philips_hts3220_12_98_ver1.0_sm.pdf

Philips HTS3220/12 - Zasilacz nie podaje +27V, działa tylko +5V po zwarciu STB

Sygnał załączenia głównej przetwornicy nie pochodzi przecież z zasilacza Masz rację, że bezpośrednio z zasilacza nie pochodzi wzbudzenie. Ale pomyślałem (w moim chłopskim myśleniu) że poprzez elektronikę płytka sterowania po prostu zwraca napięcie z zasilacza na wtyk "Power-mute" i to powinno spowodować zadziałanie przetwornicy głównej. czy sam sprzęt próbuje się wybudzić po włączeniu przycisku? Po włączeniu przycisku / lub przycisku pilota na przewodzie stb pojawia się ok 1,5V. Ale to nie uruchamia przetwornicy. Jednak przy sztucznym wybudzeniu "sygnał ten" podtrzymuje działanie przetwornicy. I czy jak sztucznie wymusisz wybudzenie to wszystko działa? No właśnie nie ... jakbyś był jasnowidzem :) Pomyślałem że tym się zajmę jak już uporam się z zasilaczem - choć miałem niewielkie prześwity myślenia że jest to trochę ze sobą powiązane - ale to mi szybko przeszło :). Po sztucznym wybudzeniu mogę tylko otwierać i zamykać klapkę DVD natomiast wyświetlacz jest martwy. Może źle na to patrze/źle rozumuje. Poniżej schemat z płytki AMP do której podpięte są, poprzez kabel połączeniowy, wyjścia z zasilacza - Tu niby sygnał z MCU 5V poprzez dwa opory wraca na POW/MUTE - ale zapewne się mylę myśląc tak na wprost - zapewne powinien być tam jakiś przebieg - niestety nie wiem jaki i w dodatku nie mam oscyloskopu. http://obrazki.elektroda.pl/7261479500_1500230198_thumb.jpg Tu pozostałe schematy związane z płytką AMP : http://obrazki.elektroda.pl/1495469900_1500230262_thumb.jpg W załączeniu załączam całą serwisówkę do tego kina. dodane po chwili przemyślenia ------------------------------------------------------------- Na POW/MUTE musi pojawić się sygnał po naciśnięciu przycisku, a nie na stałe po dwóch rezystorach ... Sam przycisk powoduje zmianę barwy diody z czerwonej na białą no i "pojawienie się" tych ok +1,5 V na POW/MUTE - czyli pewna część tego "mechanizmu włączania" działa - ale wychodzi na to, że to za mało by wzbudzić zasilacz. Dobrze myślę? NO ale co jest potrzebne by uruchomić przetwornicę? Odpowiedni przebieg napięcia na POW/MUTE? Jak to ugryźć? Co pomierzyć / co wyeliminować?.

Home Theater System

HTS3220/12/98

CLASS 1
LASER PRODUCT

Contents

Page

1 Technical Specification and Connection Facilities
.................................................. 1-1 to 1-3
2 Laser Beam Safety Precautions..................................2-1
3 Important Safety Precautions ......................... 3-1 to 3-2
4 Safety Check After Servicing .................................... 4-1
5 Safety Information & Warnings ................................ 5-1
6 Instruction on handling ESD protection for DVD loader
........................................... 5-2
7 Standard Notes For Servicing .................................. .6-1
8 Special Information BGA IC & Flat Pack-IC
................................................... 7-1 to 7-3
9 Direction of Use ...............................................8-1 to 8-5
10 Cabinet Disassembly Instructions ................. 9-1 to 9-2
11 Troubleshooting ..................................................... 10-1
12 Software Upgrading Procedure ............................. 11-1
13 Software Version Check ........................................ 11-2
14 Block Diagram ........................................................12-1
15 Wiring Diagram ...................................................... 13-1
16 Main Unit--Touch Board
Circuit Diagram ................................. 14-1
Layout Diagram ................................ 14-1
17 Main Unit--VFD Display Board
Circuit Diagram ................................. 15-1
PT6311 IC Specification ................... 15-2
Layout Diagram ................................ 15-3

Page

Contents

18 Main Unit-- iPOD Terminal,Door Control and USB Board
Circuit Diagram ....................................... 16-1
Layout Diagram ...................................... 16-1
19 Main Unit--AMP Board
Circuit Diagram ...................... 17-1 to 17-2
TPA3123D2 IC Specification ............. 17-3
Layout Diagram ................................. 17-4
20 Main Unit--Decoder Board
Circuit Diagram ...................... 18-1 to 18-3
EN29LV320A IC Specification ........... 18-4
Circuit Diagram ...................... 18-5 to 18-7
UDA1355H IC Specification .............. 18-8
Layout Diagram .................................. 18-9
21 Subwoofer--AMP/Power Board
Circuit Diagram ..................... 19-1 to 19-2
TDA8920 IC Specification ................ 19-3
Layout Diagram ................................ 19-4
22
23
24
25

Main Unit Exploded View ............................................ 20-1
Subwoofer Exploded View ...........................................20-2
Packing Exploded View ................................................20-3
Revision List .................................................................21-1

Feature
Different /12

Features
©Copyright 2010 Philips Consumer Electronics B.V. Eindhoven, The Netherlands.

RDS

All rights reserved. No part of this publication may be reproduced, stored in a
retrieval system or transmitted, in any form or by any means, electronic,
mechanical, photocopying, or otherwise without the prior permission of Philips.

/98

Voltage Selector
ECO Standby
DTS

Published by KC-LQ 1010 AVM

Version 1.0

Printed in the Netherlands

Subject to modification

EN 3139 785 35250

Technical Specification and Connection Facilities
1. Technical Specification and Connection Facilities
1.1

PCB Locations

VFD Display Board

AMP Board

USB Board
Decoder Board

AMP/Power Board

Door Control Board

Ipod Terminal Board

Touch Board

Door Control Board

Power Control Switch
110/220V(for 55/98
version)

Main Unit

Subwoofer Box

1.2

General:
Power supply

Image Rejection Ratio

: ≥25dB

: 27V/1A
: 40W
: & lt; 0.3 W
: 70W(8Ω) x 2 + 210W(8Ω)

Overall Frequency Response
50dB S/N Sensitivity (Mono),
freq. deviation 75kHz(L,M,H)

: 63Hz～12.5kHz ±3dB

Standby power consumption
Amplifer

1.3

: 220-240V, 50Hz

Voltage(Main Unit)
Power consumption(Subwoofer)

1.4

Radio
Tuning Frequency Range
S/N (video unweighted) at 75Ω
Singal To Noise Ratio

: 87.5MHz - 108MHz
: ≤71dB
: ≥50dB

Search Tuning Sensitivity
RF Signal

: 19～35 dBf
: & lt; 2.5min
(Typical 3 minutes)

AUDION IN (AUDIO 1/2) -- AUX IN
Input voltage
Input impledance

Noise Limlited sensitivity
(26dB Mono)
Noise Limlited sensitivity
(46dB Stereo)

: 2Vrms max
: ＞10kΩ

AUDION IN (AUDIO 1/2) -- MP3 LINE IN
Input voltage
Input impledance

: ≥ 31dBμV

Maximun tuning error during
operation(drift)
: ≤ 50 kHz
Maximun tuning error of a recalled
program
: ± 22.5 kHz
Modulation

Analog Inputs / Outputs

1.4.1 Audio Input Connectors

Search Time Digital Tuning System
Stop level (vision carrier)

: ≤23dBf

: 1Vrms max
: ＞10kΩ

1.4.2 Video Output Connectors
VIDEO OUT -- CVBS OUT

: 1kHz

Output voltage
Output impledance
S/N on output

: 22 dBf
: 52dBf

1-1

: 700mVpp+10/-15%
: 75Ω
: ≥ 55dB

Technical Specifications and Connection Facilities

1.5
1.5.1

File System

RGB

: USB 2.0
: Series A Connector
: UMS(USB Mass
Storage Class)
: FAT12, FAT24, FAT36

NTSC
Y Pb Pr

Y/C

CVBS
Lumincance: ≥ 55 dB
Chroma: ≥ 54 dB (AM)
≥ 54 dB (PM)

1.7.2

: HDMI version 1.3
: Type A connector
(19 pins)

Bandwidth
PAL
RGB

CVBS

Y/C

0.5 to 4 MHz:+1dB/
-2dB

: 32kHz, 44.1kHz, 48kHz
: 44.1kHz, 48kHz

4.8 MHz:-3dB

Canstant bit rate:
MP3
WMA

5.8 MHz:-6dB

: 112 kbps - 320 kbps
: 44 kbps - 192 kbps

NTSC
YPbPr

1.6

Y/C

CVBS
Lumincance: ≥ 55 dB
Chroma: ≥ 55 dB (AM)
≥ 52 dB (PM)

Sampling Frequency:
MP3
WMA

1.5.4

PAL

: according IEC 60958-3
: according IEC 61937
: according IEC 61937 +
addendum

HDMI Output
Compatibility
Type of connector

1.5.4

SNR

USB
Compatibility
Type of connector
Class support

1.5.3

Video Performance

1.7.1

COAXIAL DIGITAL IN
LPCM
MPEG 1, MPEG 2, AC3
DTS

1.5.2

1.7

Digital Inputs/Outputs

Ipod Docking Component

CVBS

Y/C

4.2 MHz:-3dB
5.8 MHz:-6dB

PHILIPS specified using iPod/iPhone
iPod/ iPhone Voltage
: 4.9V ~ 5.02V/1A

1.7.3

Video Supporting Format
Signal System

: PAL / NTSC

Component Video Output:
480i/576i, 480p/576p, 720p, 1080i
HDMI Output:
480p, 576p, 720p, 1080i, 1080p

1-2

Technical Specifications and Connection Facilities

1.8

Dimension and Weight
Set Dimension W x H x D
Net Weight
Subwoofer Dimension W x H x D
Net Weight

1.9
1.9.1

: 360 x 190 x 65 mm
: 2.2 kg
: 182 x 300 x 345 mm
: 5.5 kg

Laser Output Power & Wavelength
DVD
Output power during reading
Output power during writing
Wavelength

1.9.2

: 7mW
: 7mW
: 645-665nm (at 25 °C)

CD
Output power
Wavelength

: 6mW
: 770-800nm (at 25 °C)

2.0 Playability
Video Playback
1.

2.

Playback Media:
CD-R/CD-RW, DVD+R/+RW,
DVD-R/-RW, DVD-Video, Video
CD/SVCD, DVD+R DL, DVD-R
DL, USB flash drive
Compression Formats:
MPEG2, MPEG1, DivX 3.11, DivX
4.x, DivX 5.x, DivX 6.0, MPEG4

x

x

Audio Playback
1.

2.

3.

Playback Media:
Audio CD, CD-R/RW, DVD+R DL,
DVD+R/+RW, DVD-R/-RW, MP3CD, MP3-DVD, USB flash drive,
WMA-CD
Compression Format:
Dolby Digital, MP3, MPEG2
Multichannel, PCM, WMA
MPEG1 bit rates: 64-384 kbps
and VBR

x

x

x

Still Picture Playback
1.

2.

3.

Playback Media: CD-R/RW,
DVD+R DL, DVD+R/+RW, DVDR/-RW, Picture CD, USB Digital
Camera (PTP), USB flash drive
Picture Compression Format:
JPEG, JPEG digital camera
photos
Picture enhancement: Slideshow
with MP3 playback, Create
albums, Rotate, Slideshow with
music playback, Zoom

x

x

x

1-3

Laser Beam Safety Precautions

This DVD player uses a pickup that emits a laser beam.

Do not look directly at the laser beam coming
from the pickup or allow it to strike against your
skin.

The laser beam is emitted from the location shown in the figure. When checking the laser diode, be sure to keep
your eyes at least 30 cm away from the pickup lens when the diode is turned on. Do not look directly at the laser
beam.
CAUTION: Use of controls and adjustments, or doing procedures other than those specified herein, may result in
hazardous radiation exposure.

Drive Mechanism Assembly

Laser Beam Radiation

Laser Pickup

Turntable

Location: Inside Top of DVD mechanism.

2-1

Important Safety Precautions

Important
Read and understand all instructions before you use
your home theater. If damage is caused by failure to
follow instructions, the warranty does not apply.

•

For speakers with stands, use only the
supplied stands. Secure the stands to
the speakers tightly. Place the assembled
stands on flat, level surfaces that can
support the combined weight of the
speaker and stand.
Never place the product or any objects
•
on power cords or on other electrical
equipment.
If the product is transported in
•
temperatures below 5°C, unpack the
product and wait until its temperature
matches room temperature before
connecting it to the power outlet.
Visible and invisible laser radiation when
•
open. Avoid exposure to beam.
Do not touch the disc optical lens inside
•
the disc compartment.
Risk of overheating!
Never install this product in a confined
•
space. Always leave a space of at least
four inches around the product for
ventilation. Ensure curtains or other
objects never cover the ventilation slots
on the product.
Risk of contamination!
Do not mix batteries (old and new or
•
carbon and alkaline, etc.).
Remove batteries if they are exhausted
•
or if the remote control is not to be used
for a long time.
Batteries contain chemical substances,
•
they should be disposed of properly.

Safety
Riskof electric shockor fire!
•
Never expose the product and
accessories to rain or water. Never place
liquid containers, such as vases, near the
product. If liquids are spilt on or into the
product, disconnect it from the power
outlet immediately. Contact Philips
Consumer Care to have the product
checked before use.
•
Never place the product and accessories
near naked flames or other heat sources,
including direct sunlight.
•
Never insert objects into the ventilation
slots or other openings on the product.
•
Where the mains plug or an appliance
coupler is used as the disconnect device,
the disconnect device shall remain readily
operable.
•
Disconnect the product from the power
outlet before lightning storms.
•
When you disconnect the power cord,
always pull the plug, never the cable.
Riskof short circuit or fire!
•
Before you connect the product to the
power outlet, ensure that the power
voltage matches the value printed on the
back or bottom of the product. Never
connect the product to the power outlet
if the voltage is different.
Risk of injury or damage to the home theater!
For wall-mountable products, use only
•
the supplied wall mount bracket. Secure
the wall mount to a wall that can support
the combined weight of the product
and the wall mount. Koninklijke Philips
Electronics N.V. bears no responsibility
for improper wall mounting that results in
accident, injury or damage.

Product care
•
•
•

•

3-1

Do not insert any objects other than discs
into the disc compartment.
Do not insert warped or cracked discs
into the disc compartment.
Remove discs from the disc compartment
if you are not using the product for an
extended period of time.
Only use microfiber cloth to clean the
product.

Important Safety Precautions

Disposal of your old product and
batteries

User manual CD
To read the complete user manual, which
includes information on advanced features, use
the CD supplied with your home theater. For
a printed copy of the complete user manual,
contact Philips Consumer Care in your country.

Your product is designed and manufactured
with high quality materials and components,
which can be recycled and reused.

To access the user manual
Caution

When this crossed-out wheeled bin symbol
is attached to a product it means that the
product is covered by the European Directive
2002/96/EC. Please inform yourself about the
local separate collection system for electrical
and electronic products.
Please act according to your local rules and
do not dispose of your old products with your
normal household waste.
Correct disposal of your old product helps to
prevent potential negative consequences for
the environment and human health.

• The user manual CD is for PC or Mac only. Do
not insert the user manual CD into the disc
compartment of the home theater.

Requirements:
•
A PC (Microsoft Windows
compatible) or Mac (OS X) with
CD-ROM
Adobe Reader
•

1
2

3-2

Close the CD-ROM tray.
» The user manual screen appears. If the
user manual screen does not appear,
skip Step and navigate to the ‘pdf ’
3
folder in the CD-ROM, double-clicking
the PDF of your choice.

3

Your product contains batteries covered by
the European Directive 2006/66/EC, which
cannot be disposed with normal household
waste.
Please inform yourself about the local rules
on separate collection of batteries because
correct disposal helps to prevent negative
consequences for the environmental and
human health.

Insert the user manual CD into the CDROM tray of the PC or Mac.

Click a user manual language.
» Acrobat Reader launches, displaying
the complete user manual in the
language of your choice.

Safety Check after Servicing

Examine the area surrounding the repaired location for damage or deterioration. Observe that screws, parts, and
wires have been returned to their original positions. Afterwards, do the following tests and confirm the specified
values to verify compliance with safety standards.

1. Clearance Distance
When replacing primary circuit components, confirm
specified clearance distance (d) and (d’) between
soldered terminals, and between terminals and
surrounding metallic parts. (See Fig. 1)

Chassis or Secondary Conductor
Primary Circuit

Table 1: Ratings for selected area
AC Line Voltage
110V~220V
Note:

d'

Clearance Distance (d), (d’)

d

≥ 3.2 mm (0.126 inches)

This table is unofficial and for reference only. Be
sure to confirm the precise values.

Fig. 1

2. Leakage Current Test
Confirm the specified (or lower) leakage current
between B (earth ground, power cord plug prongs) and
externally exposed accessible parts (RF terminals,
antenna terminals, video and audio input and output
terminals, microphone jacks, earphone jacks, etc.) is
lower than or equal to the specified value in the table
below.

Exposed Accessible Part
Z
AC Voltmeter
(High Impedance)

Measuring Method (Power ON):
Insert load Z between B (earth ground, power cord plug
prongs) and exposed accessible parts. Use an AC
voltmeter to measure across the terminals of load Z.
See Fig. 2 and the following table.

B

Earth Ground
Power Cord Plug Prongs
Fig. 2

Table 2: Leakage current ratings for selected areas
AC Line Voltage
110V~220V
Note:

Load Z

Leakage Current (i)

0.15 µF CAP. & 1.5 kΩ RES.
Connected in parallel

i ≤ 0.5 mA Peak

Earth Ground (B) to:
Exposed accessible parts

This table is unofficial and for reference only. Be sure to confirm the precise values.

4-1

Safety Information & Warnings

1

Safety Instructions

2

Warnings

1.1

General Safety

2.1

General

Safety regulations require that during a repair:
• Connect the unit to the mains via an isolation transformer.
• Replace safety components, indicated by the symbol
,
only by components identical to the original ones. Any
other component substitution (other than original type)
may increase risk of fire or electrical shock hazard.
Safety regulations require that after a repair, you must return
the unit in its original condition. Pay, in particular, attention to
the following points:
• Route the wires/cables correctly, and fix them with the
mounted cable clamps.
• Check the insulation of the mains lead for external
damage.
• Check the electrical DC resistance between the mains
plug and the secondary side:
1. Unplug the mains cord, and connect a wire between
the two pins of the mains plug.
2. Set the mains switch to the ‘on’ position (keep the
mains cord unplugged!).
3. Measure the resistance value between the mains
plug and the front panel, controls, and chassis
bottom.
4. Repair or correct unit when the resistance
measurement is less than 1 MΩ.
5. Verify this, before you return the unit to the customer/
user (ref. UL-standard no. 1492).
6. Switch the unit ‘off’, and remove the wire between the
two pins of the mains plug.
1.2

Laser Safety
This unit employs a laser. Only qualified service personnel
may remove the cover, or attempt to service this device (due
to possible eye injury).
Laser Device Unit
Type
Wavelength
Output Power

Beam divergence

•

•

•
2.2

All ICs and many other semiconductors are susceptible to
electrostatic discharges (ESD, ). Careless handling
during repair can reduce life drastically. Make sure that,
during repair, you are at the same potential as the mass
of the set by a wristband with resistance. Keep
components and tools at this same potential.
Available ESD protection equipment:
– Complete kit ESD3 (small tablemat, wristband,
connection box, extension cable and earth cable)
4822 310 10671.
– Wristband tester 4822 344 13999.
Be careful during measurements in the live voltage
section. The primary side of the power supply, including
the heatsink, carries live mains voltage when you
connect the player to the mains (even when the
player is ‘off’!). It is possible to touch copper tracks and/
or components in this unshielded primary area, when
you service the player. Service personnel must take
precautions to prevent touching this area or components
in this area. A ‘lightning stroke’ and a stripe-marked
printing on the printed wiring board, indicate the primary
side of the power supply.
Never replace modules, or components, while the unit is
‘on’.

Laser
•
•
•
•

The use of optical instruments with this product, will
increase eye hazard.
Only qualified service personnel may remove the cover or
attempt to service this device, due to possible eye injury.
Repair handling should take place as much as possible
with a disc loaded inside the player.
Text below is placed inside the unit, on the laser cover
shield:

CAUTION VISIBLE AND INVISIBLE LASER RADIATION WHEN OPEN AVOID EXPOSURE TO BEAM
ADVARSEL SYNLIG OG USYNLIG LASERSTRÅLING VED ÅBNING UNDGÅ UDSÆTTELSE FOR STRÅLING
ADVARSEL SYNLIG OG USYNLIG LASERSTRÅLING NÅR DEKSEL ÅPNES UNNGÅ EKSPONERING FOR STRÅLEN
VARNING SYNLIG OCH OSYNLIG LASERSTRÅLNING NÄR DENNA DEL ÄR ÖPPNAD BETRAKTA EJ STRÅLEN
VARO! AVATTAESSA OLET ALTTIINA NÄKYVÄLLE JA NÄKYMÄTTÖMÄLLE LASER SÄTEILYLLE. ÄLÄ KATSO SÄTEESEEN
VORSICHT SICHTBARE UND UNSICHTBARE LASERSTRAHLUNG WENN ABDECKUNG GEÖFFNET NICHT DEM STRAHL AUSSETSEN
DANGER VISIBLE AND INVISIBLE LASER RADIATION WHEN OPEN AVOID DIRECT EXPOSURE TO BEAM
ATTENTION RAYONNEMENT LASER VISIBLE ET INVISIBLE EN CAS D’OUVERTURE EXPOSITION DANGEREUSE AU FAISCEAU

: Semiconductor laser
GaAlAs
: 650 nm (DVD)
: 780 nm (VCD/CD)
: 20 mW
(DVD+RW writing)
: 0.8 mW
(DVD reading)
: 0.3 mW
(VCD/CD reading)
: 60 degree

Figure 2-2

CLASS 1
LASER PRODUCT

Fi g u r e 2-1
Note: Use of controls or adjustments or performance of
procedure other than those specified herein, may result in
hazardous radiation exposure. Avoid direct exposure to beam.

5-1

Instruction on halding ESD protection for DVD loader
2.2 Service Hints
CAUTION
CHARGED CAPACITORS ON THE Decoder BOARD MAY DAMAGE THE DRIVE
ELECTRONICS WHEN CONNECTING A NEW DRIVE.THAT’S WHY, BESIDES THE SAFETY
MEASURES LIKE
• SWITCH OFF POWER SUPPLY
• ESD PROTECTION
ADDITIONAL ACTIONS MUST BE TAKEN BY THE REPAIR TECHNICIAN.
The following steps have to be done when replacing the defective loader :
1.
2.
3.
4.
5.
6.
7.

Dismantling of the loader to access the ESD protection point if necessary.
Solder the ESD protection point*.
Disconnect flexfoil cable from the defective loader.
Put a paper clip on the flexfoil to short-circuit the contacts (fig.1)
Replace the defective loader with a new loader.
Remove paperclip from the flexfoil and connect it to the new loader.
Remove solder joint on the ESD protection point.

ATTENTION: The laser diode of this loader is protected against ESD by a solder joint which shortcircuits the laserdiode to ground.
For proper functionality of the loader this solder joint must be remove after connection loader to the set.

(ESD protection point is accessible from bottom of the loader)

*Only applicable for defective loader needed to be sent back to supplier for failure analysis and to support backcharging
evidence.
This is also applicable for all partnership workshops.

5-2

Standard Notes for Servicing
Circuit Board Indications

Pb (Lead) Free Solder

1. The output pin of the 3 pin Regulator ICs is
indicated as shown.

When soldering, be sure to use the Pb free solder.

Top View
Out

Bottom View
In

Input

Information about lead-free soldering
Philips CE is producing lead-free sets from 1.1.2005
onwards.

IDENTIFICATION

2. For other ICs, pin 1 and every fifth pin are
indicated as shown.

5
Pin 1

Regardless of special logo (not always
indicated)
One must treat all sets from 1 Jan 2005
onwards, according to the next rule:
Serial Number gives a 14-digit. Digit 5 & 6 shows the
YEAR, and digit 7 & 8 shows the WEEK.
So from 0501 onwards=from 1 Jan 2005 onwards

10
3. The 1st pin of every male connector is indicated as
shown.

Pin 1

Instructions for Connectors
1. When you connect or disconnect the FFC (Flexible
Foil Connector) cable, be sure to first disconnect
the AC cord.
2. FFC (Flexible Foil Connector) cable should be
inserted parallel into the connector, not at an
angle.

FFC Cable

Connector
CBA

* Be careful to avoid a short circuit.

Important note : In fact also products of year 2004
must be treated in this way as long as you avoid
mixing solder-alloys (leaded/ lead-free). So best to
always use SAC305 and the higher temperatures
belong to this.
Due to lead-free technology some rules have to be
respected by the workshop during a repair:
• Use only lead-free solder alloy Philips SAC305 with
order code 0622 149 00106. If lead-free solderpaste is required, please contact the manufacturer
of your solder-equipment. In general use of solderpaste within workshops should be avoided because
paste is not easy to store and to handle.
• Use only adequate solder tools applicable for leadfree solder alloy. The solder tool must be able
• To reach at least a solder-temperature of 400°C,
• To stabilize the adjusted temperature at the soldertip
• To exchange solder-tips for different applications.
• Adjust your solder tool so that a temperature around
360°C - 380°C is reached and stabilized at the
solder joint. Heating-time of the solder-joint should
not exceed ~ 4 sec. Avoid temperatures above
400°C otherwise wear-out of tips will rise drastically
and flux-fluid will be destroyed. To avoid wear-out of
tips switch off un-used equipment, or reduce heat.
• Mix of lead-free solder alloy / parts with leaded
solder alloy / parts is possible but PHILIPS
recommends strongly to avoid mixed solder alloy
types (leaded and lead-free).
If one cannot avoid or does not know whether
product is lead-free, clean carefully the solder-joint
from old solder alloy and re-solder with new solder
alloy (SAC305).
• Use only original spare-parts listed in the ServiceManuals. Not listed standard-material (commodities)
has to be purchased at external companies.
6-1

Special Information of BGA IC & Flat Pack-IC

•

Special information for BGA-ICs:

- always use the 12nc-recognizable soldering
temperature profile of the specific BGA (for desoldering always use the lead-free temperature
profile, in case of doubt)
- lead free BGA-ICs will be delivered in so-called
'dry-packaging' (sealed pack including a silica gel
pack) to protect the IC against moisture. After
opening, dependent of MSL-level seen on indicatorlabel in the bag, the BGA-IC possibly still has to be
baked dry. (MSL=Moisture Sensitivity Level). This
will be communicated via AYS-website.
Do not re-use BGAs at all.
• For sets produced before 1.1.2005 (except products
of 2004), containing leaded solder-alloy and
components, all needed spare-parts will be available
till the end of the service-period. For repair of such
sets nothing changes.
• On our website
you find more
www.atyourservice.ce.Philips.com
information to:
• BGA-de-/soldering (+ baking instructions)

How to Remove / Install Flat Pack-IC
1. Removal
With Hot-Air Flat Pack-IC Desoldering Machine:
1. Prepare the hot-air flat pack-IC desoldering
machine, then apply hot air to the Flat Pack-IC
(about 5 to 6 seconds). (Fig. S-1-1)

Fig. S-1-1
2. Remove the flat pack-IC with tweezers while
applying the hot air.

• Heating-profiles of BGAs and other ICs used in
Philips-sets
You will find this and more technical information within
the “magazine”, chapter “workshop news”.
For additional questions please contact your local
repair-helpdesk.

3. Bottom of the flat pack-IC is fixed with glue to the
CBA; when removing entire flat pack-IC, first apply
soldering iron to center of the flat pack-IC and heat
up. Then remove (glue will be melted). (Fig. S-1-6)
4. Release the flat pack-IC from the CBA using
tweezers. (Fig. S-1-6)
CAUTION:
1. The Flat Pack-IC shape may differ by models. Use
an appropriate hot-air flat pack-IC desoldering
machine, whose shape matches that of the Flat
Pack-IC.
2. Do not supply hot air to the chip parts around the
flat pack-IC for over 6 seconds because damage
to the chip parts may occur. Put masking tape
around the flat pack-IC to protect other parts from
damage. (Fig. S-1-2)

7-1

3. The flat pack-IC on the CBA is affixed with glue, so
be careful not to break or damage the foil of each
pin or the solder lands under the IC when
removing it.

CBA

Masking
Tape
Tweezers

Hot-air
Flat Pack-IC
Desoldering
Machine

Flat Pack-IC

With Iron Wire:
1. Using desoldering braid, remove the solder from
all pins of the flat pack-IC. When you use solder
flux which is applied to all pins of the flat pack-IC,
you can remove it easily. (Fig. S-1-3)
2. Affix the wire to a workbench or solid mounting
point, as shown in Fig. S-1-5.
3. While heating the pins using a fine tip soldering
iron or hot air blower, pull up the wire as the solder
melts so as to lift the IC leads from the CBA
contact pads as shown in Fig. S-1-5.
4. Bottom of the flat pack-IC is fixed with glue to the
CBA; when removing entire flat pack-IC, first apply
soldering iron to center of the flat pack-IC and heat
up. Then remove (glue will be melted). (Fig. S-1-6)
5. Release the flat pack-IC from the CBA using
tweezers. (Fig. S-1-6)

Fig. S-1-2

Note:

With Soldering Iron:
1. Using desoldering braid, remove the solder from
all pins of the flat pack-IC. When you use solder
flux which is applied to all pins of the flat pack-IC,
you can remove it easily. (Fig. S-1-3)

Flat Pack-IC

When using a soldering iron, care must be
taken to ensure that the flat pack-IC is not
being held by glue. When the flat pack-IC is
removed from the CBA, handle it gently
because it may be damaged if force is applied.

Hot Air Blower

Desoldering Braid
or
Iron Wire
Soldering Iron

Soldering Iron

Fig. S-1-3

To Solid
Mounting Point

2. Lift each lead of the flat pack-IC upward one by
one, using a sharp pin or wire to which solder will
not adhere (iron wire). When heating the pins, use
a fine tip soldering iron or a hot air desoldering
machine. (Fig. S-1-4)

Fig. S-1-5

CBA

Sharp
Pin
Fine Tip
Soldering Iron

Fine Tip
Soldering Iron

Flat Pack-IC
Tweezers

Fig. S-1-4

Fig. S-1-6

3. Bottom of the flat pack-IC is fixed with glue to the
CBA; when removing entire flat pack-IC, first apply
soldering iron to center of the flat pack-IC and heat
up. Then remove (glue will be melted). (Fig. S-1-6)
4. Release the flat pack-IC from the CBA using
tweezers. (Fig. S-1-6)

7-2

Special Information BGA IC & Flat Pack-IC

2. Installation

Instructions for Handling Semiconductors

1. Using desoldering braid, remove the solder from
the foil of each pin of the flat pack-IC on the CBA
so you can install a replacement flat pack-IC more
easily.

Electrostatic breakdown of the semi-conductors may
occur due to a potential difference caused by
electrostatic charge during unpacking or repair work.

2. The “ ” mark on the flat pack-IC indicates pin 1.
(See Fig. S-1-7.) Be sure this mark matches the 1
on the PCB when positioning for installation. Then
presolder the four corners of the flat pack-IC. (See
Fig. S-1-8.)

1. Ground for Human Body
Be sure to wear a grounding band (1 MΩ) that is
properly grounded to remove any static electricity that
may be charged on the body.

3. Solder all pins of the flat pack-IC. Be sure that
none of the pins have solder bridges.

2. Ground for Workbench
Be sure to place a conductive sheet or copper plate
with proper grounding (1 MΩ) on the workbench or
other surface, where the semi-conductors are to be
placed. Because the static electricity charge on
clothing will not escape through the body grounding
band, be careful to avoid contacting semi-conductors
with your clothing.

Example :

& lt; Incorrect & gt;
Pin 1 of the Flat Pack-IC
is indicated by a " " mark.

Fig. S-1-7

Presolder
CBA

Flat Pack-IC

& lt; Correct & gt;

Grounding Band

CBA
Fig. S-1-8
1MΩ

CBA

1MΩ
Conductive Sheet or
Copper Plate

7-3

Direction of Use

*The following excerpt of the DFU/QSG serves as an introduction to the set.
The Complete Direction for Use can be download in different languages from
the internet site of Philips Customer care Center : www.p4c.philips.com

Your home theater

Remote control

Congratulations on your purchase, and welcome
to Philips! To fully benefit from the support that
Philips offers, register your home theater at www.
philips.com/welcome.

a
b

Main unit

c
d
t
e

f

s

a
b

+/Increases or decreases volume.

c

g

Display panel

SOURCE
Selects an audio/video source for the home
theater.

d

p

(Play/Pause)
Starts, pauses or resumes play.

f

h

q

(Standby-On)
Switches the home theater on or to
standby.

e

r

(Stop)
•
Stops play.
•
In radio mode, erases the current
preset radio station.

g

o
n

k

m

Disc compartment

j

l

(Open/Close)
Opens or closes the disc compartment.

h

i

a

(Standby-On)
Switches the home theater on or to
standby.
When EasyLink is enabled, press
•
and hold for at least three seconds
to switch all connected HDMI CEC
compliant devices to standby.

•

b

8-1

OPEN/CLOSE
Opens or closes the disc compartment.

Direction of Use

Remote Control

c

d

Source buttons
•
DISC Switches to disc source.
:
•
USB Switches to USB storage device.
:
•
RADIO: Switches to FM radio.
•
AUDIO SOURCE Selects an audio
:
input source.
•
DOCK for iPod: Switches to Philips
Dock for iPod/iPhone.
SETUP
Accesses or exits the setup menu.

e
•
•
•

p

SURROUND
Switches to surround sound or stereo
sound.

q

+/Increases or decreases volume.

r

(Mute)
Mutes or restores volume.

s

BACK
Returns to a previous menu screen.

t

OK
Con?rms an entry or selection.

(Navigation buttons)
Navigate menus.
In video mode, press left or right to
fast backward or fast forward.
In radio mode, press left or right to
search a radio station; press up or
down to fine tune a radio frequency.

f

INFO
Displays information about what is playing.

g

Playback buttons
Control playback.

h

TREBLE / BASS
Changes treble or bass. Use with +/- .

i

Numeric buttons
Selects an item to play.

j

AUDIO SYNC
•
Selects an audio language or channel.
•
Press and hold to synchronize audio
with video. Use with +/- .

k

SOUND MODE
Selects a sound mode.

l

REPEAT / PROGRAM
•
Selects a repeat or shuffle mode.
•
In radio mode, programs radio stations.

m

ZOOM
Zooms into a video scene or picture.

n

HDMI / ANGLE
•
Selects video resolution of HDMI
output from the home theater.
Press and hold to select options for
•
different camera angles.

o

SUBTITLE
Selects subtitle language for video.

8-2

Direction of Use

Back connect or s

Connect your home
theater
This section helps you connect your home theater
to a TV and other devices. The basic connections
of the home theater with its accessories are
provided in the Quick Start. For a comprehensive
interactive guide, see www.connectivityguide.
philips.com.

a

TO SUBWOOFER
Connects to the supplied subwoofer.

b

SPEAKERS
Connect s t o t he supplied speaker s.

c

FM ANTENNA
Connects the FM antenna for radio
reception.

d

AUX IN
Connect s t o t he analog audio out put on t he
TV or an analog device.

e

CO A X IAL IN
Connects to the coaxial audio output on
the TV or a digital device.

f

VIDEO OUT
Connects to the composite video input on
the TV.

g

HDMI OUT
Connect s t o t he HD MI input on t he TV.

N ot e
• Refer t o t he t ype plat e at t he back or bot t om
of the product for identication and supply
ratings.
• Before you make or change any connections,
ensure that all devices are disconnected from
the power outlet.

Connect or s
Sde connect or s
i

S bwoofer connect or s
u

a

(USB)
Audio, video or pict ur e input from a USB
storage device.

b

MP3 LINK
Audio input from an MP3 player.

c

Dock for iPod
Connects to a Philips Dock for iPod/iPhone.
(Sold separately)

a
b

8-3

AC MAINS~
Connect s t o t he power supply.
TO MAIN UNIT
Connect t o t he TO
SUBWOOFER
connector on the main unit.

Direction of Use

Option 3: Connect to the TV through
composite video (CVBS)

Connect to the TV
Connect your home theater directly to a TV
through one of the following connectors (from
highest to basic quality video):

a

Scart

c

• The composite video cable or connector might

HDMI

b

Note

Composite video

be labeled AV IN, VIDEO IN, COMPOSITE or
BASEBAND
.

Option 1: Connect to the TV through
HDMI

TV

Note
• If the HDTV has a DVI connector, connect
using an HDMI/DVI adapter.

• If the TV supports EasyLink HDMI CEC,
control the home theater and TV with one
remote control(see ‘Use Philips EasyLink’ on
page13).

(Cable not supplied)

Connect audio from TV or
other devices
Use your home theater to play audio from the
TV or other devices such as a cable box.
Tip

TV

• Press AUDIO SOURCE repeatedly to select
the audio output of your connection.

Option 1: Connect audio through analog
audio cables
(Cable not supplied)

Option 2: Connect to the TV through
Scart
Use the supplied scart adapter.
TV

TV

8-4

Direction of Use

Option 2: Connect audio through coaxial
cable
Note
• The digital coaxial cable or connector might be
labeled COAXIAL/DIGITAL OUT or SPDIF
OUT.

(Cable not supplied)

TV

Connect a Philips Dock for
iPod/iPhone
(Philips Dock for iPod/iPhone not supplied)
DOCK for iPod

8-5

Cabinet Disassembly Instructions
1. Disassembly Flowchart

Note:

This flowchart indicates the disassembly steps to gain
access to item(s) to be serviced. When reassembling,
follow the steps in reverse order. Bend, route, and
dress the cables as they were originally.
[1] Back Cabinet
[2] Decoder Board,
AMP Board

(1) Identification (location) No. of parts in the figures
(2) Name of the part
(3) Figure Number for reference
(4) Identification of parts to be removed, unhooked,
unlocked, released, unplugged, unclamped, or
desoldered.
Axx = Screw, CNxx/Jxx/CONxx = Connector
D3.5X12BA is specification of screw.
* = Unhook, Unlock, Release, Unplug, or Desolder

[3] DVD Loader Driver,
VFD Display Board,

e.g. 7(A01) = seven Screws

[4]USB Board,
Ipod Docking Board
[5] DVD Door

2. Disassembly Method
Removal

ID/
Loc.
No.

Part

Fig.
No.

[1]

Back Cabinet

D1

[2]

Decoder Board,
AMP Board

D2

[3]

DVD Loader
Driver,
VFD Display
Board

Remove/*Unhook/
Unlock/Release/
Unplug/Desolder

Note

A05

4(A05) D3x12BA,
2(A06) D3x8BA

A06

7(A09) D3x8PA,
4(A07) D3x8FA
5(A08) D3x10BA

A12

Fig. D1

4(A10) D2.6x8PWT,
D3

4(A09) D3x8PA,

[4]

USB Board,
Ipod Docking
Board

D4

4(A09) D3x8PA,

[5]

DVD Door

D5

12(A02) D2.6x5FT
8(A03) D3x5PT

A09

A08
A08
A07

A09

Fig. D2

9-1

Cabinet Disassembly Instructions

A09

A10

Fig. D3

A09

Fig. D4

A02
A03
A03

A02

Fig. D5

9-2

Troubleshooting

FLOW CHART NO.1
The power cannot be turned on.

Check the Power Switching Adaptor if it has DC 27V output .
Yes
Check the 1st pin which location is U1 if it has DC 27V input
Yes
Check the 2en pin which location is U1 if it has DC 5V output

No

No

No

Try to replace a new AMP Power Board

Replace the D11 & D12 & D13

Replace the IC4

Yes
Check the Inductor which location is L1
if it has DC 5V

No

Replace this Inductor

FLOW CHART NO.2
Has not voice form the speaker

Check the 2en pin which location is U8(PT2313)if it has DC 9V

Replace a new one
No

No
Check the D10 diode whether has DC 9.1V
Yes

Yes

Check the 2en pin which location is U8 if it has DC 9.1V

Check the 1st pin which location is U1 if it has DC 27V input

No

Yes

Replace the U8 IC(PT2313)

Check the 4th pin which location is U1 and U3 on the AMP
Board wether has MUTE signal input

FLOW CHART NO.3
Can not Read Dish
Check the Cable(CON2 and CON3) which connected to the
Loader Driver wether connection is OK?

No

Try to connect again

Yes
Check the L77 & L73 whether has DC 3.3V
Yes
Check the U15 wether has DC 3.3V

No

No

10-1

Replace a new one

Replace a new one

Software Upgrading Procedure

1, Download the Software from Philips support
Website:
http://www.philips.com/support.
2, Copy the Software upgrade file into USB device.

C, Press the “OK” on the Remote Control.

A, Connect to TV and Turn on Main Unit
Main unit Screen Display:

D, Software Upgrading, TV Screen Display:

TV Screen Display:
USB and

E, After 1 or 2 minute, TV Screen will reset and Display:

B, When insert the USB Device with software
Main unit Screen Display:

Software Upgrade finish.

Meanwhile, the TV Screen Display:

11-1

Software Version Check

1, Select the “Menu”, like below show:

2, TV Screen Display:

2, Select

to get the Version information :

11-2

Main Unit -- Block Diagram

Touch Board

MCU5V

TO-TOUCH

MCU5V
SDA
SCL
GND

FM RST

4P

R5R0C028

24C02

FLASH
2M * 8 bits
MX29LV160

I2C_MAIN

IPOD_UART

I2C_MAIN

USB

IPOD_UART

USB

HDMI

OR

EEPROM

VF2
VF1
-27V

OPEN DOOR

SDRAM
4M * 16
M12L64164A-7T

M5V

VFD Driver
PT16311

Door Control Board

ESD REJECTOR

CEC_OUT
CEC_IN

CEC

CEC
BUFFER

L+
HPF

HPD

A

2

NE4558
A

VFD Display Board

DC_5V
CVBS
RX
GND
R
TX
A GND
L
GND

FL
FR
I2S

-27V
MCU5V
S-MUTE
MUTE
STANDBY
MPEG ON
GND

TO-MPEG
FR-IN
4
FL-IN
3
SW-IN
2
AGND
1

ECO POWER
MUTE

AUDIO PROCESS

74HC4052D

TO-MPEG
7
6
5
4
3
2
1

2.0/4P

9014
R?

MUTE

S L & R

FM
Si4704
or Si4705(RDS)

BASS

SW-IN

BPF

GND
M1.8V
M3.3V
M5V
28V
GND

6
5
4
3
2
1

2.5/6P

AUTO MUTE

FM L & R

TO-VFD

S-MUTE

Decoder Board

R?

4
3
2
1

GND
+5V

+5V
POW & MUTE
SW-IN
GND

POW & MUTE

AMP/Power Board

4.7K

9014

2.2K

POWER AMP
TDA8920C
BTL

BPF

-27V
-27V

POWER1

5
4
3
2
1

VFD2
VFD1
-27V
GND
MCU5V

M1.8V
M5V

2.0/5P

SM9435

ECO_POWER
VFD
POWER
SUPPLY

AGND

5V

P4

P1

SW-IN

9014

+5V
DC TO DC
AP1501
5V

MCU5V

AMP Board

8 OHM

TOP 261

Subwoofer Box
12-1

POW & MUTE

P2

AMC1117
1.8V

POWER2

AC IN

P3

P5

MPEG ON

200W THD=30%

+28V

+27V

+28V
GND

+27V

TL072

Q?

R?
2.2K

P6

AMC1117
3.3V

SPEAKERS
6.5 "
S W-IN

POW & MUTE

S-MUTE R?
4.7K
R?
47K

R?

28V
GND

SW-IN
GND
MCU5V

POW & MUTE

1K

E3220DY

4P

DC out

Q?

M3.3V

VF2
VF1
-27V

SW-IN
POW & MUTE
CN?

1
2

TO-MPE
G

4052 A,B

FM RST

8 Ohm 75W at 30%

POWER AMP
TPA3123D2
BTL

PRE-AMP
SW-IN

ECO POWER

USB,iPod Board
FM Antenna 75OHM

R+

MCU5V

PT2313

IPOD_UART
IPOD_L & R

9P2.0

FL
FR

MUTE

2.0/7
P

AUDIO ML/MR

Audio Switch

MP3 LINE IN

28V
STANDBY

27V

772

SPDIF IN
& ADC & DAC
UDA1355H

AUX

R

+5V

9
8
7
6
5
4
3
2
1

1
2
3
4

9.1V

SPDIF_COAXIAL

4P/2.0

IPOD_UART

R?

9.1V

5V
DP+
DPGND

USB

R-

1
2

8 Ohm 75W at 30%

NE4558

CVBS

1

COAXIAL

L-

2

1

POWER AMP
TPA3123D2
BTL

28V

USB ON

MCU5V

CLOSE DOOR

Door Detect

Main Chipset

2.0/5P

VFD 3220

Loader motor driver
CD5954

SERIAL EEPROM
24C02

MT1389FXE-S(DTS)

IR

IR
STB
DATA
CLK
GND

DVD Loader

Open/Close Driver

I2C_MPEG

MCU

TOVFD

5
4
3
2
1

Foryou pick up
DM-06BXLX-L2
DVD Loader

MT1389FXE-S(DTS)

4
3
2
1

CEC_IN
CEC_OUT

IR
MPEG ON
ECO POWER
STANDBY
4052 A,B

WT5700

12-1

Wiring Diagram

VF1
VF2
-27V
GND
+5V
GND
CLK
DAT
STB
REM

VFD Display Board

wire3
P4

+5V
USBM
USBP
GND

+5V
USBM
USBP
GND

SL+
SLGND

MCU5V
GND
-27V
VFD1
VFD2

Ipod Termial Board
DVD Mechanism

ADD2
GND
ECO_POWER
MUTE
SMUTTE
MCU5V
27V_IN

Loader Deriver
wire8

GND
VCC

GND
CLK

AMP Board

wire1
Motor Board

Decoder Board

ROUT+

ADD2
GND
ECO-POWER
MUTE
S_MUTE
MCU5V
27V_IN

ROUT
GND
LOUT
GND
SW_IN

GND
IPOD_IN_L
GND
IPOD-TX
IPOD_IN_R
GND
IPOD-RX
NC
IPOD_5V

wire6

GND
+5V

GND
GND

SWIN
GND
LOUT
GND
ROUT

DATA
STB
REMOTE

wire4

ROUT-

wire5

LIMIT
SP+
SP-

wire7

J3

USB Board
wire2

Touch Board
Door Control Board

Door Control Board

AC IN

CON1

Sub015

Subwoofer Speaker

AMP/Power Board

CON4

110/220V Power Control Board
(for /98version)

Subwoofer Box
13-1

13-1

Main Unit -- Touch Board Circuit & Layout Diagram

VDD
VDD

R222
100

LED201
LED
R204
220

PWM-LED

C203
10U

14-1

25
OUT(1)

26
OUT(0)

27
VDD

28
SI(0)

29
SI(1)

SI(2)

30

31

WT5701-UG321

SI(9)

PWMO(0)
SCL

SI(11)

SDA
OUT(6)

PWMO(1)

WHI

24

VDD
SDA
SCL/STB
SGND
PWM-LED
CLOSE
OPEN
RESET

23
22
21
20

R225 150

19
18
17

CN200
1
2
3
4
5
6
7
8
9
10
11

5P

SCL/STB
SDA

R226 150
C201 C202
10p

10p

16

15

TESET

OUT(7)

SI(10)

OUT(8)

8

OUT(5)

14

7

SI(8)

OUT(9)

6

OUT(4)

13

5

SI(7)

OUT(10)

4

OUT(3)

12

PLAY

3

SI(6)

OUT(11)

S11

2

LED203

OUT(2)

11

STOP

R223
2.2K

U201

SI(5)

INT

S10

1

OPEN

9

S9

SI(3)

VOL-

VSS

S8

VOL+

10

S7

SOURCE

32

S6

POWER

SI(4)

S5

PO-LED
INT

14-1

Main Unit -- VFD Display Board Circuit Diagram

VFD101

VF2
VF2

JACK501

1
2
3
4
5
6
7
8
9

G1
G2
G3
G4
G5
G6
G7
G8

S13
S12
S11
S10
S9
S8
S7
S6
S5
S4
S3
S2
S1

35-HTS3220-05A1

31
32

NC
S15
S14
NC
S13
S12
S11
S10
S9
S8
S7
S6
S5
S4
S3
S2
S1
NC
G1
G2
G3
G4
G5
G6
G7
G8
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
S15
S14

1
2

VF1
VF1

HL-D1068W

VF2

1
2
3
4
5
6
7
8
9

9P

9P

R110
47K

40
41
42
43
44
45
46
LED
47
48
49
50
51
52

G5
G4
G3
G2
G1
Vdd
IC100
LED5
PT6311
LED4(BBE)
LED3(POWER)
LED2(FANCT)
LED1(7507RST)
Vss
OSC

S12/KS12
S11/KS11
S10/KS10
S9/KS9
S8/KS8
S7/KS7
S6/KS6
S5/KS5
S4/KS4
S3/KS3
S2/KS2
S1/KS1
Vdd

SW1
SW2
SW3
SW4
DOUT
DIN
IC
CLK
STB
KEY1
KEY2
KEY3
KEY4

DC5V

G5
G4
G3
G2
G1

G6
G7
G8
S20/G9
S19/G10
VEE
Vdd
S18/G11
S17/G12
S16
S15
S14
S13

39 G6
38 G7
37 G8
36
35
34 -27V
33DC5V
32
31
30
29 S15
28 S14
27 S13

VF1

6.81/2W

R100

6.81/2W

R101

C105

26 S12
25 S11
24 S10
23 S9
22 S8
21 S7
20 S6
19 S5
18 S4
17 S3
16 S2
15 S1
14DC5V

R111 33K
R112 33K
R113 33K
R114 33K

REMOTE
DC5V

R115
47

C110
47uF/25V

15-1

10
9
8
7
6
5
4
3
2
1

REMOTE
VFD_STB
VFD_DATA
VFD_CLK
V-GND
DC5V
V-GND
-27V
VF2
VF1

10P2.0

VFD_CLK
VFD_STB

VFD_DATA

R104 4.7K

R102 4.7K

C104 104

R103 4.7K

1
2
3
4
5
6
7
8
9
10
11
12
13

47uF/16V

CN102

1
2
3

CN501

S100

REM
GND
Vcc

C111
104 REMOTE

15-1

IC100: PT6311 IC Specification

•
•
•
•
•
•
•

87% Efficiency
Adjustable Output Voltage
Internal Short Circuit Protection
Over-T
emperature Protection
On/Off Control (Ground Off)
Small SIP Footprint
Wide Input Range

The PT6310 series is a HighPerformance 2 Amp,12-Pin SIP
(Single In-line Package) Integrated

Switching Regulator (ISR) designed to
meet the on-board power conversion
needs of battery powered or other equipment requiring high efficiency and
small size. This high perfor ance ISR
m
offers a unique combination of features
combining 87% typical efficiency with
open-collector on/off control and adjustable output voltage.
Quiescent current in the shutdown
mode is typically less than 100µA.

Pin-Out Information Ordering Information
Pin

Inhibit

1

Standard Application

PT6300
5,6,7,8

C1
INH

C2
Q1

COM

COM

C 1 = Optional 1µF ceramic
C 2 = Required 100µF electrolytic
Q 1 = NFET

Specifications

GND
GND

8
9

PT6310 
PT6311 
PT6312 
PT6313 

= +14.6 V
olts
= +15.5 V
olts
= +15.0 V
olts
= +8.0 Volts

PT Series Suffix (PT1234)X
Case/Pin
Configuration

N
A
C

Vertical Through-Hole

V in
GND

GND
V out
Vout
Vout

12

+

4
5

10
11

VOUT

9,10,11

1

V in
V in

6
7

12

2,3,4

(30V max)

2
3

VOADJ

VIN

Function

Vout Adj

Horizontal Through-Hole
Horizontal Surface Mount

Pkg Style 200

PT6310Series

Characteristics
(Ta = 25 C unless noted)
°

Symbols

Conditions

Min

Typ

Max

Units

Output Current
Short Circuit Current

Io
I sc

Over V in r ange
V in = Vo + 5V

0.1*
—

—
5.0

2.0
—

A
Apk

Input Voltage Range
Output Voltage Tolerance

Vin
∆V o

0.1 ≤ I o ≤ 2.0 A
Over V in Range, I = 2.0 A
o
T a = 0°C to +60°C

Vo +4

—

38**

V

—

±1.0

±2.0

%Vo

Line Regulation

Reg line

Over V in r ange

—

±0.25

±0.5

%V o

Load Regulation
V o Ripple/Noise

Regload
Vn

0.1 ≤ I o ≤ 2.0 A
V in = Vin min, I o = 2.0A

—
—

±0.25
±2

±0.5
—

%V o
%V o

Transient Response
with C o = 100µF

t tr
Vos

50% l oad change
V o over / under shoot

—
—

100
5.0

200
—

µSec
%V o

Efficiency
Switching Frequency

η
ƒ
o

V in =24V, Io = 2.0 A
Over V in and Io r anges

—
600
500

87
700
550

—
800
600

%
kH z
kHz

Shutdown Current
Quiescent Current

I sc
Inl

V in = 15V
I o = 0A, Vin =10V

—
—

100
10

—
—

µA
mA

Output Voltage
Adj ust ment Range

Vo

Below Vo
Above V o

See Application Notes.

Absolute Maximum
Operating T
emperature Range

Ta

Recommendated
Operating
T emper at ur e Range

Ta

Thermal Resistance

θ ja

PT6312 only

-40
Free Air Convection, (40-60LFM)
At V in = 18V, Io = 2.0A

—

+85

°C

-40

—

+70

°C

Free Air Convection (40-60LFM)

—

30

—

°C/W

—

- 40

—

+125

°C

Mechanical Shock

Per Mil-STD-883D, Method 2002.3, 1 msec,
Half Sine, mounted to a fixture

—

500

—

G’s

Mechanical Vibration

Per Mil-STD-883D, Method 2007.2,
20-2000 Hz,Soldered in a PC board

—

10

—

G’s

—

—

6.5

—

gr ams

Storage T
emperature

W ei ght

Ts

—

* ISR will operate to no load with reduced specifications.
** Input voltage cannot exceed 30V when the inhibit function is used.
Note:The PT6310 requires a 100µF electrolytic or tantalum output capacitor for proper operation in all applications.

15-2

15-2

Main Unit -- VFD Display Board Layout Diagram

15-3

15-3

9P

IPOD
1 5V
1
2 NC
2
3 RX
3
4 GND D
4
5 AL
5
6 TX
6
7 GND A
7
8 AL
8
9 GND
9

Main Unit -- iPod Terminal, Door Control and USB Board Circuit & Layout Diagam

CN401
Touch Switch

35-HTS3220-03A1

4
3
2
1
4P

GND-u
D+
Dvbus

2
1

5 AL

4 GND D

2 NC

1 5V

3 RX

8 AL

7 GND A

6 TX

9 GND

SW301

USB

CN301
2P

16-1

16-1

J401

6
5
4
3
2
1

GND
Shield
GND
D+
Dvbus

Main Unit -- AMP Board Circuit Diagram

+

0.1uF

+

CE28

4750mA

4

VIN

FB

1

L13 FB/1206

CB11

CD11/220UF35V/D8H12

CB12
0.1uF

VOUT

2

+CE29

2

CB8

GND

CE27
CD263/100UF35V/D8H7

VCC

L11
47uH_3A

AP1501-5V

3

SW_OUT
GND
POW/MUTE

1
3
5

U5

SD

2
4
6

27V_IN
L12 FB/1206

0.1uF

5

MCU5V
GND
+27V_IN

+27V_IN

CB16

CN1
CON2X3P(PH=4.2MM)

D1
SK34

0.1uF

0.1uF

1

R39

CB9

CD263/470UF16V/D8H12

0R/10K

J5

MCU5V

2
1
CON2.54-2

R308

ECO_POWER

R45

VCC

NC/10K

POW/MUTE

2.2K

J3
4.7K

2
1

3

R46
MUTE

4.7K

Q2
2N3904

2

CON2.54-2

1

R47

TP21

4.7K

3

R48

R50

4.7K

2
1

S_MUTE

R51

ECO_POWER

1 MCU5V

47K

D6

VF1

6

2

7

7

3
4

8

8

5

5

9

9

CE32 CD11X/4.7UF16V/D4H7

6.2V
D4
2

FR104
1 R59

100

-27V

D5

CE34

R61
47K

SW_IN

CE75

R58
2.2K

Q5
2N3904

2

CD11X/10UF16V/D4H7

R62
330

+

CE35

27V_IN
SW_IN
GND
MCU5V
ECO_POWER
MUTE
S_MUTE

CD11/220UF35V/D8H12

22K
R64

10R

C31

220uF/35V

0.1uF

17-1

1
2
3
4
5

VF2
VF1
-27V
GND
MCU5V

TP26
TP27
TP28
TP29
TP30

SW_OUT

D3

27V

R63

1M
100pF

+

2

C28

3

6

4

Q6
D965,DIP

3

1

R55

220

R54
4.7K

1

5.6K

1

3

+

1

R60

CE33 220uF/16V

2

1

5.6K

VF2
100uH/0.8A

C29

2
R57

R56

J4
CON2.0-5

220

L14

Q4
D965,DIP

3

R53

+

2

1N4148

27V_IN

U9
BZ1

+

1

0.047uF/dilun

2

1N4001

D2

C30
0.1uF

Q3
2N3904

17-1

27V_IN
SW_IN

2
2

GND
MCU5V
ECO_POWER
MUTE
S_MUTE

2
2
2
2
2

TP24

Main Unit -- AMP Board Circuit Diagram

OUT_R+

27V_IN

CE1

L1
OUT_R-

+

1
STANDBY1

+ CE6

MUTE1

7

VCC
8

7

6

5

6

5
R14

CD11X/4.7UF16V/D4H7

LIN

6

RIN

4.7K

7

BYPASS
GND

10K

CE13

1K

+ CE9

R11
VREF_FILTER

2.2UF16V/0603

CE10

OUT_L-

+
R15

100K

OUT_L+
OUT_L-

10K

R17
R18

4.7K
R19

C9
470pF

3.9K

6

5

+

C3

5.6R

0.47uF/dilun

220pF

100K

TP1 TP2

C2

C4

SPK_LOUT+ 1
SPK_LOUT- 2
3
4
5
6

1800pF
C5

0.22uF/0805
L5

L4

FB/100/5A

33UH/3.5A LHP1014

R13

C6

C7

5.6R

0.47uF/dilun

C8

CB2
0.1uF

P1
PRC-101A

1800pF

R_OUT

U3

1

LOUT 22
BSL 21

CD11X/4.7UF16V/D4H7

CE19

MUTE

5

CD11X/4.7UF16V/D4H7

LIN

6

RIN

7

BYPASS

8

CE18

0.1uF

1

PVCCL

PGNDL 24
PGNDL 23

4

0.47uF/10% /1UF

GND

9

GND

GAIN0 18
GAIN1 17
BSR 16

10 PVCCR
11 VCLAMP

ROUT 15
PGNDR 14

L_OUT

CE20

R29

1uF

24k

CE21

R34

C25
470pF

3.9K

4.7K

3.9K

R32

CB6

1uF

4.7K
R33

R31

OUT_R+
OUT_R-

0.1uF

12 PVCC

AVCC 20
AVCC 19

PGNDR13

L8
C15
100K
R27

FB/100/5A

0.22uF/0805
R26

C17
220pF

100K

L7

33UH/3.5A LHP1014

R25

TP3 TP4

C16

5.6R

0.47uF/dilun

SPK_ROUT+
SPK_ROUT-

C18
1800pF

C21

0.22uF/0805
L10

FB/100/5A

L9

33UH/3.5A LHP1014

CB5

C22

R30

C23

0.1uF

220pF

5.6R

0.47uF/dilun

C24
CE22

1800pF

1uF

C26
470pF

TP32
TP33
TP34
TP35

CON2.0-5

Y1

2
3
4
5

9
8
7
6

2
3
4
5

2
3
4
5

CB17

D7
1

CE36
10uF

Y2
Y3

1N60
2

Y4

D9

0.47uF

27V_IN
SW_IN

2
3
4
5

2
3
4
5

9
8
7
6

2
3
4
5

2
3
4
5

1N60
2

ADD2
R312

2

H6
9
8
7
6

D8
1

+ CE38

D10
1N60
1

9
8
7
6
1

0.047uF CD11X/100UF35V/D8H7

H2
9
8
7
6

HOLE/GND

CE37
0.047uF

CB15

47u/50V
150K

0.1uF

1

R37
15K

HOLE/GND

R310 8.2K

1

VREF_FILTER

LOUT

+

CHIP CAP EL 100UF-35V M 8*7

1

+

15K

17-2

27V_IN
SW_IN

1
1

GND
MCU5V
MUTE
ECO_POWER
S_MUTE

1N60

1

1
27V_4558
CE23

R36

17-2

9
8
7
6

R309 470

1

0R/0805

+ CE24

2
3
4
5

1

R35

9
8
7
6

SW_IN

2

9
8
7
6

HOLE/GND

H5

+

HOLE/GND

H4

1

27V_IN

C27

CD263/470UF35V/D10H16

MUTE1

CB4

LOUT
GND
SW_IN

SD

3

ROUT

PACCL

2

STANDBY1

U4

C20

5
4
3
2
1

+ CE16

CD263/470UF35V/D10H16

27V_4558

0.068uF

J2

FB/DIP

CE17

VREF_FILTER

CON2.0-7

R7

R8

CE15

30
29
28
27
26
25

0.47uF/10% /1UF

1

2
2

3

VSS

3

4
6.8K

TP5
TP6
TP7
TP8
TP9
TP11
TP31

33UH/3.5A LHP1014

470pF

+

R28

27V_IN
MCU5V
S_MUTE
MUTE
ECO_POWER
GND
ADD2

R9

L2

1uF

+

C19

7
6
5
4
3
2
1

100K

FB/100/5A

0.22uF/0805

220pF

24k
C14

CF4558

J1

PGNDR 14
PGNDR 13

12 PVCCR

L6
R23

0.068uF

6.8K

0.1uF

5

C13

6

LOUT

1K

GAIN0 18
GAIN1 17

L3
C1

27V_IN
C12

R22
R24

0.1uF

C10

0.1uF

VCC 8

C11

7

1K

7

R21

ROUT

CB3

1uF

4.7K
R20

R16

3.9K

2.2UF16V/0603

CE14

AVCC 20
AVCC 19

BSR 16
ROUT 15

GND
10 PVCCR
11 VCLAMP

1uF

1u/50V

10K/NC

9

LOUT 22
BSL 21

30
29
28
27
26
25

CE12

R12

2.2UF16V/0603

+

+
L_OUT

R10

MUTE

MUTE

5

+

CE11

PVCCL

4

0.1uF

CD263/470UF35V/D10H16

PGNDL 24
PGNDL 23

CD11X/4.7UF16V/D4H7

CE7
CE8

CB1

SD

8

47UF

CF4558

OUT_L+

PACCL

2
3

4.7K

R6
47K

U2

2

2

11

R5
ECO_POWER

+

VSS 4
3 3

1K

30
29
28
27
26
25

CD263/470UF35V/D10H16 U1
R4

100K

+ CE3

CE4

27V_4558

R3

FB/DIP

30
29
28
27
26
25

10K

+
2.2UF16V/0603

2.2UF16V/0603

TPA3123D2

CE5

CE2

TPA3123D2

+

R_OUT

10K

+

R1

2.2UF16V/0603
R2

GND
MCU5V
MUTE
ECO_POWER
S_MUTE

1
1
1
1
1

1
2
3
4
5
6

P2
PRC-101A

U1,U3 -- TPA3123D2 IC Specification

PWP (TSSOP) PACKAGE
(TOP VIEW)

TPA3123D2 BLOCK DIAGRAM
PVCCL
SD
PVCCL
MUTE
LIN
RIN
BYPASS
AGND
AGND
PVCCR
VCLAMP
PVCCR

BSL
AVCC

PVCCL

AVDD
REGULATOR

HS
+
-

VCLAMP

LOUT

LS

AVDD

AVDD

PGNDL

LIN

1
2
3
4
5
6
7
8
9
10
11
12

24
23
22
21
20
19
18
17
16
15
14
13

PGNDL
PGNDL
LOUT
BSL
AVCC
AVCC
GAIN0
GAIN1
BSR
ROUT
PGNDR
PGNDR

SC
DETECT

AVDD/2
AGND

Table 1. TERMINAL FUNCTIONS
TERMINAL

2

I

Shutdown signal for IC (low = disabled, high = operational). TTL logic levels with compliance to
AVCC

6

I

Audio input for right channel

5

I

Audio input for left channel

GAIN0

18

I

Gain select least-significant bit. TTL logic levels with compliance to AVCC

GAIN1

17

I

Gain select most-significant bit. TTL logic levels with compliance to AVCC

MUTE
GAIN0

SD

LIN

GAIN1

DESCRIPTION

RIN

4

I

Mute signal for quick disable/enable of outputs (high = outputs switch at 50% duty cycle, low =
outputs enabled). TTL logic levels with compliance to AVCC

BSL

21

I/O

PVCCL

1, 3

P

Power supply for left-channel H-bridge, not internally connected to PVCCR or AVCC

LOUT

VCLAMP

THERMAL

BYPASS

I/O/P

22

O

Class-D 1/2-H-bridge positive output for left channel

NAME

BIAS

MUTE

24-PIN
(PWP)

CONTROL

SD

MUTE
CONTROL

BYPASS

OSC/RAMP

AV
CONTROL

SC
DETECT

PGNDL
BSR
PVCCR
HS

+

VCLAMP

PGNDR
AVDD

RIN

23, 24

P

Power ground for left-channel H-bridge

VCLAMP

11

P

Internally generated voltage supply for bootstrap capacitors

BSR

16

I/O

Bootstrap I/O for right channel

15

O

Class-D 1/2-H-bridge negative output for right channel

PGNDR

13, 14

P

Power ground for right-channel H-bridge.

PVCCR

10, 12

P

Power supply for right-channel H-bridge, not connected to PVCCL or AVCC

AGND

ROUT

LS
AVDD

ROUT

9

P

Analog ground for digital/analog cells in core

AGND

8

P

Analog ground for analog cells in core

BYPASS

7

O

Reference for preamplifier inputs. Nominally equal to AVCC/8. Also controls start-up time via
external capacitor sizing.

19, 20

P

High-voltage analog power supply. Not internally connected to PVCCR or PVCCL

Die pad

P

Connect to ground. Thermal pad should be soldered down on all applications to properly
secure device to printed wiring board.

AVCC
AVDD/2

17-3

Bootstrap I/O for left channel

Thermal pad

17-3

Main Unit -- AMP Board Layout Diagram

17-4

17-4

Main Unit -- Decoder Board Circuit Diagram

DV33

CB91
TP47
R217
10K
3

R216
100K

R220 10K

R223
100

CB92
0.1uF

Q20
8550/DIP
2

3
R225
4.7

Q21
2N3906
2

SLSL+

R226
4.7

+

R224
10K

3

3

2

CE53
47UF/16V

Q23
8550/DIP

RFV33

R227
10K

Q22
2N3906

2

1
CB93
0.1uF

+

GND
DV33
RFV33
VCC

25
26

R229
1/0805

T+

15
16
17
18
19
20
21

U14
VOTK+
VOTKVOLD+
VOLDPGND
VNFTK
PVCC2

30
R236
20K

FMSO

CB95
0.1uF

R241
10K

PREGND
VINLD
CTK2
CTK1
VINTK
BIAS
STBY

CB96
0.1uF

18-1

14
13
12
11
10
9
8

G1

29

VNFFC
VOSL
VINSLVINSL+
CF2
CF1
VINFC
CE55
220UF/10V

7
6
5
4
3
2
1

C110
2200pF

F+

MO_VCC

SP-A
SP+

300mA
R234
10K

F-

R232
680K

L68
VCC
2.2欧-1206

R235
20K

OPO

DMSO

R233
680K

V1P4
R237
20K

FOSO

+

CB97
0.1uF

C113
150pF

R238
150K

R239
150K

OPOP+
V1P4

C112
2200pF

SP-

470UF6.3V/D8H7

+

22
23
24
25
26
27
28

VOFC+
VOFCVOSL+
VOSLPGND
PVCC1
VCC

CB94
0.1uF/NC

R231
1/0805

SP-A

CE72

STBY1

TRSO
V1P4

G2

CD5954

R230
1/0805

IOA
LDO2
LDO1
MDI1
E
V20
F
B
A
RFO
D
C
FMSO
TRSO
STBY
FOSO
DMSO
UP3_0
OPO
OPOP+
V1P4

2

2
2
2
2
2
2

2
2
2

2

2
2
2
2
2
2
2
2
2
2
2

CE54
10UF/16V

LDO1

SL+
SLMO_VCC

STBY

IOA
LDO2
LDO1
MDI1
E
V20
F
B
A
RFO
D
C
FMSO
TRSO
STBY
FOSO
DMSO
UP3_0
OPO
OPOP+
V1P4

CE51
10UF/16V

1

L67
10uH/SMD

E
AVCC1
V20
GND
F
B
A
RFO
IOA
D
C
TT+
F+
F-

CE52
47UF/16V

1

L66
10uH/SMD

AVCC1
MDI1
LD_CD
VR_DVD
VR_CD

R240
0

UP3_0

220UF/10V
3

GND
LD_DVD

T-

C111
150pF

R219
33

+ CE50

CON3

R228
1/0805

SP-A

LDO2

1

R222

SONY313 100

H24 SMD0.5
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

SPSP+
LIMIT

TP48
TP49
TP50

VCC

L70
FB

R215
10K

R218
1/0805

2

1
Q19
2SK3018

R221
100K

+

2

3

Q17
2N3904

IOA

+

1
Q18
2SK3018

3

1

2

CON2
CON2.0-6
6
5
4
3
2
1

VCC

TP70
0.1uF

18-1

GND
DV33
RFV33
VCC

2,3,4,5
2,3,4,5
2
2,4,5

Main Unit -- Decoder Board Circuit Diagram

0.1uF

CB76

RFV33

0.1uF

LDO2
LDO1

RFV33

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64

RFVDD3

MDI1
MDI2

CB77
0.1uF

V2P8
V20
V1P4
TEZISLV
OPO
OPOP+
DMO
FMO

CB80
0.1uF

V18
L56

C95
4.7uF/6.3V

CB81
0.1uF

TRO
FOO

FB
89S_3V3 CB82
0.1uF
L57
FB/0603
L58
V18

C96
4.7uF/6.3V

USBP
USBM

FB/0603
C97

R192
R193
R194
R195

0.1uF

10pF USB_P

C99

10pF USB_M

A_MUTE
IOA
A2
A3
A4
A5
A6
A7
A8
A18
A19

0.1uF

0.015uF

C77
1500pF

CB63

0.1uF

0.1uF

0.1uF

0.1uF

0.1uF

MT1389FE-SEAL

C84

V18

L52

TX1+
TX1-

CB74
0.1uF

TX0+
TX0-

FB/0603

V18

CB75
0.1uF

TXC+
TXC-

AV33

C94

R187
R188
GPIO7

5600pF
2.55K 1%

0 89S_HPD

L54
L55

Q12
CES2302/NC
1
3

FB
FB

CB78
0.1uF

MA3
MA2
MA1
MA0
MA10
BA1
BA0
CS#
RAS#
CAS#
WE#
DQM1

CVBS

DV33

+ CE46

22UF/6.3V/0805

CB87
0.1uF

+ CE47
22UF/6.3V/0805

DV33

L64
FB

CB88
0.1uF

RXD
TxD

1
2
3
4

C103

C104

R198

47pF

47pF

2.2K

P4
CON2.0-4
4
3
2
1

TP42
USBP
USBM

TP71

+5V_USB

TP43
TP44

C108
L63
FB/600/0603
100pF

VCC

Q15
CES2307
C109
100pF

+ CE48

R209

220UF/10V

47K

0.1uF

18-2

SCL_DVD
SDA_DVD

R213
4.7K

3
Q16
2N3904
1

100UF/16V

CB89

1K

1K

R212

1K

CE45
22UF/16V

R208
0/NC

DV33

R211

5

0.1uF

2

Q13
2N3904

CE64

R199

CVBS_OUT

100UF/16V

D33

3
+5VV
FB

+

SSCL

CON1
CON2.0-4
红色

URST#

PESD12VS2UT

R210

+ CE49

3.3K

2
R214
10K

USB_ON

CB90
0.1uF

18-2

5

5
1,4,5
1,3,4,5
1
1,3,4,5
4,5
5

CB84

R196
1.8uH/0603
L59
CE43 100UF/16V

5
5

5

+5VV

DQ8

DQ2
DQ1
DQ0
DQ15
DQ14
DQ13
DQ12
DQ11
DQ10
DQ9

DQ7
DQ6
DQ5
DQ4
DQ3

URST#

DQM0

RXD
TXD

C105
C106
L61
1R/0805

5

5

V18
DVD3.3V
VCC
GND
RFV33
DV33
89S_3V3
CVBS_OUT

URST#

3

89S_3V3

L62
FB

0

5

MCLK_IN
LRCK_IN
BCK_IN
DATA1_IN

V18
DVD3.3V
VCC
GND
RFV33
DV33
89S_3V3
CVBS_OUT

DCKE
DCLK

NC/0.1uF

0 SSDA

1
1
1
1
1
1

USB_ON
TRIN

MCLK_IN
LRCK_IN
BCK_IN
DATA1_IN

MA4
MA5
MA6
MA7
MA8
MA9
MA11

CB86

SDA_DVD R207

FOSO
TRSO
FMSO
DMSO
LDO2
LDO1

0.1uF

GPIO6
GPIO5

75 1%

SCL_DVD R205
RFV33

1
1
1
1
1
1

1
1
1
1
1
1
1
1
1
1

VCC

L60

89S_3V3

5

UP3_0
V1P4
OP+
OPOPO
IOA
STBY
V20
MDI1
RFO
E
F
B
A
C
D

USB_ON
TRIN

89S_3V3

CB79

5
5

A_MUTE

FOSO
TRSO
FMSO
DMSO
LDO2
LDO1

R186
0/0805

VCC

C107
0.01UF

AL
AR

UP3_0
V1P4
OP+
OPOPO
IOA
STBY
V20
MDI1
RFO
E
F
B
A
C
D

CVBS
DACVDD3

TX2+
TX2-

3
3

5
5

C87

DACVDD3

URST#

DVD3.3V
1

SSCL R200 33/NC
SSDA R201 33/NC
100pF SCL_DVD
100pF SDA_DVD
UP3_0

A17
A0

AD7

AD2
AD3
AD4
AD5
AD6
A21

PWR#
A16
A15
A14
A13
A12
A11
A10
A9
A20
PCE#
A1
PRD#
AD0
AD1

D25
R206
1N4148 10K

C86

Q14
2N3904

2

SCL_DVD
SDA_DVD
SSCL
SSDA

AL
AR

100pF 100pF 100pF 200PF

160 1%

1

2

RESET

C85

3
3
3
3
3
3

+

R204
1K

MCLK_IN
BCK_IN
LRCK_IN
DATA1_IN

3

DCLK
DCKE
CAS#
RAS#
WE#
CS#

A_MUTE

89S_3V3

192
191
190
189
188
187
186
185
184
183
182
181
180
179
178
177
176
175
174
173
172
171
170
169
168
167
166
165
164
163
162
161
160
159
158
157
156
155
154
153
152
151
150
149
148
147
146
145
144
143
142
141
140
139
138
137
136
135
134
133
132
131
130
129

0
0
0
0

+

10uF/25V

R301
R302
R303
R304

MMCLK_IN
MBCK_IN
MLRCK_IN
MDATA_IN

DACVSSC
Y
DACVDDB
C
DADVSSB
CVBS
DACVDDA
G
DACVSSA
B
R
AGND18_TX0
TX2P
TX2N
AVDD18_TX0
TX1P
TX1N
AGND18_TX1
TX0P
TX0N
AVDD18_TX1
TXCP
TXCN
AGND18_TX2
AGND33_TX
EXT_CAP
AVDD33_TX
AVDD33_VPLL
EXT_RES
AGND33_VPLL
GPIO8_HPLG
GPIO7_DDC_CLK
DVDD18
GPIO6_DDC_DA
GPIO5
GPIO4
DVDD33
RA4
RA5
RA6
RA7
RA8
RA9
RA11
DVSS33
CKE
RCLK
DVDD33
RA3
RA2
DVDD18
RA1
RA0
RA10
BA1
BA0
RCS
RAS
CAS
RWE
DQM1
DVDD33
GPIO20/SD_CMD
RD8

MT1389S

V18

R203
10K

3
3

3
3
3

MA[0..11]
DQ[0..15]
BA[0..1]
GPIO[5..7]
DQM[0..1]

SCL_DVD
SDA_DVD
SSCL
SSDA

CB67

2K

DACVDD3
VREF
FS

MDATA_IN
MLRCK_IN
MBCK_IN
MMCLK_IN
TS_DATA2

R184

89S_3V3

R202
1K

MA[0..11]
DQ[0..15]
BA[0..1]
GPIO[5..7]
DQM[0..1]

CB64

R197

DV33

A[0..21]
AD[0..7]
PRD#
PWR#
PCE#

DCLK
DCKE
CAS#
RAS#
WE#
CS#

89S_3V3
TP41
STBY

APLLVDD3

CB62

V18

TP40
TP39

AL
AVCM
AR

CB61

V1P4

+ CE44

A[0..21]
AD[0..7]
PRD#
PWR#
PCE#

10uF/10V/0805

GPIO12
TRIN

CE39

C80

ADACVDD

RFV18
ADACVDD

JITFN
JITFO
XI
XO
RFV18

PLLVDD3

10uF/10V/0805 C76

470UF/6.3V

4.7uF/6.3V

0.1uF

CB59

CB65
0.047uF

C79

OSN
RFGC
IREF
AVDD3
AGND
DVDA
DVDB
DVDC
DVDD
DVDRFIP
MA
MB
MC
MD
SA
SB
SC/TNI
SD/TPI
MDI1
MDI2
LDO2
LDO1
SVDD3
CSO/RFOP
RFLVL/RFON
SGND
V2REF
V20
VREFO
FEO
TEO
TEZISLV
OP_OUT
OP_INN
OP_INP
DMO
FMO
TROPENPWM
PWMOUT1/_ADIN0
TRO
FOO
AGND18_DMPLL
AVDD18_DMPLL
USB_DP
USB_DM
VDD33_USB
VSS33_USB
PAD_VRT
VDD18_USB
VSS18_USB
USB_XTALO/GPIO15
USB_XTALI/GPIO14
FG/GPIO16
IOA22/GPIO18
DVDD18
IOA2
IOA3
IOA4
IOA5
IOA6
IOA7
HIGHA0
IOA18
IOA19

C102

330pF 330pF 0.1uF

C98

0.1uF

C78

65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128

C100 C101 CB85

20K FOO
18K TRO
15K FMO
10K DMO

5.1K
USB_V18

CB83

V18

FOSO
TRSO
FMSO
DMSO

R189
0USB_P
R190
0USB_M
USB_V33

R191

10uF/10V/0805

CB58

0.1uF

3

RFV18

CB53

0.1uF

1

V18

E
F

CB57

0.1uF

0.1uF

2

0.1uF
15K

C88 1uF/16V
C
C89 1uF/16V
B
A
C90
1uF/16V
D
C91 1uF/16V
C92 1uF/16V
RFO
C
C93 120pF/NC
B
A
D
FB/0603

CB56

0.1uF

CB60

U13

CB72

22UF/6.3V/0805

CB73
R185

L53

CB55

0.1uF

258
257
256
255
254
253
252
251
250
249
248
247
246
245
244
243
242
241
240
239
238
237
236
235
234
233
232
231
230
229
228
227
226
225
224
223
222
221
220
219
218
217
216
215
214
213
212
211
210
209
208
207
206
205
204
203
202
201
200
199
198
197
196
195
194
193

+ CE42

V18

CB54

MARK2
MARK1
OSP
RFGND
CRTPLP
HRZFC
RFRPAC
RFRPDC
RFVDD3
ADCVSS
ADCVDD3
LPFOP
LPFIN
LPFIP
LPFON
PLLVDD3
PLLVSS
JITFN
JITFO
XTALI
XTALO
RFVDD18
RFGND18
SADCVSS18
SADCVDD18
ADACVDD3
ADACVSS3
CH7
CH8
ADACVDD1
ADACVDD2
CENTER
ALS
AL
AVCM
AR
ARS
LFE
ADACVSS1
ADACVSS2
APLLVSS
APLLCAP
APLLVDD
SPDIF/GPIO23
GPIO12
GPIO11
DVDD18
GPIO10
GPIO9
TS_PWM
TS_ERROR
DVDD33
TS_SYNC
TS_CLK
TS_VALID
TS_DATA7
TS_DATA6
TS_DATA5
TS_DATA4
TS_DATA3
TS_DATA2
TS_DATA1
TS_DATA0
DACVDDC
VREF
FS

CB71
0.1uF

22UF/6.3V/0805

10uF/25V

750K

DVDD33
IOWR
A16
HIGHA7
HIGHA6
HIGHA5
HIGHA4
HIGHA3
HIGHA2
HIGHA1
IOA20
IOCS
IOA1
IOOE
AD0
AD1
DVSS18
AD2
AD3
AD4
AD5
AD6
IOA21/GPIO17
ALE
AD7
DVSS33
A17
IOA0
DVDD18
UWR
URD
DVDD33
UP1_2/GPIO19
UP1_3/VSCK
UP1_4/VSTB
UP1_5/VSDA
UP1_6/SCL
UP1_7/SDA
UP3_0
UP3_1
UP3_4/RXD
UP3_5/TXD
ICE
PRST
IR
GPIO22/SDD0/INT
DQM0
GPIO21/SD_CLK
RD7
RD6
RD5
RD4
RD3
DVDD33
RD2
RD1
RD0
RD15
RD14
RD13
RD12
RD11
RD10
RD9

+ CE41

CB70
0.1uF

10uf/10v/0805

0.1uF

+ CE40

CB69
0.1uF

V1P4

V20

V2P8

C83

C81

0.033uF

CE38
100UF/16V

0.1uF

+

R183
1000pF

PLLVDD3

CB66
0.1uF

0.1uF

V18

CB68

R182
6.8

RFVDD3
C82
0.047uF

100K V1P4

L47
FB

CB52 + CE37

0.1uF

5
4

89S_3V3

C72
27pF

C71 Y8
27pF 27MHz

20pF

C74
2200pF

C75

C73
0.01UF

CB51

0.1uF

100UF/16V

89S_3V3

1000pF JITFN

R181

C70
1000pF/NC

RFVDD3

RFVDD3

C69

JITFO

CB50

+ CE36

CB49

150uH/DIP
47uH/DIP
FB

4
4
4
4
4
4
4
4

2

R180
100K

ADACVDD L42
APLLVDD3 L43
DACVDD3 L44

L45
2.7uH/NC

L46
FB

RFV33

R179
0

+

RFV33

XO

TX0+
TX0TX1+
TX1TX2+
TX2TXC+
TXC89S_HPD
TS_DATA2

1

XI
R178
0

TX0+
TX0TX1+
TX1TX2+
TX2TXC+
TXC89S_HPD
TS_DATA2

3
3
4
3

Main Unit -- Decoder Board Circuit Diagram

U10

DCS#
DRAS#
DCAS#
DWE#

RN1
7
5
3
1

33x4
8
6
4
2

DBA0

R168

33

R169

33

SDCKE

R170

33

DCKE

SDCLK

R171

33

DCLK

C68
20pF/NC

A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10/AP
A11
BA0/A13
BA1/A12

38
37

CLK
CKE

DCS#
DRAS#
DCAS#
DWE#

BA1

CS#
RAS#
CAS#
WE#

23
24
25
26
29
30
31
32
33
34
22
35
20
21

SDCLK
SDCKE

BA0

DBA1

MA0
MA1
MA2
MA3
MA4
MA5
MA6
MA7
MA8
MA9
MA10
MA11
DBA0
DBA1

19
18
17
16

CS
RAS
CAS
WE

DQM0
DQM1

36
40

NC
NC

54
41
28

VSS
VSS
VSS

VCCQ
VCCQ
VCCQ
VCCQ

DQ7
DQ6
DQ5
DQ4
DQ3
DQ2
DQ1
DQ0
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
SD33

1
14
27
3
9
43
49

VSSQ
VSSQ
VSSQ
VSSQ

DQML
DQMH

2
4
5
7
8
10
11
13
42
44
45
47
48
50
51
53

VCC
VCC
VCC

15
39

DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15

6
12
46
52

SF33

R173
SF33

10K

A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
AA20
AA21
PCE#
PRD#
PWR#

U11

25
24
23
22
21
20
19
18
8
7
6
5
4
3
2
1
48
17
16
9
10
26
28
11

CE
OE
WE

12

D0
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
D15
WP/ACC

14

BYTE

47

VCC

DQ[0..15]
MA[0..11]
BA[0..1]
DQM[0..1]
DCLK
DCKE
CAS#
RAS#
WE#
CS#

AD0
AD1
AD2
AD3
AD4
AD5
AD6
AD7

29
31
33
35
38
40
42
44
30
32
34
36
39
41
43
45

37

GND1
GND2

A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20

27
46

A0
R172

PCE#
PRD#
PWR#
A[0..21]
AD[0..7]

SF33
0

SCL_DVD
SDA_DVD
DV33
GND

0.1uF

RESET

K4S641632H-UC60
DV33

CB40

1
2
3
4

U12
NC
NC
NC
GND

24C16
VCC
WP
SCL
SDA

8
7
6
5

16 Mb FLASH

R175
R176

R174

330 SCL_DVD
330 SDA_DVD

A21

0

R177

A20

DV33

0

AA20
AA21

32 Mb FLASH

DV33

SD33
L40
FB/600/0603

DV33

SF33
L41

+ CE34

CB41

18-3

CB43

CB44

CB45

CB46

0.1uF

220UF/10V

CB42
0.1uF

0.1uF

0.1uF

0.1uF

0.1uF

FB/600/0603

+ CE35
10UF/10V/0805

PCE#
PRD#
PWR#
A[0..21]
AD[0..7]

SCL_DVD
SDA_DVD

2

CB47

CB48

0.1uF

0.1uF

18-3

DV33
GND

2
2

2
2
2
2
2
2

2
2
2

2
2

2
2

CB39

EN29LV320B-70TCP (TSOP48)

0.1uF

DQ[0..15]
MA[0..11]
BA[0..1]
DQM[0..1]
DCLK
DCKE
CAS#
RAS#
WE#
CS#

1,2,4,5
1,2,4,5

2

U11: EN29LV320A IC Specification

PRODUCT SELECTOR GUIDE

32M FLASH USER MODE TABLE

Pr o d u c t Nu m b er

EN29L V320A

Speed Option

-70

-90

Max Access Time, ns (tacc)

70

90

Max CE# Access, ns (tce)

70

90

B

B

B

B

30

Max OE# Access, ns (toe)
B

B

35

Notes:
1. Vcc=3.0 – 3.6 V for 70ns read operation

RY/BY#

OE#
L
H

L

H

L

A0A20
AIN
AIN

DQ0DQ7
DOUT
DIN

H

WE#
H
L

WP#/AC
C
L/H
(Note 1)
VHH

AIN

DIN

H

X

High-Z

High-Z

High-Z

H
L/H
L/H

X
X
X
SA,
A6=L,
A1=H,
A0=L
SA,
A6=H,
A1=H,
A0=L

High-Z
High-Z
High-Z

High-Z
High-Z
High-Z

High-Z
High-Z
High-Z

(Note 2)

X

X

(Note 2)

X

X

AIN

(Note 2)

(Note 2)

High-Z

B

Vcc ±
0.3V
H
L
X

X

X

X
H
X

X
H
X

Vcc
0.3V
H
H
L

Sector (Group)
Protect

L

H

L

VID

Sector
Unprotect

L

H

L

VID

Temporary
Sector
Unprotect

DQ0-DQ15 (A-1)

Block Protect Switches

Input/Output Buffers

State
Control

Command
Register

Accelerated
Program

X

X

X

VID

B

TTL Standby
Output Disable
Hardware Reset

Erase Voltage Generator

WE#

CE#
L
L

CMOS Standby

BLOCK DIAGRAM

Vcc
Vss

Operation
Read
Write

Program Voltage
Generator
Chip Enable
Output Enable
Logic

CE#
OE#

STB

Data Latch

B

B

B

B

B

±

B

L/H

B

(Note 1)

B

(Note 1)

B

B

B

B

B

B

B

B

B

B

B

B

B

B

B

B

B

Vcc Detector

Timer

Address Latch

STB

B

B

B

B

B

B

B

B

B

B

B

Notes:
1. If WP#/ACC = VIL , the two outermost boot sectors remain protected. If WP# / ACC = VIH, the outermost boot sector
protection depends on whether they were last protected or unprotected. If WP#/ACC = VHH, all sectors will be
unprotected.
B

B

B

B

2. Please refer to “Sector/Sector Group Protection & Chip Unprotection”, Flowchart 7a and Flowchart 7b.

X-Decoder

B

B

B

B

B

B

B

Cell Matrix

A0-A20

18-4

B

B

B

Y-Gating

B

L=logic low= VIL, H=Logic High= VIH, VID =VHH =11 ± 0.5V = 10.5-11.5V, X=Don’t Care (either L or H, but not floating ),
SA=Sector Addresses, DIN=Data In, DOUT=Data Out, AIN=Address In

B

Y-Decoder

DQ8-DQ15
BYTE#
BYTE#
= VIH
= VIL
DOUT
DQ8DQ14=
DIN
High-Z,
DQ15 =
DIN
A-1

RESET
#
H
H

18-4

Main Unit -- Decoder Board Circuit Diagram

23
22

TXC+
TXC-

TX2+

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19

TX2-

D12
NC

D13
NC

TX1+

R160

CECOUT

TX1-

CEC

0

HDMI_SCL
HDMI_SDA
D15
NC

DV33

TX0+

R161
NC/27K

TX0-

D19
NC

TS_DATA2
GPIO[5..7]
CECOUT

L37
HDMI_VCC

VCC
D18
NC

HDMI_HPD

D17
NC

D16
NC

HDMI_HPD

FB/600
CB37

D20

DV33
89S_3V3
VCC
GND

+ CE33
10uF/25V

0.1uF

NC/IN4148

P3
HDM2MB-19-B

CEC

TXC+
TXC-

D21
NC

D23
NC

89S_3V3

VCC

CB38
3

0.1uF/NC

D24

CEC

IN4148

R162 47/NC

Q11
CES2312/NC

2
1

D22
NC

R163
1.5K

R164

TS_DATA2

1.5K

HDMI_SCL

R165

0 GPIO7

HDMI_SDA

R166

0 GPIO6

CECOUT

R167

NC/0GPIO5

18-5

18-5

2
2

TX2+
TX2-

TX2+
TX2-

2
2

TX1+
TX1-

TX1+
TX1-

2
2

TX0+
TX0-

TX0+
TX0-

20
21

D14
NC

TXC+
TXC-

2
2

HDMI_HPD

5

TS_DATA2

2

GPIO[5..7]
CECOUT

DV33
89S_3V3
VCC
GND

2
5

1,2,3,5
2,5
1,2,5
1,2,3,5

Main Unit -- Decoder Board Circuit Diagram

VCC

R11
10K

MP3_IN_R
+5V

C118
DOUT 15
LOUT 14
ROUT 13
GND 12

NC
FMI
RFGND
TXO

C120
100pF

0.01UF
R252

1K
L3
FB/1K

C18
10 VIO

SEN
SCLK
SDIO
RCLK
6
7
8
9

1K

R253

VD/VDD 11

5 RST
R26
10K

C119

0.01UF

R14
22K

R22
12K

C14

220UF/10V

C15

R24

Q33
2N3904

C126
2.2uF/16V

2

4052_A R15
4052_B R16
R17
R18
VCC

AUX_INL

R288
5.6K

120/0805

C2
470pF

R20
22K

AUX_IN_L

0.47uF

FM_IN_L
0.47uF FM_IN_R
FM_VCC

C17
470pF

R4
12K

C121
100pF

C12
470pF

+CE65

R287
33K

C19
D1
+CE5
10uF/10V/0805 3.3V/SMD 100UF/16V

0.01uF

Q32
CES2307

3

0.1uF

33

CB5

R23

L4

FM_RST

1
2
3
4

R286
47K

R309
0

R289 4.7K

ECO_POWER

R290
22K

1

C13
100pF

RFIN

DFS 16

GND 21
NC. 20
GPO1 19
GPO2/IRQ 18
GPO3/DCLK 17

U3
4705

MP3_INR

FM_VCC

VEE

NC

MP3_INL
AUX_INL
C6
MP3_INR
AUX_INR
C9

7

SI4704/05120nH NC

R1
22K

AUX_IN_R

AUX_INR

L6
FB/1K

C122 C123
100pF
100pF
J1

C27
22pF

27V_IN

R305
10K

27V_FAN/2313

R25
560R/1W

Q35
CES2307

C28
22pF

MCU5V

R28
33K

FB

D2
NC

R260
0

2

+ CE58

R307 4.7K

ECO_POWER

1

R308
22K

3.3V_MCU

+ CE59

R266

FB

R46

18K

DVD3.3V

R265
10K

1K/0805

D29
4.3V/SMD

VDD_CEC
R45

2

Q28
2N3906

22uF/16V

L12

R261
10K

100UF/16V

R263 10K

1

2

D28
1N4148
R264 43K
2

R262
1M
1

C127
2.2uF/16V

3
Q36
2N3904

1N4148

2

R306
5.6K

D27
1

3

L11

RFIN

4
6
7
5

L10

FM
FB

1
RF IN2
3

1uF/16V

Y1
32.768KHz

27K
47K

1

R31
10K

A_MUTE

R267
10K
R268

Q27
2N3906

3

330
330

R34
10K

MUTE_DVD

3

MSCL R35
R37

MSDA

C22

4.7K
2

Q29

1

2N3904

D9
MUTE_MCU 1

1N4148
2

R64

10

C37
10PF

MUTE

+ CE18
4.7uF/16V/0805

R66
68K/NC

D5
1N5819

R60

100K
2

CECOUT
Q5
2N3904

1

CEC_OUT

3 2

1N4148
2

1

R54

CEC_INPUT
D8
1

MUTE_DVD

09/09/28
增加开关机静音电路

R63

MUTE

220

1
2
3
4

CHIP CAP EL 100UF-10V-M 5*5

0.1uF

R128
10K

100

0.1uF
D11
1N4148
C62
1uF/16V

R132

1K

+ CB28

12 VCC
13
M_OPEN

M_OPEN

R134

CE24

MSCL
MSDA

CB26

1K

1

R131

XIN

5 MODE
6 XCIAN
7 XCOUT
8 RST
9 XOUT
10 VSS
11 XIN

ROUT
LOUT

3.3V_MCU

MCU5V
L78

U17 CX1117-3.3
FB 3 IN OUT1 2
4
OUT2
SOT223

Y9
NC/20MHz

XOUT

XIN
C116

NC/22pF
R310

NC/1.2K

+

CE70
220UF/10V

C117
NC/22pF

R5R0C028FA
R8C2425-LQFP52

U7

NC 39
AD0 38
MSCL 37
MSDA 36
ECO_POWER 35
34
LED_CTRL
MUTE_LINE 33
MUTE_MCU 32
STANDBY 31
DAB_SW 30
TX2(ROTA3) 29

R270
L20
L23
R112

C59
100pF

ipod_TX

33
AUTO_MUTE
FB/2.2K R106
100 MSCL
FB/2.2KR110
100 MSDA
0 ECO_POWER

R269
R114

1389_RST R377
RX2(ROTB3) 28
R251
ROTB1 27

PWM

10
33

MUTE_MCU

NC
URST#
33 CEC_INPUT

MSDA
MSCL

R147
R148

330 SDA1
SCL1
330
3.3V_MCU

5
6
7
8

U9
24C02
4
SDA VSS 3
SCL A2 2
TEST A1
VDD A0 1

CB35
0.1uF

MCU

CB100
0.1uF

R311
0/2K

18-6

10K CLOSE_SW
10K OPEN_SW
10K iPod_RX
10K iPod_TX
NC/1k 1389_RST
68K
MSCL
3.9K
MSDA
C58
C43
100pF
C42
100pF
100pF

ipod_RX

33CEC_OUT

R291
R292
R73
R74
R376
R95
R96

NC 40

R293

TREO 45 R92
AD_VREF44 R93
R248
AD3 43
R83
AD2 42
AD1 41 R84

R87
R88
R89
R259
R91
R117

2

27 SDA
28 SCL

25 LFOUT
26 DGND
4.7uF/16V/0805

33

XOUT
R119 10K

R150
100
SW_IN
C65
1000pF

R111

REST_MCU

R115
4.7K

1

R151
NC

+

DVD_SW 52
USB_DET51
AD6 50
AD5 49
AD4 48
SD_DET 47
IPOD_SW 46

MODE

CON2.0-4

10K

REF 1

U8

C45
100pF

1 NC
L18 FB/2.2K
330
SSCL R103
2 SCLK
MPEG_ON
R105
1K
3 DVD_ON
SSDA R109
330 L22
FB/2.2K
4 SSDA

红色

3.3V_MCU

R135
M_CLOSE
100 14 M_CLOSE
OPEN_SW R136 1K 15
OPEN_SW
R137 1K 16
CLOSE_SW
CLOSE_SW
R144
1K 17
VFD_CLK
VFD_CLK
L27
FB/2.2K
VFD_DATA R145
18 VFD_DATA
1K
VFD_STB R146 L28 1K FB/2.2K 19
VFD_STB
L29
FB/2.2K
REMOTE R139
33 20 REMOTE
4052_B
R140
33021 ROTB2
4052_A R141
33022 ROTA2
iPod_TX R367
330
23 TX1
iPod_RX R368
330
24 RX1
25 ROTA1
26 NC

10pF C48
C49
1000pF

J2

CE23
22UF/16V

ADJ

R149
100

+

CE30

4.7uF/16V

+

CE29

+

4.7uF/16V/0805

23 LROUT
24 RFOUT

21 BOUT-R
22 RROUT

C132 8.2K R143
8.2K
1000pF

4.7uF/16V

19 BOUT-L
20 BIN-R

0.22uF
0.22uF

0.22uF

0.22uF

R142

CB32
CB33

CB31

R379

+

SSDA

SSCL

10K

C46 C47
100pF 100pF

1
AGND 3
VDD 2

R76
R77
R78

R75
2

R378
1K RCH
CE22 10uF/0805
R IN 6
CB22
470PF
TREB-R 5
470PF
TREB-L 4 CB23

R IN3 9 CB20 10uF/10V/0805
0.1uF
CB21

CB14 +
CE20
100UF/16V
0.1uF

C44
100pF

3.3V_MCU

33

3.3V_MCU

SW_L CE27
SW_R CE28

PT2313

1K

10uF/0805
CE25

C129
470pF

10uF/0805
CB102

10K
10K
R371 C128 R372
470pF 22K
22K

CB101 10uF/10V/0805
R IN1 11
CB19 10uF/10V/0805
R IN2 10

0.1uF

C61
470pF

LCH

iPod_IN_L R369
iPod_IN_R R370

C60 R127
470pF 47K

REMOTE
VFD_DATA
VFD_CLK
VFD_STB

PT2313
SO28
15 L IN1
16 L IN

R126
47K

1000pF

C130 D10
9.1V

LOUD-R 8
R OUT 7

1K
1K

CB30

FM_IN_L R122
FM_IN_R R124

C51
R108
470pF 22K

17 LOUT
18 BIN-L

C50
R107
470pF 22K

CB18
LOUD-L 12

1K
1K

+

R101
R102

+

AR
AL

L IN2 14 CB16 10uF/10V/0805
L IN3 13 CB17 10uF/10V/0805

27V_FAN/2313

10K
4.7K
4.7K

3.3V_MCU

1K FM_RST
33
S_MUTE
33 ADD2

2.2K TRIN
2.2K USB_ON
33 INT
33 LED
33 MCU_HPD
33 REST_TOUCH

CEC

18-6

+C4
0.1uF
CE3

CE4

R6
51K

C1
0.1uF
U2
CD4052
C5
10uF/25V 12
X0
14
X1 VCC 16
15
10uF/25V
11 X2
X3
X 13
C8
10uF/25V 1 Y0
Y 3
5 Y1
2 Y2
10uF/25V
4 Y3
EN 6
470
10 A
470
9 B GND 8
10K
10K
CB4
CB3
0.1uF 0.1uF

C3
470pF

47KR9

R5
22K

L48 R113 R120
0
0
SI4702/03 0

L1
FB
R3 100UF/16V
CE1
47K

+ +

MP3_INL

47KR8

R2
10K

MP3_IN_L

10uF/25V
SWOUT_L
SWOUT_R
10uF/25V

C40
1000PF
R67 NC/100K R68 NC
R69 NC/100K R70 NC

VADC3.3V
CB11
0.1uF

44
43
42
41
40
39
38 CE19
37
36
35
34

VDAC3.3V

C41
R71
R72

+

C53

VDDI3.3V

R118
CB25
1uF/16V

CB24
0.1uF

R125
22K

Y3
12.288MHz

R133 100K NC/10K
R138
C63
C64
33pF
33pF
10K

TP3
27V_IN
MCU5V
S_MUTE
MUTE
ECO_POWER
GND
ADD2

TP4
TP5
TP6
TP8 CE66
TP12 +
TP85

CON2.0-7

ROUT

TP87
TP88
TP89

C52
1000pF

CB27
1uF/16V

SOT223

R42
1.2K

220UF/10V

CVBS_OUT L33
COAXIAL_INL34
AUX_IN_L R299
AUX_IN_R R300

FB/600/0603

0
0
FB
FB
FB

VDDI3.3V

CB29
0.1uF

10K

CB34
0.1uF
33
SPDIF_IN_0

L30

10pF

9
8
7
6
5
4
3
2
1

VADC3.3V
CE31

+

470uF/6.3V

FB/600/0603

VDAC3.3V

CB36
0.1uF

4
2

TRIN

2

HDMI_HPDHDMI_HPD

4

+5V
V18
DVD3.3V
VCC
GND
DV33
CVBS_OUT
89S_3V3
89S_HPD

V18
DVD3.3V
VCC
GND
DV33
CVBS_OUT
89S_3V3
89S_HPD

URST#

URS T #

2

2
1,2,4
1,2,3,4
1,2,3,4
2
2,4
2

2

CON2.0-9

R158
470

2
R159

CON2.0-2
TP45TP46

10K

M_OPEN

DVD3.3V
U15 CX1084-3.3
FB 3
2
IN
OUT1
R295
TO-252-3/SMD NC/1.2K +CE67
220UF/10V

C67
470pF

增加

DVD3.3V
L77

Y4
Y5
Y6
Y7

SOT223

R297
750/1%

18-7

+CE68

R258

R255
1

89S_HPD
Q26
2N3906

1k

5

R298
330/1%
27V_FAN/2313

+

2

2

1

33
33 4

3

2
JACK1

CB99
0.1uF

1

3

1uF/50V
R278
10K

Q25
2
2N3906

MP3_IN_L L35
MP3_IN_R
L36

D30 IN60
C124
AUTO_MUTE
1
2
1000pF Q31 1uF/50V
Q30
CE63
2
2N3904
D31
NC/2N3904
+ R276 D32
22K NC/5.1V
IN60
2.2uF/50V
R277 NC/470K
R279
220

0
2

1k 2

V18

1

+

C125
0.01UF

R380

CE62

3

R275 47K

R257
47K

R273
4.7KCE61

1

LOUT

R274 47K

CE60 100UF/16V

ROUT

R271 2.2K
R272
1M

R256

CB98
0.1uF

U16 CX1117-ADJ
FB 3
IN OUT1 2
OUT2 4

220UF/10V

+

HDMI_HPD

R296
0R/2K

H5 HOLE/GND
9 9
2 2
8 8
3 3
4
7 7
4 5
6 6
5
1 1

1 1

MCU_HPD
VCC
L73

R157
470

Q10
+ CE32
220UF/10V8050,DIP

M+
M-

1
2

M_CLOSE

R156 C66
10K 470pF

1

J7

2K
MPEG_ON

1 1

H2 HOLE/GND
2 2
3
3 4
4 5
5

R154 470

2

2

CON2.54-2
H4 HOLE/GND
9 9
2 2
8 8
3
3 4
7 7
4 5
6 6
5

4.7K

4.7K
2
1

2
CB104 R375
0.1uF 47K

Q8
8050,DIP

3

1
3
1

Q1
2N3904

R152
470

MQ9
8550,DIP

R374

2

R254

CB103
0.1uF
CD11X/220UF16V/D6.3H7

3

Q7
8550,DIP
+5V

+CE71

1 ADJ

R373
20K

APM9435K
D 8
7
D 6
D 5
D

1 ADJ

CON2.54-2
+CE69
TP69
TP68 220UF/10V

U18
1 S
2
3 S
4 S
G

3

2
1

1

J8

89S_3V3

M+

TP80
TP81

TP82
TP83
TP84
TP76
TP72
TP73
TP74
TP75

12

PWM
CLOSE_SW
OPEN_SW
REST_TOUCH

VCC

2

RCA-414

3.3V_MCU

+5V

2
2

2

3

LED
INT
FB
3.3V_MCU
330
MSDA
330
MSCL

1

L65
R284
R285

J9

9 9
8 8
7
6 7
6

2

REMOTE TP7
VFD_STB TP9
VFD_DATA TP11
VFD_CLK TP13
TP14
GND

3

P2
1.0MM-11P

1
2
3
4
5
6
7
8
9
10
11

2
2
2
2

MCLK_IN
LRCK_IN
BCK_IN
DATA1_IN

TRIN

13

上接

SSDA
SSCL
A_MUTE
AL
AR
CECOUT
USB_ON

MCLK_IN
LRCK_IN
BCK_IN
DATA1_IN

L31
FB/600
iPod_5V
iPod_RX
iPod_IN_R
iPod_TX
iPod_IN_L

J4
FB/600/0603

J6
1
2
3
4
5
6
7
8
9
10

33
33

L74
L75
L76
L25

C35 0.01UF

SSDA
SSCL
A_MUTE
AL
AR
CECOUT
USB_ON

0.01UF SPDIF_IN_0

A3.3V

CB10 R48

+CE12

R51
2K

L26

R52
75

CON2.0-5

CB9
0.1uF

VDDI3.3V
R121
10K
R129

COAXIAL_IN

红色

P1
CON2.0-5
5
4
3
2
1

10K

A3.3V

U5 CX1117-ADJ
3 IN OUT1 2
OUT2 4

FB

FB/1K
VDDI3.3V
CB15
0.1uF

TP86

LOUT
GND
SW_IN

L72

L16

J5

5
4
3
2
CD11X/100UF35V/D8H7 1

VCC

3

7
6
5
4
3
2
1

VDDI3.3V
R130

VDDI3.3V
R86
4.7K
R97 470
MSDA
R99 470 MSCL

C131

R116

10K

VADC3.3V
CB12 R85
0.1uF4.7K
L13
FB/1K
L14
FB/1K

33
32
31
30
29
28
27
26
25
24
23

1

J3

VADCN
VADCP
MP2
MP1
MP0
VSSIS
VDDI
SPDIF3
SPDIF2
SPDIF1
SPDIF0

1 ADJ

MUTE
RTCB
VOUTR
VSSA1
VOUTL
VDDA1
VREF
VDDA2
VINR
VSSA2
VINL

U6

12 VDDX
13 XTALIN
14 XTALOUT
15 VSSX
16 RESET
17 MODE0
18 MODE1
19 MODE2
20 SEL_STATIC
21 SLICER_SEL0
22 SLICER_SEL1

C57
NC/10PF

C54
C55
C56

NC/100PF

DATA1_IN
LRCK_IN
BCK_IN
MCLK_IN

NC/470PF
NC/47PF
NC/10PF

L15
VDDI3.3V

1 BCKI
2 WSI
3 DATAI
FB/1K R98 10K
4 LOCK
IC-UDA1355H
5 SPDIFOUT
CB13
6 VDDE
UDA1355H-QFP44
0.1uF
7 VSSE
L17
FB/1K
8 DATAO
L19
FB/1K
9 WSO
L21
FB/1K 10
BCKO
L24
FB/1K 11
CLK_OUT

1000PF
4.7K SWOUT_R
4.7K SWOUT_L

TP15
TP16
TP17
TP18
TP19

10uF/25V

Main Unit -- Decoder Board Circuit Diagram

18-7

1

U6: UDA1355H IC Specification

PINNING
SYMBOL

PIN

PAD (1)

DESCRIPTION

BCKI

1

bpt4mtht5v

bit clock input (master or slave)

WSI

2

bpt4mtht5v

word select input (master or slave)

DATAI

12

15

VDDI

VREF

27

38

VDDE

PLL lock indicator output

5

op4mc

SPDIF output

6

vdde

digital pad supply voltage

VSSE
VADCP VDDA2 CLK_OUT

digital data input

op4mc

VDDE
VSSX

iptht5v

4

SPDIFOUT

VDDX

3

LOCK

BLOCK DIAGRAM

7

vsse

digital pad ground

DATAO

8

ops5c

digital data output

WSO

VDDA1

9

bpt4mtht5v

word select output (master or slave)

VINL
VINR
RESET
RTCB
WSI
DATAI
BCKI
SPDIF0
SPDIF1
SPDIF2
SPDIF3

SLICER_SEL0
SLICER_SEL1
LOCK

14
34
36

bit clock output (master or slave)
clock output; 256fs or 384fs

12

vddco

crystal oscillator and PLL supply voltage

XTALIN

13

apio

crystal oscillator input

XTALOUT

14

apio

crystal oscillator output

VSSX

15

vssco

crystal oscillator and PLL ground

RESET

16

ipthdt5v

reset input

MUTE

MODE0

17

apio

mode selection input 0 for static mode or microcontroller mode (grounded
for I2C-bus)

WSO

MODE1

18

bpts5tht5v

mode selection input 1 for static mode or AO address input and output for
microcontroller mode

MODE2

19

bpts5tht5v

mode selection input 2 for static mode or U_RDY output for microcontroller
mode

20

apio

selection input for static mode, I2C-bus mode or L3-bus mode

SLICER_SEL0

21

bpts5tht5v

SPDIF slicer selection input 0 for static mode and USER bit output for
microcontroller mode

22

bpts5tht5v

SPDIF slicer selection input 1 for static mode and AC3 preamble detect
output for microcontroller mode

23

apio

SPDIF input 0

SPDIF1

24

apio

SPDIF input 1

SPDIF2

25

apio

SPDIF input 2

SPDIF3

26

apio

SPDIF input 3

VDDI

27

vddi

digital core supply voltage

VSSIS

28

vssis

digital core ground

MP0

29

apio

multi-purpose pin 0: frequency select for static mode, not used for
microcontroller mode

MP1

30

iptht5v

multi-purpose pin 1: SFOR1 for static mode, SCL for I2C-bus mode and
L3CLOCK for L3-bus mode

MP2

31

iic400kt5v

multi-purpose pin 2: SFOR0 for static mode, SDA for I2C-bus mode and
L3DATA for L3-bus mode

VADCP

32

vddco

positive ADC reference voltage

VADCN

33

vssco

negative ADC reference voltage

39

CLOCK AND
TIMING

XTAL

ADC

COMB
FILTER

ADC

AUDIO
FEATURE
PROCESSOR

AUDIO
FEATURE
PROCESSOR

DECIMATOR

INTERPOLATOR

NOISE
SHAPER

DAC
DAC

40
42
44

16
43

INPUT
AND
OUTPUT
SELECT

2
3

DATA IN

1

9
8

DATA OUT

10

SLICER

23

bpt4mtht5v
op4mc

SEL_STATIC

6

11

VDDX

11

10

CLK_OUT

SPDIF0

37

BCKO

SLICER_SEL1

XTALIN
XTALOUT

32

13

24

VOUTR

DATAO
BCKO

IEC 60958
ENCODER

IEC 60958
DECODER

25

VOUTL

26

5

SPDIFOUT

21
22
4

UDA1355H

CONTROL
INTERFACE

33

35

28

29

30

31

20

17 18 19

7

41
MGU826

VADCN

VSSIS

VSSA2

MP0

MODE0

MP2
MP1

SEL_STATIC

MODE2

MODE1

VSSE

VSSA1

SYMBOL

PIN

PAD (1)

DESCRIPTION

VINL

34

apio

ADC left channel input

VSSA2

35

vssco

ADC ground

VINR

36

apio

ADC right channel input

VDDA2

37

vddco

ADC supply voltage

VREF

38

apio

reference voltage for ADC and DAC

VDDA1

39

vddco

DAC supply voltage

VOUTL

40

apio

DAC left channel output

VSSA1

41

vssco

DAC ground

VOUTR

apio

DAC right channel output

43

ipthdt5v

test control input

MUTE

18-8

42

RTCB

44

iipthdt5v

DAC mute input

18-8

Main Unit -- Decoder Board Layout Diagram

18-9

18-9

Subwoofer -- AMP/Power Board Circuit Diagram

19-1

19-1

Subwoofer -- AMP/Power Board Circuit Diagram

IC5

TDA8920CJ

19-2

19-2

IC5: TDA8920 IC Specification

Block Diagram
Pining
handbook, full pagewidth V
DDA2

VDDA1

3
IN1
IN1+

SGND1
OSC
MODE

SGND2

IN2+
IN2

10

18

13

23

RELEASE1

9
INPUT
STAGE

8

PWM
MODULATOR

SWITCH1

CONTROL
AND
ENABLE1 HANDSHAKE

mute

11

DRIVER
HIGH

MODE

TEMPERATURE SENSOR
CURRENT PROTECTION

MANAGER

ENABLE2

mute
5

SWITCH2

1

1

negative analog supply voltage for
channel 2

SGND2

2

signal ground channel 2

VDDA2

3

positive analog supply voltage for
channel 2

4

negative audio input for channel 2

OUT1

IN2+

positive audio input for channel 2

MODE

6

mode select input
(standby/mute/operating)

VDDP2

OSC

7

oscillator frequency adjustment or
tracking input

IN1+

8

positive audio input for channel 1

IN1

TDA8920TH

5

9

negative audio input for channel 1

VDDA1

10

positive analog supply voltage for
channel 1

22

INPUT
STAGE

VSSA2
BOOT1

DESCRIPTION

VSSP1

2

4

15

DRIVER
LOW

7
6

14

16

STABI

OSCILLATOR

SYMBOL

VDDP1

PIN

IN2

VDDP2

STABI PROT

PWM
MODULATOR

RELEASE2

CONTROL
AND
HANDSHAKE

DRIVER
HIGH

21

BOOT2

OUT2

DRIVER
LOW

14

21
23

positive power supply voltage for
channel 2

VSSD

24

6

MODE

7

OSC

8

IN1+

OUT1 16

bootstrap capacitor for channel 2

VDDP2

IN2+

9

IN1

negative digital supply voltage

TDA8920TH

PWM output from channel 2

22

5

negative power supply voltage for
channel 2

BOOT2

IN2

handle wafer; must be connected
to pin 24

20

4

decoupling internal stabilizer for
logic supply

19

VDDA2

negative power supply voltage for
channel 1

18

3

VSSP1 17

PWM output from channel 1

17

SGND2

HW 19

bootstrap capacitor for channel 1

16

2

VSSP2 20

positive power supply for
channel 1

15

VSSA2

OUT2 21

time constant capacitor for
protection delay

OUT2

19-3

13

VSSP2

VSSP2

PROT

HW

VSSP1

MBL461

1

BOOT2 22

negative analog supply voltage for
channel 1

STABI

HW

20

12

VSSP1

VSSD

17

VSSA1

OUT1

VSSA2 VSSA1

19

VSSD 24
VDDP2 23

signal ground for channel 1

BOOT1

24

11

VDDP1

12

SGND1

handbook, halfpage

STABI 18

BOOT1 15

10 VDDA1

VDDP1 14

11 SGND1

PROT 13

12 VSSA1
MBL462

(1) Pin 19 should be connected to pin 24 in the application.

Fig.2 Pin configuration.

19-3

Subwoofer -- AMP Power Board Layout Diagram

19-4

19-4

Main Unit -- Exploded View

20-1

20-1

Subwoofer -- Exploded View

For/98version
SUB016

20-2

20-2

Packing Exploded View

ACC12-A
ACC16
Main Unit

ACC8,ACC9,
ACC10,ACC11
ACC15

ACC12-B
ACC1
ACC5
ACC2,ACC3,ACC4
ACC15
ACC12-E

SPKL

ACC12-C

ACC12-F

SUB001

ACC12-G

ACC12-D

SPKR

ACC13

ACC14

20-3

20-3

Revision List
Revision List
Version 1.0
* Initial Release

21-1