signal.................................................................................... 25
Uplink weak audio signal........................................................................................ 26
Uplink distorted audio signal .................................................................................. 27
Uplink TDMA noise................................................................................................ 28
Downlink missing audio signal ............................................................................... 29
Downlink weak audio signal ................................................................................... 30
Downlink distorted audio signal ............................................................................. 31
Downlink noise in audio signal............................................................................... 32
Downlink TDMA noise........................................................................................... 33
Various noise problems........................................................................................... 34
BT audio errors........................................................................................................ 35
Vibra errors ............................................................................................................. 36
BackLight Failure ......................................................................................................37
Key Failure ................................................................................................................38
Power Key Failure................................................................................................... 38
Volume Key Failure ................................................................................................ 39
Keypad Failure ........................................................................................................ 40
Issue 1 02/04
Nokia Corporation
Page 3
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
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Nokia Corporation
Issue 1 02/04
CCS Technical Documentation
RH-12/RH-28
Baseband Troubleshooting Instructions
Introduction
This document describes in overview the different hardware error possibilities for the
RH-12/RH-28 phone.
Not every possible hardware error is described in this document, but only those possible
to correct.
Issue 1 02/04
Nokia Corporation
Page 5
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
General Failures
Phone is dead
This means that the phone doesn’t use any current at all when supply is connected and/
or power key is pressed.
It is assumed that the voltage supplied is 3,9Vdc. UEME will prevent any functionality at
battery/supply levels below 2,9Vdc and the software will shut the phone down at 3,1Vdc.
Figure 1: Phone is dead
Phone is dead
Yes
Measure voltage on L260, L261,
L262, L263, L264, L265 and L206.
Should be ~3,9V
NO
Failure in VBAT line:
Check X100, L260, L261, L262,
L263, L264, L265, L206, C260,
C261, C262, C283 and pwb
NO
Check:
R302, S323 (power key) and pwb
NO
Check:
B200, C209, C210, D200 and
PWB
NO
Check:
D200 and pwb
NO
Check:
D200, C295 and pwb
NO
Check:
C422, R420, C514, C515, L515,
N500 (Helgo), G501 (26MHZ
XTAL) and pwb.
Yes
Measure voltages on both sides of
R302 when power key is pressed.
Should be ~0V.
Yes
Sleep clock on J401:
~32,768kHz, 1,8Vpp
Yes
Measure voltage on PURX =
1,8Vdc on J404 or N131 pin 3
~1sec after power key is pressed.
Yes
Measure voltage on VR3=2,78Vdc
on C295 pin1
Yes
Verify that system clock is @
~26MHz, min 300mVACpp on
C422 pin2 towards D400 (TIKU)
with regular probe Cin ~10-13pF /
10M
Yes
Check:
D400 (TIKU) and D450, D451
(Flashes) and D455 SDRAM
Page 6
Nokia Corporation
Issue 1 02/04
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Flash programming doesn’t work
The flash programming on RH-12/RH-28 boards is only possible via the pads on the PWB.
In case of Flash failure in production (FLALI station), problem is most likely related to
SMD problems. Possible failures could be Short-circuiting of balls under µBGAs (e.g.
UEME, TIKUEDGE, SDRAM, FLASH), missing or misaligned components.
In flash programming error cases the flash prommer (via Phoenix or Darium) can give
some information about the fault. The fault information messages could be:
•
Phone doesn't set Flashbus TXD line high after VCC is switch on.
•
External RAM test failed.
These errors are some of the most common errors and based on this, a fault finding diagram for flash programming is shown below. Various errors can appear from the prommer when flashing the phone - not all of them can be directly linked to the HW or phone.
Because of the use of uBGA components, it is not possible to verify on the diagram, if
there is a short circuit in control and address/data lines on TIKUEDGE, NOR flash, NAND
flash or SDRAM.
Figure 2: Flash programming does not work
Flash programming does not work
Prommer information is:
External RAM test failed. (C108)
Prommer information is:
Phone dose not set Flashbus TXD line high after VCC is switched on.
Yes
Re-solder \ Replace componet
No
Check SDRAM orientation and placement.
Placement OK ?
Yes
Fix the connections if possible.
Else scarp the phone.
No
Check PWB (if possible) and power lines.
Connections OK ?
Yes
Replace the SDRAM
Yes
Check J386 - resistor R397/R396
Connections ok ?
Re-solder \ Replace componet
Yes
Try reading MCU ID with Phoenix
Reading OK ?
No
Replace UEME or TIKU
Yes
Try reading flash ID with Phoenix
Reading OK ?
Yes
No
Replace NOR or NAND flash
Yes
Flash again
Issue 1 02/04
No
Flash again
Nokia Corporation
Page 7
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Charging Failure
Charging fails and no current
drawn from 'charger'
Yes
Measure Vchar voltage on V101.
Is it & gt; 3,0V?
NO
Check:
X101, F100, C121, V101, C102,
C103 and PWB
NO
D200 (UEME) is faulty
Yes
END
No
Check:
BSI: Battery (BL-5C), C100, R203,
pwb and R206
BTEMP: R100, C101, R202, pwb
and R207
No
Check:
R200, D200 (UEME) and pwb
Yes
Recalibrate charger circuitry and
retest. Did it work ?
Yes
END
Display information when charger
connected: " Not charging "
Yes
Recalibrate charger circuitry and
retest. Did it work ?
No
Verify through Phoenix that BSI =
~75kOhm (BL-5C) and BTEMP =
~47kOhm @ roomtemperature
(~25C)
Yes
Measure voltage on R200 towards
D200. Should be the same as
Vbat voltage
Yes
Phone should work. If not change
whole engine board
Page 8
Nokia Corporation
Issue 1 02/04
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Phone doesn’t stay on, or phone is jammed
If this kind of a failure is presenting itself immediately after FLALI, it is most likely caused
by ASICs missing contact with PWB.
If the MCU doesn’t service the watchdog register within the UEME, the operations
watchdog will run out after approximately 32 seconds. It is not possible to measure this
service routine.
Figure 3: Phone doesn’t stay on, or is jammed
Phone doesn't stay on or phone is
jammed
Yes
NO
Sleep clock on J401:
~32,768kHz, 1,8Vpp
Check:
B200, C209, C210, D200 and
PWB
NO
Check:
C422, R420, C514, C515, L515,
N500 (Helgo), G501 (26MHZ
XTAL) and pwb.
NO
Check:
D200 and pwb
NO
Check:
D400, D450, D451, Z300, Z301,
UI-board, keymat, lightguide and
pwb.
Yes
Change D200 (UEME)
Yes
Verify that system clock is @
~26MHz, min 300mVACpp on
C422 pin2 towards D400 (TIKU)
with regular probe Cin ~10-13pF /
10M
Yes
Measure voltage on PURX =
1,8Vdc on J404 or N131 pin 3
~1sec after power key is pressed.
Yes
UI functionality and keys react to
pressure
Yes
Is everything working until phone
shuts down after ~32sec
No
Retest and if phone still doesn't
work change whole engine board.
Issue 1 02/04
Nokia Corporation
Page 9
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Display Information: “Contact Service”
When this error appears in the display it means that one or more of the internal baseband tests has failed. The baseband tests (self tests) are performed each time the phone
is powered on. The self tests are divided into those performed while powering up (Start
up tests) and the ones that can be executed with a PC using Phoenix (Runtime tests). The
following Start-up tests are performed during power up:
UEM CBUS IF TEST
SLEEP X LOOP TEST
AUX DA LOOP TEST
EAR DATA LOOP TEST
TX IDP LOOP TEST
TX IQ DP LOOP TEST
SIM CLK LOOP TEST
SIM IO CTRL LOOP TEST
MBUS RX TX LOOP TEST
BACKUP BATT TEST
RADIO TEST
WARRANTY TEST
PA TEMP TEST
SIM LOCK TEST
PPM VALIDITY TEST
KEYBOARD STUCK TEST
LPRF IF TEST
FLASH CHECKSUM TEST
CAMERA IF TEST
EXT RAM DATA BUS TEST
EXT RAM ADDR BUS TEST
NAND FLASH ID TEST
BT WAKEUP TEST
IR IF_TEST
If all these self tests are passed, the phone will start up.
From Phoenix it’s possible to run all the self tests and the additional “Runtime test”. The
test cases can be seen below.
Page 10
Nokia Corporation
Issue 1 02/04
CCS Technical Documentation
RH-12/RH-28
Baseband Troubleshooting Instructions
Figure 4: Display Information: “Contact Service”
Issue 1 02/04
Nokia Corporation
Page 11
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Function Failures
Camera Failure
No picture
No picture
Module
placed
correctly?
No
Remove
module
Broken
springs etc.
in X900?
No
Reposition module
Yes
Yes
Change X900
1.8V
present at
Z901?
No
Check for
short circuit of
C903, C902
or C291
Short
circuits?
No
UEME or PWB
FAILURE
No
UEME or PWB
FAILURE
No
PWB or TIKU
FAILURE
No
PWB or TIKU
FAILURE
Yes
Yes
Replace
component
2.7V
present at
Z900?
No
Check for
short circuit of
C901, C900
or C289
Short
circuits?
Yes
Yes
Replace
component
26 Mhz
clock
present at
R900?
No
Check for
short circuit of
R900 or R904
Short
circuits?
Yes
Yes
Replace
component
1.8V
present at
C904
Yes
No
Check for
short circuit of
C904
Short
circuit?
Yes
Replace
component
Continue on
next page
Page 12
Nokia Corporation
Issue 1 02/04
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Data
present at
R913?
No
Check for
short circuit of
R913
Short
circuits
No
CAMERA or PWB
FAILURE
No
CAMERA or PWB
FAILURE
No
TIKU or PWB
FAILURE
No
TIKU or PWB
FAILURE
Yes
Yes
Replace
component
Clock
present at
R906
No
Check for
short circuit of
R906
Short
circuit?
Yes
Yes
Replace
component
Clock
present at
R902?
No
Check for
short circuit of
R902
Short
circuit?
Yes
Yes
Replace
component
Data
present at
R901?
No
Check for
short circuit of
R901
Short
circuit?
Yes
Replace
component
Issue 1 02/04
Nokia Corporation
Page 13
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Viewfinder working but no picture taken when pressing select-key
Viewfinder working but no picture
taken when pressing select-key
Select key
functional?
Check
keyboard with
Phoenix
No
X300 and
X301 OK?
Replace
component
No
Yes
Yes
R906 = 104MHz
clock when
pressing select?
UI- or main
PWB
FAILURE
No
Check for
short circuit of
R906
Short
circuit?
No
CAMERA
FAILURE
Yes
Yes
Replace
component
Reflash phone
Page 14
Nokia Corporation
Issue 1 02/04
CCS Technical Documentation
RH-12/RH-28
Baseband Troubleshooting Instructions
FM-radio Failure
The FM-radio troubleshooting guide is placed in the RF section.
Issue 1 02/04
Nokia Corporation
Page 15
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Infrared Communication Failure
IrDA Failure
Yes
Measure
VBAT at
C350 = 3,74,2V ?
No
Defect PWB
Yes
Measure
VFLASH1 at
C351=2,78V
No
Replace
D200
Yes
Measure VIO
at
C353=1,80V
No
Replace
D200
Yes
Measure
activity TXD
on N350 pin3
?
No
Replace
D400
Yes
Replace N350
Page 16
Nokia Corporation
Issue 1 02/04
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
SIM Failure
The hardware of the SIM interface from the UEME (D200) to the SIM connector (X386)
can be tested without a SIM card. When the power is switched on, the phone first checks
for a 1,8V SIM card and then a 3V SIM card. The phone will try this four times, whereafter it will display " Insert SIM card " .
The error ”SIM card rejected” means that the ATR message received from the SIM card is
corrupted, e.g. data signal levels are wrong. The first data is always ATR and it is sent
from card to phone.
Figure 5: SIM Failure
SIM Fault
Is used sim a
3,0V or 1,8V
card ?
No
Replace used
test sim-card
Yes
Measure
VSIM at
X386. Is it 3V
or 1,8V?
No
Check SIM
reader X386
Yes
Check SIM power-up
sequence
(picture of 3V sim card)
Is not as
picture
Measure
VSIM at
C390. Is it
3V?
No
UEME FAILURE
Yes
Replace R388
Should be as
picture
VSIM
Reset
Clock
Data
Issue 1 02/04
Nokia Corporation
Page 17
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
MMC Failure
The hardware of the MMC interface from the UEME (D200) to the MMC connector
(X910) can’t be tested without a MMC card. To be able to measure the following, solder
wires on respective points.
Figure 6: MMC Failure
MMC Fault
Yes
Measure
VBATBB at
C911 = 3,74,2V ?
No
The following points can be
measured at phone
powerup, since the MMC
will be initialized here.
Yes
Measure
VMMC at
C913=2,85
V
Defect PWB
No
Replace
N910
No
Resolder
X910
Yes
Measure
VMMC at
X910 pin4
=2,85V
Yes
Measure
MMC_CMD &
MMC_CLK
activity on X910
pin 2 & 5
No
Replace
R910
Yes
Reflash phone
Page 18
Nokia Corporation
Issue 1 02/04
CCS Technical Documentation
RH-12/RH-28
Baseband Troubleshooting Instructions
Bluetooth Failure
The Bluetooth troubleshooting guide is placed in the RF section.
When the flash D450 or UEME has been replaced the IMEI has to be reprogrammed. This
will automatically include reprogramming of the BT address.
Issue 1 02/04
Nokia Corporation
Page 19
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Display Failure
Display fails
Yes
Is display working
NO
Change display
module
Is display
working?
Yes
NO
Measure Vflash1 @
L302 towards X302
(display connector).
Should be ~2,78Vdc
NO
Check:
X302, C311, L302, C310,
D200 (UEME) and PWB
NO
Check:
X302, C309, L301, C308,
R307, D200 (UEME) and
PWB
NO
Check:
N300, C304, R308, R312,
R306, X302, R305, X300, pwb
and UI board
NO
Check:
D400 (TIKU) and pwb
Yes
Measure VIO @ L301
towards X302 (display
connector). Should be
~1,8Vdc
Yes
Yes
Are LED's working?
Measure Vout on
C304 = ~13,5V
Yes
Measure RESX on
X302 - pin 24. Should
be ~1,8V.
Yes
Phone should work. If
not change engine
board.
End
Page 20
Nokia Corporation
Issue 1 02/04
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
USB Data Transmission Failure
USB failing
Attach phone via DKU-2
cable. Display shows: 'Data
enhancement connected' ?
Yes
USB host detected.
Retest USB interface
No
Measure Vbus @
C109
Is it ~5 V?
No
Check Pop Port X102
(soldering joints & spring
contacts) or Z101, R106 &
R108
Retest USB interface
Yes
Measure startup sequence for:
Vbus,D+,D- @ C109,J105,J106
Compare to screenshot
Check USB2 ASIP
R107,Z101,R106,R108
Retest USB interface
Similar startup sequence
Fail
Ch.1: D+, Ch.2: D-, Ch.3: Vbus
Measure startup sequence for:
Vbus,D+,D- @ C109,J110,J109
(1,8 V logic levels)
Compare to screenshot
Similar startup sequence
Change NUT N100.
Retest USB interface
Fail
Change TikuEdge
Issue 1 02/04
Nokia Corporation
Page 21
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Functional Cover Failure
FCI failing
Fail
Attach FC to phone.
Open CCS Phoenix
tool. Run 'alive' test
Okay
FCI is working.
Retest phone
No
Change the
'padextender'.
Retest interface
No
Change
L304,C320. Is it
working now?
Fail
Check 'Padextender'
(Solder joints and spring
contacts). Is it okay?
Yes
Attach FC to phone.
Measure Vout Is it ~Vbat
?
Yes
Retest interface
Yes
Retest interface
No
Change Z310. Is it
working now?
Yes
No
TikuEdge interface
failing.
Goto FCI failing
page 2
Page 22
Nokia Corporation
Issue 1 02/04
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
FCI failing
page 2
Attach FC to phone.
Measure SCL & SDA
Can any activity be
seen?
No
Change
L305,L306. Is it
working now?
Yes
Retest interface
Yes
Retest interface
No
Change Z310. Is it
working now?
No
Yes
TikuEdge interface
failing.
Attach FC to phone.
Measure Int High to low
transition?
No
Change L307. Is it
working now?
Yes
Retest interface
Yes
Retest interface
No
Yes
Change Z310. Is it
working now?
No
TikuEdge interface
failing.
Issue 1 02/04
Nokia Corporation
Page 23
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Audio Failure
Uplink or downlink failure
Start
uplink
Is there an
audio
signal?
No
downlink
Is problem
uplink or
downlink
Go to " Uplink
missing audio
signal "
Is there an
audio
signal?
No
Go to
" Downlink
audio signal
missing "
Yes
Yes
Is audio
level
sufficient?
No
Go to " Uplink
weak audio
signal
Is audio
level
sufficient?
No
Go to
" Downlink
audio signal
weak "
Yes
Yes
Is audio
signal
undistorted?
No
Go to " Uplink
distorted
audio signal "
Is audio
signal
undistorted?
No
Go to
" Downlink
audio signal
distorted "
Yes
Yes
Is TDMA
noise
inaudible
No
Go to " Uplink
TDMA noise "
No
Go to
" Downlink
audio signal
noise "
Yes
Yes
Is there no
acoustical
feedback
Is audio
signal free
of noise
No
Go to
" Acoustical
feedback "
Is TDMA
noise
inaudible
No
Go to
" Downlink
TDMA noise "
No
Go to
" Acoustical
feedback "
Yes
Is there no
acoustical
feedback
Yes
No
Click noise, audio
signal too loud or
bad picture/
sound
synchronization
Page 24
Nokia Corporation
Software
error or bad
TIKU
Issue 1 02/04
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Uplink missing audio signal
Start
No
Is mute
deactivated?
No
Deactive
mute in menu
Is problem
present both with
hand portable
and accessory?
Yes
Is problem
solved when
using
accessory?
No
Accessory is
defective
Yes
Measure
mic. bias. Is
it close to
2.1 V ?
No
Are any of the bias
components defective ?
(check R153, C151 and
R151 for hand portable
and R156, C158, R166,
C159 and L152 for
accessory)
No
Replace
UEME
Yes
Replace
defective parts.
Is bias close to
2.1 V ?
No
Yes
Are microphone
contacts and
PWB pads ok ?
No
Clean
contacts and
pads
Yes
Replace
microphone
Issue 1 02/04
Nokia Corporation
Page 25
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Uplink weak audio signal
Start
No
Is
microphone
opening
clean?
Clean
opening
Yes
Are any of the bias
components
defective (check
R153, C151 and
R151)
No
Measure
bias. Is it
close to
2.1V?
Yes
No
Replace
UEME
Yes
Replace
defective parts.
Is bias close to
2.1 V
No
Yes
Are microphone
contacts and
PWB pads ok?
No
Clean contacts and pads. If
tracks are badly corroded it
may not be possible to
repair phone
Yes
Are any of the
components L151,
C165, R155, R162
or R157 missing or
damaged?
Replace
microphone
Page 26
Nokia Corporation
Issue 1 02/04
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Uplink distorted audio signal
Start
No
Is there no
distortion when
using
accessory?
Defect
accessory
Yes
Measure
bias. Is it
close to
2.1V?
Are any of the bias
components
defective (check
R153, C151 and
R151)
No
No
Replace
UEME
Yes
Replace
defective parts.
Is bias close to
2.1 V
No
Yes
Are microphone
contacts and
PWB pads ok
No
Clean contacts and pads. If
tracks are badly corroded it
may not be possible to
repair phone
Yes
Replace
microphone
Issue 1 02/04
Nokia Corporation
Page 27
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Uplink TDMA noise
Start
Is there TDMA
noise both in hand
portable and when
using accessory?
No
Is there only
noise in hand
portable
mode?
No
Defective
accessory
Yes
Yes
Replace
microphone. Is
there still noise?
No
Defective
microphone
Yes
Check for loose,
missing or damaged
shielding cans
Page 28
Nokia Corporation
Issue 1 02/04
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Downlink missing audio signal
Start
Is problem present
both in hand
portable mode and
when using FM
radio/music player/
MIDI?
No
Is problem
associated with
FM radio or
music player/
MIDI?
Defective
music file
FM
radio
Yes
Is external
antenna
working?
Is problem
present both in
earpiece, IHF
and with
accessory?
Music
player/MIDI
No
Accessory is
not detected
or is defective
No
Yes
FM module is
defective
Yes
Is problem
related to
earpiece, IHF or
accessory?
IHF
Earpiec
e
Accessory
IHF is defective.
Check IHF speaker
and connections.
Check L155, L156
and C162.
Check UEME.
Earpiece is
defective. Check
IHF speaker and
connections. Check
L155, L156 and
C162.
Check UEME.
Accessory is
defective
Software or
UEME is
defective
Issue 1 02/04
Nokia Corporation
Page 29
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Downlink weak audio signal
Start
Is IHF
opening
clogged?
Is problem
present both in
earpiece and
IHF?
Yes
Yes
Clean
IHF
opening
No
No
Is problem
related to
earpiece or IHF?
IHF is defective.
Check IHF
speaker and
connections.
Check UEME.
IHF
Earpiec
e
Is IHF
opening
clogged?
Yes
Clean
earpiece
opening
No
Earpiece is
defective. Check
earpiece speaker
and connections.
Check UEME.
Software or
UEME is
defective
Page 30
Nokia Corporation
Issue 1 02/04
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Downlink distorted audio signal
Start
Is problem
present both in
earpiece and
IHF?
Yes
No
Is problem
related to
earpiece or IHF?
IHF
Earpiec
e
IHF is defective.
Check IHF
speaker and
connections.
Check UEME.
Earpiece is
defective. Check
earpiece speaker
and connections.
Check UEME.
Software error.
Bad music files.
Defective FM
module.
Defective UEME
Issue 1 02/04
Nokia Corporation
Page 31
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Downlink noise in audio signal
Start
Is noise
electrical or
mechanical?
Loose speaker or
other component
inside telephone
Mechanical
Defective
speaker.
Electrical
Is noise
associated with
earpiece/IHF
(hand portable
mode)?
No
Yes
Does error
occur both in
earpiece and
IHF?
Yes
No
Is noise
associated with
FM tuner or with
Music Player?
Software error.
Defective or badly
tuned antenna.
Music Player
Bad music file
FM radio
Is noise
associated with
accessory?
No
Yes
Page 32
Nokia Corporation
Defective FM
module
Defective
accessory. Repair
or Replace
accessory
Issue 1 02/04
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Downlink TDMA noise
Start
Is there TDMA
noise both in hand
portable and when
using accessory?
No
Yes
Issue 1 02/04
No
Defective
accessory
Yes
Yes
Replace battery.
Is there still
noise?
Is there only
noise in hand
portable
mode?
No
Defective
battery.
Check for loose,
missing or damaged
shielding cans.
Mistuned antenna.
Missing/bad
components.
Check that problem is
not related to uplink
TDMA noise.
Nokia Corporation
Page 33
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Various noise problems
Start
Sound
level too
loud?
Yes
Software
error
No
Click noise
Yes
Software
error
No
Picture/sound
synchronisation
Page 34
Yes
Nokia Corporation
Bad TIKU
Issue 1 02/04
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
BT audio errors
Start
Accessory
working?
No
Replace or
repair
accessory
Yes
Software
working?
No
Flash with
new software
Yes
Defective BT
module or antenna.
Defective TIKU
Issue 1 02/04
Nokia Corporation
Page 35
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Vibra errors
Start
Is there any
vibration?
No
Yes
Is there
sufficient
vibration?
No
Wrong setting or
software error.
Contact problem.
Mechanical problem
- counterweight is
blocked
Defective or missing
vibra.
Defective UEME.
Software error
Contact problem.
Defective vibra.
Defective UEME.
Yes
Vibra is
constantly
switched
on?
Yes
Software error.
Defective UEME.
Short circuit.
No
Intermittent
vibration?
Yes
No
Acoustical
noise?
Page 36
Yes
Bad connection.
Defective vibra.
Defective vibra.
Mechanical problem
- counterweight hits
D-cover/PWB.
Loose parts in
phone.
Nokia Corporation
Issue 1 02/04
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
BackLight Failure
Start
Try to change display.
Are the LED's working
now?
Are the display LED's
working?
No
Retest failed display
No
Change X302
Measure VLED+ ~ 13.5V
when the LED driver is
enabled. Is this OK?
No
Check N300, L303, C304,
C304, R308. If not OK,
Change defect part.
Change UI PWB. Are the
LED's working now?
No
Retest the failed UI PWB
No
Change X301
No
Check R304, R303 & all
LED's on UI PWB. If not
OK, Change defect part.
Yes
Check X302 (Solder joints).
Is it OK?
Yes
Are the keyboard LED's
working?
Yes
No
Yes
Check X301 (Solder joints).
Is it OK?
Yes
Yes
Measure VLED+ ~ 8V when
the LED driver is enabled.
Is this OK?
Yes
End
Issue 1 02/04
Retest
Nokia Corporation
Page 37
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Key Failure
Power Key Failure
Keypad fault
Power key Ok
?
No
Measure voltage
from S323. Is it
high?
No
Check
R302,C302,S323
and line. If Okay
UEME failure
Yes
Measure voltage
from S323 when
pressed. Is it high?
Yes
Check S323. Is it
Okay?
Yes
Phone is dead
No
No
Phone is jammed
Page 38
Nokia Corporation
Change S323
Issue 1 02/04
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
Volume Key Failure
Volume Up key
working?
Measure Row4
line from S320 Is it
~1,8 V?
No
Check S320 and Row4
line. If Ok, change Z300. If
it still fails, change
TikuEdge
Yes
Measure Col1 from
S320 when pressed. Is
there a 50 u pulse?
No
Yes
Volume Down
key working?
Measure Row4
line from S321 Is it
~1,8 V?
Check S320 and Col1 line.
If Ok, change Z300. If it
still fails, change TikuEdge
Change TikuEdge
No
Check S321 and Row4
line. If Ok, change Z300. If
it still fails, change
TikuEdge
Yes
Measure Col2 from
S321 when pressed. Is
there a 50 u pulse?
Yes
Issue 1 02/04
Nokia Corporation
No
Check S321 and Col2 line.
If Ok, change Z300. If it
still fails, change TikuEdge
Change TikuEdge
Page 39
RH-12/RH-28
Baseband Troubleshooting Instructions
CCS Technical Documentation
UI module keys working
UI-module
keys working
No
Try to change UI
PWB. Are the
keys working now
?
Yes
Retest UI module
No
Change X300 and/
or X301
No
Check X300 & X301
(Soldering and spring
contacts). Is it okay?
Yes
Measure Row0-Row4,
UP, DOWN and SELECT
lines from X301. Are
voltage levels ~1,8 V?
No
Yes
Yes
Measure SleepX
signal (J403), when key is
pressed. Is voltage level
~1,8 V?
No
Check lines Row0-Row4,
UP, DOWN,and SELECT
from X300.
If Ok, change Z300 and/or
Z301. If it still fails, change
TikuEdge
Yes
When keypad is
pressed, are the
LED's lit?
No
End
Page 40
Illumination fault
Nokia Corporation
Issue 1 02/04
CCS Technical Documentation
SERVICE
MANUAL
RH-12/RH-28
Cellular Phones
(NMP Part No: 9231344)
Nokia 6230/6230b
Issue 1
COMPANY CONFIDENTIAL
Issue 1 02/04
Copyright 2003 Nokia Corporation. All Rights Reserved
CCS Technical Documentation
Amendment Record Sheet
Amendment No
Issue 1
Issue 1 02/04
Date
Feb. 2004
Inserted By
Comments
M. Hautaniemi
Copyright 2003 Nokia Corporation. All Rights Reserved
CCS Technical Documentation
Nokia RH-12/RH-28 Service Manual Structure
1. General Information
2. Parts List and Component Layout
3. Service Software and Tuning Instructions
4. Service Tools
5. Disassembly Instructions
6. Troubleshooting Instructions
7. System Module
8. Schematics
9. Car Installation Kit
Issue 1 02/04
Copyright 2003 Nokia Corporation. All Rights Reserved
CCS Technical Documentation
IMPORTANT
This document is intended for use by qualified service personnel only.
Company Policy
Our policy is of continuous development; details of all technical modifications will be
included with service bulletins.
While every endeavour has been made to ensure the accuracy of this document, some
errors may exist. If any errors are found by the reader, NOKIA CORPORATION should be
notified in writing.
Please state:
Title of the Document + Issue Number/Date of publication
Latest Amendment Number (if applicable)
Page(s) and/or Figure(s) in error
Please send to:
Nokia Corporation
Nokia Mobile Phones Ltd
CCS Technical Documentation
PO Box 86
FIN-24101 SALO
Finland
Note: This manual is COMPANY CONFIDENTIAL material.
Issue 1 02/04
Copyright 2003 Nokia Corporation. All Rights Reserved
CCS Technical Documentation
Warnings and Cautions
Please refer to the phone's user guide for instructions relating to operation, care and
maintenance including important safety information. Note also the following:
Warnings:
1. CARE MUST BE TAKEN ON INSTALLATION IN VEHICLES FITTED WITH ELECTRONIC ENGINE MANAGEMENT SYSTEMS AND ANTI-SKID BRAKING SYSTEMS. UNDER CERTAIN FAULT CONDITIONS, EMITTED RF ENERGY CAN
AFFECT THEIR OPERATION. IF NECESSARY, CONSULT THE VEHICLE DEALER/
MANUFACTURER TO DETERMINE THE IMMUNITY OF VEHICLE ELECTRONIC
SYSTEMS TO RF ENERGY.
2. THE HANDPORTABLE TELEPHONE MUST NOT BE OPERATED IN AREAS LIKELY
TO CONTAIN POTENTIALLY EXPLOSIVE ATMOSPHERES EG PETROL STATIONS
(SERVICE STATIONS), BLASTING AREAS ETC.
3. OPERATION OF ANY RADIO TRANSMITTING EQUIPMENT, INCLUDING CELLULAR TELEPHONES, MAY INTERFERE WITH THE FUNCTIONALITY OF INADEQUATELY PROTECTED MEDICAL DEVICES. CONSULT A PHYSICIAN OR THE
MANUFACTURER OF THE MEDICAL DEVICE IF YOU HAVE ANY QUESTIONS.
OTHER ELECTRONIC EQUIPMENT MAY ALSO BE SUBJECT TO INTERFERENCE.
Cautions:
1. Servicing and alignment must be undertaken by qualified personnel only.
2. Ensure all work is carried out at an anti-static workstation and that an antistatic wrist strap is worn.
3. Ensure solder, wire, or foreign matter does not enter the telephone as damage may result.
4. Use only approved components as specified in the parts list.
5. Ensure all components, modules screws and insulators are correctly re-fitted after servicing and alignment. Ensure all cables and wires are repositioned correctly.
Issue 1 02/04
Copyright 2003 Nokia Corporation. All Rights Reserved
CCS Technical Documentation
ESD Protection
Nokia requires that phone repair places have sufficient ESD protection (against static
electricity) when servicing cellular phones.
A cellular phone, which is ready for use, can be handled normally without ESD protection. The SIM card and battery can be replaced in normal conditions of use.
To replace the color cover ESD protection must be applied, except for the phone covers which can be replaced by the customer.
All electronic parts of the phone , including the display, are susceptible to ESD. Resistors, too, can be damaged by static electricity discharge.
All ESD sensitive parts must be packed in metallized protective bags during shipping
and handling outside any ESD Protected Area (EPA).
Every repair action involving opening the phone or handling the phone components
must be done under ESD protection.
ESD protected spare part packages MUST NOT be opened/closed out of an EPA.
For more detailed information about ESD protection and EPA, contact your local
Nokia After Market Services representative.
Issue 1 02/04
Copyright 2003 Nokia Corporation. All Rights Reserved
CCS Technical Documentation
RH-12/RH-28 Series Transceivers
1 - General Information
Issue 1 02/04
Nokia Corporation
RH-12/RH-28
General Information
CCS Technical Documentation
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Page 2
Nokia Corporation
Issue 1 02/04
RH-12/RH-28
General Information
CCS Technical Documentation
Table of Contents
Page No
RH-12 and RH-28 Product Selection................................................................................................. 5
Accessories List......................................................................................................................................... 6
Technical Specifications ..................................................................................................................... 10
General Specifications of Transceiver RH-12 and RH-28 .......................................................10
Battery endurance ..............................................................................................................................11
Environmental conditions ................................................................................................................11
Transceiver Features ..........................................................................................................................12
Electrical Characteristics ..................................................................................................................13
Issue 1 02/04
Nokia Corporation
Page 3
RH-12/RH-28
General Information
CCS Technical Documentation
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Page 4
Nokia Corporation
Issue 1 02/04
RH-12/RH-28
General Information
CCS Technical Documentation
RH-12 and RH-28 Product Selection
The RH-12/28 (Nokia 6230) is a new triple band transceiver family. RH-12 is designed for
the GSM900 (including EGSM), GSM1800, DCS1900 and PCS 1900 networks. The RH-28
is designed for the GSM850 (including EGSM), GSM1800, DCS1900 and PCS 1900 networks.
Table 1: RH-12 product and modules
Name
Type Code
Material Code /
Module type
Basic transceiver Nokia 6230
RH-12
0509076
Module code
Main system board
EZ4A
0201879
UI board Module
EZ4D
0275784
Mechanical assy parts
0262912
SW flash file
0243589
Table 2: RH-28 product and modules
Name
Type Code
Material Code /
Module type
Basic transceiver Nokia 6230b
RH-28
0509517
Module code
Main system board BOM II
EZ4A
0201975
UI board Module
EZ4D
0275785
Mechanical assy parts
0262938
SW flash file
0243707
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RH-12/RH-28
General Information
CCS Technical Documentation
Accessories List
Batteries
Product code:
BL-5C Battery 850mAh Li-ion
0670400
Chargers
Product code:
ACP-7U CHARGER 3.7V/340MA
US
0675143
ACP-7E AC TRAVEL CHARGER EU
0675144
ACP-7X TRAVEL CHARGER UK
0675145
ACP-7H TRAVEL CHARGER HONG KONG
0675146
ACP-7E AC TRAVEL CHARGER EU
0675171
ACP-7U AC TRAVEL CHARGER US
0675172
ACP-7X AC TRAVEL CHARGER UK
0675173
ACP-7AR TRAVEL CHARGER
0675244
ACP-7C TRAVEL CHARGER
0675158
ACP-7UR TRAVEL CHARGER US
0675160
ACP-8E TRAVEL CHARGER EURO
0675195
ACP-8U TRAVEL CHARGER USA
0675196
ACP-8X TRAVEL CHARGER UK
0675197
ACP-8J TRAVEL CHARGER JAPAN
0675198
ACP-8K TRAVEL CHARGER KOREA
0675199
ACP-8C TRAVEL CHARGER CHINA
0675211
ACP-8A TRAVEL CHARGER AUSTRALIA
0675214
ACP-8UB TRAVEL CHARGER
0675236
ACP-8G TRAVEL CHARGER
0675237
ACP-8AR TRAVEL CHARGER
0675248
ACP-8U TRAVEL CHARGER USA
0675269
ACP-8XV TRAVEL CHARGER UK
0675330
ACP-8EV TRAVEL CHARGER EU
0675331
ACP-8UV TRAVEL CHARGER US
0675332
ACP-8AV TRAVEL CHARGER AUS
0675333
ACP-8KV TRAVEL CHARGER KOREA
0675334
ACP-8CV TRAVEL CHARGER CHINA FO
0675359
ACP-9C AC FAST CHARGER CHINA
0675204
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General Information
CCS Technical Documentation
ACP-9E AC FAST CHARGER EURO
0675149
ACP-9X AC FAST CHARGER UK
0675150
ACP-9U AC FAST CHARGER US
0675151
ACP-9A AC FAST CHARGER AUS
0675152
ACP-9J AC FAST CHARGER JPN
0675153
ACP-9UR AC FAST CHARGER US
0675159
ACP-9UJ AC FAST CHARGER US JPN
0675169
ACP-9UB AC FAST CHARGER BRA
0675224
ACP-9G AC FAST CHARGER BRA
0675225
ACP-12X TRAVEL CHARGER UK
0675296
ACP-12C TRAVEL CHARGER CHINA
0675297
ACP-12AR TRAVEL CHARGER ARGENTINA
0675298
ACP-12A TRAVEL CHARGER AUSTRALIA
0675300
ACP-12K TRAVEL CHARGER KOREA
0675301
ACP-12U TRAVEL CHARGER USA
0675303
ACP-12J TRAVEL CHARGER J
0675329
LCH-8 Cigarette Lighter Charger
LCH-9 Cigarette Lighter Charger
0675120
LCH-12 Cigarette Lighter Charger
0675328
AC-1 RETRACTABLE CHARGER
Wearables
HDS-3 Stereo Headset
0694093
HDS-3 Stereo Headset China
0694109
HDB-4 Mono Headset
0694094
HS-5 Mono Headset China
0694108
HS-10 Headset retractable APAC
0694125
HS-10 Headset retractable EURAF
069416
LPS-4 Loopset
0630443
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RH-12/RH-28
General Information
CCS Technical Documentation
Car Accessories
Advanced HF CARK126
• Advanced Unit HFU-4
0085197
0694103
•
Handset HSU-3
•
HF Micr. HFM-8
0690016
•
Holder (small size) MBC-15S
0650041
•
Coupler AXF-15S
0273723
•
System Cable SCU-4
0630471
•
Mounting Plate MKU-1
0620036
•
External HF Speaker HFS-12
0692009
•
Power Cable (PCU-4)
0630478
BHF-1 Basic Handsfree
0694102
Other
DCV-14 Deskstand (multiple size)
0675323
DT-1 Music Stand
0694119
DKU-2 USB (for internal USB driver)
0730238
HDA-10 TTY Adaptor
SU-2 TV Dongle (BT) Europe 1 (east and north)
0274186
SU-2 TV Dongle (BT) Europe 2 (west and south)
0274187
SU-5 POP VIEWER
0274238 (Europe 1)
0274284 (Europe 2)
0274893 (Europe 3)
0274892 (Europe 4)
SU-4 PICTURE FRAME
0274728 (Europe 1)
0274729 (Europe 2)
0274840 (Europe 3)
0274841 (Europe 4)
0274730 (Europe UK)
SU-7 PICTURE FRAME
0274757 (Europe 1)
0274758 (Europe 2)
0274839 (Europe 3)
0274838 (Europe 4)
0274759 (Europe UK)
BT Accessories
HS-3W BT Headset EURAF
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General Information
CCS Technical Documentation
HS-4W BT Headset
BT Handsfree CARK112
• BT Handsfree Unit HFW-1
085192
0750135
•
Power Cable PCU-4
0630478
•
Control Button CUW-2
0694077
DTL-4 Nokia PC BT Card
0750181
SU-1B BT Pen
0710000
CK-1W Europe 1
0080774
CK-1W Europe 2
0080774
CK-1W Americas
0080785
CK-1W APAC
0085218
CARKIT 610
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General Information
CCS Technical Documentation
Technical Specifications
General Specifications of Transceiver RH-12 and RH-28
Unit
Transceiver with BL-5C 850mAh Liion battery pack
Dimensions (mm)
(L x W x T)
Weight
(g)
Volume
(cm3)
103 x 44 x 20
97
76
Parameter
Unit
Cellular System
GSM900, EGSM900, GSM1800 and PCS1900
RX Frequency Band
EGSM: 925 - 935 MHz
GSM900: 935 - 960 MHz
GSM1800: 1805 - 1880 MHz
PCS1900: 1930 - 1990 MHz
TX Frequency Band
EGSM: 880 - 890 MHz
GSM900: 890 - 915 MHz
GSM1800: 1710 - 1785 MHz
PCS1900: 1850 - 1910 MHz
Output Power
GMSK
EGSM900: +5…+33 dBm / 3.2mW…2W
GSM1800: +0…+30 dBm / 1.0mW…1W
PCS1900: +0…+30 dBm / 1.0mW…1W
8-PSK
EGSM900: +5…+27 dBm / 3.2mW…2W
GSM1800: +0…+26 dBm / 1.0mW…1W
PCS1900: +0…+26dBm 1.0mW…1W
Number of RF Channels
EGSM: 124
GSM1800: 374
PCS1900: 300
Channel Spacing
200 kHz
Number of TX Power Levels
GSM900 *: 15
GSM1800: 16
PCS1900: 16
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General Information
CCS Technical Documentation
Battery endurance
Nokia measurements of the operational times in GSM 900/1800 are:
Talk time with battery BL-5C
Talk time variations
Up to 180 - 300 min
Integrated Handsfree (IHF) talk time
Up to 130 min
Stand-by time
Up to 300 h
Radio + HDS-3
Up to 20 h
Nokia measurements of the operational times in GSM 850/1900 are:
Talk time with battery BL-5C
Talk time variations
Up to 180 - 300 min
Integrated Handsfree (IHF) talk time
Up to 130 min
Stand-by time
Up to 300 h
Radio + HDS-3
Up to 20 h
Variation in operation times will occur depending on SIM card, network settings and usage. When
testing MS battery life, it is initially assumed that the MS is a single band MS operating with the GSM
FR speech codec, GPRS/EGPRS is not active.
Environmental conditions
Environmental condition
Ambient temperature
Notes
Normal operation
-10 oC ... +55 oC
Specifications fulfilled
Reduced performance
+55 oC ... +65 oC
Operational only for short periods
Intermittent operation
-20 oC ... -10 oC and
+65 oC ... +85 oC
Operation not guaranteed but an attempt
to operate will not damage the phone
No operation
-40 oC ... -20 oC
Operation not possible but an attempt to
operate will not damage the phone
No operation or storage
& lt; -40 oC and & gt; +85 oC
No storage; an operation attempt may
cause permanent damage
Charging allowed
-25 oC ... +60 oC
Long term storage conditions
0 oC ... +40 oC
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RH-12/RH-28
General Information
CCS Technical Documentation
Transceiver Features
Main HW/features include:
•
EDGE MSC 10
•
GPRS MSC 10
•
Active TFT color display 128x128 - 65 536 colors
•
Integrated Camera - VGA 640x480
•
MMC Multimedia card support
•
Douglas style UI with 5-way navigation
•
Integrated Handsfree IHF speaker
•
Digital camcorder - record and playback
•
Streaming video incl. AMR (audio)
•
Bluetooth - incl. SIM Access Profile (SAP), SyncML, file transfer profiles
•
MMS OMA 1.0
•
Java MIDP 2.0 with BT, SMS, MM API (audio only)
•
XHTML/WAP2.0 browser
•
Presence/Dynamic phone book - Wireless Village
•
E-Mail client (Java based)
•
Digital music player for MP3 /AAC music formats
•
FM Stereo Radio
• MIDI support - 24 polyphonic
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General Information
CCS Technical Documentation
Electrical Characteristics
Table 3: Absolute Maximum Ratings
Parameter
Min.
Typical
Max.
Unit
Battery Voltage
3.145
3.7
4.23
V
Charger Input Voltage
0
16
V
Charging Current
0
0.85
A
Table 4: Current Consumption
Condition
Min.
Typical
Call (MoU)
EGSM 900
DCS 1800
PCS 1900
208
188
168
Idle (MoU)
Max.
Unit
2.72
Power off
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150
mA
250
Nokia Corporation
mA
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CCS Technical Documentation
RH-12/RH-28 Series Transceivers
7 - System Module
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RH-12/RH-28
System Module
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Table of Contents
Page No
Glossary of Terms..................................................................................................................................... 5
Baseband Module Introduction ........................................................................................................... 8
Features ...................................................................................................................................................... 9
Environmental Specifications............................................................................................................ 10
Normal and extreme voltages .........................................................................................................10
Temperature conditions ....................................................................................................................10
Humidity ...............................................................................................................................................11
Vibration ...............................................................................................................................................11
ESD strength ........................................................................................................................................11
Technical Specifications ..................................................................................................................... 12
UEME ......................................................................................................................................................12
DC Characteristics .......................................................................................................................... 14
Power Distribution.......................................................................................................................... 15
Tiku .........................................................................................................................................................16
Main Features .................................................................................................................................. 16
Memory Block.................................................................................................................................. 17
Memory .................................................................................................................................................17
NOR Flash.......................................................................................................................................... 17
NAND Flash....................................................................................................................................... 17
SDRAM............................................................................................................................................... 17
Charging ................................................................................................................................................18
Battery ...................................................................................................................................................20
Interfaces ..............................................................................................................................................20
FM-Radio........................................................................................................................................... 20
IrDA..................................................................................................................................................... 21
Camera............................................................................................................................................... 23
SIM...................................................................................................................................................... 25
MMC................................................................................................................................................... 26
Bluetooth .......................................................................................................................................... 27
FBUS ................................................................................................................................................... 29
USB ..................................................................................................................................................... 30
UI Interface....................................................................................................................................... 31
RF Interface ...................................................................................................................................... 36
Test Pattern ...................................................................................................................................... 36
Test Points............................................................................................................................................... 38
Main board A side of PWB ...............................................................................................................38
Main board B side of PWB ...............................................................................................................39
RF Module Introduction...................................................................................................................... 40
RF Frequency Plan ..............................................................................................................................41
DC Characteristics ..............................................................................................................................41
Regulators......................................................................................................................................... 41
Typical Current Consumption...................................................................................................... 42
Power Distribution.......................................................................................................................... 43
RF Characteristics ...............................................................................................................................43
RF Block Diagram ...............................................................................................................................46
Frequency Synthesizers................................................................................................................. 47
Receiver ............................................................................................................................................. 47
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Transmitter .......................................................................................................................................
Front End...........................................................................................................................................
Power Amplifier...............................................................................................................................
RF ASIC Helgo..................................................................................................................................
AFC function ....................................................................................................................................
Antenna .............................................................................................................................................
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47
48
49
49
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Glossary of Terms
ACI
Accessory Control Interface
ADC
Analog Digital Connector
AMSL
After Market Service Leader
ASIC
Application Specific Integrated Circuit
ASIP
Application Specific Integrated Passive
ADSP
Application DSP (expected to run high level tasks)
ARM
Advanced RISC Machines
BB
Baseband
BC02
Bluetooth module made by CSR
CCP
Compact Camera Port
CDSP
Cellular DSP (expected to run low level tasks)
COF
Chip on foil
COG
Chip On Glass
CSR
Cambridge Silicon Radio
CSTN
Color Super Twisted Nematic
CTSI
Clock Timing Sleep and Interrupt block of Tiku
DCT4.5
Digital Core Technology, generation 4.5
DSP
Digital Signal Processor
EMC
Electro Magnetic Compatibility
ESD
Electro Static Discharge
FCI
Functional Cover Interface
FR
Full Rate
FSTN
Film compensated Super Twisted Nematic
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GSM
HW
Hardware
IF
Interface
IHF
Integrated Hands Free
IMEI
International Mobile Equipment Identity
IR
Infrared
IrDa
Infrared Data Association
LCD
Liquid Crystal Display
LDO
Low Drop Out
LED
Light Emitting Diode
LPRF
Low Power Radio Frequency
MCU
Microprocessor Control Unit
NTC
Negative temperature Coefficient, temperature sensitive resistor
used as an temperature sensor.
PA
Power Amplifier (RF)
PDA
Personal Digital Assistant
PDRAM
Program/Data RAM (on chip in Tiku)
Phoenix
SW tool of DCT4.x
PUP
General Purpose IO (PIO), USARTS and Pulse Width Modulators
PWB
Printed Wired Board
PopPortTM
BB4.x system connector. It includes: USB, Stereo headset, Fbus.
RTC
Real Time Clock, small circuitry that keeps track of updating the
clock counter and the calendar. To keep it update without (or
empty) battery, an alternative power source can be used: small
battery or large capacitor.
SARAM
Page 6
Global System Mobile
Single Access RAM
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CCS Technical Documentation
SIM
Subscriber Identification Module
SW
Software
SWIM
Subscriber / Wallet Identification Module
SPR
Standard Product Requirements
STI
Serial Trace Interface
TCXO
Temperature controlled Oscillator
Tiku
Finnish for Chip, Successor of the UPP (Universal Phone
Processor), Official Tiku3G
UEME
Universal Energy Management Enhanced
UI
User Interface
USB
Universal Serial Bus
UPP
Universal Phone Processor
UPP_WD2
Communicator version of DCT4 system ASIC
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Baseband Module Introduction
This chapter describes the baseband module for the RH-12/RH-28 program. The baseband module includes the baseband engine chipset, the UI components and acoustical
parts of the transceiver.
The RH-12/RH-28 is a hand-portable GSM900/GSM1800/GSM1900 phone for the Smart
Classic segment, having the DCT4.5 generation baseband- and RF circuitry. The key driver
for this product is the implementation of EDGE, introducing true multimedia capability
from WCDMA in GSM single mode.
RH-12/RH-28 is equipped with the DCT4 connector, supporting most of the DCT4 accessories. The battery interface is relative new consisting of only 3 connections. Standard
battery will be the BL-5C battery with 850mAh.
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Features
The HW specific features of the RH-12/RH-28 phone:
•
Monoblock phone with easy exchangeable covers.
•
Tripleband Engine (900, 1800, 1900), US variant (850, 1800, 1900)
•
E-GPRS MSC 5 (2+2)
•
FR, EFR, AMR codecs
•
Integrated Camera and Colour Display 128x128
•
MMS (Multi Media Messaging), Java MIDP, SyncML & xHTML
•
MMC for storing pictures and sound
•
SWIM (dual function SIM)
•
MP3 Player
•
USB Interface to PC
•
IrDA
•
Bluetooth
•
FM Radio
•
IHF
•
PopPortTM Accessory support
Accessories:
•
Chargers: ACP7, ACP8, ACP9, ACP-12, LCH-8, LCH-9, LCH-12, AC-1 and DC-1.
•
Car accessories: CARK126, CARK112, BHF-1 and RAN CARKIT 610/810 (BT).
•
Audio accessories: HDB-4, HS-5, LPS-4, HS-10, HS-6, SU-3, HF-2, HDS-3, HDW1, HDW-2, DT-1
•
Connectivity accessories: DCV-14, DKU-2, DTL-4 and HDA-10.
•
Accessory covers: X-press on covers.
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CCS Technical Documentation
Environmental Specifications
Normal and extreme voltages
Following voltages are assumed as normal and extreme voltages for used battery:
Table 1: Normal and extreme voltages
Voltage
Voltage [V]
Condition
General Conditions
Nominal voltage
3,700
Lower extreme voltage
3,145
1
Higher extreme voltage
(fast charging)
4,230
2
Vmstr+
2,1 ± 0,1
Off to on
Vmstr-
1,9 ± 0,1
On to off
Sw shutdown
3,1
In call
Sw shutdown
3,2
In idle
Vcoff+
3,1 ± 0,1
Off to on
Vcoff-
2,8 ± 0,1
On to off
HW Shutdown Voltages
SW Shutdown Voltages
Min Operating Voltage
1
2
ADC settings in the SW might shutdown the phone above this value.
During fast charging of an empty battery, the voltage might exceed this value. Voltages between
4.20 and 4.60 might appear for a short while.
Temperature conditions
•
Operational temperature range (all specifications met within this range):
–5°C.. +55°C (stationary use)
•
Functional temperature range (reduced performance):
–30°C.. +70°C
•
Storage temperature range:
–30°C.. +85°C
Temperatures at –10°C, +25°C and +55°C are used for the cpk analysis.
The baseband module complies with the SPR4 Operating Conditions.
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Humidity
Relative humidity range is 5...95%.
The BB module is not protected against water. Condensed or splashed water might cause
malfunction. Any submerge of the phone will cause permanent damage. Long-term high
humidity, with condensation, will cause permanent damage because of corrosion.
The baseband module complies with the SPR4 Operating Conditions.
Vibration
The baseband module complies with the SPR4 Operating Conditions.
ESD strength
Standard for electrostatic discharge is IEC 61000-4-2 and level 4 requirements are fulfilled.
The baseband module complies with the SPR4 Operating Conditions.
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Technical Specifications
UEME
UEME is the Universal Energy Management Enhanced IC for digital hand portable
phones. In addition to energy management, the UEME functionality performs all baseband mixed–signal functions.
The different states of the UEME are explained below.
No supply
In the NO_SUPPLY mode the UEME has no supply voltage (VBAT & lt; VMSTR and
VBACK & lt; V_BUCOFF-). This mode is due to the fact, that both the main battery and the
backup battery are either disconnected or both discharged to a low voltage level.
The UEME will recover from NO_SUPPLY into the RESET mode, if the VBAT voltage level
rises above the VMSTR+ level, by either reconnecting the main battery or charging it to
such level.
Backup
In the BACK_UP mode the main battery is either disconnected or has a low voltage level
(VBAT & lt; VMSTR- and VBACK & gt; V_BUCOFF+).
The regulator VRTC that supplies the real time clock is disabled in the BACK_UP mode.
Instead the unregulated backup battery voltage VBACK supplies the output of the VRTC.
All other regulators are disabled and the phone has no functionality.
The UEME will recover from the BACK_UP mode into the RESET mode if VBAT rises above
VMSTR+.
Power off
In order for the UEME to be in the PWR_OFF mode, it must have supply voltage (VBAT & gt;
VMSTR+).
The VRTC regulator is enabled and supplying the RTC within the UEME. The UEME will
enter the RESET mode after a 20 ms delay whenever one of the below listed conditions is
logically true:
•
The power button is activated.
•
Charger connection is detected.
•
RTC alarm is detected.
The UEME will enter PWR_OFF from all other modes except NO_SUPPLY and BACK_UP if
the internal watchdog elapses.
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Reset
When the UEME enters the RESET mode from the PWR_OFF mode the watchdog is
enabled. If the VBAT fails to rise above the power-up voltage level VCOFF+ (3.1 V), before
the watchdog elapses, the UEME will enter the PWR_OFF mode. Otherwise, after a 200
ms delay the regulator VFLASH1 will be enabled and after an additional delay of 500 _s,
the regulators VANA, VIO, VCORE and VR3 will be enabled. All other regulators i.e.
VFLASH2, VSIM, VR1, VR2 and VR4 – VR7 are software controlled and disabled by
default. After an additional delay of 20 ms, the UEME enters the PWR_ON mode.
Power on
In PWR_ON the UEME is fully functional in the sense that all internal circuits are powered up or can be by means of software. The UEME will enter the PWR_OFF mode if VBAT
drops below VCOOF- for a period of time longer than 5 _s. The UEME will furthermore
enter the PWR_OFF mode if either of the watchdogs Operational State Machine (approx.
100 _s), Security (32 sec.) or Power Key (4 sec.) elapses or if any of the regulators triggers
the thermal protection circuitry.
Sleep
The UEME can be forced into the SLEEP mode by the Tiku by setting the input SLEEPX low
for more than 60 _s. This state is entered when the external Tiku activity is low (phone in
sleep) and thereby lowering the internal current consumption of the UEME. The regulator
VANA is disabled and VR1 – VR7 are either disabled or in low quiescent mode. From
SLEEP the UEME enters PWR_ON if SLEEPX goes high, the PWR_OFF mode if watchdog
elapses or the BACK_UP mode if VBAT drops below VMSTR-.
Protection mode
The UEME has two separate protection limits for over temperature conditions, one for
the charging switch and one for the regulators. The temperature circuitry measures the
onchip temperature. In case of charging over temperature, the circuit turns the charging
switch off. In case of over temperature in any of the regulators, the UEME powers off.
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DC Characteristics
The figures in the following table reflect the specification of the voltage and current regulators within the UEME.
Table 2: UEME Regulator Output and State in Sleep
Voltage (V)
Name
Current (mA)
Filter
Comment
2
5uA minimum for stability.
Controlled by the UEME. Disabled
in Sleep mode.
1.5
1
5uA minimum for stability. Controlled by the UEME.
150
0.5
3
5uA minimum for stability. Controlled by the UEME.
1.59
200
0.2
1
5uA minimum for stability.
MCUSW is setting the voltage.
1.80
3.0
1.855
3.09
50
0.5
1
Voltage level is set by MCUSW.
2.70
2.78
2.86
70
0.5
1
5uA minimum for stability.
VAUX3
2.70
2.78
2.86
10
0.5
1
5uA minimum for stability.
VSIM
1.745
2.91
1.80
3.00
1.855
3.09
25
0.5
-
5uA minimum for stability.
VR1A/B
4.60
4.75
4.90
10
-
4
Disabled in Sleep mode. The maximum current is for 1 regulator
active. If both are used, maximum 5mA each.
VR2
2.70
(2.61)
2.78
(2.78)
2.86
(2.95)
100
-
5
100uA minimum for stability.
Active during (Sleepmode).
VR3
2.70
2.78
2.86
20
-
4
100uA minimum for stability.
Controlled by the UEME.
VR4
2.70
2.78
2.86
50
0.1
6
100uA minimum for stability.
VR5
2.70
2.78
2.86
50
0.1
7
100uA minimum for stability.
VR6
2.70
2.78
2.86
50
0.1
7
100uA minimum for stability.
VR7
2.70
2.78
2.86
45
-
7
100uA minimum for stability.
Min
Nom
Max
Max
VANA
2.70
2.78
2.86
80
VFLASH1
2.61
2.78
2.95
70
VIO
1.72
1.80
1.88
VCORE
1.41
1.50
VAUX1
1.745
2.91
VAUX2
Sleep
Max
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CCS Technical Documentation
Power Distribution
The connection of the miscellaneous power connection can be seen in the following
overview.
Figure 1: Power distribution
VBUS
VOUT
Amplifier
ESD
UEME
PwrOnX
Display
illumination
BuzzO
ESD
2.78V
VR1A 4.75V
VR1B 4.75V
VR2
2.78V
VR3
VR5
2.78V / 3.6V
VR6
2.78V / 3.6V
VR7
2.78V / 3.6V
VANA
LED
driver
2.78V VFLASH1
2.78V / 3.6V
Parallel
Display
LCD Driver
Keyb Light
2.78V / 3.6V
VR4
VAUX3
2.78V
DIGITAL
BLOCKS
BSI
VAUX2
2.78V
BTEMP
LS
RF CODECS
AUDIO CODEC
" On Key "
LED
driver
IR
Module
VCharIn
PAOUTN
PAOUTP
Vibra
VCC
1.8/3.0V
VSIM
1.8/3.0V VAUX1
1.0-1.8V VCORE
DIGITAL
BLOCKS
1.8V
RF Regulators
Memory
Card
1,8V VIO
2.8V
LP3987
BB Regulators
CCP
Camera
UEMRstX
SleepX
VBack
PURX
SleepClk
DLight
VRefRF02
VRefRF01
Keyboard
ESD
Vibra
VCharOut
ESD
NUT
TOMAHAWK
CHARGER
ACI
HF
Speaker
KLight
FM Radio
VBack
VBAT_RF
VXO
TIKU
EDGE
HELGA
RF
LM2708
1.5V
VCORE
RFClock
SDRAM 64Mb
BC02
BATT
BSI
FLASH 64Mb
ZOCUS-C
Lynx
Battery
FLASH 64Mb
FCI
VBAT
2.8V
MAS9161
Matrix
Power Distribution Diagram
Ver. 0.3 Søren Larsen, Copenhagen
15.05.2003
CONFIDENTIAL
Copyright 2002 Nokia Mobile Phones
Issue 1 02/04
Nokia Corporation
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Tiku
This is the main digital baseband ASIC.
Main Features
The Tiku consists of the following sections:
•
Arm 925 MPU
•
A-DSP (Lead3 for Application sw – 4KB ApiRam, 128KB saram, 32KB daram)
•
C-DSP (Lead3 for Cellular sw – 4KB ApiRam, 128KB saram, 32KB daram)
•
DSP Co-processors (DCT and Motion Estimator) on both DSP
•
Corona EDGE hardware accelerator
•
Serial flash interface (SFI001)
•
2G Body logic, as in UPP-WD2
•
4Mb of pdram.
•
Traffic controller for memory interface (dct4 flash/sram, sdram)
•
General purpose USARTs
•
SIM card interface
•
2nd SIM interface (used for MMC)
•
I2C interface (used for FCI)
•
GSM coder
•
Interface control for: keyboard, LCD, Camera, audio and UEME control
•
Accessory interfaces: IrDa and LPRF (Bluetooth)
•
Handling of RF-BB interface
•
I/O voltage = 1.8V, Core voltage = 1.5V
•
TI 15C035 process (Tiku version 1.11)
•
288 pins uBGA, 0.5mm pitch, 12 mm x 12 mm package (Tiku version 1.11)
The Brain consists of 5 sections; the ARM925 Mega-Module, (consisting of the ARM9
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MCU, Cache memory, Parallel LCD Controller, and Traffic Controller), C-DSP Lead 3
Mega-Module, A-DSP Lead 3 Mega-Module, PDRAM, and PDA Peripherals.
The ARM-Mega-Module has a Traffic controller, which provides the interface between
the MCU, external memories, LCD controller, and internal busses. It also processes the
data packages for memory access.
The PDA Peripherals consists of Camera Compact Port (CCP) interface, Multi-Media Card
(MMC), IR, USB, and Display interfaces.
Memory Block
For the MCU, TIKU includes ROM, 2 kbytes, that is used mainly for boot code of MCU.
For the program memory, 4Mbit (256K x 16bit, organized as 8 banks of 64Kb) PDRAM is
integrated. RAM is mainly for MCU purposes. The MCU can also store a code into the
external flash memory, which consist of one NOR flash and one NAND flash. The size of
the NOR flash is 128Mbit (8Mbit x16bit) and it’s used for primary application code. The
secondary flash is a NAND flash, which is used for slow accessible data such as user-settings, pictures, ringtones etc. (non speed dependent code). The size of the NAND flash is
64Mbit (4096K x 16 bit).
Memory
The external memory interface consists of three different type of memory, used for different purposes.
NOR Flash
The NOR flash is used as the primary data storage. Here the MCU sw package is stored.
Furthermore, the memory is capable of handling burst mode (multiplexed address/databus) and memory blocking, which is controlled by TIKU.
NAND Flash
The NAND flash is used as the secondary data storage, mainly used for user specific data
like sounds, games, pictures and other applications. This device also stores language
package.
SDRAM
The SDRAM is used as a data handling memory.
The SDRAM interface to TIKU is different than the 24 lines multiplexed data/address bus
used for the flash memory. First the address is set up then the data is latched out in a
normal asynchronous/synchronous way. In the synchronous mode, the data is clocked
out at a maximum frequency at 133MHz.
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Charging
The RH-12/RH-28 program is conform to the global NMP Charger Interface.
This comprehensive interface ensures future proofing should new chargers become available.
Charging is controlled by the UEME and external components are needed for EMC,
reverse polarity and transient protection of the input to the baseband module. The
charger connection is through the system connector interface. The DCT4.5 baseband is
designed to support DCT3 chargers from an electrical point of view. Both 2- and 3-wire
type chargers are supported. 3-wire chargers are treated as 2-wire (PopPortTM specifications).
The operation of the charging circuit has been specified in such a way as to limit the
power dissipation across the charge switch and to ensure safe operation in all modes.
Figure 2: Charging
TRANSCEIVER
0R22
VBATBB
Feedthrough cap
VCHAROUT
1uF
10nF
GND
GND
CHARGER
UEME
1,5A
VCHARIN
VBATREGS
Charger
CHACON
Section
27pF
GND
SMF16A
GND
Filter
cap.
1uF
1000uF
max
GND
GND
GND
Connecting a charger creates voltage on VCHAR input. When VCHAR input’s voltage
level is detected to rise above the VCHDET+ threshold by CHACON, the charging starts.
The VCHARDET signal is generated to indicate the presence of the charger. However,
detection output signal must be gated always to a logical ‘0’ when MSTRX=‘0’, in order
not to force logical high level to the UEME’s internal blocks that are not supplied at the
time. Level crossing detection of the VCHAR line is used to generate synchronizing pulses
for UEME’s state machine for control of rectifier type chargers. The VCHARDET output
gives a logical ‘1’ when the VCHAR input is detected to be above the VCHDET+ level and
‘0’ when the VCHAR input level is below VCHDET.
Figure 3: Detection of charger / generation of charger synchronisation pulses
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In case the main battery is fully discharged and the UEME subsequently is without
power, i.e. in NO_SUPPLY or BACKUP mode, the start-up charging circuitry is in control,
giving the possibility to detect a charger and engage charging. If the VBAT level is
detected to be lower than the master reset voltage (VMSTR-) the CHACON will charge
the battery with a constant current of 100 mA until VBAT exceeds VMSTR+. When this
happens, from a charging point of view, normal PWM charging situation resumes. A
PWM signal is generated by the digital part of the UEME, which sources the CHACON.
The frequency of the signal can be either 1 Hz or 32 Hz. If the connected charger is of a
2-wire kind, e.g. ACP- 7, the PWM signal has the frequency of 1 Hz. If the charger on the
other hand is a 3-wire type, e.g. ACP-9, the switch is left on permanently and the 32 Hz
PWM control signal routed to the charger in order to produce a constant voltage.
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Battery
Type: BL-5C
Technology: Li-Ion. 4.2V charging. 3.1V cut-off
Capacity: 850 mA/h (BSI=75K)
The battery is a Li Ion based standard cell with LiMnO chemistry.
This type of battery has a three-pin connector (BTEMP is not used).
Figure 4: BL-5C Battery
Table 3: BSI Levels BL-5C Battery
Mode
BSI (kOhm /
Min
Normal
Type
Description
Max
75
Used for calculating the Capacity (BL5-C = 850mA)
Service
3.2
3.3
3.4
Pull-down resistor in battery. Used for fast power-up in production (LOCAL mode), R/D purposes or in aftersales, 1% tolerance resistors shall be used.
Test
6.7
6.8
6.9
Pull-down resistor in battery, used in production for testing
purposes. 1% tolerance resistors shall be used.
Banned
& lt; 3.2
Inside the battery, an over-temperature and an over-voltage protection circuit are implemented.
Care should be taken with the temperature. If the battery is charged above 60 degrees
Celsius, overheating might occur.
Interfaces
FM-Radio
The FM radio circuitry is implemented using a highly integrated radio IC, TEA5767HN.
The MCU SW controls the FM radio circuitry through serial bus interface.
The stereo output is fed to the UEME on one of the microphone inputs.
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The antenna of the FM Radio is created with the headset. The wires of the headset are
used as poles of the antenna.
Only version TEA5767HN-VF1 and newer can be used. The previous versions have a 2.78V
digital interface and need level shifters.
While W/R (WRITE/READ) is HIGH the TIKU can transmit data to the TEA5767. At the rising edge of the Bus clock, the register shifts and accepts the stable bit. At clock low the
TIKU writes the following bit. A tuning function is started when the W/R signal changes
from HIGH to LOW. Was a search tuning requested sent, the IC autonomously starts
searching the FM band. Search direction and search stop level can be chosen. Was a station with a fieldstrength equal or higher than this stop level found, the tuning system
stops and the Found Flag bit is set to “HIGH”. Was during search a band limit reached,
the tuning system stops at the band limit and the Band Limit flag bit is set to high. Also
the Found Flag is set to high in this case.
While Write/Read is “LOW” the Tiku EDGE can read data. At the rising edge of the BUS
Clock, data will be shifted out of the register. This data is available from the point where
the bus clock is HIGH until the next rising edge of the clock occurs.
Interface to Engine
Figure 5: FM Radio schematic
TIKU
UEME
SDA
SCL
W/R
VAFL
MIC3NR
TEA5767
FMCtrlDa
FMCtrlClk
FMWrEn
MIC3PR
MIC3N
MIC3P
GPIO25
GPIO24
GPIO22
GENIO8
VIO
1
Filter
VAFR
C1
GND
FMClk
L1
Ant
Clk
VFLASH1
VDIG
1U
C2
C3
C4
14
Tomahawk
GND
IrDA
The RH-12/RH-28 phone supports data connectivity via the Infra Red link. The IR interface is integrated into the TIKU and the main external component is the IR module. The
datarate supported will be 1.152Mbit.
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Interface to Engine
This interface receives data from and transmits data to peripheral equipment. It transforms serial data to parallel data for the MCU or DSP and vice versa. The IAccIF IR interface is divided into two blocks, MIR and FIR. IR is a UART-based block for baud rates in
the range 9600 bit/s to 115.2 kbit/s, and FIR is for the 1.152 Mbit/s rate. Both parts have
the same physical connections so they cannot be used simultaneously. The shut down pin
SD can power off the module.
The maximum distance in the RH-12/RH-28 phone configuration is approximately 20
centimetres.
The SIR block (9600 bit/s to 115.2 kbit/s):
•
Supports IrDA format with speeds up to 115.2 kbit/s
•
Supports Phonet format, having all the same baud rates (9600 bit/s – 115.2kbit/s)
as Fbus.
The FIR block (1.152 Mbit/s):
•
Supports IrDA format with baud rate 1.152 Mbit/s.
•
Both these blocks are sub-divided into IR transmitter and IR receiver. Interconnection details are shown in the following figure and table.
Figure 6: IRDA Interconnections between Tiku and UEME
VBATT
IR Module
UEME
Tiku EDGE
LEDA
VLOGIC
Vdd
LEDC
GND
IRSD(GenIO23)
IrRx (GPIO 0)
IrTx (GPIO 1)
SD
RxD
TxD
VIO
VFLASH1
Table 4: IRDA connections between Tiku EDGE and the IR module
Name
I/O
Engine connection
Description
TXD
O
TIKU
GPIO1: [IRTx]
Transmitted data output to IR Module
RXD
I
TIKU
GPIO0: [IRRx]
Received data input from IR Module.
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SD
O
TIKU
GenIO23: [IRSD]
IR Module shut down.
VLOGIC
O
UEME
VIO
Supply voltage for digital parts, 1.8 V.
VCC
O
UEME
VFLASH1
IR Module supply voltage, 2.78 V.
LEDA
O
VBATT
IR LED Anode supply voltage.
Camera
The RH-12/RH-28 phone is equipped with a VGA resolution camera with an active area
of 660H x 492V. Pictures delivered to engine are standard VGA (640 x 480). This camera
is able to transfer up to 30 frames per second in the viewfinder mode and 15 frames per
second in full resolution mode (VGA). Full resolution pictures are in RGB 5:6:5 or YUV
4:2:2 (10 bits raw sensor resolution). The camera used is a Mirage-1 TCM8100MD module.
Mounting
The camera is placed physically almost inside the antenna on the backside of the phone
PWB. The camera fixture (spring type, see the figure below) is located between the RF
shielding cans. Shielding is done in a combination of metalized plastic housing of the
camera module and ground connected spring/clip fixture.
Experience shows that good shielding is necessary. The metalized housing and the spring/
clip will shield the camera. The hole for the lens is kept as small as possible to avoid
direct EMC entrance into camera module by lens opening.
Figure 7: Camera Module Mounting
Lens
CMOS
sensor
Spring/clip fixture
Camera module
(metalized plastic)
Springs
PWB
Camera connector
Interface to Engine
The camera is connected to the TIKU via a dedicated differential camera bus called CCP.
The control of the camera is routed through normal-type general I/O ports. The camera
uses 2 different supplies; analog and digital supply.
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Figure 8: Camera Interface
Camera
TIKU
CCPDATAP
CCPDATAN
CCPCLKP
CCPCLKN
SDA
SCL
EXTCLK
1
3
1
2
1
0
9
C1
CCP(0)
CIFDaP
100R
CCP(1)
E4
CCP(2)
D2
CIFDaN
VIO
100R
CCP(3)
4k7 4k7
CIFClkP
F4
CIFClkN
L
4
L
7
K3
7
6
5
GenIO26 (SDA (I2C) CAM)
GenIO25 (SCI (I2C) CAM)
GenIO24 CAMClk)
4k7
3p3
XSHUTDOWN
4
L
3
GenIO27 CAMVCtrl)
UEME
DGND
VDIG
DGND
VANA
AGND
SHIELD
1
4
1
1
8
3
600R/100MHz
600/100MHz
2
1 100n
100n
27p
1
3
VCORE
1
3
VFLASH1
27p
Power supply to the camera module doesn't need to be shut down when the camera is in
the idle mode. The camera uses very low stand-by current (1 mA in current spec).
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SIM
The UEME contains the SIM interface logic level shifting. The SIM interface can be programmed to support 3V and 1.8V SIMs.
The SIM interface is powered up when the SIMCardDet signal indicates, ”card in”. This
signal is derived from the BSI signal.
Interface to Engine
Figure 9: TIKU/UEME SIM Interface Connections
UEME
Tiku
GND
SIMData
Data
Data
SIMClk
SIMClk
SIMRst
C4
C3
C2
SIMClk
C1
GND
SIMIF Block
C8
C7
C6
C5
SIM
SIMIO
SIMIO
UIF Block
VSIM
UEME Dig.
Logic
UEMInt
CBusDa
CBusEnX
CBusClk
From Battery
type contact
BSI
The internal clock frequency from the CTSI Block is 13 MHz in GSM.
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Figure 10: SIM Interface Data
MMC
The RH-12/RH-28 phone is equipped with a standard MMC card connector. The MMC
card is physically placed under the battery, on top of the BB shielding can. The MMC card
can be replaced when the phone is powered off, and the b-cover and battery are
removed. The RH-12/RH-28 phone is able to accept all known high and dual voltage
types of MMC cards. Only limitation is a maximum current withdrawal of 150 mA, where
the maximum current class of MMC cards is 200mA.
Table 5: VMMC power specifications
Name
Voltage (V)
Current (mA)
Min
VMMC
Page 26
Nom
Max
2.85
2.94
150
Comment
Max
2.76
Filter
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CCS Technical Documentation
Mounting
The MMC card is mounted as shown in the figure below, seen from the backside of the
phone, with the b-cover and battery removed. The MMC card slides in from the right
side.
Figure 11: MMC Card Placement
Interface to Engine
The MMC card is connected to the engine at UEME. MMC uses the dedicated MMC/secondary SIM (SWIM) card interface.
As it can be seen in the figure below, the MMC card uses an external regulator VMMC
as supply.
Figure 12: MMC Card Engine Interface
Tiku EDGE
UEME
LDO
Voltage
regulator
GPIO15
GPIO17
GPIO19
GPIO16
GPIO18
GEN18i01
GEN18i02
GEN18i03
GEN18i04
GEN18i05
Level shifters
2,85V
GENIO28i01
GENIO28i02
GENIO28i03
MMC Card
MMC Clock
MMC Cmd
MMC Data
Bluetooth
The Bluetooth solution for the RH-12/RH-28 phone is a single chip solution designed by
CSR.
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Interface to Engine
Figure 13: BT HW Interface
Vbatt (3 - 5,4V)
2,8V LDO
PURX
ENABLE
RF Filter +
Balun
VIO
RF_Clock
BB 4.5
VDD_IO
VREG_IN
XTAL_IN
PCM_CLK
PCM_IN
PCM_OUT
PCM_SYNC
BT_ResetX
UART_RX
UART_TX
UART_RTS
UART_CTS
BT_WAKEUP
HOST_WAKEUP
PCM_CLK
PCM_OUT
PCM_IN
PCM_SYNC
RESETX
UART_TX
UART_RX
UART_CTS
1,8V
LDO
TX_A
TX_B
VDD_ANA
BC02
UART_RTS_P - PIO(2)
UART_CTS_P - PIO(3)
BT_WAKEUP - PIO(4)
HOST_WAKEUP - PIO(6)
VDD_RADIO
VDD_VCO
VDD_CORE
VDD_MEM
FLASH_EN
Power Management
The external BT regulator is enabled by PURX, witch is an internal UEME reset signal. This
signal is high whenever the phone is powered on, which also is the case in sleep.
This means that the BC02 module power is always on. Due to this, the modules use sw
power down, witch results in a constant current consumption of approx. 100µA, when
the BC02 module is in sleep.
Sw Interface
Host and Bluetooth module interface can be logically divided into audio, user data and
control interfaces.
User audio at 8 ksamples/s is exchanged between the host and the Bluetooth module on
a PCM connection. (Optionally, the audio data can be multiplexed on a logical UART
channel).
Accessorey Interface (ACI)
ACI (Accessory Control Interface) is a point-to-point, Master-Slave, bi-directional serial
bus. ACI supports the following features:
• The identification of accessory type is provided
• The insertion and removal detection of an accessory device
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•
Providing power to the accessory: 200mW Power out
•
Reference voltage to the accessory
The insertion / removal detection is provided by the HeadInt input.
Figure 14: ACI schematics
Phone Board
ARM
ACI Accessory
UEME
VAUX2
IRQ
FIQ
HeadInt
Comp.
CBUS
VOUT
Vhead
Cbypass
Vflash1
ACI ASIC
VFLASH1
120k
PUP
Level
Shifter
ACI Block
ACI
HEADINT
RX
TX
GND
Tomahawk
TIKU
Authentication
Ccom
GND
GND
Comm.
Logic
EEPROM
RC
Clock
56K
I/O
Logic
GND
GND
GND
The Vout pin on the PopPortTM provides external power to accessories. The Vout is supplied by VAUX2 and can be controlled by the UEME. VAUX2 is short circuit protected.
Table 6: Vout specifications
Voltage (V)
Name
VAUX2
Current (mA)
Min
Nom
Max
Max
Sleep
Max
2.70
2.78
2.86
70
0.5
Filter
Comment
1
FBUS
More intelligent accessories can use the serial FBUS connection.
These devices can use Vout as the power supply and ACI for identification.
FBUS is an asynchronous data bus having separate TX and RX signals. Default bit rate of
the bus is 115.2 Kbit/s. FBUS is mainly used for controlling the phone in the production
and for interface to PC via serial cables. Tiku can also support fast bus. This is FBUS with
a bitrate of 1.2Mbit.
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Fbus is using the same pins as the USB connection.
Table 7: Fbus signals
Name
Name
FBUS RX
Voltage (V)
Comment
Max
VIH
1.95
2.78
3.00
0.7*VFLASH1
0
0.20
0.83
0.3*VFLASH1
VOH
1.95
2.78
3.00
0.7*VFLASH1
VOL
Rise Time
Nom
VIL
FBUS TX
Min
0
0.20
0.83
0.3*VFLASH1
12.5ns
For Rx and Tx signals
USB
The Nokia USB device solution is supported using the Wireless 2 Function Controller
(W2FC) core. This core is included in the TIKU ASIC. The core completes several USB functions automatically and is controlled by the ARM9 MCU.
NUT provides the interface between the ASIC's 1.8 V bus and the 3.3 V USB bus. In addition, NUT is capable of transmitting and receiving Fbus signals to and from the Fbus
UART in Tiku.
Nokia USB Transceiver (NUT) is fully compliant with the Universal Serial Bus Specification Rev. 1.1.
NUT is able to transmit and receive serial data at full-speed (12 Mbit/s).
The USB signal ESD protection and line matching resistance, and USB pull-up resistor is
included to the USB ASIP. This component also includes ESD protection for VOUT and ACI
system connector pins.
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Figure 15: USB Circuit
UI Interface
Display Unit
Hardware Interface:
The Display Unit interface is a parallel interface consisting of the following:
•
8-bit data bus (DISPDATA(7:0))
• Write enable WRX
• Read enable RDX
A 24-pin connector as shown in the figure below provides the interface between the Display Unit and the Engine PWB.
Internally, the TIKU DIF block has interfaces with the VIA bus and the secondary DMA
controller.
Interconnection details are shown in the figure below.
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Figure 16: Display Unit Connections
Tiku
Display Unit
DIFDa[7:0]
WRX
RDX
A0
TE
RESETX
UEME
VIO
VFLASH1
P_S
LED Drivers
VLED1+
VLED2+
VLED3+
VLEDCSX
GND
GND
GND
GND
Keyboard and Navigator
The RH-12/RH-28 phone consists of a mainboard with interface to the UI board. The
connection between the main board and the UI board is via a board-to-board connector.
The signals on the board-to-board connector are:
•
Signals for LED's
•
Signals for numeric Keypad and navigation key
The UI board is the base for the keyboard, which includes a five-way navigation key.
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Figure 17: Keyboard layout with special keys for Navi_Up, Navi_Down and Navi_Select
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Table 8: Keyboard allocation Tiku GPIO
Keypad matrix and
Navigation key
Navigation
Key
Left
Tiku connection
Description
Tiku
Separate controllines (Special keys) for
Navi_Up, Navi_Down and Navi_Select.
Navi_Left and Navi_Right are connected to the
keyboard matrix
-
Up
Right
-
Down
GPIO 7
Select
GPIO 13
GND
Keypad
GPIO 6
-
Column 0
Tiku
GPIO 2
Column 1
GPIO 3
Column 2
GPIO 4
Column 3
GPIO 5
Row 0
GPIO 8
Row 1
GPIO 9
Row 2
GPIO 10
Row 3
GPIO 11
Row 4
Tiku, Keyboard interface KDI in the UIF block,
GPIO 12
Multiple-keypress:
The RH-12/RH-28 phone will implement multiple keypress. By multiple keypress we
mean the ability to detect that the user has pressed several keys simultaneously. The
incitement for implementing this functionality is mainly the support for Java and the
requirements set by games.
UI software is capable of supporting multiple keypress, while core SW will have to incorporate this feature into the keyboard driver.
With the current implementation, the design supports 2 simultaneously arbitrarily
pressed keys in the keyboard matrix, together with any combination of Navi_Up,
Navi_Select and Navi_Down (The special keys).
LED Driver
The RH-12/RH-28 phone UI module has 2 sets of LED's:
•
3 pcs. for LCD – LED: White
•
2 pcs. for Keyboard (prepared for 4) – LED: White, sidefiring
Both groups are individual controllable by the PWM output signal from UEME ASICs
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Figure 18: . LED driver block
Vbat
TK11851L
Dlight
UEME
LCD
Keypad
configuration
is optional
Intensity Control:
LEDs are controlled by the PWM output from UEME UI block. The PWM controls can be
adjusted in 8-bit step (256). The TK11851L contains a sleep mode. This mode is achieved
when the Dlight signal is low.
Vibra
A vibra-alerting device is used to generate a vibration signal for an incoming call. The
vibra is placed in the top of the phone. It is placed in the D-cover next to the microphone.
The vibra is electrically connected to the PWB by spring contacts.
The vibra is controlled from the UEME by a PWM (Pulse Wide Modulated) square wave
signal.
IHF-speaker
Alerting tones and/or melodies are generated by an Internal HandsFree speaker, which is
controlled by a PWM signal from the UEME.
The ringer melodies will be optimised in MCU so the main frequency of any given melody
is shifted to near the resonant peak. Sound hole is placed in the D-cover The IHF is electrically connected to the PWB by spring contacts.
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RF Interface
The interface between baseband and the RF section is shown below:
Figure 19: Simplified RF/BB Interface Block Diagram
RF_BB interface
Antenna Switch
RF_RF interface
VCO
LNA
4 GHz
BC 02
BT Module
TXA
TXP
Reset
RF-Bus: Ena, Clk & Data
3 DBUS
26 MHz
VCTCXO
26 MHz
AFC
2 Rx I/Q
4 Tx I/Q
2xVref
AuxD
2 RxI/QDa
RFConvClk
Zocus-C
Battery
BL-5C
HELGA
UEME
RFI and Codec
BB & RF regulators
2 TxI/QDa
Edge Mode
BB
7xVreg
RF
PLL, Dividers
Tx IQ modulator
RFtemp
TXC
TxPwrDet
IPA1
IPA2
LNA2, Mixer,
AGC, DTOS
LPRF Clk 26 MHz
PA
TIKU
MCU, ASIC, CDSP & ADSP
Test Pattern
Test pads are placed on engine PWB for service.
RH-12/RH-28 has adopted the two-row test pattern layout. The basic test pads
(FBUS_TX, FBUS_RX, VPP, MBUS & GND) have a defined location, while optional signals
can be on either side of the test pads. The ‘DAI_CLK’ is included as an optional signal.
For specific test pad placement, please see the figure below.
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Figure 20: Production Test Pattern
1
4
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3
6
1: TXD / FBUS_Tx
2: RXD / FBUS_Rx
3: DAI_CLK
4: VPP
5: SCK / MBUS
6: GND
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J470
VBAT
J471
GENTEST0/STJTxD
J473
STJRxD
J472
GENTEST1/STJClk
J474
GND
J488
EMU1
J487
EMU0
J484
JTD0
J483
VCC
J482
JTDI
J417
SDRAd0
J416
SDRDa0
J402
SDRCKE
J481
JTRst
J489
GND
J485
JClk_rst
J486
JTClk
J480
JTMS
J420
MMICS0X
J403
SleepX
J407
DBusClk
J410
DBusEn1X
J418
MMIDa0
J401
SleepClk
J414
CBusEnX
J413
CBusDa
J412
CBusClk
J411
UEMInt
J404
PURX
J408
DBusDa
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RH-12/RH-28
System Module
Test Points
See the following two figures for an indication as to where some of the test points can
be found.
Main board A side of PWB
CCS Technical Documentation
J356
FMCtrlDa
J357
FMCtrlClk
J108
USBRx
J107
USB6Z
J109
USBRxM
J113
USBSuspend
J359
FMClk
J100
VBAT
J358
FMWrEn
J306
IHF1
J101
BSI
J104
Vpu
J307
IHF0
J110
USBRxP
J315
FCI supply
J319
GND
J317
FCI scl
J316
FCI sda
J318
FCI Int
J105
D+/RXD
J106
D-/TXD
J112
USBTx
J111
USBSE
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Main board B side of PWB
RH-12/RH-28
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CCS Technical Documentation
RF Module Introduction
The RF module performs the necessary high frequency operations of the EGSM900/
GSM1800/GSM1900 triple band (EDGE) engine in the RH-12/RH-28 product. The
EGSM900 is rematched to GSM850 in the RH-28 product.
Both, the transmitter and receiver have been implemented by using direct conversion
architecture, which means that the modulator and demodulator operate at the channel
frequency.
The core of the RF is an application-specific integrated circuit, Helgo. Another core component is a power amplifier module, which includes two amplifier chains, one for
GSM850/EGSM900 and the other for GSM1800/GSM1900.
Other key components include:
•
26 MHz VCTCXO for frequency reference
•
3296-3980 MHz SHF VCO (super high frequency voltage controlled oscillator)
•
front end module comprising a RX/TX switch and two RF bandpass SAW filters
•
three additional SAW filters
The control information for the RF is coming from the baseband section of the engine
through a serial bus, referred later on as RFBus. This serial bus is used to pass the information about the frequency band, mode of operation, and synthesizer channel for the RF.
In addition, exact timing information and receiver gain settings are transferred through
the RFBus. Physically, the bus is located between the baseband ASIC called UPP and
Helgo. Using the information obtained from UPP, Helgo controls itself to the required
mode of operation and further sends control signals to the front end and power amplifier
modules. In addition to the RFBus, there are still other interface signals for the power
control loop and VCTCXO control and for the modulated waveforms.
The RF circuitry is located on the top side of the 8 layer PWB.
EMC leakage is prevented by using a metal cans. The RF circuits are separated to three
blocks:
•
FM radio
•
PA, front end module, LNA and 1900 band SAWs
•
Helgo RF IC, VCO, VCTCXO, baluns and balanced filters
The RF transmission lines constitute of striplines and microstriplines after PA.
The baseband circuitry is located on the one side of the board, which is shielded with a
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meallized frame and ground plane of the UI-board.
RF Frequency Plan
RF frequency plan is shown below. The VCO operates at the channel frequency multiplied
by two or four, depending on the frequency band of operation. This means that the baseband-modulated signals are directly converted up to the transmission frequency and the
received RF signals directly down to the baseband frequency.
Figure 21: RF Frequency Plan
DC Characteristics
Regulators
The transceiver baseband section has a multi-function analog ASIC, UEM, which contains
among other functions six pieces of 2.78 V linear regulators and a 4.8 V switching regulator.
All regulators can be controlled individually by the 2.78 V logic directly or through a control register.
The use of the regulators can be seen in the power distribution diagram, which is presented in the Figure Power Distribution Diagram below.
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The seven regulators are named VR1 to VR7. VrefRF01 and VrefRF02 are used as the reference voltages for the Helgo, VrefRF01 (1.35V) for the bias reference and VrefRF02
(1.35V) for the RX ADC (analog-to-digital converter) reference.
The regulators (except for VR7) are connected to the Helgo. Different modes of operation
can be selected inside the Helgo according to the control information coming through
the RFBus.
Table 9: List of the needed supply voltages
Volt. Source
Load
VR1
PLL charge pump (4.8 V)
VR2
TX modulators, VPECTRL3s (ALC), driver
VR3
VCTCXO, synthesizer digital parts
VR4
Helgo pre-amps, mixers, DtoS
VR5
dividers, LO-buffers, prescaler
VR6
LNAs, Helgo baseband (Vdd_bb)
VR7
VCO
VrefRF01
ref. Voltage for Helgo
VrefRF02
ref. Voltage for Helgo
Vbatt
PA
Typical Current Consumption
The table below shows the typical current consumption in different operation modes.
Table 10: Typical current consumption in different operation modes
Operation mode
Current consumption
Notes
Power OFF
& lt; 10 uA
Leakage current (triple band PA)
RX, EGSM900
75 mA, peak
RX, GSM1800/GSM1900
70 mA, peak
TX, power level 5, EGSM900
1700 mA, peak
TX, power level 0, GSM1800/
GSM1900
1000 mA, peak
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Power Distribution
Figure 22: Power Distribution Diagram
RF Characteristics
Table 11: Channel Numbers and Frequencies
System
Channel number
TX frequency
RX frequency
Unit
GSM850
128 & lt; = n & lt; = 251
F = 824.2 + 0.2∗(n – 128)
F = 869.2 + 0.2∗(n-128)
MHz
GSM900
0 & lt; =n & lt; =124
F = 890 + 0.2∗n
F = 935 + 0.2∗n
MHz
975 & lt; = n & lt; = 1023
F = 890 + 0.2∗ (n -1024)
F = 935 + 0.2∗(n -1024)
MHz
GSM1800
512 & lt; = n & lt; = 885
F = 1710.2 + 0.2∗ (n-512)
F = 1805.2 + 0.2∗ (n-512)
MHz
GSM1900
512 & lt; = n & lt; =810
F = 1850.2 + 0.2∗ (n-512)
F = 1930.2 + 0.2∗ (n-512)
MHz
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Table 12: Main RF Characteristics
Parameter
Unit and value
Cellular system[RH-12]
[RH-28]
EGSM900/GSM1800/GSM1900
GSM850/GSM1800/GSM1900
RX Frequency range
GSM850: 869 … 894 MHz
EGSM900: 925 ... 960 MHz
GSM1800: 1805...1880 MHz
GSM1900: 1930...1990 MHz
TX Frequency range
GSM850: 824 … 849 MHz
EGSM900: 880 ... 915 MHz
GSM1800: 1710 ...1785 MHz
GSM1900: 1850 …1910 MHz
Duplex spacing
GSM850: 45 MHz
EGSM900: 45 MHz
GSM1800: 95 MHz
GSM1900: 80 MHz
Channel spacing
200 kHz
Number of RF channels
GSM850: 124
EGSM900: 174
GSM1800: 374
GSM1900: 300
Output Power
GSM850: GSMK 5…33 dBm
GSM850: 8-PSK 5…27 dBm
EGSM900: GSMK 5…33 dBm
EGSM900: 8-PSK 5…27 dBm
GSM1800: GSMK 0…30 dBm
GSM1800: 8-PSK 0…26 dBm
GSM1900: GSMK 0…30 dBm
GSM1900: 8-PSK 0…26 dBm
Number of power levels GMSK
GSM850: 15
EGSM900: 15
GSM1800: 16
GSM1900: 16
Number of power levels 8-PSK
GSM850: 12
EGSM900: 12
GSM1800: 14
GSM1900: 14
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Table 13: Transmitter Characteristics
Item
Values (EGSM900/1800/1900)
Type
Direct conversion, nonlinear, FDMA/TDMA
LO frequency range
GSM850: 3296…3395 MHz (4 x TX freq)
EGSM900: 3520...3660 MHz (4 x TX freq)
GSM1800: 3420...3570 MHz (2 x TX freq)
GSM1900: 3700...3820 MHz (2 x TX freq)
Output power
(GSM850/EGSM900/GSM1800/GSM1900)
GMSK 33/33/30/30 dBm
8-PSK 27/27/26/26 dBm
Table 14: Receiver Characteristics
Item
Values, EGSM900/1800/1900
Type
Direct conversion, Linear, FDMA/TDMA
LO frequencies
GSM850: 3476…3575 MHz (4 x RX freq)
EGSM900: 3700...3840 MHz (4 x RX freq)
GSM1800: 3610...3760 MHz (2 x RX freq)
GSM1900: 3860...3980 MHz (2 x RX freq)
Typical 3 dB bandwidth
+/- 91 kHz
Sensitivity
min. - 102 dBm (normal condition)
Total typical receiver voltage gain (from antenna to RX
ADC)
86 dB
Receiver output level (RF level -95 dBm)
230 mVpp, single-ended I/Q signals to RX ADCs
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RF Block Diagram
The block diagram of the RF module can be seen in the following figure. The detailed
functional description is given in the following sections.
HELGO
Figure 23: RF Block Diagram
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Frequency Synthesizers
The VCO frequency is locked by a PLL (phase locked loop) into a stable frequency source
given by a VCTCXO, which is running at 26 MHz. The frequency of the VCTCXO is in turn
locked into the frequency of the base station with the help of an AFC voltage, which is
generated in UEM by an 11 bit D/A converter. The PLL is located in Helgo and it is controlled through the RFBus.
The required frequency dividers for modulator and demodulator mixers are integrated in
Helgo.
The loop filter filters out the comparison pulses of the phase detector and generates a DC
control voltage to the VCO. The loop filter determines the step response of the PLL (settling time) and contributes to the stability of the loop.
The frequency synthesizer is integrated in Helgo except for the VCTCXO, VCO, and the
loop filter.
Receiver
Each receiver path is a direct conversion linear receiver. From the antenna the received
RF signal is fed to a front-end module where a diplexer first divides the signal to two
separate paths according to the band of operation: either lower, GSM850/EGSM900 or
upper, GSM1800/GSM1900 path.
Most of the receiver circuitry is included in Helgo.
Transmitter
The transmitter consists of two final frequency IQ-modulators and power amplifiers, for
the lower and upper bands separately, and a power control loop. The IQ-modulators are
integrated in Helgo, as well as the operational amplifiers of the power control loop. The
two power amplifiers are located in a single module with power detector. In the GMSK
mode the power is controlled by adjusting the DC bias levels of the power amplifiers.
Front End
The front end features include:
• Antenna 50 ohm input
•
RX GSM850/EGSM900 balanced output
• RX GSM1800 balanced output
•
RX GSM1900 single ended output
•
TX GSM850/GSM900 single ended 50 ohm input
•
TX GSM1800/GSM1900 single ended 50 ohm input
• 3 control lines from the Helgo
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Figure 24: Front End
Power Amplifier
The power amplifier features include:
•
50 ohm input and output, GSM850/EGSM900 and GSM1800/GSM1900
•
Internal power detector
•
GMSK and EDGE mode
Figure 25: Power Amplifier
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RF ASIC Helgo
The RF ASIC features include
•
Package uBGA108
•
Balanced I/Q demodulator and balanced I/Q modulator
•
Power control operational amplifier, acts as an error amplifier
•
The signal from VCO is balanced, frequencies 3296 to 3980 MHz
•
Low noise amplifiers (LNAs) for GSM850/EGSM900 and GSM1800 are integrated
The Helgo can be tested by test points only.
AFC function
AFC is used to lock the transceiver’s clock to the frequency of the base station.
Antenna
The antenna for RH-12/RH-28 is a triple band antenna.
Two versions:
•
RH-12 GSM900/GSM1800/GSM1900
•
RH-28 GSM850/GSM1800/GSM1900
Antenna concept: Flex print on substrate covered with decorated label
The antenna also works as cover for the IHF-speaker (Internal Handsfree Speaker). The
IHF sound chamber and the camera are sealed with a rubber gasket (part of the
antenna).
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RH-12/RH-28 Series Transceivers
6(b) - RF Troubleshooting
Instructions
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Table of Contents
Page No
Introduction.................................................................................................................... 5
Notes on reference measurements ...............................................................................5
Helgo / Synthesizer Troubleshooting............................................................................. 6
N500 Helgo troubleshooting ........................................................................................7
Synthesizer troubleshooting .........................................................................................8
Tx Troubleshooting........................................................................................................ 9
Tx 850/900 GMSK troubleshooting ..........................................................................10
Tx 1800/1900 GMSK troubleshooting ......................................................................11
Rx Troubleshooting...................................................................................................... 12
Rx 850/900 troubleshooting ......................................................................................13
Rx 1800 troubleshooting ............................................................................................14
Rx 1900 troubleshooting ............................................................................................15
Bluetooth / FM Radio Troubleshooting ....................................................................... 16
Bluetooth troubleshooting .........................................................................................17
FM radio troubleshooting ..........................................................................................18
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CCS Technical Documentation
Introduction
This document is the troubleshooting guide for RH-12/RH-28. On the following pages
you will find a step-by-step fault finding procedure and reference measurements at the
relevant signal points.
Notes on reference measurements
•
LF & DC signals are measured with Textronix 100 MHz Scope
(TDS3014) and P3010 13pF probe.
•
RF signals are measured with R & S FSIQ 7GHz Spectrum Analyzer and
Agilent resistive divider probe (10dB, 500ohm).
•
Please be aware that the RF connector on service adaptor is leaking
power (into air) and acts as noise source when probing on RX chain. In
1800 band the problem is most severe while there is no external LNA to
amplify the signal above the noise level like in the 1900 band. In 900/
850 band the leakage is not as high due to lower frequency.
•
GSM SA settings: RBW=500kHz, VBW=500kHz.
•
Bluetooth SA settings: RBW=2MHz, VBW=2MHz.
•
All reference measurements were made on a RH-12 phone (GSM900).
RH-28 (GSM850) results should be very similar.
•
RF loss Module Repair Jig: 0.3dB (low bands), 0.4dB (high bands).
•
RF loss RF Adaptor: 0.4dB (low band), 0.7dB (high bands).
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Helgo / Synthesizer Troubleshooting
4
4
b
a
1
f
4
1
c
e
1
2
a
2
1
b
1
1
d
1
3
3
a
3
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d
3
3
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N500 Helgo troubleshooting
N500 HELGO troubleshooting
Set Phoenix to RF local burst RX mode
Measure N500 Helgo supply voltages:
- VR1 at C551 - 4,75V?
- VR2 at C520 - 2,8V?
- VR3 at C503 - 2,8V?
- VR4 at C554 - 2,8V?
- VR5 at C553 - 2,8V?
- VR6 at C555 - 2,8V?
- VR7 at C297 - 2,8V? (located at BB bottom grid S3)
Measure N500 reference voltage:
VrefRF01 = 1,35V (C549)
Measure N500 serial bus signals
- RfBusClk at J501
- RfBusEna1 at J502
- Reset at J503
- RfBusData at J509
All .measured in Burst Mode
Logic high level = 1,8V.
NOK
Check baseband.
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Synthesizer troubleshooting
Synthesizer Troubleshooting
Phoenix: RF local mode Rx continuous
Frequency = 3590.4 MHz @ ch. 38
Measure G501 VCTCXO output voltage at G501 pin 3
26 MHz 600 mVpp. OK ?
Measure N500 26 MHz reference output voltage at
L515 800 mVpp. OK?
Measure G501 VCTCXO AFC voltage at C540.
Measure RF frequency and level at T500.
Place the probe through the hole in the shield!
Correct frequency found?
NO
No frequency or wrong frequency ?
YES
Synthesizer is ok
Wrong frequencies found
YES
No frequency found within the 3-4 GHz span
YES
NO
Measure VCO supply voltage at C560
= 2.8 V OK ?
YES
Replace VCO
Page 8
Measure VCO control voltage at C505.
Voltage = 4.8V?
VCO does not work or
the control loop is open
Check C503, R501, R502,
C504, C505
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CCS Technical Documentation
Tx Troubleshooting
11a
11a
9
11b
11b
9
6
1b
1b
6
11c
11c
2a
1a
1a
2b
2a
2b
10
3
10
8b
4
8a
8a
5
4
7
7
3
8b
5
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Tx 850/900 GMSK troubleshooting
TX850/900 GMSK troubleshooting
Apply a 50 ohm load at the antenna connector of the jig.
GSM850/ ch. 190 = 836.6 MHz, burst mode power level 10.
GSM900/ cha. 37 = 897.4 MHz, burst mode power level 10
Spectrum analyzer: RBW = 500 Khz and VBV = 500 kHz,
center = 500 kHz and span = 20 MHz
Measure voltage of a) TXI at C535 and TXQ at C536,
Txi and TXQ = 500 mVpp min. and 1.2 VDC during burst
Measure a) TXC = 950 mV during burst at R522 and
b) TXP = 1.8 V during burst at J504 .
Note: TXC voltage is a function of power level
Measure modulator supply voltage VR2 = 2.7 V (C568, both terminals)
Measure RF level = -13 dBm at input of Z700 SAW filter L700
Measure RF level = -13 dBm at N700 PA input (C707)
Measure RF level = +7 dBm at N700 PA output TX_OUT_EGSM
(Z809)
NOK
Check
baseband.
NOK
Check
N500 Helgo.
NOK
Check Z700
Tx SAW.
OK
NOK
Measure N700 PA power detector DET = 850 mV during burst at R503.
Note: DET voltage is a function of power level
Measure N700 PA control voltage a) VPCTRL_G = 1.2 V during burst at
R715 and N700 PA bias voltage.
b) VTXB_G = 2.7V (C533).
Note: VPCTRL_G voltage is a function of power level.
Measure N700 PA supply voltage VBAT at C724
Measure RF level = 2 dBm at antenna pad J800
Measure Z809 antenna switch control signal voltages
a) VANT_1 = 0 V at C804
b) VANT_2 = 0 V at C806
c) VANT_3 = 2.7 V at C805
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Tx 1800/1900 GMSK troubleshooting
TX1800/1900 GMSK troubleshooting
Apply a 50 ohm load at the antenna connector of the jig.
GSM1800 ch. 700 = 1747,8 MHz, burst mode power level 5
GSM1900 ch. 661 = 1880,0 MHz, burst mode power level 5
Spectrum analyzer RBW = 500 kHz and VBW = 500 kHz,
center = 500 kHz and span = 20 MHz
Measure voltage of a) TXI at C535 and TXQ at C536,
Txi and TXQ = 500 mVpp min. and 1.2 VDC during burst
Measure a) TXC = 900 mV during burst at R522 and
b) TXP = 1.8 V during burst at J504 .
Note: TXC voltage is a function of power level
Measure modulator supply voltage VR2 = 2.7 V at R539
Measure RF level = -15 dBm at input of T700 Tx balun C709
Measure RF level = -20 dBm at N700 PA input L702
NOK
Check
baseband.
NOK
Check
N500 Helgo.
NOK
Check T700
Tx balun.
OK
Measure RF level = -3 dBm at N700 PA output TX_OUT_DCS (Z809)
NOK
Measure N700 PA power detector DET = 810 mV during burst at R503.
Note: DET voltage is a function of power level
Measure N700 PA control voltage a) VPCTRL_P = 1.0 V during burst at R716
and N700 PA bias voltage
b) VTXB_P = 2.7 V (C532).
Note: VPCTRL_P voltage is a function of power level.
Measure N700 PA supply voltage VBAT at C724
Measure RF level = 2 dBm at antenna pad J800
Measure Z809 antenna switch control signal voltages
a) VANT_1 = 2.7 V at C804
b) VANT_2 = 2.7 V at C806
c) VANT_3 = 0 V at C805
Issue 1 02/04
Nokia Corporation
Page 11
RH-12/RH-28
RF Troubleshooting Instructions
CCS Technical Documentation
Rx Troubleshooting
4
6
5
3
3
3
3
b
3
c
c
3
3
c
6
a
a
2
b
3
3
a
2
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2
b
b
1
1
1
a
a 1
b
a 1
b
1
b
4
4
4
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Issue 1 02/04
RH-12/RH-28
RF Troubleshooting Instructions
CCS Technical Documentation
Rx 850/900 troubleshooting
RX 850/900 Troubleshooting
GSM850 ch. 190 or GSM900 ch. 37. Continuous Rx.
Use AGC “gain step” 14
Apply a signal of 942.46771 MHz (+67.71 kHz offset)
at -90 dBm to the antenna pad J800
Spectrum analyzer: RBW = 500 kHz, VBW = 500 kHz,
center = 942 MHz and span = 20 MHz
Measure voltage of a) RXI (J511) b) RXQ (J510). RXI and
RXQ = 800 mVpp and 1.35 VDC.
Note: DC level drops after a while.
Change the signal level to -30 dBm
OK
Measure RF level = -55 dBm at Z808 SAW filter input.
NOK
Measure Z809 antenna switch control signal voltages
a) VANT_1 = 0V (C804)
b) VANT_2 = 0V (C806)
c) VANT_3 = 0V (C805).
OK
Measure RF level = -55 dBm
at Helgo input (C840, both terminals).
NOK
go to
“Helgo/Synthesizer
troubleshooting”
OK
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Nokia Corporation
Page 13
RH-12/RH-28
RF Troubleshooting Instructions
CCS Technical Documentation
Rx 1800 troubleshooting
RX 1800 Troubleshooting
GSM1800 ch. 700. Continuous Rx.
Use AGC “gain step” 14
Apply a signal of 1842,86771 MHz (+67.71 kHz offset)
at -90 dBm to the antenna pad J800
Spectrum analyzer: RBW = 500 kHz, VBW = 500 kHz,
center = 1840 MHz and span = 20 MHz
Measure voltage of a) RXI (J511) b) RXQ (J510).
RXI and RXQ = 500 mVpp and 1.35 VDC.
Note: DC level drops after a while.
Change the signal level to -30 dBm
OK
Measure RF level = -30 dBm at Z807 SAW filter input.
(Z809 antenna switch pin X)
NOK
Measure Z809 antenna switch control signal voltages
a) VANT_1 = 0V (C804)
b) VANT_2 = 0V (C806)
c) VANT_3 = 0V (C805).
OK
Measure RF level at Helgo input
(C839, not assembled, both terminals).
NOK
go to
“Helgo/Synthesizer
troubleshooting”
OK
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Issue 1 02/04
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RF Troubleshooting Instructions
CCS Technical Documentation
Rx 1900 troubleshooting
RX 1900 Troubleshooting
GSM1900 ch. 661. Continuous Rx.
Use AGC “gain step” 12.
Apply a signal of 1960,06771 MHz (+67.71 kHz offset)
at -90 dBm to the antenna pad J800.
Spectrum analyzer: RBW = 500 kHz, VBW = 500 kHz,
f = 1960 MHz and span = 20 MHz
Measure voltage of a) RXI (J511) b) RXQ (J510). RXI and
RXQ = 700 mVpp and 1.35 VDC.
Change the signal level to -50 dBm and set “gain step” = 6
OK
Measure RF level at Z806 SAW filter input.
(Z809 antenna switch pin X)
NOK
Measure antenna switch control signal voltages
a) VANT_1 = 0V (C804)
b) VANT_2 = 2.7V (C806)
c) VANT_3 = 0V (C805).
Measure RF level at V802 LNA input (C826).
go to
“Helgo/Synthesizer
troubleshooting”
Measure RF level at V802 LNA output (C829)
Measure a) V802 LNA supply voltage LNA_P = 2.8 V (V802 pin 4)
and b) LNA control voltage LNAB_P = 2,8 V (R801)
Measure RF level at N500 Helgo input (L805).
Issue 1 02/04
Nokia Corporation
OK
Page 15
RH-12/RH-28
RF Troubleshooting Instructions
CCS Technical Documentation
Bluetooth / FM Radio Troubleshooting
4
8
7
4
2
1
a
7
a
c
4
9
6
6
a
b
2
3
2
d
5
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c
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b
5
4
b
b
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a
a
s
3
g
M
F
i
l
n
a
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Issue 1 02/04
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RF Troubleshooting Instructions
CCS Technical Documentation
Bluetooth troubleshooting
Bluetooth troubleshooting
Phoenix local mode: Tx data 1 ch. 39 (2441 MHz approx. 1 MHz BW).
BC02 Bluetooth control. Options: Internal gain = 52
Spectrum analyzer: RBW = 500 kHz, VBW = 500 kHz,
center = 942 Mhz and span = 20 Mhz.
NOK
Measure PURX voltage = 1.8 V (N131)
BB troubleshooting
OK
Measure N130 BT supply voltage = 2.8V (C144).
NOK
Replace N131
OK
Measure N130 VDD-ANA voltage regulator output = 1.8V (C140).
NOK
Replace N130
OK
Measure a) N130 VDD_VCO supply voltage = 1.8V (C137)
b) VDD_MEM supply voltage = 1.8V
c) Rx/Tx supply voltage = 1.8V (C130)
Check L133, R132
and L130
NOK
OK
Measure SYSCLK voltage = 550 mVpp (26 MHz) 1.3 VDC (C133). NOK
Check C133 and go to
Synthesizer
troubleshooting.
OK
Measure N130 XTAL_IN
voltage = 1.8Vpp square wave (R131)
NOK
Measure D130 supply voltage = 2,8V
at D130 pin 5
NOK
Check L131, L132. If passive componentsOK, replace D130.
OK
Measure RF level = -15 dBm at a TX_A (C131)
and b) TX_B (C132).
NOK
Check L131, L132. If passive components
OK, replace N130
OK
Measure RF level = -18 dBm at Z131 SAW filter input.
NOK
Check T130 and C130
OK
Measure RF level = -18 dBm at Z131 SAW filter output.
Issue 1 02/04
Nokia Corporation
NOK
Replace Z131
Page 17
RH-12/RH-28
RF Troubleshooting Instructions
CCS Technical Documentation
FM radio troubleshooting
FM Radio Troubleshooting
Phoenix: Testing - & gt; FM radio - & gt; Power on.
FM signal: Frequency = 100 MHz, frequency deviation = 67.5 kHz, modulation frequency = 1 kHz, R=L, pilot tone on and RF level -67 dBm. Signal is injected at X102
bottom connector pin 11, 12, 13 or 14.
Alternative: Use FM signal received by headset.
Measure audio voltage a) VAFL = 200 mVpp
(1 kHz) 850 mVDC (C380, both sides
b) VAFR = 200mVpp (1 kHz) 850 mVDC
(C382, both sides).
OK
FM Radio OK
NOK
Measure N356 supply voltages a) VCCD = 2.78 V (C359)
b) VCCA = 2.78 V (C372)
c) VCCVCO = 2.78 V (C362)
d)VCOTANK1 = 2.78 V (L356)
e) VCOTANK2 = 2.78 V (L357).
NOK
OK
Check C374 and C375,
then go to
BB troubleshooting
NOK
Measure N356 XTAL2 voltage = 600 mVpp
(32.768 kHz) 1.7 VDC (C375)
Check passives
and then go to
BB troubleshooting.
OK
Measure CPOUT voltage = 0.9 V @ 100 MHz (V356).
OK
Measure RF level at antenna input (C367).
Page 18
NOK
Check V356, V357, L356,
L357, R359,
C357 and C358.
NOK Visual inspect C110-C113, L103 (all bottom
Nokia Corporation
side, grid T5), C367, C378, C379 and L358.
Issue 1 02/04
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RH-12/RH-28 Series Transceivers
4 - Service tools
Issue 1 02/04
Nokia Corporation
RH-12/RH-28
Service Tools
CCS Technical Documentation
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Issue 1 02/04
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Service Tools
CCS Technical Documentation
Table of Contents
Page No
List of service tools ........................................................................................................ 5
JBV-1 Docking station................................................................................................... 6
DA-8 Docking station adaptor ....................................................................................... 7
SA-17 RF adaptor .......................................................................................................... 8
MJ-12 Module repair jig ................................................................................................ 9
RJ-9 Soldering Jig........................................................................................................ 11
SES-3 Rework Stencil.................................................................................................. 12
FPS-8 Flash Prommer (Sales Pack) ............................................................................. 13
FPS-8C Parallel Flash Prommer (Sales Pack) ............................................................. 14
ACF-8 Universal Power Supply .................................................................................. 15
SF-7 POS flash adaptor................................................................................................ 16
XCS-1 Service Cable ................................................................................................... 17
FLS-4S POS (Point Of Sale) Flash Device (Sales Pack)............................................. 18
PCS-1 Power Cable...................................................................................................... 19
XRF-1 RF Cable .......................................................................................................... 20
DAU-9S MBUS Cable................................................................................................. 21
SCB-3 DC Cable .......................................................................................................... 22
XCS-4 Modular Cable ................................................................................................. 23
Printer Cable ................................................................................................................ 24
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Service Tools
CCS Technical Documentation
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RH-12/RH-28
Service Tools
CCS Technical Documentation
List of service tools
The table below shows the set of tools that can be used for testing, error-analysis and
repair of the RH-12/RH-28 product.
Type Designator
Description
Part Code
DA-8
Docking station adaptor
0770546
DA-8 Test pins
0770617
JBV-1
Docking station
0770298
SA-17
RF adaptor
0770584
PCS-1
DC power cable
0730012
SCB-3
DC cable
0730114
XCS-1
Service cable
0730218
XCS-4
Modular cable
0730178
MJ-12
Module repair jig
0770544
FLS-4S
POS flash adaptor dongle for EMEA
POS flash adaptor dongle for APAC
POS flash adaptor dongle for AMERICAS
0080541
0080542
0080542
FPS-8
Parallel flash prommer
(Inc. AXS-4, AXS-8, ACF-8, printer cable)
0080321
Printer cable (incl. In FPS-8 sales pack)
0730029
FPS-8C
Flash prommer box
0080396
XRF-1
RF cable
0730085
DAU-9S
MBUS cable
0730108
RJ-9
Soldering jig
0770547
MJS-76
Rework jig
0770417
SES-3
Rework stencil
0770558
SPS-1
Soldering Paste Spreader
0770381
SF-7
POS flash adaptor
0770545
SF-7 Test pins
0770450
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Page 5
RH-12/RH-28
Service Tools
CCS Technical Documentation
JBV-1 Docking station
The JBV-1 docking station is a general tool that has been designed for calibration and
software update use. The DA-8 docking station adaptor is a product-specific tool that
provides signal connections to the phone. The JBV-1 and the DA-8 are used as one unit.
The JVB-1 main electrical functions include the following:
•
Adjustable VBATT calibration voltage, current measurement limit voltage: VCHAR, current measurement: ICHAR
•
Adjustable ADC calibration voltage via BTEM and the BSI signal
•
BTEMP and BSI calibration resistor
•
Signal from FBUS to the phone via the parallel jig
•
Control via FBUS or USB
•
Flash OK/FAIL indication
In the calibration mode the JBV-1 is powered by an external power supply: 11-16V DC.
When flashing, the power for the phone can be taken from the FPS-8 or an external
power supply: 11-16 V DC.
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Service Tools
CCS Technical Documentation
DA-8 Docking station adaptor
The docking station adaptor is used for the RH-12/RH-28 in combination with the JBV-1.
The DA-8 supports flashing and energy management calibration. If used in conjunction
with the SA-17, a RF Go/NoGo test can be performed.
The MMC card is to be removed before mounting the phone on the docking station adaptor.
Features included:
•
Compatible with the JBV-1
•
Easy phone attachment and detachment
•
Reliable phone locking (via DC-jack)
•
Switch for detection of phone attachment
•
Replaceable pogo pins
Product Code
DA-8 Docking station adaptor: 0770546
View of DA-8 when mounted on the JBV-1
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Page 7
RH-12/RH-28
Service Tools
CCS Technical Documentation
SA-17 RF adaptor
The SA-17 RF adaptor provides a galvanic connection to the RF output. The adaptor is
intended for a Go/NoGo test. By removing the A & B covers and the antenna, the RF adaptor can be attached on the top section of the phone.
The adaptor is designed to be used with the DA-8 docking station adaptor or the SF-7
POS flash adaptor.
Product code
SA-17 RF adaptor: 0770584
View of SA-17
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Nokia Corporation
Issue 1 02/04
RH-12/RH-28
Service Tools
CCS Technical Documentation
MJ-12 Module repair jig
The MJ-12 Module repair jig is designed for Regional service centers to allow component
level trouble shooting and testing.
Product code
MJ-12 Module Repair Jig: 0770544”
General features
•
EDS proof design
•
Component level access while inserted in the jig
•
Access to system connector
•
SIM cards reader
•
UI board with key mat integrated in the jig
•
Access to phone module POWER-On push button
•
Access to phone module side keys (volume keys)
•
Support for IrDa testing
•
BT coupler for Go/NoGo test
Power supply features
•
Jig and phone supply via 5mm DC jack
•
2A replaceable fuse
•
Voltage regulator
•
Direct power feeding (bypassing regulator with a jumper)
•
Reverse voltage protection
•
Over-voltage protection
•
On-indicator (green LED)
Spare parts
•
Pogo pins used for RF connector (0770446)
•
Pogo pins used for flash I/F (needs soldering) (0770551)
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Page 9
RH-12/RH-28
Service Tools
•
CCS Technical Documentation
Pogo pins used for SIM connection (needs soldering) (0770442)
View of MJ-12
Note: The supply voltage for the MJ-12 has to be kept within the range of 8-12 V when using the built
in regulator. When bypassing the regulator (IMEI rewrite), the voltage must be kept below 5,4V
.
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Service Tools
CCS Technical Documentation
RJ-9 Soldering Jig
The RJ-9 soldering jig is used for soldering and reworking for the ez4a Main board.
Product Code
RJ-9 soldering jig: 0770547
View of RJ-9
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Nokia Corporation
Page 11
RH-12/RH-28
Service Tools
CCS Technical Documentation
SES-3 Rework Stencil
The SES-3 Rework Stencil is used for PA Chip N700 (LGA type component) rework.
It is used together with the Rework Jig soldering paste spreader.
Product code
SES-3 Rework Stencil: 077031
The tools needed for rework include:
•
•
SES-3 Stencil: 0770558
•
Page 12
MJS-76 Rework Jig: 0770417
SPS-1 Soldering Paste Spreader: 0770381
Nokia Corporation
Issue 1 02/04
RH-12/RH-28
Service Tools
CCS Technical Documentation
FPS-8 Flash Prommer (Sales Pack)
The Flash Prommer FPS-8 is used with e.g. DA-8 and JVB-1. Power is supplied to FPS-8
from the Universal Power Supply.
The sales pack includes:
•
FPS-8 Flash Prommer: 0750123
•
FPS-8 Activation Sheet: 9359289
•
Universal Power Supply: 0680032
•
AXS-4 Service Cable (D9-D9): 0730090
•
Printer cable: 0730029
Sales package code
FPS-8 Flash Prommer: 0080321
View of FPS-8
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Nokia Corporation
Page 13
RH-12/RH-28
Service Tools
CCS Technical Documentation
FPS-8C Parallel Flash Prommer (Sales Pack)
The Parallel Flash Prommer FPS-8C is used with DA-8 and JVB-1. Flash programming can
be done to maximum of 8 phones parallel. FPS-8C consists of eight SF11C programming
cards. The SF11C card is functionally identical to FPS-8.
Sales package code
FPS-8C Parallel Flash Prommer: 0080396
View of FPS-8C
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Nokia Corporation
Issue 1 02/04
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Service Tools
CCS Technical Documentation
ACF-8 Universal Power Supply
The ACF-8 Universal Power Supply is used to power FPS-8. ACF-8 has 6 V DC and 2.1 A
output.
Product Code
ACF-8 Universal Power Supply: 0680032
View of ACF-8
CF-8
Issue 1 02/04
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Page 15
RH-12/RH-28
Service Tools
CCS Technical Documentation
SF-7 POS flash adaptor
The SF-7 is a POS flash adaptor provided for the RH-12/RH-28 phones.
Product Code
SF-7 POS flash adaptor: 0770545
View of SF-7
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Service Tools
CCS Technical Documentation
XCS-1 Service Cable
The XCS-1 Service Cable is used to connect FLS-4 to FLA-27.
Product code
XCS-1 Service Cable: 0730218
View of XCS-1
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Nokia Corporation
Page 17
RH-12/RH-28
Service Tools
CCS Technical Documentation
FLS-4S POS (Point Of Sale) Flash Device (Sales Pack)
FLS-4S is a dongle and flash device incorporated into one package, developed specifically
for POS use.
Product Code
Sales Pack (Europe/Africa): 0080541
Sales Pack (APAC): 0080542
Sales Pack: (US): 080543
View of FLS-4S
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Service Tools
CCS Technical Documentation
PCS-1 Power Cable
The PCS-1 Power Cable (DC) is used to connect e.g. JVB-1 to FPS-8.
Product Code
PCS-1 Power Cable:
0730012
View of PCS-1
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Nokia Corporation
Page 19
RH-12/RH-28
Service Tools
CCS Technical Documentation
XRF-1 RF Cable
RF cable XRF-1 is used to connect e.g. Module Jig MJS-38 to RF measurement equipment.
Product code
XRF-1 RF Cable: 0730085
View of XRF-1
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Issue 1 02/04
RH-12/RH-28
Service Tools
CCS Technical Documentation
DAU-9S MBUS Cable
The MBUS Cable DAU-9S has a modular connector, and is used with between PC's serial
port and e.g. Module Jig MJS-38.
Product Code
DAU-9S MBUS Cable: 0730108
View of DAU-9S
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Page 21
RH-12/RH-28
Service Tools
CCS Technical Documentation
SCB-3 DC Cable
The DC Cable SCB-3 is used to connect e.g. JVB-1 to the phone.
Product Code
SCB-3 DC Cable: 0730114
View of SCB-3
B-3 DC Cable:
0730114
-3
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Issue 1 02/04
RH-12/RH-28
Service Tools
CCS Technical Documentation
XCS-4 Modular Cable
XCS-4 is a shielded cable (one specially shielded conductor) modular cable for flashing
and service purposes.
Product code
XCS-4 Modular Cable: 0730178
View of XCS-4
View of XCS-4
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Page 23
RH-12/RH-28
Service Tools
CCS Technical Documentation
Printer Cable
This cable is used to connect the PC to FPS-8.
Product code
Printer Cable: 0730029
View of Printer Cable
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Issue 1 02/04
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RH-12/RH-28 Series Transceivers
5 - Disassembly Instructions
Issue 1 02/04
Nokia Corporation
RH-12/RH-28
Disassembly Instructions
CCS Technical Documentation
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Issue 1 02/04
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Disassembly Instructions
CCS Technical Documentation
Table of Contents
Page No
Disassembly Procedure .................................................................................................. 5
Reassembly Procedure ................................................................................................... 7
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Disassembly Instructions
CCS Technical Documentation
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Disassembly Instructions
CCS Technical Documentation
Disassembly Procedure
Remove the B-cover assy.
Remove the A-cover assy.
+
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Page 5
RH-12/RH-28
Disassembly Instructions
CCS Technical Documentation
Remove the Antenna assy.
Use the SRT-6 OPENING TOOL (Part code: 0770431)
when removing the Antenna assy.
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Disassembly Instructions
CCS Technical Documentation
Reassembly Procedure
Mount the antenna assy.
2
1
Mount the A-cover assy.
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Page 7
RH-12/RH-28
Disassembly Instructions
CCS Technical Documentation
Mount the B-cover assy.
2
6
Page 8
5
3
4
Mount the screws.
Use a flathead Torx 6IP 1.8 x 7.4 screwdriver to fasten
the screws in the order shown in the diagram.
Torque 30Ncm at 650RPM.
1
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Issue 1 02/04
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RH-12/RH-28 Series Transceivers
9 - Car Installation Kit
Issue 1 02/04
Nokia Corporation
RH-12/RH-28
Car Installation Kit
CCS Technical Documentation
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Issue 1 02/04
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Car Installation Kit
CCS Technical Documentation
Table of Contents
Page No
Introduction .............................................................................................................................................. 5
Installation guide for CARK126........................................................................................................... 6
Introduction ........................................................................................................................................... 6
Warnings ................................................................................................................................................. 7
Components of CARK126 ................................................................................................................... 8
Component parts .................................................................................................................................. 8
Mobile holder MBC-15S .................................................................................................................. 8
Swivel mount HHS-15 and Mounting plate MKU-1 ............................................................... 9
Mounting plate MKU-1.................................................................................................................... 9
Handsfree unit HFU-4 ...................................................................................................................... 9
System cable SCU-4.......................................................................................................................... 9
Antenna coupler AXF-15S............................................................................................................... 9
Power cable PCU-4......................................................................................................................... 10
HF microphone HFM-8.................................................................................................................. 10
External HF speaker HFS-12........................................................................................................ 10
External antenna............................................................................................................................. 10
Privacy handset HSU-3 (not included) ..................................................................................... 10
Installation ...........................................................................................................................................11
PCU-4................................................................................................................................................. 11
Ignition sense IGNS........................................................................................................................ 12
Car radio muting CRM .................................................................................................................. 12
Testing................................................................................................................................................ 12
Installation guide for CARK112........................................................................................................ 14
Introduction .........................................................................................................................................14
Warnings ...............................................................................................................................................14
Unpacking .............................................................................................................................................16
Wireless HF Unit HFW-1 ..................................................................................................................17
Installation........................................................................................................................................ 17
Mounting Plate MKU-1 ....................................................................................................................18
Remote Control Button CUW-2 .....................................................................................................18
Installation........................................................................................................................................ 18
HF Microphone HFM-8 .....................................................................................................................19
HF Speaker HFS-12 ............................................................................................................................19
Power Cable PCU-4 ............................................................................................................................19
Cables................................................................................................................................................. 20
Ignition Sense IGNS ....................................................................................................................... 20
Car Radio Muting CRM ................................................................................................................. 20
Testing ...................................................................................................................................................21
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Car Installation Kit
CCS Technical Documentation
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Issue 1 02/04
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Car Installation Kit
CCS Technical Documentation
Introduction
RH-12/RH-28 will support several car kits and solutions for handsfree operation as listed
in Chapter 1.
A comprehensive documentation for the accessories is found from the relevant accessory
programs.
Issue 1 02/04
Nokia Corporation
Page 5
RH-12/RH-28
Car Installation Kit
CCS Technical Documentation
Installation guide for CARK126
Introduction
This installation guide provides the basic information required to install the CARK126.
This guide is not intended to be definitive, because different vehicle types and models
will require different installations. The information given is for general guidance only.
The terms of warranty require that this car kit be installed by an experienced installer
and using only genuine Nokia parts. An end user should never attempt to install this car
kit without professional assistance, as the installation requires special tools and knowledge.
Please refer to the telephone’s User’s Guide for instructions on the telephone’s operation,
care and maintenance, including important safety information.
Note: Read the warnings below before beginning the installation procedure.
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Warnings
1
ENSURE THAT THE VEHICLE’S BATTERY IS DISCONNECTED BEFORE YOU START
THE INSTALLATION PROCEDURE, AND THAT IT REMAINS DISCONNECTED DURING
THE PROCEDURE.
2 DO NOT SMOKE OR USE OPEN FLAMES WHEN WORKING NEAR THE VEHICLE’S
FUEL SYSTEM.
3 ENSURE THAT THE VEHICLE’S ELECTRICAL CABLES, HYDRAULIC LINES, FUEL LINES
AND SAFETY EQUIPMENT ARE NOT DAMAGED DURING INSTALLATION.
4
ENSURE THAT NORMAL CONTROL AND OPERATION OF THE VEHICLE IS NOT
IMPAIRED BY THE INSTALLATION, PARTICULARLY THE BRAKES AND STEERING.
MAKE SURE THAT AIRBAG OPERATION IS NOT OBSTRUCTED.
5
ELECTRONIC AND OTHER SOPHISTICATED SYSTEMS (e.g. SPEED CONTROL, ABS
ANTI-LOCK BRAKES, FUEL INJECTION, NAVIGATION, AND AIR-BAG SYSTEMS) ARE
RELATIVELY IMMUNE TO MALFUNCTION CAUSED BY NEARBY RADIO TRANSMISSIONS. HOWEVER, SHOULD YOU EXPERIENCE FALSE OPERATION OF THESE SYSTEMS OR ARE IN
ANY DOUBT WHATSOEVER AS TO THEIR FUNCTIONALITY, PLEASE CONSULT THE
VEHICLE’S DEALER.
6
THE CAR KIT IS SUITABLE FOR USE ONLY IN VEHICLES WITH A 12V NEGATIVE
GROUNDING. USE ON OTHER SUPPLY VOLTAGES OR ALTERNATIVE POLARITY WILL
DAMAGE THE EQUIPMENT.
7
THE PHONE SHOULD NOT BE LEFT SWITCHED ON FOR EXTENDED PERIODS WITHOUT RUNNING THE VEHICLE’S ENGINE. FAILURE TO COMPLY WITH THIS INDICATION COULD DRAIN THE VEHICLE’S BATTERY.
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Components of CARK126
Figure 1:
The CARK126 includes the above parts. Please note that the items surrounded by broken
lines are not supplied with the CARK126 in Europe and Asia.
In the US, Canada and Latin America other sales packages than the CARK126 exist. The
main difference is that the mobile holder and antenna coupler are included instead of
being sold separately. External antenna AMD-2 is not sold in the US, Canada and Latin
America.
Other mobile holders connectable to CARK126 are MBC-14M, MBC-13L and MBC-17.
MBC-17 is sold in the US, Canada and Latin America both separately as well as a part of
Cark142. Privacy handset HSU-3 is sold in Europe only.
Component parts
Mobile holder MBC-15S
The holder for the mobile phone is always attached to the vehicle’s interior in an upright
position using the swivel mount HHS-15, as shown in the following Figure 2. The mounting is secured with a screw (included with the HHS-15). The screw recess is covered with
the NOKIA logo plate.
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Swivel mount HHS-15 and Mounting plate MKU-1
The HHS-15 is a swivel mount which offers two installation methods for the MBC-15S
holder. Either use all the components to make a swivel mounting, or use the flat mounting plate for a fixed position.
For an exploded view, see the following figure.
Figure 2:
Mounting plate MKU-1
The HFU-4 handsfree unit is attached to the vehicle’s interior using the MKU-1 mounting
plate. The mounting is secured with a screw (included with MKU-1).
Handsfree unit HFU-4
The HFU-4 handsfree unit enables the phone to operate in handsfree mode. It is attached
to the vehicle’s interior using the MKU-1 mounting plate. The mounting is secured with a
screw (included with MKU-1).
System cable SCU-4
The system cable SCU-4 plug-in connector connects to the PHONE socket in HFU-4 and
to the bottom connector underneath the AXF-15S. (The other cable from the AXF-15S
connects to the external antenna.) For a diagram, refer to Figure 1.
Antenna coupler AXF-15S
The Antenna coupler AXF-15S is used to create a contact with an external antenna. It is
installed between MBC-15S and HHS-15, and secured with a screw (included with AXF15S). For a diagram, refer to Figure 2.
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Power cable PCU-4
The power cable connects to the DC socket in the HFU-4 and to the vehicle's power supply. See section " Installation " for more information.
HF microphone HFM-8
The HF microphone connects to the MIC socket in the HFU-4. Turn the plug clockwise to
lock it firmly in place.
External HF speaker HFS-12
The external HF speaker connects to the SPEAKER socket in HFU-4. Twist the plug clockwise to lock firmly in place.
External antenna
An external antenna (not included) is recommended for the car kit. It connects to the
antenna coupler AXF-15S.
For additional information, please refer to documentation supplied with the antenna.
To meet FCC guidelines for exposure to radio frequency devices, the external antenna
must be installed in a position so that no person will be within 20 cm (8 inches) of the
antenna. It is recommended that the external antenna be mounted on the roof of the car
in the middle for the center to the back portion of the roof of the car, or, if a convertible,
the middle of the trunk lid on that portion closest to the car’s interior.
Privacy handset HSU-3 (not included)
The privacy handset HSU-3 offers more privacy during a call. It connects to the HANDSET socket in HFU-4. For more information, please refer to the user guide for the handset.
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Installation
Refer to the cover for an example of installation positions.
The HFU-4 and the different parts are connected as mentioned in the section " Component parts " .
There are some important aspects that require special attention when positioning the car
kit accessories.
The location of the holder should be selected so that the visibility of the phone’s display
is good and the driver’s attention is not distracted. The location of the holder should
allow the driver to easily reach the keypad. Under no circumstances should the holder
prevent the driver from controlling or operating the vehicle in any way.
The HF microphone should be installed according to the instructions given in the separate microphone installation guide. Ensure that the microphone is as close to the driver’s
mouth as possible, and attached to a surface that is mechanically quiet. The microphone
should be mounted at least 1 m (3 ft) away from the handsfree unit speaker to avoid
acoustic feedback.
Make sure that the cables are routed as far away as possible from the vehicle’s electronic
systems. This is to prevent interference. Also, ensure that cables are not subject to undue
mechanical stress, e.g., under seats or against sharp edges.
Note: Ensure that the vehicle’s battery is disconnected before you start the installation procedure or before
making changes to the installations, and that it remains disconnected during the installation procedure.
PCU-4
The cables from the PCU-4 are colour coded. They are listed in column A of the following
table and each cable should be connected to the corresponding item listed in column B.
A
B
Red cable (with 2 amps fuse)
The + voltage on the vehicle's power
supply.
Black cable
The negative GND connection.
Blue cable (with 1 amp fuse)
The + 12V voltage controlled by the
vehicle's ignition key. (refer to section
" Ignition Sense IGNS”)
Yellow cable
Used for car radio muting (CRM) and is
connected to car radio. The line goes
down to 0 volts during a call. See section " Car Radio Muting CRM " .
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Ignition sense IGNS
The ignition sense feature prevents your car kit from draining the car battery by executing an auto power off in 20 seconds after the ignition key has been turned off. The blue
cable from PCU-4 is used for the ignition sense feature. The use of ignition sense is recommended to prevent accidental draining of the car battery. The cable is connected via a
1 A fuse to a 12 volt supply that is controlled by the ignition key. Do not connect it
directly to the high voltage sections of the ignition circuit. Check the availability of the
feature in your phone´s user´s guide.
Car radio muting CRM
The car kit includes a feature that can mute the car radio automatically during a phone
conversation. Below is the circuit diagram for CRM.
Figure 3:
Note: The contacts of the relay 12 V DC must stand the maximum current consumed by a
radio, and the impedance of the relay coil must be over 100 ohm when the supply of the
relay coil is & lt; 16 V DC.
Alternatively, you can use a special muting unit, which mutes the radio by connecting
load resistors to the speaker lines of the car radio.
A third possibility for the customer is to refer to the car radio user manual to determine
whether there is a CRM cable or point of connection in the car radio available. Then the
CRM line from Cark126 can be directly connected to either of those.
All installations should take into account any special requirements on behalf of the customer. However, should the customer require an installation that is illegal or unsafe,
these facts must be pointed out to the customer and a policy of non-compliance
adopted.
Testing
Once installed, the equipment should be tested to ensure that it operates satisfactorily
and that the position of the units does not impair the driver’s ability to control and operPage 12
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ate the vehicle in any way.
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Installation guide for CARK112
Introduction
This installation guide has been prepared to provide the basic information necessary to
install the car kit. This guide is not intended to be definitive, because different types and
models of vehicles will require different installation work. The information given is for
general guidance only.
The terms of warranty demand that this car kit be installed by an experienced installer
and only genuine Nokia parts are used. An end user should never attempt to install this
car kit without professional assistance as the installation requires special tools and
knowledge.
All installations should take into account any special requirements of the customer.
However, should the customer require an installation that is illegal or unsafe these facts
must be pointed out to the customer and a policy of non-compliance adopted.
Please refer to the phone’s User’s Guide for instructions on the phone’s operation, care
and maintenance, including important safety information.
Note: Read the warnings below before beginning the installation procedure.
Warnings
1. ENSURE THAT THE VEHICLE’S BATTERY IS DISCONNECTED BEFORE YOU START THE
INSTALLATION PROCEDURE, AND THAT IT REMAINS DISCONNECTED DURING THE PROCEDURE.
2. DO NOT SMOKE OR USE OPEN FLAMES WHEN WORKING NEAR THE VEHICLE’S FUEL
SYSTEM.
3. ENSURE THAT THE VEHICLE’S ELECTRICAL CABLES, HYDRAULIC LINES, FUEL LINES,
AND SAFETY EQUIPMENT ARE NOT DAMAGED DURING INSTALLATION.
4. ENSURE THAT NORMAL CONTROL AND OPERATION OF THE VEHICLE IS NOT IMPAIRED
BY THE INSTALLATION, PARTICULARLY THE BRAKES AND STEERING. ENSURE THAT AIRBAG OPERATION IS NOT OBSTRUCTED.
5. ELECTRONIC AND OTHER SOPHISTICATED SYSTEMS (e.g. SPEED CONTROL, ABS ANTILOCK BRAKE, FUEL INJECTION-, NAVIGATION-, AND AIR-BAG SYSTEMS) ARE RELATIVELY
IMMUNE TO MALFUNCTION CAUSED BY NEARBY RADIO TRANSMISSIONS. HOW EVER,
SHOULD YOU EXPERIENCE FALSE OPERATION OF THESE SYSTEMS OR ARE IN ANY DOUBT
WHATSOEVER AS TO THEIR FUNCTIONALITY, PLEASE CONSULT THE VEHICLE’S DEALER.
6. THE CAR KIT IS SUITABLE FOR USE ONLY IN VEHICLES WITH A 12 V NEGATIVE
GROUNDING. USE ON
OTHER SUPPLY VOLTAGES OR ALTERNATIVE POLARITY WILL DAMAGE THE EQUIPMENT.
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7. THE PHONE SHOULD NOT BE LEFT SWITCHED ON FOR EXTENDED PERIODS WITHOUT
RUNNING THE VEHICLE’S ENGINE. FAILURE TO COMPLY COULD DRAIN THE VEHICLE’S
BATTERY.
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Unpacking
Carefully unpack the equipment and ensure that the following items are present.
•
Wireless Hands Free Unit, HFW-1
•
Remote Control Button, CUW-2
•
Power Cable, PCU-4
•
Mounting Plate, MKU-1
•
HF Microphone, HFM-8
•
HF Speaker, HFS-12
Figure 4:
MKU–1
HFW–1
PCU–4
HFS–12
HFM–8
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Wireless HF Unit HFW-1
Figure 5:
INTERNAL
BLUETOOTH
ANTENNA
SPEAKER
MIC
REMOTE
PHONE
DC
The HFW-1 is used in a fixed car installation and it offers a wireless handsfree function,
a fast charging function when a phone is connected into it by a charging cable (phone
specific, not supplied with CARK-112) and a wireless connection to external devices.
The HFW-1 unit is attached to the vehicle interior using the mounting plate MKU-1.
HFW-1 is secured to MKU-1 with a screw (included with MKU-1).
Power is supplied to DC socket from the vehicle’s battery via the power cable PCU-4.
The HF microphone HFM-8, connects to the MIC socket. And the HF speaker HFS-12,
connects to the SPEAKER socket.
PHONE socket is for the charging of the phone (charging cable phone specific - not
included with car kit).
The HFW-1 is always connected to a car battery. To save the car battery the HFW-1 goes
to a sleep mode. Sleep mode is activated if: 1. the car is not running and a phone is not
connected by a charging cable and there is no wireless traffic or 2. charging of the phone
has been stopped.
Installation
After tightening the MKU-1 screws, secure HFW-1 installation to the MKU-1 mounting
plate with the screw going through HFW-1. The Nokia logo lid is placed on the HFW-1 to
cover the recess.
Do not install the HFW-1 unit in a metal casing (or similar location) that can prevent the
unit from transmitting radio frequencies. Aim the internal Bluetooth antenna (see picture) towards the user (Bluetooth phone).
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Mounting Plate MKU-1
MKU-1 is a fixed position mounting plate. It is used to attach Wireless HF Unit (HFW-1)
to the vehicle.
Remote Control Button CUW-2
mote Control Button (CUW-2) allow
The Remote Control Button (CUW-2) allows convenient operation of the phone. The car
installation includes a Remote Control Button CUW-2, which is connected to the HFW-1
with a cable (REMOTE socket). The speaker volume of the HFW-1 can be controlled with
a ring (rotary switch) in the CUW-2. It is possible to receive a call or to dial by pressing a
send/end push button in the CUW-2 (also voice dialing).
To read more about the use of CUW-2, see CARK112 User’s Guide.
Installation
The positioning of the Remote Control Button CUW-2 is important, to achieve the most
comfortable position for the user. The location of the CUW-2 should be selected so that
the visibility of the Remote Control Button is good under all lighting conditions, but not
so that the driver’s attention is easily distracted. The CUW-2 should be located so that
the driver can easily reach it. Under no circumstances should the CUW-2 prevent the
driver from controlling or operating the vehicle in any way or observing traffic.
To attach the Remote Control Button:
1
2
Peel off the protective sheet (pad with soft fabric) from the adhesive side and
attach the pad to the desired location in the car. Make sure the surface where
you attach this pad is dry and clean from dirt and dust.
3
Peel off the protective sheet (pad with rugged fabric) from the adhesive side and
attach the pad to the bottom of the Remote Control Button.
4
Page 18
Detach the two grip pads from each other.
Press the Remote Control Button against the pad in the car until button is firmly
in place.
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CCS Technical Documentation
1.
3.
2.
4.
HF Microphone HFM-8
The HF microphone should be installed according to the directions in the separate microphone installation guide. Ensure the microphone is as close to the driver’s mouth as possible, and attached to a surface that is mechanically quiet. The microphone should be
mounted at least 3 ft./1 m away from the handsfree unit speaker to avoid acoustic feedback.
Insert the HFM-8 plug into the MIC socket in HFW-1 and twist 90° clockwise to lock
firmly in place.
HF Speaker HFS-12
Install the HF speaker so that it is at least 3 ft./1 m away from the HFM-8 microphone to
avoid acoustic feedback. Insert the HFS-12 plug into the SPEAKER socket and twist 90°
clockwise to lock firmly in place. Under no circumstances should the HFS-12 prevent the
driver from controlling or operating the vehicle in any way or observing traffic.
Power Cable PCU-4
The power cable connects the wireless handsfree unit HFW-1 to the vehicle’s power supply (DC socket).
The red wire must be connected to the + voltage on the vehicle’s power supply via the
supplied fused connector. The black wire must be attached to a good negative GND connection.
The blue ignition sense (IGNS) wire is connected to +12 V voltage con trolled by the
vehicle’s ignition key via the supplied fused connector.
See section " Ignition Sense " .
The yellow wire is used for car radio muting (CRM). The line goes down to 0 volts during
a call. See section " Car Radio Muting " .
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BLUE
IGNS
YELLOW
CRM
RED
BLACK
12V
Cables
Ensure cables are routed as far away as possible from the vehicle’s electronic systems
(refer to WARNINGS)*. Also, ensure that cables are not subjected to undue mechanical
stress e.g. under seats or against sharp edges.
* To prevent disturbance, cables should be routed as far away from the interference
source as possible.
Ignition Sense IGNS
The blue wire of the power cable PCU-4 is used for the ignition sense feature. The use of
ignition sense is recommended to prevent accidental draining of the car’s battery and
making the automatic connection to the phone. The wire is connected via a 1 A fuse to a
12 volt potential that is controlled by the ignition key. Do not connect it directly to the high voltage
sections of the ignition circuit.
Car Radio Muting CRM
The car kit offers a feature that can mute the car radio automatically during a conversation. The car radio muting feature is based on a grounded line, so it means that in
standby, the yellow wire (CRM) is not grounded and car radio works normally, but during
a call, line is grounded and car radio is muted.
Some radios have separate supplies for amplifiers and motors, and another for memory
backup purposes. Very often these radios also have a secret code system, which activates
itself if a break in the memory supply is detected. Be careful when installing the relay not
to break the memory supply (usually marked ACC or +MEM).
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VEHICLE
RADIO
HFW–1
CRM line
yellow wire
CRM line
Testing
Once installed, the equipment should be tested to ensure that it is operating satisfactorily and that the position of the units does not impair on the driver’s ability to control
and operate the vehicle in any way.
You can reset the car kit to the original settings, for example, to change the default user
of the car kit.
To reset the car kit: Detach the microphone cable from HFW-1 unit for less than 5 seconds. After the car kit has been reset, the indicator light of the remote control button is
shown for several seconds.
Use the phone to make a call when the vehicle is parked with the engine running. During
the call, switch off the engine. Ensure that the phone is operational with the engine running and with the engine switched off.
For operating information refer to the CARK112 User’s Guide or User’s Guide supplied
with the phone.
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Schematics
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Schematics
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RF Top Level, v. 0.0, ed. 59
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RX Front End and Antenna Switch, v. 0.0, ed. 75
Name
Copyright (C) Nokia Corporation. All rights reserved.
RX front end and antenna switch
Appr
Assoc
RF module
Des.
KL
21-Sep-
Design
ez4a_10
Dr.
vip
18 Dec 2
THIS DRAWING IS PROTECTED BY COPYRIGHT AS AN UNPUBLISHED WORK.
UNAUTHORIZED REPRODUCTION OF THIS DRAWING IS NOT PERMITTED.
THIS DRAWING CONTAINS PROPRIETARY AND CONFIDENTIAL INFORMATION.
(X.X)
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HELGA
LPRFCLK_I
Name
Copyright (C) Nokia Corporation. All rights reserved.
HELGA
Appr
Assoc
RF module
Des.
KL
21-Sep-99
Dr.
VIP
27-Nov-03
THIS DRAWING IS PROTECTED BY COPYRIGHT AS AN UNPUBLISHED WORK.
UNAUTHORIZED REPRODUCTION OF THIS DRAWING IS NOT PERMITTED.
THIS DRAWING CONTAINS PROPRIETARY AND CONFIDENTIAL INFORMATION.
This document is property of Nokia Corporation
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dd-mmm-yy
xx
of
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BR4.5 Top Level, v. 6.1, ed. 29
Name
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Appr
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Des.
dd-mmm-yy
KatjaKnu
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Schematics
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BR45 Audio, v. 1.6, ed. 167
IHF speaker connection
Name
Br45 Audio
Appr
Assoc
DCT45 Common Baseband
Des.
Keith Winfield
Design
ez4a_10
Dr.
vip
Page
/SYS/AUDIO - matrix9.0 - sheet1
Proj
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hde12
THIS DRAWING IS PROTECTED BY COPYRIGHT AS AN UNPUBLISHED WORK.
UNAUTHORIZED REPRODUCTION OF THIS DRAWING IS NOT PERMITTED.
THIS DRAWING CONTAINS PROPRIETARY AND CONFIDENTIAL INFORMATION.
This document is property of Nokia Corporation
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Mirage 2 VGA Camera, v. 1.1, Ed. 194
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Test and Emulator Interface, v. 2.0, ed. 41
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Schematics
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Testpoints for JTAG Emulator, v. 1.3, ed. 12
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Testpoints Based Ostrich Interface, v.1.3, ed. 12
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Schematics
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Citizen IR Module 1.8V, v. 6.1.8, ed. 55
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Schematics
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IR Resistor 1210, v. 0, ed. 6
RES_IN
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Copyright Nokia 2003. All rights reserved.
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Schematics
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Key UI, v. 1, ed. 326
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Flash Memory 128 Mbit, v. 2.0, ed. 74
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Schematics
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Discrete Capacitors for two Memories without VFlash1, v. 1.3, ed.11
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Schematics
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Flash Memory 64 Mbit NAND, v. 2.0, ed. 62
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Schematics
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Empty Wing Sheet, v. 0, ed. 10
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Schematics
RH-12/RH-28
MMC Interface, v. 2.1, ed. 79
VMMC
VMMC
X910
R910
EMIF04-MMC02F2
SIM2MMCIF(3:0)
1
0
2
3
R10
R20
cmd
clk
data
1
2
3
4
5
6
7
cmd
clk
data
R1
R2
R3
R4
GND
GND
MMC Card Connections
reserved
command
ground
+ve supply
clock
ground
data
Not final connector
GND
GND
ON / OFF CONTROL
1 = active / 0 = Shutdown
C910
100n
Power Mode
1 = Active / 0 = Sleep(3mA MAX)
GND
GND
GND
NOTE: The MMC specification imposes the following impedance limits
Command pullup resistance 4.7k to 100k
Data pullup resistance 50k to 100k
EMIF02-MMC R10=13k (therefore only suitable for command line)
EMIF02-MMC R20=56k (therefore only suitable for data line)
EMIF02-MMC R1/R2/R3/R4=47R
UEME includes a 13k pullup between GEN28IO2 (command) and VAUX1
so EMIF02-MMC R10 is left unconnected. UEME has no pullup on GEN28IO3 (MMC data)
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MMCData/SIM2Reset
AuxDet
MMCDataDir
MMCData
MMCCmdDir/SIM2IOCtrl
MMCCmd/SIM2Data
MMCcmd/SimData
MMCClk/SimClk
MMCClkSIM2Clk
Copyright Nokia 2003. All rights reserved.
MMCClkSIM2Clk
MMCCmd/SIM2Data
MMCDataDir
MMCData
Schematics
MMCCmdDir/SIM2IOCtrl
C202
10n
CCS Technical Documentation
RH-12/RH-28
UEME Power Management - Dual 1 uF 6V3 Capacitors, v 1.0, ed. 307
Page A-20
CCS Technical Documentation
Schematics
RH-12/RH-28
UEME ADC Filter Block - BSI, BTEMP and Active PATEMP, v. 1.0
BSI_OUT
BSI_IN
BTEMP_OUT
BTEMP_IN
PATEMP_OUT
PATEMP_IN
LS_IN
VCXOTEMP_IN
Issue 1 02/04
Copyright Nokia 2003. All rights reserved.
LS_OUT
VCXOTEMP_OUT
Page A-21
CCS Technical Documentation
Schematics
RH-12/RH-28
DC_DC for TIKU and VIO, v. 1.7, ed. 75
Issue 1 02/04
Copyright Nokia 2003. All rights reserved.
Page A-22
CCS Technical Documentation
Schematics
RH-12/RH-28
Light Filtering for Projects using 1uF Caps, v. 1.0
Issue 1 02/04
Copyright Nokia 2003. All rights reserved.
Page A-23
CCS Technical Documentation
Schematics
RH-12/RH-28
Digital-ASIC-dependent Signal Routing - TikuXX Systems, v. 1.0
32KHz Crystal - Micro Crystal CC4VT2, v. 0, ed. 6
A
Issue 1 02/04
B
Copyright Nokia 2003. All rights reserved.
Page A-24
CCS Technical Documentation
Schematics
RH-12/RH-28
PWR Resistor 1210, v. 0, ed. 4
RES_IN
Issue 1 02/04
RES_OUT
Copyright Nokia 2003. All rights reserved.
Page A-25
CCS Technical Documentation
Schematics
RH-12/RH-28
GSM RF - Baseband Interface, v. 1.3, ed. 64
Issue 1 02/04
Copyright Nokia 2003. All rights reserved.
Page A-26
CCS Technical Documentation
Schematics
RH-12/RH-28
64Mbit 1V8 SDRAM Memory, v. 1.0, ed. 64
Issue 1 02/04
Copyright Nokia 2003. All rights reserved.
Page A-27
CCS Technical Documentation
Schematics
RH-12/RH-28
SIM Reader, v. 1.3, ed. 66
Issue 1 02/04
Copyright Nokia 2003. All rights reserved.
Page A-28
CCS Technical Documentation
Schematics
RH-12/RH-28
System Connector, v. 0.0, ed. 196
RFAUX(1:0)
UIDRV(5:0)
J100
PRODTP3
PRODTP2
PRODTP7
For After Sales
HOOKINT
VBATTRF
VBAT
J101
PWRONX
J360
IACCDIF(5:0)
X100
SIMIF(3:0)
BSI 0
C100
27p
GND
MIC(2:0)
BTEMP 1
Mbus
0
FbusTx
FbusRx
1
2
ACCDIF(2:0)
GND
R100
C101
1n0
GND
PUSL(3:0)
47k
GENIO(31:0)
DAI_CLK
GND
GND
Temperature sensor
0
DSP_MCUTEST(2:0)
DAI
AUDUEMCTRL(3:0)
CURRENT_MEAS components: 120 - 129
IHF(1:0)
SLOWAD(6:0)
GND
1.5A
F100
+ 1
2
GND
L100
42R/100MHz
VCharln
C102
10n
0
C103
27p
Gnd 2
X101
VFLASH1
GND
100k
R101
CHARGER(4:0)
HEADINT(1:0)
VAUX2
Vbus
VIO
GND
VAUX3
G_SYS_CONN(11:0)
R107
EMIF02-USB02F2
R3
R2
R1
600R/100MHz
J104
J105
J106
7
GND
X102
charge
charge gnd
ACI
Vout
Vbus
Fbus RX
D+
Fbus TX
Ddata gnd
Xmicn
Xmicp
Xearn
Xearp
Xear r n
Xear r p
GND
L102
C109
? /2 1u
600R/100MHz
VCC_I/O
14
15
10
9
GND
L105
1
2
3
4
5
6
7
8
9
10
11
12
13
14
N100
CP2137
C105
10n
R4
L104
VCC
Vpu
D+/RXD
D-/TXD
Vreg
_SPEED
SEMODE
SOFTCON
_OE
RCV
VM
VP/FRX
FSE0/FTX
VO
SUSPND
17=GND
GND
GND
GND
XMICN
XMICP
HFCM
HF
HFCMR
HFR
C109
? /2 1u
GND
13
8
6
16
1
2
4
3
12
11
5
NUT_Speed/SEM
USBPuEn
USB6Z
USBRx
USBRxM
USBRxP
USBSE
USBTx
USBSuspend
GPIO(31:0)
17
0
18
J107
J108
J109
J110
J111
J112
J113
5
2
1
0
4
3
USB_DIG(6:0)
GND
1
0
0
1
2
3
XMIC(2:0)
GND
C108
100n
AGND
GND
XEAR(3:0)
GND
GND GND GND GND
FMANT
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Page A-29
CCS Technical Documentation
Schematics
RH-12/RH-28
Current Measure, v. 0, ed. 18
VBAT
2k2
R122
2k2
R121
BATTERY_TERMINAL
C120
1u0
N120
LM3820TLX_NOPB
ZOCUSINT
AUDUEMCTRL(3:0)
VIO
1
3
2
SLEEPCLK
GND
5 pin Production Test Pattern, v. 2.0, ed. 52
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Page A-30
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Copyright Nokia 2003. All rights reserved.
RFCONV_DIGI(16:0)
RFCONV_ANA(16:0)
CCP(4:0)
GENIO(31:0)
IACCDIF(5:0)
USB_DIG(6:0)
LCDUI(2:0)
DSP_MCUTEST(2:0)
RFICCTRL(2:0)
AUDIODATA(3:0)
AUDUEMCTRL(3:0)
RFCONVCTRL(2:0)
FCI_I2C_SCL
FCI_I2C_SDA
FCI Enable
FCI Int
IrDa Rx
IrDa Tx
keyboard
keyboard
keyboard
keyboard
keyboard
keyboard
keyboard
keyboard
keyboard
keyboard
keyboard
keyboard
keyboard
MMC Clk
MMC Data
MMC Cmd
MMC Data Dir
MMC Cmd Dir
(Ext USBClk Enable)
LCDTear
FMWrEn
/MMC_reg_on
FMCtrlClk
FMCtrlDa
BT PCM Clk
BT PCM out
BT PCM in
BT PCM sync
ExtVPPEnX
SDRAM CSX
GENIO(31:0)
DIFCTRL(3:0)
DIFDATA(7:0)
Net_length max=25mm
MEMCONT(9:0)
Net_length max=25mm
MEMAD(24:16)
Net_length max=25mm
MEMADDA(15:0)
SDRCTRL(8:0)
SDRAD(15:0)
SDRDA(15:0)
KEYB(10:0)
IACCDIF(5:0)
AUDIODATA(3:0)
MEMCONT(9:0)
GPIO(63:32)
ETM(21:0)
GPIO(31:0)
DCT4.0
RFCONVDA(5:0)
JTAG_EMULATION(6:0)
PUSL(3:0)
RFCLK
AudioClk
BOM_detect(0)
TXP
Edge Mode
LCD Reset
TXA
Helga Reset
BOM_detect(1)
FMClk
Reserved GPS module
Reserved GPS module
Reserved GPS module
BT Host Wake-up
BT Wake-up
NUT SEMode
BT_ResetB
BT UART CTS
Ext VPPEnX
USBPuEn
USB Suspend
BT UART RX
BT UART TX
BT UART RTS
IrDa SD
CamClk
SCL (I2C) Cam
SDA (I2C) Cam
Cam Enable
Eija_Interrupt
EARDATAR
(Ext USBClk (48MHz))
CCS Technical Documentation
Schematics
RH-12/RH-28
TIKUedge Implementation (GSM)
Page A-31
CCS Technical Documentation
Schematics
RH-12/RH-28
Discrete Decoupling Capacitors for Tiku, v. 0, ed. 12
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Copyright Nokia 2003. All rights reserved.
Page A-32
CCS Technical Documentation
Schematics
RH-12/RH-28
TikuEDGE Bus Conversion Sheet, v. 1.2, ed. 102
AudioClk
FlsVppLock
EARDATAR
USBCLK
SIMCLK
SIMIOCtrl
HARD WIRED TO TIKU
SIM CARD I/O’s
SIMDa
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Page A-33
CCS Technical Documentation
Schematics
RH-12/RH-28
FM Radio Unit, v. 1.3, ed. 198
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Copyright Nokia 2003. All rights reserved.
Page A-34
CCS Technical Documentation
Schematics
RH-12/RH-28
Differential Stereo. v. 0.0, ed. 7
Issue 1 02/04
Copyright Nokia 2003. All rights reserved.
Page A-35
CCS Technical Documentation
Schematics
RH-12/RH-28
Low Power RF Module
G_LPRF(23:0)
G_LPRF(23:0)
G_LPRF(23:0)
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Page A-36
CCS Technical Documentation
Schematics
RH-12/RH-28
GENIO and GPIO Connection Block, v. 0.0, ed. 38
G_AUDIO(11:0)
G_APE(15:0)
G_KEY_UI(67:0)
KEYB(10:0)
GPIO(31:0)
G_CDMA(11:0)
G_GPS(7:0)
IrDa Rx
IrDa Tx
keyboard
keyboard
keyboard
keyboard
keyboard
keyboard
G_SIM(7:0)
keyboard
keyboard
keyboard
keyboard
keyboard
keyboard
keyboard
MMC Clk
MMC Data
MMC Cmd
MMC Data Dir
MMC Cmd Dir
(Ext USBClk Enable)
LCDTear
FMWrEn
/MMC_reg_on
G_POWER(11:0)
G_FMRADIO(11:0)
G_MMC(7:0)
G_LPRF(23:0)
FMCtrlClk
FMCtrlDa
BT PCM Clk
BT PCM out
BT PCM in
BT PCM sync
GPIO(63:32)
FM BUSCTRL
FCI Enable
FCI Int
FCI_I2C_SCL
FCI_I2C_SDA
BOM detect
GENIO(31:0)
PA
AudioClk
BOM_detect(0)
TXP
Edge Mode
LCD Reset
TXA
Helga Reset
BOM_detect(1)
R915
R916
G_RF_BB(31:0)
FMClk
Reserved GPS module
Reserved GPS module
Reserved GPS module
BT Host Wake-up
BT Wake-up
NUT SEMode
BT_ResetB
G_SYS_CONN(11:0)
BT UART CTS
Ext VPPEnX
USBPuEn
USB Suspend
BT UART RX
BT UART TX
BT UART RTS
IrDa SD
G_CAMERA(7:0)
G_IR(3:0)
G_MEMORY(3:0)
CamClk
SCL (I2C) Cam
SDA (I2C) Cam
Cam Enable
Eija_Interrupt
EARDATAR
(Ext USBClk (48MHz))
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Page A-37
CCS Technical Documentation
RH-12/RH-28 Series Transceivers
3 - Service Software Instructions
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RH-12/RH-28
Service Software Instrucitons
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Service Software Instrucitons
CCS Technical Documentation
Table of Contents
Page No
Quick Guide for Phoenix Service SW Installation .......................................................................... 5
Phoenix Installation Steps in Brief ..................................................................................................... 5
Phoenix Service SW ................................................................................................................................ 7
Before installation ................................................................................................................................ 7
Installing Phoenix ................................................................................................................................. 8
Updating Phoenix installation ........................................................................................................12
Uninstalling Phoenix .........................................................................................................................13
Repair .....................................................................................................................................................15
Data Package for Phoenix (Product Specific) ............................................................................... 17
Before installation ..............................................................................................................................17
Installing Phoenix data package (product specific) ..................................................................17
Uninstalling the data package ........................................................................................................21
Configuring Users ................................................................................................................................. 22
Managing Connections ....................................................................................................................... 24
Manual Settings.............................................................................................................................. 25
Updating Flash Support Files for FPS-8* and FLS-4*.................................................................. 28
Before installation ..............................................................................................................................28
Installing the flash support files (only separate installation package) ...............................28
Updating the FPS-8* Flash Prommer SW .....................................................................................31
Activating and Deactivating FPS-8 ................................................................................................. 34
Activation .............................................................................................................................................34
Deactivation .........................................................................................................................................35
JBV-1 Docking Station SW ................................................................................................................ 37
Before installation ..............................................................................................................................37
Installing SW needed for the JBV-1 SW update .......................................................................37
Receiver tuning: Quick Guide for Tuning With Phoenix............................................................ 43
General .................................................................................................................................................... 43
Service Tool Concept for RH-12* Baseband Tunings.................................................................. 44
Service concept for RH-12* baseband tunings ..........................................................................44
Baseband Tunings................................................................................................................................. 45
Energy management tuning ............................................................................................................45
Service Tool Concept for RF Tunings............................................................................................... 47
Service concept for RH-12* RF tunings .......................................................................................48
Receiver Tunings ................................................................................................................................... 49
RX channel select filter calibration ...............................................................................................49
RX calibration ......................................................................................................................................50
EGSM900 band................................................................................................................................ 50
GSM1800 band................................................................................................................................ 52
GSM1900 band................................................................................................................................ 53
RX band filter response compensation .........................................................................................54
EGSM900 band................................................................................................................................ 55
GSM1800 band................................................................................................................................ 58
GSM1900 band................................................................................................................................ 59
RX AM suppression ............................................................................................................................59
EGSM900 band................................................................................................................................ 60
GSM1800 Band ................................................................................................................................ 61
GSM1900 Band ................................................................................................................................ 61
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Transmitter Tunings.............................................................................................................................. 62
TX power level tuning ........................................................................................................................62
EGSM900 PA High Mode with EDGE off.................................................................................. 63
EGSM900 PA low mode with EDGE off .................................................................................... 64
EGSM900 PA high mode with EDGE on ................................................................................... 64
EGSM900 PA low mode with EDGE on..................................................................................... 65
GSM1800 PA high mode with EDGE off .................................................................................. 65
GSM1800 PA high mode with EDGE on ................................................................................... 67
GSM1900 PA high mode with EDGE off .................................................................................. 68
GSM1900 PA high mode with EDGE on ................................................................................... 69
TX I/Q tuning ........................................................................................................................................70
EGSM900 band with EDGE Off .................................................................................................... 70
EGSM900 band with EDGE On.................................................................................................... 72
EGSM1800 band with EDGE Off................................................................................................. 72
GSM1800 band with EDGE On.................................................................................................... 73
GSM1900 band with EDGE Off................................................................................................... 73
GSM1900 band with EDGE On.................................................................................................... 73
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CCS Technical Documentation
Quick Guide for Phoenix Service SW Installation
Phoenix Installation Steps in Brief
DCT-4 generation Test and Service Software is called “Phoenix”.
These are the basic steps to install the Phoenix:
•
Connect a DK2 Dongle or FLS-4S POS Flash Device.
•
Install the Phoenix Service SW.
•
Install the Data Package for Phoenix.
•
Configure users.
•
Manage connection settings (depends on the tools you are using).
Phoenix is now ready for FLS-4S Point Of Sales Flash Device use.
If you use FPS-8:
•
Update FPS-8 SW.
• Activate FPS-8.
•
Update JBV-1 Docking Station SW (only when needed).
Phoenix is now ready to be used also with FPS-8 flash prommer and other tools.
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Service Software Instructions
CCS Technical Documentation
The Phoenix Service Software installation contains:
•
Service software support for all phone models included in the package
•
Flash update package files for FPS-8* and FLS-4S programming devices
•
All needed drivers for:
DK2 dongle
FLS-4S point of sales flash device
USB devices
Separate installation packages for flash update files and drivers are also available, but it
is not necessary to use them unless updates appear between Phoenix Service SW
releases. If separate update packages are used, they should be used after Phoenix and
data packages have been installed.
The phone model specific data package includes all changing product specific data:
•
product software Binary files
•
files for type label printing
•
validation file for the Faultlog repair data reporting system
•
all product specific configuration files for Phoenix software components
Please refer to Service Manual and Technical Bulletins for more information concerning
phone model specific service tools and equipment setup.
Phoenix Service SW and phone data packages should only be used as complete installation packages. Uninstallation should be made from Windows Control Panel.
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Phoenix Service SW
Before installation
•
Check that a dongle is attached to the parallel port of your computer.
•
Download the installation package (e.g.
phoenix_service_sw_a12_2003_50_6_35.exe) to your computer (e.g. C:\TEMP).
•
Close all other programs.
•
Run the application file (e.g. phoenix_service_sw_a12_2003_50_6_35.exe) and
follow instructions on the screen.
Administrator rights may be required to be able to install Phoenix depending on the
Operating System.
If uninstalling or rebooting is needed at any point, you will be prompted by the Install
Shield program.
If at any point during the installation you get this message, the dongle is not found and
the installation can not continue.
Possible reasons may be defective or too old PKD-1Dongle (five digit serial number dongle when used with FPS-8 Prommer) or that the FLS-4S POS Flash Dongle is defective or
power to it is not supplied by external charger.
First, check the COM /parallel ports used! After correcting the problem, the installation
can be restarted.
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Installing Phoenix
Run the phoenix_service_sw_a12_2003_50_6_35.exe to start the installation. Install
Shield will prepare.
Click " Next " in Welcome dialog to continue.
Choose the destination folder, it is recommended to use the default folder C:\ProgramFiles\Nokia\Phoenix.
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Choose “Next” to continue. You may choose another location by selecting “Browse” (not
recommended).
Setup copies the components, progress of the setup is shown. Please wait.
Drivers will be installed and updated, please wait. The process may take several minutes
to complete.
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If the operating system does not require rebooting (Windows 2000, XP) the PC components are registered right away.
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Click " Finish " to finalize. Phoenix is ready for use.
If the operating system used requires restarting your computer (Windows 98, SE, ME),
the Install Shield Wizard will notify you about it. Select " Yes... " to reboot the PC immediately and " No... " to reboot the PC manually afterwards.
After the reboot components are registered and Phoenix is ready for use. Note that Phoenix doesn't work, if components are not registered.
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Now the installation of Phoenix Service SW is ready and it can be used after :
•
installing Phone model specific Phone Data Package for Phoenix
•
configuring users and connections
FLS-4S can be used right away.
FPS-8* can be used after updating Flash Update Package files to it.
Updating Phoenix installation
If you already have the Phoenix Service SW installed on your computer, sooner or later
there will be need to update it when new versions are released.
Always use the latest available versions of both the Phoenix Service SW and the Phone
Specific Data Package. Instructions can be found in phone model specific Technical Bulletins and Phone Data package readme.txt files (shown during installation).
To update Phoenix, you need to take exactly the same steps as when installing it for the
first time.
•
Download the installation package to your computer hard disk.
•
Close all other programs.
•
Run the application file (e.g. phoenix_service_sw_a12_2003_50_6_35.exe).
Newer version of Phoenix will be installed.
Driver versions will be checked and if need be, updated.
When you update Phoenix from an old to a new version (e.g. a11_2003_41_5_28 to
a12_2003_50_6_35 ), the update will take place automatically without uninstallation.
If you try to update Phoenix with the same version that you already have (e.g.
a12_2003_50_6_35 to a12_2003_50_6_35 ) you are asked if you want to uninstall the
version of Phoenix you have on your PC. In this case, you can choose between total
uninstallation and repair just like when you choose to uninstall Phoenix service software
from the Windows control panel.
If you try to install an older version (e.g. downgrade from a12_2003_50_6_35 to
a11_2003_41_5_28 installation will be interrupted.
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Please always follow the instructions on the screen.
Uninstalling Phoenix
Uninstallation can be done manually from Windows Control Panel - Add / Remove Programs.
Choose “Phoenix Service Software” and click " Add/Remove " . Choose “Remove” to uninstall Phoenix.
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Progress of the uninstallation is shown.
If the operating system does not require rebooting, select “Finish” to complete.
If the operating system used requires rebooting, Install Shield Wizard will notify you
about it. Select " Yes... " to reboot the PC immediately and " No... " to reboot the PC manually afterwards.
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Repair
If you experience any problems with the service software or suspect that files have been
lost, you can use the repair function before completely reinstalling Phoenix. Note that
the original installation package (e.g. phoenix_service_sw_a12_2003_50_6_35.exe)
must be found on your PC when you run the repair setup.
Run Windows Control Panel - Add / Remove Programs, choose “Phoenix Service Software” and click " Add/Remove " . In the following view choose “Repair”.
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Phoenix will reinstall components and register them, the procedure is the same as in the
update installation.
Choose “Finish” to complete.
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Data Package for Phoenix (Product Specific)
Before installation
•
Product Data Package contains all product specific data to make the Phoenix
Service Software and tools usable with a certain phone model.
•
Check that the dongle is attached to the parallel port of your computer.
•
Install Phoenix Service SW.
•
Download the installation package (e.g. RH-12_dp_v_40.0_mcusw02.19.exe) to
your computer (e.g. C:\TEMP).
•
Close all other programs.
•
Run the application file (e.g. RH-12_dp_v_40.0_mcusw02.19.exe) and follow
instructions on the screen.
Please note that very often the Phoenix Service SW and the Phone Specific Data Package
for Phoenix come in pairs, meaning that certain version of Phoenix can only be used with
certain version of Data Package. Always use the latest available versions of both. Instructions can be found in phone model specific Technical Bulletins and readme.txt files of the
data packages.
Installing Phoenix data package (product specific)
Run the RH-12_dp_v_40.0_mcusw02.19.exe to start the installation.
When you choose “Next” the files needed for the installation will be extracted. Please
wait.
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Choose “Next” to continue.
From this view, you can see the contents of the Data Package. Read the text carefully.
There should be information about the Phoenix version needed with this data package.
Choose “Next”.
Confirm location and choose “Next” to continue. Install shield checks where the Phoenix
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application is installed and the directory is shown. Choose “Next” to continue.
Choose “Next” to start copying the files.
Phone model specific files will be installed. Please wait.
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CCS Technical Documentation
Choose “Finish” to complete the installation.
You now have all phone model specific files installed in your Phoenix Service SW.
Now Phoenix can be used to for example flash phones and print type labels after:
• configuring users
• managing connections
FLS-4S can be used right away.
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FPS-8* can be used after updating Flash Update Package files to it.
Uninstalling the data package
Uninstallation can also be done manually from Windows Control Panel / Add / Remove
Programs / “RH-12 Phone Data Package”.
If you try to install the same version of Phoenix Data Package that you already have, you
are asked if you want to uninstall the version you have on your PC. Answer “OK” to uninstall, “Cancel” if you don’t want to uninstall.
Older versions of data packages don’t need to be uninstalled unless instructions to do so
are given in the readme.txt of the data package and bulletins concerning the release.
Please read all related documents carefully.
Once the previously installed Data package is uninstalled, choose “Finish”.
Run the RH-12_dp_v_40.0_mcusw02.19.exe again in case you want to continue the
installation from the beginning.
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Service Software Instructions
CCS Technical Documentation
Configuring Users
Start Phoenix Service SW and Login. To add new user choose “Edit”. If user ID is already
configured, choose your own user ID from the list and choose “OK”.
Choose “Add” to continue.
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Type in your name and initials to fields and choose “OK”.
User has now been created, choose “OK”.
You are now able to login with this username, choose “OK”.
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Managing Connections
Start Phoenix Service SW and Login.
Choose “Manage Connections” From “File” Menu.
Existing connections can be selected , edited, deleted and new ones created by using this
dialog.
A connection can be created either manually or by using a Connection Wizard.
To add new connection, choose “Add” and select if you want to create it manually or by
using the Wizard.
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Choose “Next” to continue.
In the next dialogs you will be asked to select some settings for the connection.
Manual Settings
A) For FLS-4S POS Flash Device choose the following connection settings
•
Media: FBUS
•
COM Port: Virtual COM Port used by FLS-4 Please check this always!
(To check please go to Windows / Control Panel / FLS Virtual Port / Configuration)
B) For FPS-8 Flash Prommer choose the following connection settings:
•
Media: FPS-8
•
Port Num: COM Port where FPS-8 is connected
•
COMBOX_DEF_MEDIA: FBUS
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Choose “Finish” to complete.
If you use the Wizard, connect the tools and a phone to your PC and the wizard will
automatically try to configure the correct connection.
Activate the connection you want to use by clicking it and use up/down arrows to move
it on top of the list. Choose “Apply”. The connection is now selected and can be used
after closing the “Manage Connections” window.
Selected connection will be shown on the right hand bottom corner of the screen.
To use the selected connection, connect the phone to Phoenix with correct service tools,
make sure that it is switched on and select “Scan Product”.
When Product is found, Phoenix will load product support and when everything is ready,
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name of the loaded product support module and its version will be shown on the bottom of the screen.
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Updating Flash Support Files for FPS-8* and FLS-4*
Before installation
•
Install Phoenix Service SW .
•
Install phone model Specific Data package for Phoenix.
The flash support files are delivered in the same installation package with Phoenix data
packages or newer Phoenix packages beginning from September 2003.
Normally it is enough to install the Phoenix and phone data package only because the
Phoenix installation always includes the latest flash update package files for FLS-4S /
FPS-8*.
Separate installation package for flash support files is available, and the files can be
updated according to these instructions if updates appear between Phoenix / data package releases.
Installing the flash support files (only separate installation package)
If you are not using separate installation package, you can skip this section.
Start by double clicking flash_update_03_07_000.exe . The installation begins.
If the same version of Flash Update package already exists, and you want to reinstall
them, the previous package is first uninstalled. Restart installation again after that.
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If you try to downgrade the existing version to older ones, the setup will be aborted. If
you really want to downgrade, uninstall newer files manually from Control Panel and
then re run the installation again.
If an older version exists on your PC and it needs to be updated, choose “Next” to continue the installation.
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It is highly recommended to install the files to the default destination folder C:\Program
Files\Nokia\Phoenix. Choose “Next” to continue. When installing the flash update files
for the first time you may choose another location by selecting “Browse” (not recommended).
The installation continues.
Choose “Finish” to complete the procedure.
FLS-4 can be used right after Flash Update Package is installed.
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FPS-8* flash prommer must be updated by using Phoenix!
Updating the FPS-8* Flash Prommer SW
Start Phoenix Service Software and login, manage connection correctly for the FPS-8*
flash prommer.
Select ”FPS-8 maintenance” from ”Flashing” menu.
When new FPS-8 flash update package is installed to computer you will be asked to
update the files to your FPS-8 Prommer.
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Select ”Yes” to update files.
The update procedure takes a couple of minutes, please wait until you are notified that
update has been successful. Choose “OK” and close “FPS8 Maintenance” UI.
View after a successful prommer software update.
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FPS-8 sw can also be updated by pressing ”Update” and selecting appropriate
fps8upd.ini file under C:\Program Files\Nokia\Phoenix\Flash.
All files can be loaded separately to FPS-8. To do this, just press the right mouse button
in the ”Flash box files” window and select file type to be loaded.
More information and help can be found from “Help” dialog.
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Activating and Deactivating FPS-8
•
Before the FPS-8 can be successfully used for phone programming, it must be
first activated.
•
If there is a need to send FPS-8 box to somewhere e.g. for repair, box must be
first deactivated.
Activation
Before FPS-8 can be successfully used for phone programming, it must be first activated.
First, fill in the “FPS-8 activation request” sheet, in the FPS-8 sales package and follow
the instructions in the sheet.
When activation file is received (e.g. 00000.in), copy it to C:\ProgramFiles\Nokia\Phoenix\BoxActivation directory on your computer (this directory is created when Phoenix is
installed).
Start Phoenix Service Software.
Select ”FPS-8 maintenance” from ”Flashing” menu.
Select “Activate” from the “FPS8 Maintenance” UI. The box will be activated when you
choose “Activate”.
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If you want to save the activation file to another directory on your PC, please browse to
find it.
The box will be activated when you choose “Open”.
Turn FPS-8 power off and on to complete the activation.
Deactivation
Start Phoenix Service Software.
Select ”FPS-8 maintenance from the ”Flashing” menu as when activating prommer or
updating sw.
Select “Deactivate” from the “FPS8 Maintenance” UI.
Confirm Deactivation by choosing “Yes”. The box will be deactivated.
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Turn FPS-8 power off and on to complete deactivation.
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JBV-1 Docking Station SW
The JBV-1 Docking Station is a common tool for all DCT-4 generation products.
In order to make the JBV-1 usable with different phone models, a phone specific Docking
Station Adapter is used for different service functions.
The JBV-1 Docking Station contains Software (Firmware) which can be updated.
You need the following equipment to be able to update JBV-1 software:
•
PC with USB connection
•
operating System supporting USB (Not Win 95 or NT)
•
USB Cable (Can be purchased from shops or suppliers providing PC hardware and
accessories)
•
JBV-1 Docking Station
•
external Power Supply 11-16V
Before installation
•
Download Jbv1_18_update.zip – file to your computer (e.g. C:\TEMP) from your
download web site.
•
Close all other programs.
•
Follow the instructions on the screen.
Installing SW needed for the JBV-1 SW update
Note: DO NOT CONNECT THE USB CABLE / JBV-1 TO YOUR COMPUTER YET!
Run Jbv1_18_update.zip file and start the SW installation by double clicking Setup.exe.
Files needed for JBV-1 Package setup program will be extracted.
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The installation begins, please read the information shown and choose “Next” to continue.
Use suggested destination folder where JBV-1 SW Package will be installed and choose
“Next” to continue.
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Select “Full” installation and choose “Next” to continue.
Program Folder will be created. Choose “Next” to continue, Software files will be
installed.
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After successful installation, choose “Finish” to complete.
YOU CAN NOW CONNECT THE USB CABLE / JBV-1 TO YOUR COMPUTER
Connect power to JBV-1 (11-16V DC) from an external power supply, then connect USB
Cable between JBV-1 USB connector and PC.
The next step is to install or update the JBV-1 USB drivers which are delivered with the
JBV-1 SW installation package. They can be found in folder:
C:\Program Files\Nokia\ JBV-1 Firmware Update\JBV-1USB driver
If there is no previously installed JBV-1 Firmware update package installed on your computer, Windows will detect the connected USB cable and detect drivers for new HW. You
will be prompted about this, please follow the instructions and allow Windows to search
and install the best Drivers available.
If there is a previously installed JBV-1 Firmware update package (v 17 or older) on your
computer, please update the JBV-1 USB Driver. Please see the readme.txt file under
C:\Program Files\Nokia\ JBV-1 Firmware Update\JBV-1USB driver folder for instructions
on how to update the JBV-1 USB Driver.
After you have installed or updated the JBV-1 USB driver, the actual JBV-1 SW update
can begin.
Go to folder C:\Program Files\Nokia\JBV-1 Firmware Update\JBV-1 Firmware Update and
start JBV-1 Update SW by double clicking fwup.exe.
JBV-1 Firmware update starts and shows current status of the JBV-1 connected.
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If the firmware version read from your JBV-1 is not the latest one available (v. 17 or
older), it needs to be updated to version 18 by choosing “Update Firmware”.
If you simply want to check the SW version, choose “Refresh Status”.
To update your JBV-1 to a new version, 18 choose file JBV1v18.CDE and “Open”.
Please wait, it takes a while until you can hear a “click” from the JBV-1.
The older sw file JBV1v17.CDE is visible in this view only if the previous JBV-1 SW package has been installed on your computer.
After a successful update, the current JBV-1 status will be shown after you choose “OK”.
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You have now updated the software of your JBV-1 docking station and it is ready for use.
If you have several docking stations you need to update, disconnect the Power & USB
cables from the previous one and connect them to the next docking station. Choose
“Refresh Status” to see the current SW version and then “Update Firmware” to update
the SW.
After you have updated all docking stations, close the “JBV-1 Firmware Update” dialog.
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Receiver tuning: Quick Guide for Tuning With Phoenix
General
RF tunings should be made in the same order as shown in this document. The order of
the corresponding menu items in the Phoenix Service SW may be different.
If baseband tunings are needed, they should be made before the RF tunings.
Avoid unnecessary tuning – factory tuning values are always the most accurate ones.
Views in this document may change as the service software is developed. Please refer to
the Phoenix help files, phone model specific service manual and bulletins for help.
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Service Tool Concept for RH-12* Baseband Tunings
EM calibrations should be carried out in JBV-1 Docking Station equipped with DA-8
Docking Station Adapter
Note: RF tunings must be carried out in MJ-12 module jig.
Power to JBV-1 should be supplied from an external DC power supply, not FPS-8 prommer
JBV-1 input voltages:
•
Maximum + 16 VDC
•
Nominal input for RF tunings is +12 V DC
Service concept for RH-12* baseband tunings
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Item
Service Accessory
Accessory type
Product code
1
Docking Station
JBV-1
0770298
2
Docking Station adapter
DA-8
0770546
4
DC-DC Cable
SCB-3
0730114
5
RF antenna cable
XRF-1
0730085
6
DC power cable
PCS-1
0730012
7
Service MBUS cable
DAU-9S
0730108
8
Software protection key
PKD-1
0750018
9
Phoenix service SW
9
Phoenix service SW
8408031
CD-ROM
0774286
Baseband Tunings
Energy management tuning
External power supply is needed.
EM Calibration is used for calibrating Battery and Charger settings of the phone.
Preparation for EM Calibration:
•
Connect DC Cable SCB-3 between JBV-1 and Vin of Phone for Charger calibration.
•
Connect 12…15 V from Power Supply to JBV-1.
NOTE! Check that connection is F-BUS (doesn't work with M-BUS!).
Select Tuning = & gt; Energy Management Calibration
Energy Management values to be calibrated are checked.
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Select “Read from Phone” to show current values in the phone memory and to check
that the communication with the phone works.
Select “Calibrate” to run selected calibrations.
Limits for Energy Management Calibration:
Min
ADC gain
ADC offset
BSI gain
VBAT gain
VBAT offset
VCHAR
ICHAR
Max
27000
-50
930
10000
2400
58000
3500
28000
50
1100
11000
2600
62000
4600
If values shown are within limits, select “Save To Phone” to save values to phone.
NOTE! Only values of checked tunings (Battery size, Battery Temperature etc…) will be saved.
Close the “Energy Management Calibration” dialog to end tuning.
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Service Tool Concept for RF Tunings
All RF tunings for RH-12* phones must be carried out in MJ-12 Module Jig.
Power to MJ-12 should be supplied from an external DC power supply, not FPS-8 prommer.
MJ-12 input voltages:
•
Maximum + 16 VDC
•
Nominal input for RF tunings is +12 V DC
Remember cable attenuation when setting required RF levels.
RF tunings should be made in the same order as shown in this document, the order of the
corresponding menu items in the Phoenix Service SW may be different.
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Service concept for RH-12* RF tunings
Item
Service accessory
Accessory type
Product code
1
Module jig
MJ-12
0770544
2
DC power cable
PCS-1
0730012
3
Modular cable
XRF-1
0730085
4
Service Mbus cable
DAU-9S
0730108
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Receiver Tunings
RX channel select filter calibration
Extra equipment / external RF signal is not needed.
Must be done before other RX calibrations.
This function is used to calibrate RX channel select filter in GSM Phones.
Rx Channel select filter is tuned only in one (lowest) band = Single calibration for all
bands.
Select Tuning = & gt; Rx Channel select filter calibration.
Press “Tune " to start the tuning.
Values will be saved to the phone when the “Save to Phone” tick box is checked.
If the “Save to Phone” tick box is not checked, the values are not saved to the phone
when you stop the tuning or exit the dialog.
Tuning values should be 0…31.
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Select “Stop”.
Close the “RX Channel Select Filter Calibration“ dialog to end tuning.
RX calibration
RF generator is needed.
This tuning performs RX Calibration.
Must be done separately on all bands!
Calibration is automatically performed at EGSM (GSM900), then at GSM1800 and finally
at the GSM1900 band. If the tuning is successful, it continues in the next band.
AFC tuning is carried out while EGSM (GSM900) band RX Calibration is performed.
Remember to take jig and cable attenuations into account!
Select Tuning = & gt; Rx calibration
EGSM900 band
Press " Start " to begin.
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Set RF generator to required EGSM900 frequency = & gt; OK
Tuning values and ADC readings will be shown
Typical values and limits in (GSM900) RX Calibration:
GSM900
Typical value
Low limit
High limit
AFC value
0
-350
350
AFC slope
150
50
350
RSSI 0
68
58
78
RSSI 1
74
64
84
RSSI 2
80
70
90
RSSI 3
86
76
96
RSSI 4
92
82
102
RSSI 5
97
87
107
RSSI 6
103
93
113
RSSI 7
109
99
119
RSSI 8
115
105
125
RSSI 9
121
111
131
RSSI 10
127
117
137
RSSI 11
133
123
143
RSSI 12
139
129
149
RSSI 13
145
135
155
RSSI 14
151
141
161
Tuning will automatically move to the next band (GSM1800) when you press “Save &
Continue”.
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GSM1800 band
When asked, set the RF generator to required GSM1800 frequency = & gt; OK
Tuning values and ADC readings will be shown.
Typical values and limits in (GSM1800) RX Calibration:
GSM1800
Typical value
Low limit
High limit
RSSI 0
65
55
75
RSSI 1
71
61
81
RSSI 2
77
67
87
RSSI 3
83
73
93
RSSI 4
89
79
99
RSSI 5
94
84
104
RSSI 6
100
90
110
RSSI 7
106
96
116
RSSI 8
112
102
122
RSSI 9
118
108
128
RSSI 10
124
114
134
RSSI 11
130
120
140
RSSI 12
136
126
146
RSSI 13
142
132
152
RSSI 14
148
138
158
Tuning will automatically move to the next band (GSM1900) when you press “Save &
Continue”
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GSM1900 band
Set RF generator to required GSM1900 frequency = & gt; OK
Tuning values and ADC readings will be shown
Typical values and limits in (GSM1900) RX Calibration:
GSM1900
Typical value
Low limit
High limit
RSSI 0
67
57
77
RSSI 1
73
63
83
RSSI 2
79
69
89
RSSI 3
85
75
95
RSSI 4
91
81
101
RSSI 5
98
88
108
RSSI 6
104
94
114
RSSI 7
110
100
120
RSSI 8
116
106
126
RSSI 9
122
112
132
RSSI 10
128
118
138
RSSI 11
134
124
144
RSSI 12
140
130
150
RSSI 13
146
136
156
RSSI 14
152
142
162
Tuning will be completed when you press “Save & Continue”.
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Close the “RX – Calibration” dialog to end tuning.
RX band filter response compensation
RF generator needed.
Must be performed separately on all bands!
Start the RX calibration at EGSM (GSM900), then continue to the GSM1800 band and
finally to the GSM1900 band.
Remember to carry out the RX calibration before carrying out Rx band filter response
compensation!
Remember to take jig and cable attenuations into account!
Select Tuning = & gt; Rx Band Filter Response Compensation
Select " Manual tuning " and “Start”.
You will be asked to supply 9 different RF frequencies to the phone on each band.
The tuning begins from EGSM900 band and continues the same way for GSM1800 and
GSM1900 bands.
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EGSM900 band
Set first required frequency and level = & gt; OK
Set 2nd required frequency and level = & gt; OK
Set 3rd required frequency and level = & gt; OK
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Set 4th required frequency and level = & gt; OK
Set 5th required frequency and level = & gt; OK
Set 6th required frequency and level = & gt; OK
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Set 7th required frequency and level = & gt; OK
Set 8th required frequency and level = & gt; OK
Set 9th required frequency and level = & gt; OK
Tuning values and ADC readings will be shown.
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Typical values and limits in Rx Band Filter Response Compensation EGSM900:
Channel
Input
frequency
[MHz]
Typical value
[dB]
Low limit
[dB]
High limit
[dB]
965
923.26771
+-3
-10
5
975
925.26771
+-1
-5
5
987
927.66771
+-1
-5
5
1009
932.06771
+-1
-5
5
37
942.46771
+-1
-5
5
90
953.06771
+-1
-5
5
114
957.86771
+-1
-5
5
124
959.86771
+-1
-5
5
136
962.26771
+-3
-10
5
Tuning will automatically move to the next band (GSM1800) when you press “Save &
Continue”.
GSM1800 band
Repeat the same steps as for the EGSM900 band above.
Typical values and limits in Rx Band Filter Response Compensation GSM1800:
Channel
Input
frequency
[MHz]
Typical value
[dB]
Low limit
[dB]
High limit
[dB]
497
1802.26771
+-3
-10
5
512
1805.26771
+-1
-5
5
535
1809.86771
+-1
-5
5
606
1824.06771
+-1
-5
5
700
1842.86771
+-1
-5
5
791
1861.06771
+-1
-5
5
870
1876.86771
+-1
-5
5
885
1879.86771
+-1
-5
5
908
1884.46771
+-3
-10
5
Tuning will automatically move to the next band (GSM1900) when you press “Save &
Continue”.
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GSM1900 band
Repeat the same steps as for the EGSM900 and GSM1800 bands above.
Typical values and limits in Rx Band Filter Response Compensation GSM1900:
Channel
Input
frequency
[MHz]
Typical value
[dB]
Low limit
[dB]
High limit
[dB]
496
1927.06771
+-3
-10
5
512
1930.26771
+-1
-5
5
537
1935.26771
+-1
-5
5
586
1945.06771
+-1
-5
5
661
1960.06771
+-1
-5
5
736
1975.06771
+-1
-5
5
794
1986.66771
+-1
-5
5
810
1989.86771
+-1
-5
5
835
1994.86771
+-3
-10
5
Tuning will be completed when you press “Save & Continue”.
Close the “RX Band Filter Response Compensation” dialog to end tuning.
RX AM suppression
RF generator needed (AM modulation).
Must be performed separately on all bands!
Start the RX calibration at EGSM (GSM900), then continue to the GSM1800 band and
finally to the GSM1900 band.
This tuning performs RX AM suppression tuning.
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Remember to take jig and cable attenuations into account!
Select Tuning = & gt; Rx Am suppression
Set RF signal generator to correct settings described in the window on the left.
Select “Start“ to begin tuning.
EGSM900 band
Set the required frequency and level = & gt; OK
Rx Am suppression values received from DSP will be shown in the center part of the UI.
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Rssi level value will be shown in the left bottom part of the UI.
One " I " and " Q " line values should be 0, other values 0..31.
RSSI value results vary typically between -88 dBm…-111 dBm at EGSM900, GSM1800
and GSM1900 bands.
Tuning will automatically move to the next band (GSM1800) when you press “Save &
Continue”.
GSM1800 Band
Repeat the same steps as for the EGSM900 band above.
Tuning values and ADC readings will be shown.
Tuning will automatically move to the next band (GSM1900) when you press “Save &
Continue”.
GSM1900 Band
Repeat the same steps as for the EGSM900 and GSM1800 bands.
Tuning values and ADC readings will be shown.
Tuning will be completed when you press “Save & Continue”.
Close the RX AM Suppression Tuning dialog to end the tuning.
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Transmitter Tunings
TX power level tuning
Power Meter (or Spectrum analyzer) is needed.
With Tx power level tuning, the coefficients are adjusted for each power level.
Tuning must be performed separately on all band and all modes!
When EDGE is on, the tuning must be carried out for all power levels.
Tx power level tuning steps are:
•
EGSM900 PA High Mode with EDGE off
•
EGSM900 PA Low Mode with EDGE off (NOT IN USE FOR RH-12)
•
EGSM900 PA High Mode with EDGE on
•
EGSM900 PA Low Mode with EDGE on (NOT IN USE FOR RH-12)
•
GSM1800 PA High Mode with EDGE off
•
GSM1800 PA High Mode with EDGE on
•
GSM1900 PA High Mode with EDGE off
•
GSM1900 PA High Mode with EDGE on
Select Tuning = & gt; Tx power level tuning
Remember to take jig and cable attenuations into account!
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EGSM900 PA High Mode with EDGE off
Select “Start”, the tuning begins automatically from the EGSM900 band.
Set Power Meter (or Spectrum analyzer) as required.
Note that TX PA mode is “High” at this point.
The coefficient table lists the power level, coefficient, target dBm and DAC value for each
power level.
The tuned power level can be chosen by using up and down arrows or mouse.
The current power level is shown with inverse colors.
The tuning value can be adjusted with “-“ and “+” keys.
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Tune base level and power levels 19,15 and 5 to target level.
When tuning values are correct, choose “Save & Continue”.
If all coefficients are within specified limits, tuning will continue on the EGSM900 PA
Low Mode with EDGE off.
Typical values:
Power level
GSM900 EDGE off
5
0.650 … 0.850
15
0.140 … 0.200
19
0.120 … 0.170
Base
0.090 … 0.130
EGSM900 PA low mode with EDGE off
This tuning step is not required for the RH-12 Product, the phone will not react to any
controls.
Please choose “Save & Continue”
Tuning will continue on the EGSM900 PA High Mode with EDGE on.
EGSM900 PA high mode with EDGE on
Set Power Meter (or Spectrum analyzer) as required.
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Repeat the same steps as for EGSM high and low mode above.
When EDGE is on, the tuning must be made for all power levels.
Tune base level and all power levels from 19 to 8 to target level.
When tuning values are correct, choose “Save & Continue”.
If all coefficients are within specified limits, tuning will continue on the EGSM900 PA
low mode with EDGE on.
Typical values:
Power level
GSM900 EDGE on
8
0.500 … 0.650
9
0.400 … 0.550
10
0.350 … 0.500
11
0.320 … 0.470
12
0.300 … 0.440
13
0.280 … 0.400
14
0.250 … 0.350
15
0.230 … 0.330
16
0.210 … 0.310
17
0.200 … 0.300
18
0.190 … 0.290
19
0.180 … 0.280
Base
0.100 … 0.180
EGSM900 PA low mode with EDGE on
This tuning step is not required for the RH-12 Product, phone will not react to any
controls.
Please choose “Save & Continue”.
Tuning will continue on the GSM1800 PA high mode with EDGE off.
GSM1800 PA high mode with EDGE off
Set Power Meter (or Spectrum analyzer) as required.
Repeat the same steps as for EGSM high and low mode above.
Tune base level and power levels 15,11 and 0 to target level.
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When tuning values are correct, choose “Save & Continue”.
If all coefficients are within specified limits, tuning will continue on the GSM1800 PA
high mode with EDGE on.
Typical values:
Power level
GSM1800 EDGE off
0
0.600 … 0.750
11
0.130 … 0.190
15
0.110 … 0.150
Base
0.090 … 0.130
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GSM1800 PA high mode with EDGE on
Set Power Meter (or Spectrum analyzer) as required.
Repeat the same steps as for EGSM high and low mode above.
When EDGE is on, the tuning must be made for all power levels.
Tune base level and all power levels from 15 to 2 to target level.
When tuning values are correct, choose “Save & Continue”.
If all coefficients are within specified limits, tuning will continue on the GSM1900 PA
high mode with EDGE off.
Typical values:
Power level
GSM1800 EDGE on
2
0.550 … 0.700
3
0.470 … 0.620
4
0.400 … 0.550
5
0.350 … 0.500
6
0.320 … 0.470
7
0.290 … 0.430
8
0.260 … 0.360
9
0.240 … 0.330
10
0.220 … 0.310
11
0.210 … 0.300
12
0.200 … 0.280
13
0.180 … 0.260
14
0.170 … 0.250
15
0.160 … 0.240
Base
0.090 … 0.160
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GSM1900 PA high mode with EDGE off
Set Power Meter (or Spectrum analyzer) as required.
Repeat the same steps as for EGSM high and low mode above.
Tune base level and power levels 15,11 and 0 to target level.
When tuning values are correct, choose “Save & Continue”.
If all coefficients are within specified limits, tuning will continue on the GSM1900 PA
high mode with EDGE on.
Typical values:
Power level
GSM1900 EDGE off
0
0.600 … 0.750
11
0.130 … 0.190
15
0.110 … 0.150
Base
0.090 … 0.130
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GSM1900 PA high mode with EDGE on
Set Power Meter (or Spectrum analyzer) as required.
Repeat the same steps as for EGSM high and low mode above.
When EDGE is on, the tuning must be made for all power levels.
Tune base level and all power levels from 15 to 2 to target level.
When tuning values are correct, choose “Save & Continue”.
Typical values:
Power level
GSM1900 EDGE on
2
0.550 … 0.700
3
0.470 … 0.620
4
0.400 … 0.550
5
0.350 … 0.500
6
0.320 … 0.470
7
0.290 … 0.430
8
0.260 … 0.360
9
0.240 … 0.330
10
0.220 … 0.310
11
0.210 … 0.300
12
0.200 … 0.280
13
0.180 … 0.260
14
0.170 … 0.250
15
0.160 … 0.240
Base
0.090 … 0.160
If values shown are within limits select “Save & Continue”, values are saved to phone
memory.
Close the “TX Power Level Tuning” dialog to end tuning.
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TX I/Q tuning
Spectrum analyzer is needed.
Tx IQ tuning allows changing the Tx I DC Offset, Tx Q DC Offset, Amplitude difference
and Phase difference.
Must be performed separately on all bands!
TX I/Q tuning steps are:
•
EGSM (GSM900) with EDGE off
•
EGSM with EDGE on
•
GSM1800 with EDGE off
•
GSM1800 with EDGE on
•
GSM1900 with EDGE off
•
GSM1900 with EDGE on
Remember to take jig and cable attenuations into account!
Select Tuning = & gt; TX IQ Tuning
EGSM900 band with EDGE Off
Select “Start” to begin tuning at EGSM900 band with EDGE off.
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Set spectrum analyzer to required settings = & gt; OK
The tuning is carried out by setting each of the sliders to desired value. The sliders can be
changed only when the tuning is ongoing.
The order of tuning should be the same as the order of the sliders e.g. the Tx I DC Offset
is tuned first and Phase difference is tuned last.
Use & lt; = , = & gt; , PgUp or PgDn keys
The tuning is performed by setting each of the sliders to desired value.
Tune LO leak to minimum with TXI/TXQ DC offset control (f0 on spectrum analyzer
screen).
Tune the wrong sideband to minimum using Amplitude/Phase difference controls
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(f0+68kHz on spectrum analyzer screen).
Before tuning
After tuning
Tx IQ Tuning limits are the same for all bands (GSM900, GSM1800 and GSM1900):
Tuning Limits
EDGE off
EDGE on
TX I DC Offset
-4 … +4
-6 … +6
TX Q DC Offset
-4 … +4
-6 … +6
Amplitude Difference
-1.2 … +1.2
-1 … +1
Phase Difference
80 … 100
80 … 100
Tuning will automatically move to the next step, EGSM900 with EDGE on when you
press “Save & Continue”.
EGSM900 band with EDGE On
Choose “Start” to begin tuning.
Set the spectrum analyzer to required settings for EGSM900 band = & gt; OK
Repeat the same tuning steps as for the EGSM900 with EDGE off above.
Tuning will automatically move to the next step, EGSM1800 with EDGE off when you
press “Save & Continue”.
EGSM1800 band with EDGE Off
Choose “Start” to begin tuning.
Set the spectrum analyzer to required settings settings for GSM1800 band = & gt; OK
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Repeat the same tuning steps as for the EGSM900 band above.
Tuning will automatically move to the next step, EGSM1800 with EDGE on when you
press “Save & Continue”.
GSM1800 band with EDGE On
Choose “Start” to begin tuning.
Set the spectrum analyzer to required settings for GSM1800 band = & gt; OK.
Repeat the same tuning steps as for the EGSM900 band above.
Tuning will automatically move to the next step, EGSM1900 with EDGE off when you
press “Save & Continue.
GSM1900 band with EDGE Off
Choose “Start” to begin tuning.
Set the spectrum analyzer to required settings for GSM1900 band= & gt; OK.
Repeat the same tuning steps as for the EGSM900 band above.
Tuning will automatically move to the next step, EGSM1900 with EDGE on when you
press “Save & Continue”.
GSM1900 band with EDGE On
Choose “Start” to begin tuning.
Set the spectrum analyzer to required settings for GSM1900 band= & gt; OK.
Repeat the same tuning steps as for the EGSM900 band above.
Tuning will be completed when you press “Save & Continue”.
Choose “OK” to close the “TX I/Q Tuning” dialog.
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