LC9.2L LA, 3122 785 18700, 100701 42PFL5604D/78 LC9.2LLA

User Manual: 42PFL5604D/78

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Color Television

Chassis

LC9.2L
LA

18610_000_090602.eps
090604

Contents

Page

Contents

1.
2.
3.
4.
5.
6.
7.
8.
9.

2
2
5
9
21
36
41
43

10. Circuit Diagrams and PWB Layouts
SSB: DC/DC
SSB: Tuner & Analog demodulator
SSB: Class-D & Muting
SSB: MTK Power
SSB: GDDR3
SSB: Flash & EJTAG
SSB: Display interface - LVDS
SSB: Ambilight
SSB: HDMI & MUX
SSB: Digital I/O - Ethernet (provisional)
SSB: Analog I/O - YPbPr
SSB: Analog I/O - Cinch
SSB: Side - A/V & USB
SSB: VGA
SSB: BDS iTV
SSB: SRP List Explanation
SSB: SRP List

Revision List
Technical Specifications and Connections
Precautions, Notes, and Abbreviation List
Mechanical Instructions
Service Modes, Error Codes, and Fault Finding
Alignments
Circuit Descriptions
IC Data Sheets
Block Diagrams
Wiring Diagram 32" (P & S)
Wiring Diagram 42" (P & S)
Wiring Diagram 42"(Frame)
Wiring Diagram 47"(P & S)
Wiring Diagram 52"(Frame)
Block Diagram Video
Block Diagram Audio
Block Diagram Control & Clock Signals
Block Diagram I2C
Supply Lines Overview

47
48
49
50
51
52
53
54
55
56

Page
Drawing
(B01) 57
(B02A) 58
(B03) 59
(B04A) 60
(B04B) 61
(B04C) 62
(B04D) 63
(B04E) 64
(B05) 65
(B06A) 66
(B06B) 67
(B06C) 68
(B06D) 69
(B06E) 70
(B07) 71
72
73

PWB
74
74
74
74
74
74
74
74
74
74
74
74
74
74
74

©
Copyright 2009 Koninklijke Philips Electronics N.V.
All rights reserved. No part of this publication may be reproduced, stored in a
retrieval system or transmitted, in any form or by any means, electronic, mechanical,
photocopying, or otherwise without the prior permission of Philips.

Published by JA/WS 0968 BU TV Consumer Care

Printed in the Netherlands

Subject to modification

EN 3122 785 18700
2010-Jul-01

EN 2

1.

LC9.2L LA

Revision List

1. Revision List
Manual xxxx xxx xxxx.0
• First release.

2. Technical Specifications and Connections
Index of this chapter:
2.1 Technical Specifications
2.2 Directions for Use
2.3 Connections
2.4 Chassis Overview
Notes:
• Figures can deviate due to the different set executions.
• Specifications are indicative (subject to change).

2.1

Technical Specifications
For on-line product support please use the links in Table 2-1.
Here is product information available, as well as getting started,
user manuals, frequently asked questions and software &
drivers.
Table 2-1 Described Model numbers
CTN

2.2

Styling

Published in:

32PFL5604D/78 P & S

3122 785 18700

42PFL5604D/78 P & S

3122 785 18700

42PFL7404D/78 Frame

3122 785 18700

47PFL5604D/78 P & S

3122 785 18700

52PFL7404D/78 Frame

3122 785 18700

Directions for Use
You can download this information from the following websites:
http://www.philips.com/support
http://www.p4c.philips.com

2010-Jul-01

Technical Specifications and Connections
2.3

LC9.2L LA

2.

EN 3

Connections

Rear connectors

Side connectors

8

1
2
3
4

9
10
11

5
6
7

12

14

13

18700_001_090828.eps
090828

Figure 2-1 Connection overview
Note: The following connector color abbreviations are used
(according to DIN/IEC 757): Bk= Black, Bu= Blue, Gn= Green,
Gy= Grey, Rd= Red, Wh= White, Ye= Yellow.

5 - USB2.0

1

2.3.1

Side Connectors
1 - Cinch: Audio - In
Rd - Audio R
Wh - Audio L

2

3

4

10000_022_090121.eps
090121

0.5 VRMS / 10 kΩ
0.5 VRMS / 10 kΩ

2 - Cinch: Video CVBS - In
Ye - Video CVBS
1 VPP / 75 Ω
3 - S-Video (Hosiden): Video Y/C - In
1 - Ground Y
Gnd
2 - Ground C
Gnd
3 - Video Y
1 VPP / 75 Ω
4 - Video C
0.3 VPP / 75 Ω
4 - Head phone (Output)
Bk - Head phone
32 - 600 Ω / 10 mW

jq
jq

jq

H
H
j
j

ot

Figure 2-2 USB (type A)
1
2
3
4

- +5V
- Data (-)
- Data (+)
- Ground

Gnd

k
jk
jk
H

6 - HDMI: Digital Video, Digital Audio - In
(see HDMI 1 & 2)
7 - Service Connector (UART)
1 - Ground
Gnd
2 - UART_TX
Transmit
3 - UART_RX
Receive

H
k
j
2010-Jul-01

EN 4
2.3.2

2.

LC9.2L LA

Technical Specifications and Connections
Wh - Audio L
Rd - Audio R

Rear Connectors
8 - Aerial - In (Cable and Air)
- - F-type
Coax, 75 Ω
9 - Mini Jack: Audio - In
Wh - Audio L
0.5 VRMS / 10 kΩ
Rd - Audio R
0.5 VRMS / 10 kΩ

D

jo
jo

jq
jq

0.5 VRMS / 10 kohm
0.5 VRMS / 10 kohm

13 - CVI-1 & 2: Cinch: Video YPbPr - In, Audio - In
Gn - Video Y
1 VPP / 75 Ω
Bu - Video Pb
0.7 VPP / 75 Ω
Rd - Video Pr
0.7 VPP / 75 Ω
Wh - Audio - L
0.5 VRMS / 10 kΩ
Rd - Audio - R
0.5 VRMS / 10 kΩ

jq
jq
jq
jq
jq

10 - VGA: Video RGB - In
14 - HDMI 1, 2, and 3: Digital Video, Digital Audio - In
1

5
10

6

19
18

15

11

10000_002_090121.eps
090127

E_06532_017.eps
250505

Figure 2-3 VGA Connector
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15

- Video Red
- Video Green
- Video Blue
- n.c.
- Ground
- Ground Red
- Ground Green
- Ground Blue
- +5VDC
- Ground Sync
- n.c.
- DDC_SDA
- H-sync
- V-sync
- DDC_SCL

j
j
j

Gnd
Gnd
Gnd
Gnd
+5 V
Gnd

H
H
H
H
j
H

DDC data
0-5V
0-5V
DDC clock

j
j
j
j

12 - Cinch: Video CVBS - In, Audio - In
Ye - Video CVBS
1 VPP / 75 ohm

2.4

Figure 2-4 HDMI (type A) connector

0.7 VPP / 75 Ω
0.7 VPP / 75 Ω
0.7 VPP / 75 Ω

11 - Cinch: S/PDIF - Out
Bk - Coaxial
0.4 - 0.6VPP / 75 ohm

kq

jq

Chassis Overview
Refer to chapter 9. Block Diagrams for PWB/CBA locations.

2010-Jul-01

1
2

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

- D2+
- Shield
- D2- D1+
- Shield
- D1- D0+
- Shield
- D0- CLK+
- Shield
- CLK- Easylink/CEC
- n.c.
- DDC_SCL
- DDC_SDA
- Ground
- +5V
- HPD
- Ground

Data channel
Gnd
Data channel
Data channel
Gnd
Data channel
Data channel
Gnd
Data channel
Data channel
Gnd
Data channel
Control channel

j
H
j
j
H
j
j
H
j
j
H
j
jk

DDC clock
DDC data
Gnd

j
jk
H
j
j
H

Hot Plug Detect
Gnd

Precautions, Notes, and Abbreviation List

LC9.2L LA

3.

EN 5

3. Precautions, Notes, and Abbreviation List
•

Index of this chapter:
3.1 Safety Instructions
3.2 Warnings
3.3 Notes
3.4 Abbreviation List

3.1

Safety Instructions

3.3.2

Safety regulations require that after a repair, the set must be
returned in its original condition. Pay in particular attention to
the following points:
• Route the wire trees correctly and fix them with the
mounted cable clamps.
• Check the insulation of the Mains/AC Power lead for
external damage.
• Check the strain relief of the Mains/AC Power cord for
proper function.
• Check the electrical DC resistance between the Mains/AC
Power plug and the secondary side (only for sets that have
a Mains/AC Power isolated power supply):
1. Unplug the Mains/AC Power cord and connect a wire
between the two pins of the Mains/AC Power plug.
2. Set the Mains/AC Power switch to the “on” position
(keep the Mains/AC Power cord unplugged!).
3. Measure the resistance value between the pins of the
Mains/AC Power plug and the metal shielding of the
tuner or the aerial connection on the set. The reading
should be between 4.5 MΩ and 12 MΩ.
4. Switch “off” the set, and remove the wire between the
two pins of the Mains/AC Power plug.
• Check the cabinet for defects, to prevent touching of any
inner parts by the customer.

•
•
•
•
•

3.3.3

All resistor values are in ohms, and the value multiplier is
often used to indicate the decimal point location (e.g. 2K2
indicates 2.2 kΩ).
Resistor values with no multiplier may be indicated with
either an “E” or an “R” (e.g. 220E or 220R indicates 220 Ω).
All capacitor values are given in micro-farads (μ = × 10-6),
nano-farads (n = × 10-9), or pico-farads (p = × 10-12).
Capacitor values may also use the value multiplier as the
decimal point indication (e.g. 2p2 indicates 2.2 pF).
An “asterisk” (*) indicates component usage varies. Refer
to the diversity tables for the correct values.
The correct component values are listed on the Philips
Spare Parts Web Portal.

Spare Parts
For the latest spare part overview, consult your Philips Spare
Part web portal.

3.3.4

BGA (Ball Grid Array) ICs
Introduction
For more information on how to handle BGA devices, visit this
URL: http://www.atyourservice-magazine.com. Select
“Magazine”, then go to “Repair downloads”. Here you will find
Information on how to deal with BGA-ICs.
BGA Temperature Profiles
For BGA-ICs, you must use the correct temperature-profile.
Where applicable and available, this profile is added to the IC
Data Sheet information section in this manual.

3.3.5

3.2

Schematic Notes
•

Safety regulations require the following during a repair:
• Connect the set to the Mains/AC Power via an isolation
transformer (> 800 VA).
• Replace safety components, indicated by the symbol h,
only by components identical to the original ones. Any
other component substitution (other than original type) may
increase risk of fire or electrical shock hazard.

Where necessary, measure the waveforms and voltages
with (D) and without (E) aerial signal. Measure the
voltages in the power supply section both in normal
operation (G) and in stand-by (F). These values are
indicated by means of the appropriate symbols.

Lead-free Soldering

Warnings
•

•
•
•

3.3

Notes

3.3.1

General
•

Due to lead-free technology some rules have to be respected
by the workshop during a repair:
• Use only lead-free soldering tin. If lead-free solder paste is
required, please contact the manufacturer of your soldering
equipment. In general, use of solder paste within
workshops should be avoided because paste is not easy to
store and to handle.
• Use only adequate solder tools applicable for lead-free
soldering tin. The solder tool must be able:
– To reach a solder-tip temperature of at least 400°C.
– To stabilize the adjusted temperature at the solder-tip.
– To exchange solder-tips for different applications.
• Adjust your solder tool so that a temperature of around
360°C - 380°C is reached and stabilized at the solder joint.
Heating time of the solder-joint should not exceed ~ 4 sec.
Avoid temperatures above 400°C, otherwise wear-out of
tips will increase drastically and flux-fluid will be destroyed.
To avoid wear-out of tips, switch “off” unused equipment or
reduce heat.
• Mix of lead-free soldering tin/parts with leaded soldering
tin/parts is possible but PHILIPS recommends strongly to
avoid mixed regimes. If this cannot be avoided, carefully
clear the solder-joint from old tin and re-solder with new tin.

All ICs and many other semiconductors are susceptible to
electrostatic discharges (ESD w). Careless handling
during repair can reduce life drastically. Make sure that,
during repair, you are connected with the same potential as
the mass of the set by a wristband with resistance. Keep
components and tools also at this same potential.
Be careful during measurements in the high voltage
section.
Never replace modules or other components while the unit
is switched “on”.
When you align the set, use plastic rather than metal tools.
This will prevent any short circuits and the danger of a
circuit becoming unstable.

Measure the voltages and waveforms with regard to the
chassis (= tuner) ground (H), or hot ground (I), depending
on the tested area of circuitry. The voltages and waveforms
shown in the diagrams are indicative. Measure them in the
Service Default Mode with a colour bar signal and stereo
sound (L: 3 kHz, R: 1 kHz unless stated otherwise) and
picture carrier at 475.25 MHz for PAL, or 61.25 MHz for
NTSC (channel 3).

3.3.6

Alternative BOM identification
It should be noted that on the European Service website,
“Alternative BOM” is referred to as “Design variant”.
2010-Jul-01

EN 6

3.

LC9.2L LA

Precautions, Notes, and Abbreviation List

The third digit in the serial number (example:
AG2B0335000001) indicates the number of the alternative
B.O.M. (Bill Of Materials) that has been used for producing the
specific TV set. In general, it is possible that the same TV
model on the market is produced with e.g. two different types
of displays, coming from two different suppliers. This will then
result in sets which have the same CTN (Commercial Type
Number; e.g. 28PW9515/12) but which have a different B.O.M.
number.
By looking at the third digit of the serial number, one can
identify which B.O.M. is used for the TV set he is working with.
If the third digit of the serial number contains the number “1”
(example: AG1B033500001), then the TV set has been
manufactured according to B.O.M. number 1. If the third digit is
a “2” (example: AG2B0335000001), then the set has been
produced according to B.O.M. no. 2. This is important for
ordering the correct spare parts!
For the third digit, the numbers 1...9 and the characters A...Z
can be used, so in total: 9 plus 26= 35 different B.O.M.s can be
indicated by the third digit of the serial number.
Identification: The bottom line of a type plate gives a 14-digit
serial number. Digits 1 and 2 refer to the production centre (e.g.
AG is Bruges), digit 3 refers to the B.O.M. code, digit 4 refers
to the Service version change code, digits 5 and 6 refer to the
production year, and digits 7 and 8 refer to production week (in
example below it is 2006 week 17). The 6 last digits contain the
serial number.

3.4

Abbreviation List
0/6/12

AARA

ACI

ADC
AFC

AGC

AM
AP
AR
ASF

ATSC
MODEL

: 32PF9968/10

PROD.NO: AG 1A0617 000001

MADE IN BELGIUM
220-240V ~ 50/60Hz
128W
VHF+S+H+UHF

S

BJ3.0E LA

10000_024_090121.eps
100105

Figure 3-1 Serial number (example)
3.3.7

Board Level Repair (BLR) or Component Level Repair
(CLR)
If a board is defective, consult your repair procedure to decide
if the board has to be exchanged or if it should be repaired on
component level.
If your repair procedure says the board should be exchanged
completely, do not solder on the defective board. Otherwise, it
cannot be returned to the O.E.M. supplier for back charging!

3.3.8

Practical Service Precautions
•

•

ATV
Auto TV

It makes sense to avoid exposure to electrical shock.
While some sources are expected to have a possible
dangerous impact, others of quite high potential are of
limited current and are sometimes held in less regard.
Always respect voltages. While some may not be
dangerous in themselves, they can cause unexpected
reactions that are best avoided. Before reaching into a
powered TV set, it is best to test the high voltage insulation.
It is easy to do, and is a good service precaution.

AV
AVC
AVIP
B/G
BDS
BLR
BTSC

B-TXT
C
CEC

CL
CLR
ComPair
CP
CSM
CTI

CVBS
DAC
DBE
DCM

DDC
D/K
DFI
2010-Jul-01

SCART switch control signal on A/V
board. 0 = loop through (AUX to TV),
6 = play 16 : 9 format, 12 = play 4 : 3
format
Automatic Aspect Ratio Adaptation:
algorithm that adapts aspect ratio to
remove horizontal black bars; keeps
the original aspect ratio
Automatic Channel Installation:
algorithm that installs TV channels
directly from a cable network by
means of a predefined TXT page
Analogue to Digital Converter
Automatic Frequency Control: control
signal used to tune to the correct
frequency
Automatic Gain Control: algorithm that
controls the video input of the feature
box
Amplitude Modulation
Asia Pacific
Aspect Ratio: 4 by 3 or 16 by 9
Auto Screen Fit: algorithm that adapts
aspect ratio to remove horizontal black
bars without discarding video
information
Advanced Television Systems
Committee, the digital TV standard in
the USA
See Auto TV
A hardware and software control
system that measures picture content,
and adapts image parameters in a
dynamic way
External Audio Video
Audio Video Controller
Audio Video Input Processor
Monochrome TV system. Sound
carrier distance is 5.5 MHz
Business Display Solutions (iTV)
Board-Level Repair
Broadcast Television Standard
Committee. Multiplex FM stereo sound
system, originating from the USA and
used e.g. in LATAM and AP-NTSC
countries
Blue TeleteXT
Centre channel (audio)
Consumer Electronics Control bus:
remote control bus on HDMI
connections
Constant Level: audio output to
connect with an external amplifier
Component Level Repair
Computer aided rePair
Connected Planet / Copy Protection
Customer Service Mode
Color Transient Improvement:
manipulates steepness of chroma
transients
Composite Video Blanking and
Synchronization
Digital to Analogue Converter
Dynamic Bass Enhancement: extra
low frequency amplification
Data Communication Module. Also
referred to as System Card or
Smartcard (for iTV).
See “E-DDC”
Monochrome TV system. Sound
carrier distance is 6.5 MHz
Dynamic Frame Insertion

Precautions, Notes, and Abbreviation List
DFU
DMR
DMSD
DNM
DNR
DRAM
DRM
DSP
DST

DTCP

DVB-C
DVB-T
DVD
DVI(-d)
E-DDC

EDID
EEPROM
EMI
EPG
EPLD
EU
EXT
FDS
FDW
FLASH
FM
FPGA
FTV
Gb/s
G-TXT
H
HD
HDD
HDCP

HDMI
HP
I
I2 C
I2 D
I2 S
IF
IR
IRQ
ITU-656

Directions For Use: owner's manual
Digital Media Reader: card reader
Digital Multi Standard Decoding
Digital Natural Motion
Digital Noise Reduction: noise
reduction feature of the set
Dynamic RAM
Digital Rights Management
Digital Signal Processing
Dealer Service Tool: special remote
control designed for service
technicians
Digital Transmission Content
Protection; A protocol for protecting
digital audio/video content that is
traversing a high speed serial bus,
such as IEEE-1394
Digital Video Broadcast - Cable
Digital Video Broadcast - Terrestrial
Digital Versatile Disc
Digital Visual Interface (d= digital only)
Enhanced Display Data Channel
(VESA standard for communication
channel and display). Using E-DDC,
the video source can read the EDID
information form the display.
Extended Display Identification Data
(VESA standard)
Electrically Erasable and
Programmable Read Only Memory
Electro Magnetic Interference
Electronic Program Guide
Erasable Programmable Logic Device
Europe
EXTernal (source), entering the set by
SCART or by cinches (jacks)
Full Dual Screen (same as FDW)
Full Dual Window (same as FDS)
FLASH memory
Field Memory or Frequency
Modulation
Field-Programmable Gate Array
Flat TeleVision
Giga bits per second
Green TeleteXT
H_sync to the module
High Definition
Hard Disk Drive
High-bandwidth Digital Content
Protection: A “key” encoded into the
HDMI/DVI signal that prevents video
data piracy. If a source is HDCP coded
and connected via HDMI/DVI without
the proper HDCP decoding, the
picture is put into a “snow vision” mode
or changed to a low resolution. For
normal content distribution the source
and the display device must be
enabled for HDCP “software key”
decoding.
High Definition Multimedia Interface
HeadPhone
Monochrome TV system. Sound
carrier distance is 6.0 MHz
Inter IC bus
Inter IC Data bus
Inter IC Sound bus
Intermediate Frequency
Infra Red
Interrupt Request
The ITU Radio communication Sector
(ITU-R) is a standards body
subcommittee of the International
Telecommunication Union relating to
radio communication. ITU-656 (a.k.a.

ITV
LS

LATAM
LCD
LED
L/L'

LPL
LS
LVDS
Mbps
M/N
MHEG

MIPS

MOP
MOSFET
MPEG
MPIF
MUTE
MTV
NC
NICAM

NTC
NTSC

NVM
O/C
OSD
OAD

OTC
P50
PAL

LC9.2L LA

3.

EN 7

SDI), is a digitized video format used
for broadcast grade video.
Uncompressed digital component or
digital composite signals can be used.
The SDI signal is self-synchronizing,
uses 8 bit or 10 bit data words, and has
a maximum data rate of 270 Mbit/s,
with a minimum bandwidth of 135
MHz.
Institutional TeleVision; TV sets for
hotels, hospitals etc.
Last Status; The settings last chosen
by the customer and read and stored
in RAM or in the NVM. They are called
at start-up of the set to configure it
according to the customer's
preferences
Latin America
Liquid Crystal Display
Light Emitting Diode
Monochrome TV system. Sound
carrier distance is 6.5 MHz. L' is Band
I, L is all bands except for Band I
LG.Philips LCD (supplier)
Loudspeaker
Low Voltage Differential Signalling
Mega bits per second
Monochrome TV system. Sound
carrier distance is 4.5 MHz
Part of a set of international standards
related to the presentation of
multimedia information, standardised
by the Multimedia and Hypermedia
Experts Group. It is commonly used as
a language to describe interactive
television services
Microprocessor without Interlocked
Pipeline-Stages; A RISC-based
microprocessor
Matrix Output Processor
Metal Oxide Silicon Field Effect
Transistor, switching device
Motion Pictures Experts Group
Multi Platform InterFace
MUTE Line
Mainstream TV: TV-mode with
Consumer TV features enabled (iTV)
Not Connected
Near Instantaneous Compounded
Audio Multiplexing. This is a digital
sound system, mainly used in Europe.
Negative Temperature Coefficient,
non-linear resistor
National Television Standard
Committee. Color system mainly used
in North America and Japan. Color
carrier NTSC M/N= 3.579545 MHz,
NTSC 4.43= 4.433619 MHz (this is a
VCR norm, it is not transmitted off-air)
Non-Volatile Memory: IC containing
TV related data such as alignments
Open Circuit
On Screen Display
Over the Air Download. Method of
software upgrade via RF transmission.
Upgrade software is broadcasted in
TS with TV channels.
On screen display Teletext and
Control; also called Artistic (SAA5800)
Project 50: communication protocol
between TV and peripherals
Phase Alternating Line. Color system
mainly used in West Europe (color
carrier= 4.433619 MHz) and South
America (color carrier PAL M=
2010-Jul-01

EN 8

3.

PCB
PCM
PDP
PFC
PIP
PLL

POD

POR
PSDL
PSL
PSLS

PTC
PWB
PWM
QRC
QTNR
QVCP
RAM
RGB

RC
RC5 / RC6
RESET
ROM
RSDS
R-TXT
SAM
S/C
SCART

SCL
SCL-F
SD
SDA
SDA-F
SDI
SDRAM
SECAM

SIF
SMPS
SoC
SOG
SOPS
SPI

S/PDIF
SRAM
SRP
SSB
SSC
STB
STBY
SVGA
2010-Jul-01

LC9.2L LA

Precautions, Notes, and Abbreviation List

3.575612 MHz and PAL N= 3.582056
MHz)
Printed Circuit Board (same as “PWB”)
Pulse Code Modulation
Plasma Display Panel
Power Factor Corrector (or Preconditioner)
Picture In Picture
Phase Locked Loop. Used for e.g.
FST tuning systems. The customer
can give directly the desired frequency
Point Of Deployment: a removable
CAM module, implementing the CA
system for a host (e.g. a TV-set)
Power On Reset, signal to reset the uP
Power Supply for Direct view LED
backlight with 2D-dimming
Power Supply with integrated LED
drivers
Power Supply with integrated LED
drivers with added Scanning
functionality
Positive Temperature Coefficient,
non-linear resistor
Printed Wiring Board (same as “PCB”)
Pulse Width Modulation
Quasi Resonant Converter
Quality Temporal Noise Reduction
Quality Video Composition Processor
Random Access Memory
Red, Green, and Blue. The primary
color signals for TV. By mixing levels
of R, G, and B, all colors (Y/C) are
reproduced.
Remote Control
Signal protocol from the remote
control receiver
RESET signal
Read Only Memory
Reduced Swing Differential Signalling
data interface
Red TeleteXT
Service Alignment Mode
Short Circuit
Syndicat des Constructeurs
d'Appareils Radiorécepteurs et
Téléviseurs
Serial Clock I2C
CLock Signal on Fast I2C bus
Standard Definition
Serial Data I2C
DAta Signal on Fast I2C bus
Serial Digital Interface, see “ITU-656”
Synchronous DRAM
SEequence Couleur Avec Mémoire.
Color system mainly used in France
and East Europe. Color carriers=
4.406250 MHz and 4.250000 MHz
Sound Intermediate Frequency
Switched Mode Power Supply
System on Chip
Sync On Green
Self Oscillating Power Supply
Serial Peripheral Interface bus; a 4wire synchronous serial data link
standard
Sony Philips Digital InterFace
Static RAM
Service Reference Protocol
Small Signal Board
Spread Spectrum Clocking, used to
reduce the effects of EMI
Set Top Box
STand-BY
800 × 600 (4:3)

SVHS
SW
SWAN
SXGA
TFT
THD
TMDS
TS
TXT
TXT-DW
UI
uP
UXGA
V
VESA
VGA
VL
VSB
WYSIWYR

WXGA
XTAL
XGA
Y
Y/C
YPbPr

YUV

Super Video Home System
Software
Spatial temporal Weighted Averaging
Noise reduction
1280 × 1024
Thin Film Transistor
Total Harmonic Distortion
Transmission Minimized Differential
Signalling
Transport Stream
TeleteXT
Dual Window with TeleteXT
User Interface
Microprocessor
1600 × 1200 (4:3)
V-sync to the module
Video Electronics Standards
Association
640 × 480 (4:3)
Variable Level out: processed audio
output toward external amplifier
Vestigial Side Band; modulation
method
What You See Is What You Record:
record selection that follows main
picture and sound
1280 × 768 (15:9)
Quartz crystal
1024 × 768 (4:3)
Luminance signal
Luminance (Y) and Chrominance (C)
signal
Component video. Luminance and
scaled color difference signals (B-Y
and R-Y)
Component video

Mechanical Instructions

LC9.2L LA

4.

EN 9

4. Mechanical Instructions
Index of this chapter:
4.1 Cable Dressing
4.1.1 32PFL5604D/78
4.1.2 42PFL5604D/78
4.1.3 42PFL7404D/78
4.1.4 47PFL5604D/78
4.1.5 52PFL7404D/78
4.2 Service Positions
4.3 Assy/Panel Removal
4.4 Set Re-assembly

4.1

Cable Dressing

4.1.1

32PFL5604D/78

Notes:
• Figures below can deviate slightly from the actual situation,
due to the different set executions.

18700_101_090824.eps
090824

Figure 4-1 General overview 32PFL5604D/78

2010-Jul-01

EN 10

4.

LC9.2L LA

Mechanical Instructions

1. Inverter cable route
at bottom with foam

2. Speaker cable reroute & taping

Ensure that wiretree does not
touch backcover – to avoid rattle.

18700_102_090824.eps
090824

Figure 4-2 PSU section 32PFL5604D/78
2010-Jul-01

Mechanical Instructions

LC9.2L LA

4.

EN 11

3.
Speaker
saddle
location shift downward

18700_103_090824.eps
090824

Figure 4-3 SSB section 32PFL5604D/78

2010-Jul-01

EN 12
4.1.2

4.

LC9.2L LA

Mechanical Instructions

42PFL5604D/78

18700_111_090824.eps
090824

Figure 4-4 General overview 42PFL5604D/78

18700_114_090824.eps
090824

Figure 4-5 Light leakage taping 42PFL5604D/78
2010-Jul-01

Mechanical Instructions

LC9.2L LA

4.

EN 13

Keyboard
Interference solution.
Dress and
tape
HV
cable
&
Keyboard
cable
at
least 2cm
apart.

18700_112_090824.eps
090824

Figure 4-6 PSU section 42PFL5604D/78

Dress and
tape
HV
cable
starting
from this
end.

18700_113_090824.eps
090824

Figure 4-7 SSB section 42PFL5604D/78
2010-Jul-01

EN 14
4.1.3

4.

LC9.2L LA

Mechanical Instructions

42PFL7404D/78

SYMBOL
- Cable hook
2X foam used for IR and side control cable
dressing. Insert the foam between panel slot.

QTY
Tape

11

Saddle (S)

1

Saddle (M)

33

18700_121_090824.eps
090824

Figure 4-8 General overview 42PFL7404D/78

Reference photo (from LC09M Analog) for indication of tape location.
18700_124_090824.eps
090824

Figure 4-9 Light leakage taping 42PFL7404D/78
2010-Jul-01

Mechanical Instructions
4.1.4

LC9.2L LA

4.

EN 15

47PFL5604D/78

18700_131_090824.eps
090824

Figure 4-10 General overview 47PFL5604D/78

18700_134_090824.eps
090824

Figure 4-11 Light leakage taping 42PFL7404D/78

2010-Jul-01

EN 16

4.

LC9.2L LA

Mechanical Instructions

Keyboard
Interference solution.
Dress and tape
HV cable
&
Keyboard cable
at least 2cm
apart.

18700_132_090824.eps
090824

Figure 4-12 PSU section 47PFL5604D/78

Dress and
tape
HV
cable
starting
from this
end.

18700_133_090824.eps
090824

Figure 4-13 SSB section 47PFL5604D/78
2010-Jul-01

Mechanical Instructions
4.1.5

LC9.2L LA

4.

EN 17

52PFL7404D/78

SYMBOL

QTY
Tape

18

2X saddle used for IR and side control cable
dressing. Dress as shown in photo.

Saddle (S)

2

Divison, MMMM dd, yyyy, Reference

Saddle (M)

34

18700_141_090824.eps
090824

Figure 4-14 General overview 52PFL7404D/78

2010-Jul-01

EN 18

4.

LC9.2L LA

Mechanical Instructions

18700_142_090824.eps
090824

Figure 4-15 PSU section 52PFL7404D/78

LVDS short-end
at this location.

18700_143_090824.eps
090824

Figure 4-16 SSB section 52PFL7404D/78
2010-Jul-01

Mechanical Instructions
4.2

4.2.1

LC9.2L LA

Service Positions

4.3

Assy/Panel Removal

For easy servicing of this set, there are a few possibilities
created:
• The buffers from the packaging.
• Foam bars (created for Service).

4.3.1

Rear Cover

EN 19

Warning: Disconnect the mains power cord before you remove
the rear cover.
Note: it is not necessary to remove the stand while removing
the rear cover.
1. Remove all screws of the rear cover.
2. Lift the rear cover from the TV. Make sure that wires and
flat coils are not damaged while lifting the rear cover from
the set.

Foam Bars

1
4.3.2

1

4.

Speakers
Each speaker unit is mounted with two screws. If necessary, a
sticker on the unit indicates if it is the right (“R”) or left (“L”) box,
seen from the backside of the set, and sometimes an arrow
points to the bottom of the set.
When defective, replace the whole unit.

Required for sets
42"

4.3.3

Subwoofer (if present)
Remove the screws and take out the unit. Be careful to use the
original screw and washer when re-assembling.
When defective, replace the whole unit.

4.3.4

1. Unplug all connectors.
2. Remove the fixation screws.
3. Take the board out.
When defective, replace the whole unit.

E_06532_018.eps
171106

Figure 4-17 Foam bars
The foam bars (order code 3122 785 90580 for two pieces) can
be used for all types and sizes of Flat TVs. See Figure 4-17 for
details. Sets with a display of 42" and larger, require four foam
bars [1]. Ensure that the foam bars are always supporting the
cabinet and never only the display.
Caution: Failure to follow these guidelines can seriously
damage the display!
By laying the TV face down on the (ESD protective) foam bars,
a stable situation is created to perform measurements and
alignments. By placing a mirror under the TV, you can monitor
the screen.

IR & LED Board

4.3.5

Key Board Control Panel
4. Remove the fixation screws.
5. Unplug the key board connector.
6. Take the unit out.
When defective, replace the whole unit.

4.3.6

Main Supply Panel
1. Unplug all connectors.
2. Remove the fixation screws.
3. Take the board out.
When defective, replace the whole unit.

4.3.7

Small Signal Board (SSB)
Caution: It is mandatory to remount screws at their original
position during re-assembly. Failure to do so may result in
damaging the SSB.
1. Unplug all connectors. Be careful with the fragile LVDS
connector(s)!
2. Remove all screws that secure the board.
3. Take the SSB out of the set, together with the side cover.
4. To remove the side cover, push the clamp with e.g. a
screwdriver in the middle of the cover and pull the cover
sidewards from the SSB.

2010-Jul-01

EN 20
4.3.8

4.

LC9.2L LA

Mechanical Instructions
1.
2.
3.
4.
5.
6.
7.

LCD Panel
Refer to Figure 4-18 for details. As every screen size has a
(slightly) different mechanical construction (some have the
boards directly mounted on the LCD display, others use
brackets), we only describe one model. Disassembly method of
other LCD panels is similar to the one described below (see
also cable dressing pictures for more details).

Unplug all connectors.
Remove all boards as earlier described.
Remove the speakers as earlier described.
Remove the stand [1].
Remove all subframes from the LCD panel (e.g. [2]).
Remove the brackets [3] that secure the LCD Panel.
The LCD panel can now be lifted from the front cabinet.

3

3

3
3
2

2
1

18440_103_090223.eps
090709

Figure 4-18 LCD Panel removal (example model)

4.4

Set Re-assembly
To re-assemble the whole set, execute all processes in reverse
order.
Notes:
• While re-assembling, make sure that all cables are placed
and connected in their original position. See 4.1 Cable
Dressing.
• Pay special attention not to damage the EMC foams on the
SSB shields. Ensure that EMC foams are mounted
correctly.

2010-Jul-01

Service Modes, Error Codes, and Fault Finding

LC9.2L LA

5.

EN 21

5. Service Modes, Error Codes, and Fault Finding
Index of this chapter:
5.1 Test Points
5.2 Service Modes
5.3 Service Tools
5.4 Error Codes
5.5 The Blinking LED Procedure
5.6 Fault Finding and Repair Tips
5.7 Software Upgrading

5.1

Test Points
In the chassis schematics and layout overviews, the test points
are mentioned. In the schematics, test points are indicated with
“Fxxx” or “Ixxx”, in the layout overviews with a “half-moon” sign.
As most signals are digital, it will be difficult to measure
waveforms with a standard oscilloscope. Several key ICs are
capable of generating test patterns, which can be controlled via
ComPair. In this way it is possible to determine which part is
defective.

5.2

5.2.1

Service Default Mode (SDM)
Purpose
Set the TV in SDM mode in order to be able to:
• Create a pre-defined setting for measurements to be
made.
• Override software protections.
• Start the blinking LED procedure.
• Read the error buffer.
• Check the life timer.
Specifications
Table 5-1 SDM default settings
Region

Freq. (MHz)

Default syst.

Europe (except France),
AP-PAL/-Multi

475.25

PAL B/G

France
NAFTA, AP-NTSC

Perform measurements under the following conditions:
• Service Default Mode.
• Video: Color bar signal.
• Audio: 3 kHz left, 1 kHz right.

•

Service Modes

•

The Service Mode feature is split into four parts:
• Service Default Mode (SDM).
• Service Alignment Mode (SAM).
• Customer Service Mode (CSM).
• Computer Aided Repair Mode (ComPair).
SDM and SAM offer features, which can be used by the Service
engineer to repair/align a TV set. Some features are:
• A pre-defined situation to ensure measurements can be
made under uniform conditions (SDM).
• Activates the blinking LED procedure for error identification
when no picture is available (SDM).
• The possibility to overrule software protections when SDM
is entered via the Service pins.
• Make alignments (e.g. White Tone), (de)select options,
enter options codes, reset the error buffer (SAM).
• Display information (“SDM” or “SAM” indication in upper
right corner of screen, error buffer, software version,
operating hours, options and option codes, sub menus).
The CSM is a Service Mode that can be enabled by the
consumer. The CSM displays diagnosis information, which the
customer can forward to the dealer or call centre. In CSM
mode, “CSM”, is displayed in the top right corner of the screen.
The information provided in CSM and the purpose of CSM is to:
• Increase the home repair hit rate.
• Decrease the number of nuisance calls.
• Solved customers' problem without home visit.
ComPair Mode is used for communication between a computer
and a TV on I2C /UART level and can be used by a Service
engineer to quickly diagnose the TV set by reading out error
codes, read and write in NVMs, communicate with ICs and the
uP (PWM, registers, etc.), and by making use of a fault finding
database. It will also be possible to up and download the
software of the TV set via I2C with help of ComPair. To do this,
ComPair has to be connected to the TV set via the ComPair
connector, which will be accessible through the rear of the set
(without removing the rear cover).

LATAM

SECAM L
61.25 (channel 3) NTSC M
PAL M

Set linear video and audio settings to 50%, but volume to
25%. Stored user settings are not affected.
All service-unfriendly modes (if present) are disabled, since
they interfere with diagnosing/repairing a set. These
service unfriendly modes are:
– (Sleep) timer.
– Blue mute/Wall paper.
– Auto switch “off” (when there is no “ident” signal).
– Hotel or hospital mode.
– Child lock or parental lock (manual or via V-chip).
– Skipping, blanking of “Not favorite”, “Skipped” or
“Locked” presets/channels.
– Automatic storing of Personal Preset or Last Status
settings.
– Automatic user menu time-out (menu switches back/
OFF automatically.
– Auto Volume levelling (AVL).

How to Activate SDM
For this chassis there are two kinds of SDM: an analog SDM
and a digital SDM. Tuning will happen according Table 5-1.
• Analog SDM: use the standard RC-transmitter and key in
the code “062596”, directly followed by the “MENU” (or
HOME) button.
Note: It is possible that, together with the SDM, the main
menu will appear. To switch it “off”, push the “MENU” (or
HOME) button again.
• Digital SDM: use the standard RC-transmitter and key in
the code “062593”, directly followed by the “MENU” (or
HOME) button.
Note: It is possible that, together with the SDM, the main
menu will appear. To switch it “off”, push the “MENU” (or
HOME) button again.
• Analog SDM can also be activated by grounding for a
moment the solder pad on the SSB, with the indication
“SDM” (see figure Service mode pad).

2010-Jul-01

EN 22

5.

LC9.2L LA

Service Modes, Error Codes, and Fault Finding
•

•

•

1

•
•

SDM

•
18490_201_090409.eps
090409

Figure 5-1 Service mode pad
After activating this mode, “SDM” will appear in the upper right
corner of the screen (when a picture is available).
How to Navigate
When the “MENU” (or HOME) button is pressed on the RC
transmitter, the TV set will toggle between the SDM and the
normal user menu.
How to Exit SDM
Use one of the following methods:
• Switch the set to STAND-BY via the RC-transmitter.
• Via a standard customer RC-transmitter: key in “00”sequence.
5.2.2

Service Alignment Mode (SAM)
Purpose
• To perform (software) alignments.
• To change option settings.
• To easily identify the used software version.
• To view operation hours.
• To display (or clear) the error code buffer.

Errors (followed by maximum 10 errors). The most recent
error is displayed at the upper left (for an error explanation
see section “5.4 Error Codes”).
Reset Error Buffer. When “cursor right” (or the “OK
button) is pressed and then the “OK” button is pressed, the
error buffer is reset.
Alignments. This will activate the “ALIGNMENTS” submenu. See chapter 6.3 Software Alignments.
Dealer Options. Extra features for the dealers.
Options.6.4 Option Settings Extra features for Service. For
more info regarding option codes, see chapter .
Note that if the option code numbers are changed, these
have to be confirmed with pressing the “OK” button before
the options are stored. Otherwise changes will be lost.
Initialize NVM. The moment the processor recognizes a
corrupted NVM, the “initialize NVM” line will be highlighted.
Now, two things can be done (dependent of the service
instructions at that moment):
– Save the content of the NVM via ComPair for
development analysis, before initializing. This will give
the Service department an extra possibility for
diagnosis (e.g. when Development asks for this).
– Initialize the NVM.

Note: When the NVM is corrupted, or replaced, there is a high
possibility that no picture appears because the display code is
not correct. So, before initializing the NVM via the SAM, a
picture is necessary and therefore the correct display option
has to be entered. To adapt this option bit, it is advised to use
ComPair (the correct values for the options can be found in
Table 6-3) or a method via a standard RC (described below).
Changing the display option via a standard RC: Key in the
code “062598” directly followed by the “MENU” (or HOME)
button and “XXX” (where XXX is the 3 digit decimal display
code as mentioned in Table 6-3). Make sure to key in all three
digits, also the leading zero’s. If the above action is successful,
the front LED will go out as an indication that the RC sequence
was correct. After the display option is changed in the NVM, the
TV will go to the Stand-by mode. If the NVM was corrupted or
empty before this action, it will be initialized first (loaded with
default values). This initializing can take up to 20 seconds.

How to Activate SAM
Via a standard RC transmitter: Key in the code “062596”
directly followed by the “INFO” button. After activating SAM
with this method a service warning will appear on the screen,
continue by pressing the “OK” button on the RC.

Display Option
Code

39mm

2010-Jul-01

PHILIPS
27mm

Contents of SAM (see also Table 6-4)
• Hardware Info.
– A. SW Version. Displays the software version of the
main software (example: LC92L-1.2.3.4=
AAAAB_X.Y.W.Z).
• AAAA= the chassis name.
• B= the region (A= Asian Pacific, E= Europe, L=
Latam, U= United States).
• X.Y.W.Z= the software version, where X is the
main version number (different numbers are not
compatible with one another) and Y.W.Z is the sub
version number (a higher number is always
compatible with a lower number).
– B. Standby Processor Version. Displays the
software version of the Stand-by processor.
– C. Production Code. Displays the production code of
the TV, this is the serial number as printed on the back
of the TV set. Note that if an NVM is replaced or is
initialized after corruption, this production code has to
be re-written to NVM. ComPair will foresee in a
possibility to do this.
• Operation Hours. Displays the accumulated total of
operation hours (not the stand-by hours). Every time the
TV is switched “on/off”, 0.5 hours is added to this number.

040

MODEL:
32PF9968/10
PROD.SERIAL NO:
AG 1A0620 000001

(CTN Sticker)

10000_038_090121.eps
090819

Figure 5-2 Location of Display Option Code sticker
•

•

•

Store - go right. All options and alignments are stored
when pressing “cursor right” (or the “OK” button) and then
the “OK”-button.
SW Maintenance.
– SW Events. Not useful for Service purposes. In case
of specific software problems, the development
department can ask for this info.
– HW Events. Not useful for Service purposes. In case
of specific software problems, the development
department can ask for this info.
Operation hours display. Displays the accumulated total
of display operation hours. So, this one keeps up the
lifetime of the display itself, mainly to compensate the
degeneration behavior.

Service Modes, Error Codes, and Fault Finding
•
•

•

•

Test settings. For development purposes only.
Development file versions. Not useful for Service
purposes, this information is only used by the development
department.
Upload to USB. To upload several settings from the TV to
an USB stick, which is connected to the SSB. The items are
“Channel list”, “Personal settings”, “Option codes”,
“Display-related alignments” and “History list”. First a
directory “repair\” has to be created in the root of the
USB stick. To upload the settings select each item
separately, press “cursor right” (or the “OK” button),
confirm with “OK” and wait until “Done” appears. In case
the download to the USB stick was not successful “Failure”
will appear. In this case, check if the USB stick is
connected properly and if the directory “repair” is present in
the root of the USB stick. Now the settings are stored onto
the USB stick and can be used to download onto another
TV or other SSB. Uploading is of course only possible if the
software is running and if a picture is available. This
method is created to be able to save the customer’s TV
settings and to store them into another SSB.
Download to USB. To download several settings from the
USB stick to the TV, same way of working needs to be
followed as with uploading. To make sure that the
download of the channel list from USB to the TV is
executed properly, it is necessary to restart the TV and
tune to a valid preset if necessary.
Note: The “History list item” can not be downloaded from
USB to the TV. This is a “read-only” item. In case of
specific problems, the development department can ask
for this info.

How to Navigate
• In SAM, the menu items can be selected with the
“CURSOR UP/DOWN” key on the RC-transmitter. The
selected item will be highlighted. When not all menu items
fit on the screen, move the “CURSOR UP/DOWN” key to
display the next/previous menu items.
• With the “CURSOR LEFT/RIGHT” keys, it is possible to:
– (De) activate the selected menu item.
– (De) activate the selected sub menu.
• With the “OK” key, it is possible to activate the selected
action.
How to Exit SAM
Use one of the following methods:
• Switch the TV set to STAND-BY via the RC-transmitter.
• Via a standard RC-transmitter, key in “00” sequence, or
select the “BACK” key.
5.2.3

Customer Service Mode (CSM)
Purpose
The Customer Service Mode shows error codes and
information on the TV’s operation settings. A call centre can
instruct the customer (by telephone) to enter CSM in order to
identify the status of the set. This helps them to diagnose
problems and failures in the TV before making a service call.
The CSM is a read-only mode; therefore, modifications are not
possible in this mode.

LC9.2L LA

5.

EN 23

How to Activate
To activate CSM, press the following key sequence on a
standard remote control transmitter: “123654” (do not allow the
display to time out between entries while keying the sequence).

Contents of CSM
The contents are reduced to 3 pages: General, Software
versions and Quality items. The group names itself are not
shown anywhere in the CSM menu.
General
• Set Type. This information is very helpful for a helpdesk/
workshop as reference for further diagnosis. In this way, it
is not necessary for the customer to look at the rear of the
TV-set. Note that if an NVM is replaced or is initialized after
corruption, this set type has to be re-written to NVM.
ComPair will foresee in a possibility to do this.
• Production Code. Displays the production code (the serial
number) of the TV. Note that if an NVM is replaced or is
initialized after corruption, this production code has to be
re-written to NVM. ComPair will foresee a in possibility to
do this.
• Installed date. Indicates the date of the first installation of
the TV. This date is acquired via time extraction.
• Options 1. Gives the option codes of option group 1 as set
in SAM (Service Alignment Mode).
• Options 2. Gives the option codes of option group 2 as set
in SAM (Service Alignment Mode).
• 12NC SSB. Gives an identification of the SSB as stored in
NVM. Note that if an NVM is replaced or is initialized after
corruption, this identification number has to be re-written to
NVM. ComPair will foresee in a possibility to do this. This
identification number is the 12nc number of the SSB.
• 12NC display. Shows the 12NC of the display.
• 12NC supply. Shows the 12NC of the supply.
Software versions
• Current main SW. Displays the built-in main software
version. In case of field problems related to software,
software can be upgraded. As this software is consumer
upgradable, it will also be published on the Internet.
Example: LC92L_1.2.3.4
• Ambilight SW. Displays the Ambilight SW-version.
Quality items
• Signal quality. Poor / average /good
• Child lock. Not active / active. This is a combined item for
locks. If any lock (Preset lock, child lock, lock after or
parental lock) is active, the item shall show “active”.
• HDMI HDCP key. Indicates if the HDMI keys (or HDCP
keys) are valid or not. In case these keys are not valid and
the customer wants to make use of the HDMI functionality,
the SSB has to be replaced.
• Ethernet MAC address. Displays the MAC address
present in the SSB.
• BDS key. Indicates if the “BDS level” key is valid or not.
How to Exit CSM
Press “MENU” (or HOME) / “Back” key on the RC-transmitter.

Specifications
• Ignore “Service unfriendly modes”.
• Line number for every line (to make CSM language
independent).
• Set the screen mode to full screen (all contents on screen
is visible).
• After leaving the Customer Service Mode, the original
settings are restored.
• Possibility to use “CH+” or “CH-” for channel surfing, or
enter the specific channel number on the RC.

2010-Jul-01

EN 24

5.

Service Modes, Error Codes, and Fault Finding

LC9.2L LA

5.3

Service Tools

5.4

Error Codes

5.3.1

ComPair

5.4.1

Introduction

Introduction
ComPair (Computer Aided Repair) is a Service tool for Philips
Consumer Lifestyle products. and offers the following:
1. ComPair helps you to quickly get an understanding on how
to repair the chassis in a short and effective way.
2. ComPair allows very detailed diagnostics and is therefore
capable of accurately indicating problem areas. You do not
have to know anything about I2C or UART commands
yourself, because ComPair takes care of this.
3. ComPair speeds up the repair time since it can
automatically communicate with the chassis (when the uP
is working) and all repair information is directly available.
4. ComPair features TV software up possibilities.

The error code buffer contains all detected errors since the last
time the buffer was erased. The buffer is written from left to
right, new errors are logged at the left side, and all other errors
shift one position to the right.
When an error occurs, it is added to the list of errors, provided
the list is not full. When an error occurs and the error buffer is
full, then the new error is not added, and the error buffer stays
intact (history is maintained).
To prevent that an occasional error stays in the list forever, the
error is removed from the list after more than 50 hrs. of
operation.
When multiple errors occur (errors occurred within a short time
span), there is a high probability that there is some relation
between them.

Specifications
ComPair consists of a Windows based fault finding program
and an interface box between PC and the (defective) product.
The (new) ComPair II interface box is connected to the PC via
an USB cable. For the TV chassis, the ComPair interface box
and the TV communicate via a bi-directional cable via the
service connector(s).

New in this chassis is the way errors are displayed:
• There is a simple blinking LED procedure for board level
repair (home repair) so called LAYER 1 errors, next to the
existing errors which are LAYER 2 errors (see Table 5-3).
– LAYER 1 errors are one digit errors (via CSM).
– LAYER 2 errors are 2 digit errors (via SAM/SDM).
• In protection mode:
– From consumer mode: LAYER 1.
– From SDM mode: LAYER 2.
• In CSM mode: When entering CSM: error LAYER 1 will be
displayed by blinking LED. Only the latest error is shown.
• In SDM mode: When SDM is entered via Remote Control
code or the hardware pins, LAYER 2 is displayed via
blinking LED.
• In the “ON” state: with the RC commands “mute_06250X
_OK”, LAYER 2 errors are displayed via blinking LED.
• Error display on screen:
– In CSM no error codes are displayed on screen.
– In SAM the complete error list is shown.

How to Connect
This is described in the ComPair chassis fault finding database.
TO TV
TO
UART SERVICE
CONNECTOR

ComPair II
RC in

RC out

TO
I2C SERVICE
CONNECTOR

TO
UART SERVICE
CONNECTOR

Multi
function

Optional Power Link/ Mode
Switch
Activity

I2C

RS232 /UART

5.4.2

How to Read the Error Buffer

PC

Use one of the following methods:
• On screen via the SAM (only when a picture is visible).
E.g.:
– 00 00 00 00 00: No errors detected
– 23 00 00 00 00: Error code 23 is the last and only
detected error.
– 37 23 00 00 00: Error code 23 was first detected and
error code 37 is the last detected error.
– Note that no protection errors can be logged in the
error buffer.
• Via the blinking LED procedure. See section 5.4.3 How to
Clear the Error Buffer.
• Via ComPair.

ComPair II Developed by Philips Brugge

HDMI
I2C only

Optional power
5V DC

10000_036_090121.eps
091118

Figure 5-3 ComPair II interface connection
Caution: It is compulsory to connect the TV to the PC as
shown in the picture above (with the ComPair interface in
between), as the ComPair interface acts as a level shifter. If
one connects the TV directly to the PC (via UART), ICs will be
blown!
How to Order
ComPair II order codes:
• ComPair II interface: 3122 785 91020.
• ComPair UART interface cable: 3138 188 75051.
• Program software can be downloaded from the Philips
Service portal.
Note: If you encounter any problems, contact your local
support desk.

2010-Jul-01

5.4.3

How to Clear the Error Buffer
Use one of the following methods:
• By activation of the “Reset error buffer” command in the
SAM menu.
• With a normal RC, key in sequence “MUTE” followed by
“062599” and “OK”.
• If the content of the error buffer has not changed for 50+
hours, it resets automatically.

Service Modes, Error Codes, and Fault Finding
5.4.4

LC9.2L LA

5.

EN 25

Error Buffer
Table 5-2 Layer 1 error codes

In case of non-intermittent faults, clear the error buffer before
starting to repair (before clearing the buffer, write down the
content, as this history can give significant information). This to
ensure that old error codes are no longer present.
If possible, check the entire contents of the error buffer. In
some situations, an error code is only the result of another error
code and not the actual cause (e.g. a fault in the protection
detection circuitry can also lead to a protection).
Take notice that some errors need several minutes before they
start blinking or before they will be logged. So in case of
problems wait 2 minutes from start-up onwards, and then
check if the front LED is blinking or if an error is logged.

Description

Layer 1 code

SSB

2

Remarks

Display supply

3

If only one supply is used

Platform supply

4

No separate supply

Ambilight

8

Table 5-3 Error code overview
Description

Layer 1

Layer 2

Monitored
by

Error/
Prot

Error Buffer/
Blinking LED

Device

Defective Board

I2C Bus related:
I2 C

2

14

ARM

E

BL / EB

SSB

SSB

uP does not boot

2

15

ARM

P

BL

MT5392

SSB

DC on speaker

2

11

Stby µP

P

BL

/

SSB

12V (*)

3

16

Stby µP

P

BL

/

Supply

Inverter or display supply

3

17

ADC

E

EB

/

Supply

Supply related:

IC related:
HDMI MUX

2

23

ARM

E

EB

ADV3002

SSB

HDMI EDID

2

24

ARM

E

EB

M24C02-WMN6

SSB

ARM (Ambilight)

8

28

ARM

E

EB

NXP LPC2103

AL-module or DC/DC

Tuner (Frontend)

2

34

ARM

E

EB

VA1G5BF8010

SSB

Main NVM

2

35

ARM

E

/

M24C64

SSB

–

Extra Info
• (*) 12V is necessary to start up the ARM, the ARM boots
the Stand-by processor.
– If 12V fails during normal operation or in stand-by, the
protection can be displayed via the “blinking LED”.

5.5

The Blinking LED Procedure

5.5.1

Introduction
The software is capable of identifying different kinds of errors.
Because it is possible that more than one error can occur over
time, an error buffer is available, which is capable of storing the
last five errors that occurred. This is useful if the OSD is not
working properly.
Errors can also be displayed by the blinking LED procedure.
The method is to repeatedly let the front LED pulse with as
many pulses as the error code number, followed by a period of
1.5 seconds in which the LED is “off”. Then this sequence is
repeated.

5.5.2

If the mains cord is disconnected and reconnected
again, the ARM and Stand-by processor are not
booted, 12V can not be detected, and no indication is
possible.

Displaying the Entire Error Buffer
Additionally, the entire error buffer is displayed when Service
Mode “SDM” is entered. In case the TV set is in protection or
Stand-by: The blinking LED procedure sequence (as in SDMmode in normal operation) must be triggered by the following
RC sequence: “MUTE” “062500” “OK”.
In order to avoid confusion with RC5 signal reception blinking,
this blinking procedure is terminated when a RC5 command is
received.

Example (1): error code 4 will result in four times the sequence
LED “on” for 0.25 seconds / LED “off” for 0.25 seconds. After
this sequence, the LED will be “off” for 1.5 seconds. Any RC5
command terminates the sequence. Error code LED blinking is
in red color.
Example (2): the content of the error buffer is “12 9 6 0 0”
After entering SDM, the following occurs:
• 1 long blink of 5 seconds to start the sequence,
• 12 short blinks followed by a pause of 1.5 seconds,
• 9 short blinks followed by a pause of 1.5 seconds,
• 6 short blinks followed by a pause of 1.5 seconds,
• 1 long blink of 1.5 seconds to finish the sequence,
• The sequence starts again with 12 short blinks.

2010-Jul-01

EN 26
5.6

5.

LC9.2L LA

Service Modes, Error Codes, and Fault Finding

Fault Finding and Repair Tips

5. Stop bits = 1
6. Flow control = none
During the start-up of the TV set, the logging will be displayed.
This is also the case during rebooting of the TV set (the same
logging appears time after time). Also available in the logging
is the “Display Option Code” (useful when there is no picture),
look for item “DisplayRawNumber” in the beginning of the
logging. Tip: when there is no picture available during
rebooting you are able to check for “error devices” in the
logging (LAYER 2 error) which can be very helpful to determine
the failure cause of the reboot. For protection state, there is no
logging.

Notes:
• It is assumed that the components are mounted correctly
with correct values and no bad solder joints.
• Before any fault finding actions, check if the correct
options are set.
5.6.1

Software Protections
Most of the protections and errors use either the stand-by or the
micro processor as detection device. Since in these cases,
checking of observers, polling of ADCs, and filtering of input
values are all heavily software based, these protections are
referred to as software protections.
There are several types of software related protections, solving
a variety of fault conditions:
• Protections related to supplies: check of the 12V.
• Protections related to breakdown of the safety check
mechanism. E.g. since the protection detections are done
by means of software, failing of the software will have to
initiate a protection mode since safety cannot be
guaranteed any more.
Remark on the Supply Errors
The detection of a supply dip or supply loss during the normal
playing of the set does not lead to a protection, but to a cold
reboot of the set. If the supply is still missing after the reboot,
the TV will go to protection.
Protections during Start-up
During TV start-up, some voltages and IC observers are
actively monitored to be able to optimise the start-up speed,
and to assure good operation of all components. If these
monitors do not respond in a defined way, this indicates a
malfunction of the system and leads to a protection.

5.6.2

Hardware Protections
The only real hardware protection in this chassis is (in case of
an audio problem) the audio protection circuit that will trigger
the uP to switch “off” the TV.
Repair Tip
• It is also possible that you have an audio DC protection
because of an interruption in one or both speakers (the DC
voltage that is still on the circuit cannot disappear through
the speakers).
Caution: (dis)connecting the speaker wires during the ON
state of the TV at high volume can damage the audio
amplifier.

5.6.3

Logging
When something is wrong with the TV set (f.i.the set is
rebooting) you can check for more information via the logging
in Hyperterminal. The Hyperterminal is available in every
Windows application via Programs, Accessories,
Communications, Hyperterminal. Connect a “ComPair UART”cable (3138 188 75051) from the service connector in the TV to
the “multi function” jack at the front of ComPair II box.
Required settings in ComPair before starting to log:
- Start up the ComPair application.
- Select the correct database (open file “Q549.3E LA”, this will
set the ComPair interface in the appropriate mode).
- Close ComPair
After start-up of the Hyperterminal, fill in a name (f.i. “logging”)
in the “Connection Description” box, then apply the following
settings:
1. COMx
2. Bits per second = 115200
3. Data bits = 8
4. Parity = none

2010-Jul-01

5.6.4

Display option code
Caution: In case you have replaced the SSB, always check the
display option code in SAM, even if you have picture. With a
wrong display option code it is possible that you have picture,
but that in certain conditions you have unwanted side-effects.

5.6.5

Trouble Shooting Tuner section
When there is no picture in analog RF mode:
1. Check whether picture is present in AV mode. If not, tuner
section is okay. Check video processing section.
2. Check if option settings are correct.
3. Check if 5 V supply is available at test points F256, F228,
F229 and F219, and if 33 V is available at test point F257.
4. Check if the I2C lines are working correctly (3.3 V).
5. Manually store a known channel and check if there is IF
output at tuner pin 11. If not, tuner is faulty.
6. Feed in 105 dBuV at tuner pin 11 and check whether there
is CVBS output from IF demodulator IC. If not, IF
demodulator might be faulty. Check components in this
area.

Service Modes, Error Codes, and Fault Finding
5.6.6

LC9.2L LA

5.

EN 27

Trouble Shooting Sound section

18490_209_090409.eps
090409

Figure 5-4 Fault finding tree sound section

2010-Jul-01

EN 28
5.6.7

5.

LC9.2L LA

Service Modes, Error Codes, and Fault Finding

Trouble Shooting HDMI section

No Video and Audio
for any HDMI input
(permanently)

Check TMDS signal at pin 1,
3, 4, 6, 7, 9, 10, 12 of
connector 1 (if HDMI 1)
No
Yes
Check TMDS signal at pin
37,38,41,42,44,45,47,48 of
ADV3002 (if HDMI 1)
No
Yes

Malfuntion of HDMI
connector, ensure
solderbility of Connector

Malfuntion of PCB trace,
ensure no broken trace of
these signals between
connector and ADV3002

Check TMDS signal at pin
25,26,28,29,31,32,34,35 of
ADV3002
No
Yes

Malfuntion of ADV3002

The video and audio path is
intact, no video & audio is
cause by MTK 5392
malfunction

No Video and Audio for any
HDMI input
(Intermittent and differ
within various DVD player)

Go to CSM mode using RC
key "123654",
check item 11: Key(HDCP)
Invalid
Reload HDCP key

Valid
check item 19:
EDID Version / Check sum
As per latest?
No
Yes

Update EDID

Check the following possible hardware failure:
1) Supply of EEPROM IC (pin 8 of 7B02). Should be +5V.
2) Connectivity of I2C between EEPROM (7B02) and ADV3002
(7B05). Between pin 5, 6 of 7B02 and pin 61 , 62 of 7B05.
Should be +3.8V.
3) Connectivity of DDC line between HDMI connector and
ADV3002. (ex: pin 15, 16 of connector HDMI 1 to pin 69 , 70 of
ADV3002.)
4) Connectivity of DDC line between ADV3002 and MTK5392.
(pin 67, 68 of ADV3002 to test point F836 & F837)

18490_211_090409.eps
090409

Figure 5-5 Fault finding tree HDMI section
2010-Jul-01

Service Modes, Error Codes, and Fault Finding
5.6.8

Start-up/Shut-down Flowcharts
On the next pages you will find start-up and shut-down
flowcharts, which might be helpful during fault finding.
POWER STATES
In this chassis, there are six possible power states as follows:
• Power OFF
• Power ON
• STANDBY
• SEMI-STANDBY
• Special Panel Mode
• PROTECTION

LC9.2L LA

5.

EN 29

SPECIAL PANEL MODE
The Special Panel Mode is only used during manufacturing
process to program the system EEPROM. In this mode, the
SDA0 and SCL0 ports of MT5392 are set to high impedance
after SDM and PANEL pins are both detected as “low” during
start-up. This mode can be exited using a power recycle.
PROTECTION
This state is entered when an error has been detected at startup or in the “ACTIVE” mode. All switched power supply lines
are turned “off” with only +3V3stby remaining “on”; similar to
“STANDBY” mode. This state is indicated by the blinking red
front LED with the blinking sequence denoting the type of error
detected.
When the system enters the protection mode due to a critical
error, it should be turned “off” and the failure cause needs to be
resolved. The system will function normally again after
performing a power recycling once all protection causing
failures have been resolved.
START-UP SEQUENCE
There are two cases of start-up sequences, namely:
• AC On and
• Standby Wake-up.
See also Figure 5-7.

18490_204_090409.eps
090409

Figure 5-6 Power States
POWER OFF
In “Power OFF” mode, the system is completely switched “off”
from AC mains. When AC power is applied, the system checks
for last status. Depending on the last standby status stored in
the system EEPROM, this mode can then transit to “ON” or
“STANDBY” mode.
ON
This is the normal operating mode, indicated by the “on” LED.
All the power supply lines are available and depending on the
sub-mode, all the circuits in the system may be active. From
this mode it shall be possible to transit to “STANDBY” and
“PROTECTION” mode, or to “Power OFF” mode if AC mains
are switched “off”. The sub-modes are:
• Active Mode (Normal Consumer Mode)
• Service Modes
• Panel Modes
• Factory Modes

AC ON
In the case of start-up from AC mains, all PSU voltages start to
turn “on” as the hardware default of the active “low” STANDBY
(controlled by Standby Controller STANDBY signal) signal to
the PSU is pulled “low” with respect to ground.
The MT5392 starts running boot loader once the hardware
reset circuit is released. The system will then check the last
standby status from the system EEPROM to determine
whether to complete the system start-up (load image, turn on
the audio, display etc) or proceed to standby and wait for wakeup command from user. The Standby Controller then proceeds
to verify the power status of the +12V and sends the system to
protection in case of any failures. Special Panel, SDM, and
PANEL modes are detected as well.
STANDBY WAKEUP
When the system receives a command to wake-up from
standby, the Standby Controller sets the STANDBY signal
“low” to turn “on” the switched power, and similarly detects for
the presence of +12V. The MT5392 waits for +3V3_SW to be
available before loading its image. The significance of this
voltage detection is due to the flash is also being powered by
the same mentioned voltage.
The following figure shows the start-up flowchart for both “AC
On” and “Standby Wake-up”:

STANDBY
The total power consumption of the system in this mode shall
be equal or less than 150 mW. This state is indicated by white
LED when AC mains is switched “on”. Only the standby
controller is operational in this state, where only +3V3stby
power supply is available. From this mode it shall be possible
to transit to the “ACTIVE” or “Power OFF” mode if AC mains are
switched “off”.
SEMI-STANDBY
The semi-standby state is required to perform the following
tasks:
• AmbiLight wakeup control
• PBS SemiStandby.

2010-Jul-01

EN 30

5.

Service Modes, Error Codes, and Fault Finding

LC9.2L LA

Timeout
= 6 Sec ?

START

yes

12V Error
[ Protection ]

HW Default PSU is ON, and
MT5392 POR

MT5392 POR and config
DRAM decompress
bootloader into DRAM
(preLoader)

NVM Error
[ Protection ]

Initialize Tuner

Tuner

No
Initialize CEC driver
Check T8032 CEC buffer

DTV_IRQ = Low
MT5392 Bootloader
decompressed and running
from DRAM

T8032

Initialize NVM
Wait 100ms

No

Wait 100ms

T8032 with
CEC data

Yes
DTV_IRQ = High
5392 checks
POWER_DOWN =
HIGH ?

Yes

Turn on LED1
If not watchdog reboot,
Enable 20 seconds watchdog

Copy CEC data from T8032 to
MT5392 CEC driver buffer

Special Panel mode
Detection

All IIC Port set to High
Impedance

Yes

Switch CEC h/w control from
T8032 to MT5392

Is it Ambilight wakeup?

SDM
& PANEL =
LOW?

No

No
Initialize HDMI Switch

HDMI Switch

Initialize OSD

Turn off Philips
logo

Retrieve/Display Startup
Logo

No
END
Check T8032 Status

Panel turn on Sequence
Error #, failed into Protection
mode, Record error in NVM.

Yes
T8032 reset state

Communicate
Failed Count <= 3
Communicate
Failed Count > 3

T8032 booting

NVM
Error
[ Protecti
on ]

No

Wait for Panel_On_Time_1
based on Panel ID in ms (from
Panel Info on Flash)

Initialize Application Layer
Yes

Switch on LVDS Signal

Yes

T8032 main loop

Initialize Philips
drivers/Application

Retrieve Panel ID from NVM
Retrieve Panel Info from Flash
data

T8032/ARM
Communicate ok?

No

Initialize Middleware Layer

Turn on LVDS Power
LCD_PWR_ON = LOW

Download T8032 Code
And kick uP to start to run.

Check T8032/ARM
communication ready?
1. Version cmd ok.
2. Setup CEC parameters.

3.774 second

PWM_DIMMING keep at 100%
BACKLIGHT_BOOST at
nominal

T8032 in reset State?
(Cold Boot?)

Drop All RC key received before
this block

Switch RC/OPCTRL control
from T8032 to MT5392 and
Enable RC Key

Wait for Panel_On_Time_2
based on Panel ID in ms (from
Panel Info on Flash)

Enable T8032 receive IR key

Semi-Standby

Is it Ambilight wakeup?
No
NVM status to
check Upgrade bit

No
Panel Initialization

Panel Initialization

Ambilight off

Yes

Yes

Yes

No
Check Wakeup Reason from
PDWNC module (IR/Keypad
HW and CEC) and confirm
from T8032

USB Upgrade
Start up OK

Cold Start?

BACKLIGHT_ON_OFF = HIGH

Calculate Boot Bank address

Switch to Video Path

No

Check
PowerDown

No

Standby
(HW)

Check Boot Bank Flag in
EEPROM

Power on
Standby
(HW)

Yes

Blinking LED

Yes
Received wakeup event

BACKLIGHT_ON_OFF = HIGH

Any of Upgrade
bits at NVM is on?

Blank Picture and Switch to Last
Source
Yes

Upgrade success

MT5392 Decompress Image
from Flash into DRAM

Yes

Picture Mode Setup & Detection
NVM Error
[ Protection ]

Control PDWNC
module to
wakeup ARM11

Audio MUTEn = LOW
SW_MUTE = LOW

Check Last Status and Boot
Ctrl Bits from NVM
AP: Background Manager
Successful?

Upgrade
Failed

Enter Standby?

No

Is it Ambilight
wakeup ?

Wakeup event
No

Yes

Yes

Receive ARM info
(Error code etc)

Send error code info to
T8032 & CEC on/off status

Set Program Counter to
DRAM Image to boot into
TV Image

T8032 main loop in standby
mode

Setup Wakeup Scenarios on
PDWNC module of 5392

2.568 second

Wakeup
Events
(RC/LKB/CEC/Ambilight)

To Reboot

Standby
(HW)

SDM and PANEL Mode Detection
1. Check SDM Port and Set SDM Mode Flag
If SDM Pin = LOW and System EEPROM First 20
bytes = 0xFF or CH+ on LKB pressed, Load
Software Default System EEPROM Data (only
when cold start)
2. Check Panel Port
If Panel Pin = LoW, Set Panel Mode Flag

Watchdog timeout
Reboot

3.776 second
UnBlank Picture and UnMute
Audio MUTEn = HIGH
SW_MUTE = HIGH

Set Last Status = ON

Start PWM_DIMMING and
BACKLIGHT_BOOST
Note: Startup time from image
decompression long enough to
satisfy 1sec high time after
LAMP ON for proper panel
startup

Notify T8032 that
MT5392 start up is OK

Enable 5392 Self-Watchdog thread
Thread action:
1. If watchdog reboot, delay 500
seconds to work.
2. Enable Self-watchdog and initial 15
seconds counter
3. Refresh watchdog counter / 0.5 sec
4. Alive check T8032 / 15 seconds

AP: Reload UI parameter into
program

Enable POWER_DOWN INT
Enable DC_PROT INT
1. If Boot Ctrl Bits to set always enter
standby, then go to standby directly.
2. If Boot Ctrl Bits to set always boot
directly, then continue booting.
3. If Boot Ctrl Bits to follow Last Status,
then check the Last status go decide to
enter standby or continue booting.

AP: TV Navigator
MT5392 begins initializing the
System
Video Ready

ON Mode

18490_205_090409.eps
090409

Figure 5-7 Start-up flowchart

2010-Jul-01

Service Modes, Error Codes, and Fault Finding

LC9.2L LA

5.

EN 31

STANDBY SEQUENCE
The following flowchart depicts the Standby (plus SemiStandby condition) sequence:

Active
Set Last Status = STANDBY

*) If this is not perform ed and
the set is sw itched to standby
w hen the sw itch off of the
am bilights is still ongoing , the
lights w ill sw itch off abruptly
w hen the supply is cut .

Disable AP RC/LKB key

Turn off LED1

If am bientlight functionality w as used in sem i -standby
(lounge m ode), sw itch off am bient light

M ute all sound outputs via softm ute
See F M S audio for all details

D elay transition until ram ping dow n of am bient light is
finished. *)

W ait 100m s

Set m ain am plifier m ute (I/O: audio-m ute)
Disable DC_PROT &
POWER_DOWN INT
F orce ext audio outputs to ground
(I/O: audio reset) and w ait 5m s
Pass Error Buffer and CEC Info
to T8032

Switch IR/GPIO control from
RISC to T8032

sw itch off Am bilight (if present)

Sw itch off POK line detection algorithm

sw itch off LC D backlight
Notify T8032 to go to Standby
M ute all video outputs

Receive Standby Command

W ait x m s (display file )

Sw itch off LVD S output

Yes

T8032 blinks LED2 according to
Error Buffer

STANDBY due
to Protection?

W ait x m s

Sw itch off the display pow er by
s w itching LC D-PW R -ON high
No
D elay state transition until Am bilight has faded
out: Output pow er Observer of M T K5392 AL
should be zero.

Wait 3000 ms to block next
startup to ensure PSU properly
discharged

Semi Standby

STANDBY

18700_202_090828.eps
090828

Figure 5-8 Standby flowchart

2010-Jul-01

EN 32

5.

Service Modes, Error Codes, and Fault Finding

LC9.2L LA

DC PROTECTION
The following figure shows the DC_PROT interrupt flowchart:

•

•
START

Check
DC_PROT = LOW
for 3 sec?

•

Yes

•

Mute Audio Output
No
DC Protection
[Protection]

Note: To
Avoid False
Triggering

•

Log Error Code

•
Go to STANDBY

END

H_17740_037.eps
240108

Figure 5-9 DC Protection flowchart
POWERDOWN SEQUENCE
The following figure shows the power-down sequence
flowchart:

S tart

POWER_DOWN
interrupt base
d on
falling edge triggering

MTK5392 detects
POWER_DOWN interrupt

Wait for TBD ms

Reconfirm
POWER
_DOWN
=LOW

yes
Mute Audio Output

Set Write Protect for Flash and
System EEPROM
No
Trigger Standby µP to handle
PowerDown
Receive command to handle
PowerDown
System Idle Mode
Switch Off Power

R es um e
Wait for5 seconds

Reboot System

E nd

18700_201_090828.eps
090828

Figure 5-10 Power-down flowchart
•

2010-Jul-01

Power detection circuitry should be quick enough to rapidly
detect any powerdip which is large enough to jeopardize
the functionality of the set.

Upon detection, the power detection circuitry should switch
the low power DC/DC converters “off” and/or switch the
MT5392 in reset.
The SW detection is done on the T8032 (built-in stand-by
microprocessor). The T8032 is fed by the stand-by voltage
and is less critical to power drops than the +12V and
derivatives.
If T8032 detects a power drop, it shuts down the supplies
immediately (enter HW stand-by mode), waits for 5
seconds and restarts the system.
If the power drop is caused by a mains voltage drop, the
system performs a cold boot which prevents a HW hangup
due to the power drop. At the restart, if power is readily
available again, the set will resume its function.
If the power drop is caused by a failing supply, the failure
will be detected during the restart and the appropriate error
logging will be given.
If the power drop is caused by mains voltage removal by
the customer, the set will restart but will ‘die’ during the 5s
wait time (specification of the power supplies).

Service Modes, Error Codes, and Fault Finding
5.6.9

LC9.2L LA

5.

EN 33

SSB replacement
Follow the instructions in the flowchart in case a SSB has to be
swapped.
Note: flowchart below has originally been created for the Q5xx
chassis, but can also be used for this LC9.2L chassis.
In st ru ct io n n o t e SSB rep lacem en t Q543.x, Q548.x, Q549.x, and Q55x.x

ST AR T

Before starting:
- prepare a USB memory stick with the latest software
- download the latest Main Software (Fus) from www.p4c.philips.com
- unzip this file
- create a folder ”upgrades” in the root of a USB stick (size > 50 MB) and
save the autorun.upg file in this "upgrades" folder.
Note: it is possible to rename this file, e.g."Q54x_SW_version.upg"; this in
case there are more than one "autorun.upg" files on the USB stick.

Set is still oper ating?
No
Yes

C onnect the U SB stick to the set,
go to SAM and save the current TV settings via “Upload to USB”
1. D isconnect the WiF i module fr om the PC I connector (only for Q549.x SSB)
2. Replace the SSB by a Service SSB.
3. Place the WiFi module in the PCI connector.
4. Mount the Service SSB in the set.

Start-up the set
Due to a possible wrong display option code in the received Service
SSB (NVM), it’s possible that no picture is displayed. Due to this
the download application will not be shown either. This tree enables you
to load the main software step-by-step via the UART logging on the PC
(this for visual feedback).
No pictur e displayed

1) Start up the TV set, equiped with the Service SSB,
and enable the UART logging on the PC.

Set behaviour?

Pictur e displayed
Set is starting up without software
upgrade menu appearing on screen

Pictur e displayed
Set is starting up with software
upgrade menu appearing on screen

2) The TV set will start-up automatically in the
download application if main TV software is not loaded.

3) Plug the prepared USB stick into the TV set. Follow the
instructions in the UART log file, press “Right” cursor key to enter
the list. Navigate to the “autorun.upg” file in the UART logging
printout via the cursor keys on the remote control. When the
correct file is selected, press “Ok”.

1) Plug the USB stick into the TV set and select
the “autorun .upg” file in the displayed browser.

2) Now the main software will be loaded automatically,
supported by a progress bar.
4) Press "Down" cursor and “Ok” to start flashing the main
TV software. Printouts like: “L: 1-100%, V: 1-100% and
P: 1-100%” should be visible now in the UART logging.

5) Wait until the message “Operation successful !” is logged in
the UART log and remove all inserted media. Restart the TV set.

3) Wait until the message “Operation successful !” is displayed
and remove all inserted media. Restart the TV set.

Set the correct “Display code” via “062598 -HOME- xxx” where
“xxx” is the 3 digit display panel code (see sticker on the side
or bottom of the cabinet)

After entering the “Display Option” code, the set is going to
Standby
(= validation of code)

No

Connect PC via the ComPair interface to Service connector.

Start TV in Jett mode (DVD I + (OSD))
Open ComPair browser Q54x

Restart the set

Saved settings
on USB stick?

Yes

Go to SAM and reload settings
via “Download from USB” function.

In case of settings reloaded from USB, the set type,
serial number, display 12 NC, are automatically stored
when entering display options.

Program set type number, serial number, and display 12 NC
Program E - DFU if needed.
If not already done:
Check latest software on Service website.
Update main and Stand-by software via USB.

Attention point for Net TV: If the set type and serial number are not
filled in, the Net TV functionality will not work. It will not be possible
to connect to the internet.

- Check if correct “display option” code is programmed.
- Verify “option codes” according to sticker inside the set.
- Default settings for “white drive” > see Service Manual.

Check and perform alignments in SAM according to the
Service Manual. Option codes, colour temperature, etc.

Final check of all menus in CSM.
Special attention for HDMI Keys and Mac address.
Check if E - D F U is present.

End

Q54x.E SSB Board swap – VDS
Updated 22-03-2010

H_16771_007a.eps
100402

2010-Jul-01

EN 34

5.

LC9.2L LA

Service Modes, Error Codes, and Fault Finding
Figure 5-11 SSB replacement flowchart [1/2]

Set is st art in g u p in F act o ry m o d e

Set is starting up in F actory m ode?

Noisy picture with bands/lines is visible and the
RED LED is continuous on.

An “F” is displayed (and the HDMI 1
input is displayed).

- Press the “volume minus” button on the TVs local keyboard for 5 ~10
seconds
- Press the “SOURCE” button for 10 seconds until the “F” disappears
from the screen or the noise on the screen is replaced by “blue mute”

The noise on the screen is replaced
with the blue mute or the “F” is disappeared!

Unplug the mains cord to verify the correct
disabling of the Factory mode.

Program display option code
via “062598 MENU”, followed by
the 3 digits code of the display
(this code can be found
on a sticker on - or inside - the set).

After entering “display option” code, the set is
going in stand-by mode (= validation of code)

R estart the set

H_16771_007b.eps
100322

Figure 5-12 SSB replacement flowchart [2/2]

2010-Jul-01

Service Modes, Error Codes, and Fault Finding
5.7

Software Upgrading

5.7.1

Introduction

LC9.2L LA

5.

EN 35

It is possible for the user to upgrade the main software via the
USB port. This allows replacement of a software image in a
stand alone set, without the need of an E-JTAG debugger. A
description on how to upgrade the main software can be found
in the DFU.
Important: When the NAND-Flash must be replaced, a new
SSB must be ordered, due to the presence of the security keys!
(copy protection keys, MAC address, ...).
Perform the following actions after SSB replacement:
1. Set the correct option codes (see sticker inside the TV).
2. Update the TV software => see the DFU for instructions.
3. Perform the alignments as described in chapter 6.
4. Check in CSM if the HDMI key, MAC address.. are valid.
For the correct order number of a new SSB, always refer to the
Spare Parts list on the Philips Service web portal!
5.7.2

Software Upgrade
SW versions can be divided in three types:
• SW that can not crash the working of the set.
– EDID NVM. If the download fails, the set is still running
and the download can start again.
– Main NVM: If the download fails the default NVM value
can be loaded. NVM can be loaded via USB, be aware
PCBA alignments stored in NVM will not be overridden.
• SW that is “fool proof”: There is a backup version, a main
interruption during upgrade shall not crash the normal
working, a new upgrade can be started.
– Main SW image: Upgradable via USB.
– Standby SW.
– ARM Ambilight (if applicable): Upgradable via USB.
• SW that is not “fool proof”.
– Bootloader: Upgradable via USB in SAM (Note: must
be done by service personnel).
SW for all model numbers is loaded to the Philips Service portal
(P4S) and contains the following software:
• Process_NVM_LC09Mxxx.bin: mainly for factory use to
load main NVM. Can be used by service if applicable.
• LC09M_VGAxxxx.bin: for loading VGA NVM using
ComPair tool.
• LC09M_HDMIxxxx.bin: for loading HDMI NVM via
ComPair (HDMI MUX EDID) tool.
• The Autorun.upg file, which is available on P4C (the
consumer web site), contains:
– Main SW.
– Standby SW.
– Bootloader SW (via SAM upgradable).
– Ambilight SW (if applicable).

2010-Jul-01

EN 36

6.

LC9.2L LA

Alignments

6. Alignments
Index of this chapter:
6.1 General Alignment Conditions
6.2 Hardware Alignments
6.3 Software Alignments
6.4 Option Settings

Picture Setting
Brightness

0

Contrast

100

•
Note: Figures below can deviate slightly from the actual
situation, due to the different set executions.
General: The Service Default Mode (SDM) and Service
Alignment Mode (SAM) are described in chapter 5. Menu
navigation is done with the CURSOR UP, DOWN, LEFT or
RIGHT keys of the remote control transmitter.

6.1

General Alignment Conditions
Perform all electrical adjustments under the following
conditions:
• Power supply voltage: 120 - 230 VAC / 50 Hz (± 10%).
• Connect the set to the mains via an isolation transformer
with low internal resistance.
• Allow the set to warm up for approximately 15 minutes.
• Measure voltages and waveforms in relation to correct
ground (e.g. measure audio signals in relation to
AUDIO_GND).
Caution: It is not allowed to use heatsinks as ground.
• Test probe: Ri > 10 Mohm, Ci < 20 pF.
• Use an isolated trimmer/screwdriver to perform
alignments.

6.2

Hardware Alignments

6.3

Software Alignments
Put the set in SAM mode (see chapter 5. Service Modes, Error
Codes, and Fault Finding). The SAM menu will now appear on
the screen. Select ALIGNMENTS and go to one of the sub
menus. The alignments are explained below.
The following item can be aligned:
• Whitepoint.
To store the data:
• Press OK on the RC before the cursor is moved to the left.
• In main menu select “Store” and press OK on the RC.
• Press MENU on the RC to switch back to the main menu.
• Switch the set to stand-by mode.
For the next alignments, supply the following test signals via a
video generator to the RF input:
• LATAM models: an NTSC M TV-signal with a signal
strength of at least 1 mV and a frequency of 61.25 MHz
(channel 3).

6.3.1

Go to the SAM and select “Alignments”-> “White point”.

White point alignment LCD screens:
• Use a 100% white screen as input signal and set the
following values (in SAM mode):
– “Color temperature” to “Cool”.
– “Whitepoint red”, “Whitepoint green”, and “Whitepoint
blue” values to “127”.
– “Red BL offset” and “Green BL offset” values to “8”.
With a color analyzer:
• Measure with a calibrated, contactless (max. 25 mm
distance) color analyzer in the centre of the screen.
Consequently, the measurement needs to be done in a
dark environment.
• Adjust one or two registers (so holding one of the White
point registers R, G or B on 127) to obtain the “Cool” x,y
values (see Table 6-1). Tolerance: dx: ± 0.004, dy: ± 0.004.
• Repeat this step for the “Normal” and “Warm” color
temperatures.
• When finished press “OK” on the RC and then press
“Store” (in the SAM root menu) to store the aligned values
into the NVM.
• Restore the initial picture settings after the alignments.
Table 6-1 White D alignment values
Value

Not applicable.

50

Colour

Cool (11000 K)

Normal (9000 K)

Warm (6500 K)

x

0.278

0.289

0.314

y

0.278

0.291

0.319

Without a color analyzer, you can use below default values.
This is the next best solution. The default values are average
values coming from production (statistics).
• Select a “Color Temperature” (e.g. “Cool”, “Normal”, or
“Warm”).
• Set the “Whitepoint Red”, “- Green” and “- Blue” default
values according to the values in the “Tint settings” table.
• When finished press “OK” on the RC, then press “Store” (in
the SAM root menu) to store the aligned values into the
NVM.
• Restore the initial picture settings after the alignments.
Table 6-2 Tint settings (default values)
Colour Temp.

R
121

127

119

Normal

125

127

106

Warm

127

121

74

42-inch
Cool

127

122

112

Normal

122

122

127

Warm

127

111

70

47-inch

Set “Active control” to “Off”.
Choose “TV menu”, “TV Settings” and then “Picture” and
set picture settings as follows:

Picture Setting
Dynamic backlight

Off

Dynamic Contrast

Off

Colour Enhancement

Off

Picture Format

Unscaled

Light Sensor

Off

2010-Jul-01

B

Cool

White Point
•
•

G
32-inch

Cool

127

121

118

Normal

127

116

100

Warm

127

107

62

52-inch
Cool

127

121

118

Normal

127

116

100

Warm

127

107

62

Alignments
6.4

Option Settings

6.4.1

Introduction

The first line (group 1) indicates hardware options 1 to 4.
Example: option no. “2” contains the “cabinet type”.
The second line (group 2) indicates software options 5 to 8.
Example: option no. “5” contains the “display code”.
Every 5-digit number represents 16 bits (so the maximum value
will be 65536 if all options are set).
When all the correct options are set, the sum of the decimal
values of each Option Byte (OB) will give the option number.
See Table 6-3 for the options. Always refer to the sticker in the
TV-set as leading.

Dealer Options

Diversity
Not all sets with the same Commercial Type Number (CTN)
necessarily have the same option code!

For dealer options, in SAM select “Dealer options”.
See Table 6-4.
(Service) Options

Use of Alternative BOM
An alternative BOM number usually indicates the use of an
alternative display. This results in another Display Code thus in
another Option code. Refer to chapter 3. Precautions, Notes,
and Abbreviation List.

Select the sub menu's to set the initialisation codes (options) of
the model number via text menus.
See Table 6-4.
6.4.4

Opt. No. (Option numbers)

6.4.5

Select this sub menu to set all options at once (expressed in
two long strings of numbers).
An option number (or “option byte”) represents a number of
different options. When you change these numbers directly,
you can set all options very quickly. All options are controlled
via eight option numbers.
When the NVM is replaced, all options will require resetting. To
be certain that the factory settings are reproduced exactly, you
must set both option number lines. You can find the correct

6.5

EN 37

Example: The options sticker gives the following option
numbers:
• 25604 00386 00235 56068
• 08395 05120 00000 00000

Notes:
• After changing the option(s), save them with the STORE
command.
• The new option setting becomes active after the TV is
switched “off” and “on” again with the mains switch (the
EAROM is then read again).

6.4.3

6.

option numbers on a sticker inside the TV set and in Table
“Option code overview”.

The microprocessor communicates with a large number of I2C
ICs in the set. To ensure good communication and to make
digital diagnosis possible, the microprocessor has to know
which ICs to address. The presence/absence of these specific
ICs (or functions) is made known by the option codes.

6.4.2

LC9.2L LA

Option code overview
Table 6-3 Option code overview (subject to change)
Model Number

Option Codes

Displ.
Code

32PFL5604D/78 25604 00385 00235 56068 08396 05120 00000 00000

204

42PFL5604D/78 25604 00386 00235 56068 08397 05120 00000 00000

205

42PFL7404D/78 09220 00899 00239 56068 08375 05120 00000 00000

183

47PFL5604D/78 25604 00386 00235 56068 08395 05120 00000 00000

203

52PFL7404D/78 09220 00899 00239 56068 08400 05120 00000 00000

208

Total Overview SAM modes
Table 6-4 SAM mode overview (usage is model dependent)
Main Menu

Sub-menu 1

Sub-menu 2

Hardware Info

A. SW VERSION

e.g. “QL92L_1.33.0.0”

Sub-menu 3

B. Standby processor version e.g. “STDBY_88.68.0.0”
C. Production code

Description
Displays TV & Standby SW version and CTN serial
number.

e.g. “VN010935123456”

Operation hours

Displays the accumulated total of operation hours.TV
switched “on/off” & every 0.5 hours is increase one

Errors

Displayed the most recent errors.

Reset error buffer
Alignment

Clears all content in the error buffer.
Tuner AGC
White point

RF-AGC Take over point adjustment (AGC default
value is 80)
Colour temperature

Normal
Warn

3 different modes of colour temperature can be selected

Cool
White point red
White point green

LCD White Point Alignment. For values,
see Table 6-2.

White point blue
Red black level offset
Green black level offset

2010-Jul-01

EN 38

6.

LC9.2L LA

Alignments

Main Menu

Sub-menu 1

Sub-menu 2

Sub-menu 3

Description

Dealer options

Personal options

Picture mute

Off/On

Select Picture mute On/Off. Picture is muted / not
muted in case no input signal is detected at input
connectors.

Virgin mode

Off/On

Select Virgin mode On/Off. TV starts up / does not
start up (once) with a language selection menu after
the mains switch is turned “on” for the first time (virgin
mode)
Select E-sticker On/Off (USPs on-screen)

E-sticker

Off/On

Auto store mode

None
PDC/VPS
TXT page
PDC/VPS/TXT

Options

Digital broadcast

Digital features

DVB

Off/On

Select DVB On/Off

DVB - T installation

Off/On or Country dependent

Select DVB T installation On/Off or by country

DVB - T light

Off/On

Select DVB T light On/Off

DVB - C

Off/On

Select DVB C On/Off

DVB - C installation

Off/On or Country dependent

Select DVB C installation On/Off or by country

Over the air download

Off/On or Country dependent

Select Over the air download On/Off or by country

8 days EPG

Off/On

Select 8 day EPG On/Off

USB

Off/On

Select USB On/Off

Ethernet

Off/On

Select Ethernet On/Off

Wi-Fi

Off/On

Select Wi-Fi On/Off

DLNA

Off/On

Select DLNA On/Off

On-line service

Off

On-line service is Off

PTP (Picture Transfer Protocol)

Off/On

Select PTP On/Off

Update assistant

Off/On

Select Update assistant On/Off

Internet software update

Off

Internet software update is Off

Data

EPG

Off/On

Select EPG On/Off

TvTv EPG

Off/On

Select TvTv EPG On/Off

Display

Screen

e.g. “130 - LGD WUE SAA1 42"“

Displayed the panel code & type model.

Video reproduction

Dimming backlight

Off/On

Select Dimming Backlight On/Off

LightGuide

Off/On

Select LightGuide On/Off

Display fans

Not present/Present

Select Display fans Present/Not present.

Temperature sensor

Sensor present in display (only for N.A.
21:9)

Temperature LUT

0

N.A

E-box & monitor

Off/On

Select E-box & monitor On/Off

Picture processing

None/PNX5100

Select Picture processing None/PNX5100 (Q549.xE
chassis).

MOP local contrast

Off/On

Select MOP local contrast On/Off

Light sensor

Off/On

Select Light sensor On/Off

Light sensor type

0/1/2/3

Select Light sensor type form 0 to 3 (for difference
styling).

Pixel Plus HD

Select type of picture improvement.

Pixel Plus type

Perfect Pixel HD
Pixel Precise HD

2010-Jul-01

Pixel Plus

Off/On

Ambilight

Off/Mono/Stereo/Triple/Quad/Pixe- Select type of Ambilight modules use.
lated quad

Select Pixel Plus On/Off

Ambilight technology

CCFL/LED

Ambilight driver

Pacific 3/MOP/DFI

Select Ambilight driver.

Pacific 3

Not present/Present

Select Pacific 3 presence.

Select Ambilight technology.

MOP

Not present/Present

Select MOP presence.

MOP ambilight

Off/On

Select MOP ambilight On/Off

Alignments
Main Menu

Sub-menu 1

Sub-menu 2

Audio reproduction

Acoustic system

Source selection

EXT1/AV1 type

LC9.2L LA

Sub-menu 3

6.

EN 39

Description
Cabinet design used for setting dynamic audio parameters

SCART CVBS RGB LR

Select input source when connected with external
equipment

CVBS Y/C YPbPr LR
CVBS Y/C YPbPr HV LR
(CVBS) YPbPr LR
EXT2/AV2 type

SCART CVBS RGB LR

Select input source when connected with external
equipment

CVBS Y/C LR
(CVBS) YPbPr LR
CVBS Y/C LR
EXT3/AV3 type

None

Select input source when connected with external
equipment

CVBS
CVBS LR
YPbPr
YPbPr LR
YPbPr HV LR

Miscellaneous

Option number

VGA

Off/On

Select VGA On/Off

SIDE I/O

Off/On

Select SIDE I/O On/Off

HDMI 1

Off/On

Select HDMI 1 On/Off

HDMI 2

Off/On

Select HDMI 2 On/Off

HDMI 3

Off/On

Select HDMI 3 On/Off

HDMI 4

Off/On

Select HDMI 4 On/Off

HDMI side

Off/On

Select HDMI side On/Off

HDMI CEC

Off/On

Select HDMI CEC On/Off

HDMI CEC RC pass through

Off/On

Select HDMI CEC RC pass through On/Off

HDMI CEC Pixel Plus link

Off/On

Select Pixel Plus link On/Off

USB version

USB 1.0/USB 2.0

Select USB version

S/PDIF inputs

None/1 connector

Select no. of inputs

Region

Europe/AP-PAL-MULTI/Australia

Select Region/country

ATSC/DVB-T

Off/On

Select feature On/Off

Over the air download (AOD)

Off/On

Select feature On/Off

DVB-T installation

Off/Country dependent/On

Select feature On/Off

DVB-C

Off/On

Select feature On/Off

DVB-C installation

Off/Country dependent/On

Select feature On/Off

MPEG4

Off/On

Select feature On/Off

Tuner type

HD1816-MK1/TD1716-MK4/etc.

Select type of Tuner used

Nyquist SAW filter

Off/On

Select feature On/Off

I2C configuration

With PCA9540/9515/channel dec.

Select configuration

Channel decoder

TDA10048/etc.

Select channel decoder

Remote control assistant

Off/On

Select feature On/Off

System RC support

Off/On

Select System RC support On/Off

Embedded user manual

Off/On

Select Embedded user manual On/Off

Start-up screen

Off/On

Select Start-up screen On/Off

Wallpaper

Off/On

Select Wallpaper On/Off

Hotel mode

Off

Hotel mode is Off

Video playback

Off/On

Select feature On/Off

Update assistant

Off/On

Select feature On/Off

Board identifier

TV520/82 / TV520/82M

Select chassis

Light guide

Off/On

Select feature On/Off

Group 1

e.g. “08192.02181.01387.45160”

The first line (group 1) indicates HW options 1 - 4

Group 2

e.g. “10185.12448.00164.00000”

The second line (group 2) indicates SW options 5 - 8

Store

Store after changing

Initialise NVM

N.A.

Store

Select Store in the SAM root menu after making any
changes
Displayed information is for development purposes

SW maintenance

Software events

Display
Clear
Test reboot

Hardware events

Display

Displayed information is for development purposes

Clear
Operation hours display

Test settings

0003

Digital info

In case the display must be swapped for repair, you
can reset the “”Display operation hours” to “0”. So,
this one does keeps up the lifetime of the display itself (mainly to compensate the degeneration behaviour)
Displayed information is for development purposes.

Install start frequency

000

Install start frequency from “0” MHz

Install end frequency

999

Install end frequency as 999 MHz

Digital only

Select Digital only or Digital + Analogue before installation.

Default install frequency
Installation

Digital + Analogue

2010-Jul-01

EN 40

6.

Main Menu

LC9.2L LA
Sub-menu 1

Development file ver- Development 1 file version
sions

Alignments
Sub-menu 2
Display parameters DISPT 3.26.8.7

Sub-menu 3

Description
Displayed information is for development purposes.

Acoustics parameters ACSTS 3.6.6.5
PQ - PRFPP 1.26.10.4
Ambilight parameters PRFAM 2.6.1.3

Development 2 file version

12NC one zip software

Displayed information is for development purposes.

Initial main software
NVM version Q5492_0.4.0.0
Flash units SW Q5492_0.26.15.0
Upload to USB

Channel list
Personal settings

To upload several settings from the TV to an USB
stick

Option codes
Display-related alignment
History list
Download from USB

Channel list
Personal settings
Option codes
Display-related alignments

2010-Jul-01

To download several settings from the USB stick to
the TV.

Circuit Descriptions

LC9.2L LA

7.

EN 41

7. Circuit Descriptions
Index of this chapter:
7.1 Introduction
7.2 PSU

Notes:
• Only new circuits (circuits that are not published recently)
are described.
• Figures can deviate slightly from the actual situation, due
to different set executions.
• For a good understanding of the following circuit
descriptions, please use chapter 9. Block Diagrams and
10. Circuit Diagrams and PWB Layouts. Where necessary,
you will find a separate drawing for clarification.

7.1

Introduction
The LC9.2L LA chassis is a digital derivative from the LC9.1A
LA chassis. Only the DTM part (digital Brazil) is different, but is
all incorporated in the MT5392 (+ other tuner). For all other
circuitry, refer to the LC9.1A LA Service Manual.

7.1.1

Architecture Overview
For details about the chassis block diagrams refer to chapter
Block Diagrams. An overview of the architecture can be found
in figure 7-1 Architecture.

18700_203_090828.eps
090828

Figure 7-1 Architecture
2010-Jul-01

EN 42
7.1.2

7.

LC9.2L LA

Circuit Descriptions

SSB Cell Layout

CVI 1

CVI 2

UART

18700_204_090828.eps
090828

Figure 7-2 SSB cell layout

7.2

PSU
All PSUs are so-called IPBs (Integrated Power Boards). That
are PSUs with integrated LCD inverters.
The power supplies are a black box for Service. When
defective, a new board must be ordered and the defective one
must be returned, unless the main fuse of the board is broken.
Always replace a defective fuse with one with the correct
specifications! This part is available in the regular market.
For an overview of the output voltages of the Power Supplies,
refer to the wiring diagrams in chapter Block Diagrams.
The following PSUs are used:
• 32-inch/50Hz: LGIT PLHL-T810B (155 W).
• 42-inch/50Hz: LGIT PLHL-T814B (205 W).
• 47-inch/50Hz: LGIT PLHL-T819B (270 W).
• 42-inch/100Hz: LGIT PLHL-T814A (220 W).
• 52-inch/100Hz: Delta DPS-411AP-3A (280 W).

2010-Jul-01

IC Data Sheets

LC9.2L LA

8.

EN 43

8. IC Data Sheets
This section shows the internal block diagrams and pin layouts
of ICs that are drawn as "black boxes" in the electrical diagrams
(with the exception of "memory" and "logic" ICs).

8.1

Diagram B03, Type TDA8932BT (IC7510), Audio Amplifier

Block diagram
OSCREF

OSCIO

10

VDDA

31

8
28

IN1P

2

OSCILLATOR

29
DRIVER
HIGH
PWM
MODULATOR

VSSD

IN1N
INREF
IN2P

CTRL
26

DRIVER
LOW

3
12

21

MANAGER

20

15

DRIVER
HIGH
PWM
MODULATOR

IN2N

27

22

CTRL
23

DRIVER
LOW

14
PROTECTIONS:
OVP, OCP, OTP,
UVP, TF, WP

VDDP1
OUT1
VSSP1

BOOT2
VDDP2
OUT2
VSSP2

VDDA
STABILIZER 11 V

DIAG

BOOT1

4

25

STAB1

VSSP1
VDDA
STABILIZER 11 V

CGND

POWERUP

7

6

REGULATOR 5 V

18

DREF

5
VDDA

11

30

TEST

STAB2

VSSD

MODE

ENGAGE

24

VSSP2

VSSA

TDA8932

13

19

HVPREF

HVP1

HVP2

HALF SUPPLY VOLTAGE
9

1, 16, 17, 32

VSSA

VSSD(HW)

Pinning information
VSSD(HW)

1

32 VSSD(HW)

IN1P

2

31 OSCIO

IN1N

3

30 HVP1

DIAG

4

29 VDDP1

ENGAGE

5

28 BOOT1

POWERUP

6

27 OUT1

CGND

7

26 VSSP1

VDDA

8

VSSA

9

TDA8932T

25 STAB1
24 STAB2

OSCREF 10

23 VSSP2

HVPREF 11

22 OUT2

INREF 12

21 BOOT2

TEST 13

20 VDDP2

IN2N 14

19 HVP2

IN2P 15

18 DREF

VSSD(HW) 16

17 VSSD(HW)
G_16860_045.eps
100326

Figure 8-1 Internal block diagram and pin configuration

2010-Jul-01

EN 44
8.2

8.

IC Data Sheets

LC9.2L LA

Diagram B04x, Type MT5392 (IC7701), CPU / Demodulator / Decoder

Block diagram
Tuner
In

Component
CVBS/
Analog
YC Input Input

DTD

VADCx4

Tuner
In

HDMI
Rx
HDMI In
I/F

Audio
Input

Audio
Demod

Audio
ADC

TV
Decoder
TS
Demux

LVDS

DDR2
GDDR3
DDR
DRAM
Controller

MJC and Post
Processing

Audio In
ARM11

Panel

VDO-In
Video Decoder

BIM
De-interlace

2-D Graphic

OSD
scaler

Vplane
scaler

DRAM Bus
IO Bus
Audio DSP
Audio I/F
Audio DAC

JTAG

IrDA

I2C

BScan

PVR

RTC

USB2.0

Watchdog

CEC

T8032 CKGEN

Serial Flash

UART SDIO Ethernet MAC

PWM

Servo ADC
NAND Flash

SPDIF, I2S
18700_302_090828.eps
100326

Figure 8-2 Internal block diagram

2010-Jul-01

IC Data Sheets

8.

EN 45

Diagram B05, Type ADV3002 (IC7B05), HDMI MUX

Block diagram
SEL[1:0] TX_EN
SERIAL
I2C_SDA
I2C_SCL
I2C_ADDR[1:0]
AVCC

2

RESETB

ADV3002

PARALLEL
CONFIG
INTERFACE

AVCC
AVEE

CONTROL
LOGIC

AVCC

LOS
IN_x_CLK+
IN_x_CLK–
IN_x_DATA2+
IN_x_DATA2–
IN_x_DATA1+
IN_x_DATA1–
IN_x_DATA0+
IN_x_DATA0–

+
–
+
–
+
–
+
–

+
–
+
–
+
–
+
–

4
4
4
4
4
4
4

SWITCH
CORE

EQ

OUT_CLK+
OUT_CLK–
OUT_DATA2+
OUT_DATA2–
OUT_DATA1+
OUT_DATA1–
OUT_DATA0+
OUT_DATA0–

TMDS

AVCC
DDC_xxx_A
DDC_xxx_B
DDC_xxx_C
DDC_xxx_D

AVCC

2
2
2
2

2

SWITCH
CORE
3.3V

DDC_SCL_COM,
DDC_SDA_COM

3.3V

CEC_OUT

CEC_IN
DDC/CEC
BIDIRECTIONAL

EDID_ENABLE

REPLICATOR
CONTROL

2

EDID_SCL,
EDID_SDA

EDID
P5V_A
P5V_B
P5V_C
P5V_D

5V
COMBINER

AMUXVCC

EDID EEPROM INTERFACE
HPD_A
HPD_B
HPD_C
HPD_D

HPD
CONTROL

EDID_ENABLE

EDID_SDA

EDID_SCL

AMUXVCC

CEC_IN

CEC_OUT

DDC_SCL_COM

DDC_SDA_D

DDC_SCL_D

DDC_SCL_C

DDC_SDA_C

DDC_SCL_B

DDC_SCL_A

DDC_SDA_B

DDC_SDA_A

P5V_D

P5V_A

P5V_C

P5V_B

Pinning information

DDC_SDA_COM

HOT PLUG DETECT

80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61

60

IN_C_DATA2+

59

IN_C_DATA2–

3

58

HPD_C

IN_B_DATA0–

4

57

IN_C_DATA1+

IN_B_DATA0+

5

56

IN_C_DATA1–

HPD_A

6

55

HPD_D

IN_B_DATA1–

7

54

IN_C_DATA0+

IN_B_DATA1+

8

53

IN_C_DATA0–

AVCC

9

52

AVCC

IN_B_DATA2– 10

51

IN_C_CLK+

IN_B_DATA2+ 11

50

IN_C_CLK–

SEL0 12

IN_B_CLK–

1

IN_B_CLK+

2

HPD_B

PIN 1

ADV3002
TOP VIEW
(Not to Scale)

49

I2C_ADDR0

IN_A_CLK–

13

48

IN_D_DATA2+

IN_A_CLK+

14

47

IN_D_DATA2–

SEL1

15

46

AVEE

IN_A_DATA0– 16

45

IN_D_DATA1+

IN_A_DATA0+ 17

44

IN_D_DATA1–

AVCC 18

43

AVCC

IN_A_DATA1– 19

42

IN_D_DATA0+

IN_A_DATA1+ 20

41

IN_D_DATA0–

I2C_SDA

IN_D_CLK–

IN_D_CLK+

I2C_ADDR1

RESETB

OUT_CLK–

AVCC

OUT_CLK+

OUT_DATA0–

OUT_DATA0+

AVEE

OUT_DATA1–

OUT_DATA1+

I2C_SCL

OUT_DATA2–

TX_EN

OUT_DATA2+

AVEE

IN_A_DATA2–

21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40

IN_A_DATA2+

8.3

LC9.2L LA

18700_301_090828.eps
100326

Figure 8-3 Internal block diagram and pin configuration

2010-Jul-01

EN 46

8.

LC9.2L LA

IC Data Sheets

Personal Notes:

10000_012_090121.eps
090121

2010-Jul-01

Block Diagrams

LC9.2L LA

9.

EN 47

9. Block Diagrams
Wiring Diagram 32" (P & S)
WIRING DIAGRAM 32" (P&S)
Board Level Repair
Component Level Repair
Only For Authorized Workshop

LCD DISPLAY (1004)

8319

8316

CN4
11. FAN_PWM
10. GND_SND
9. +VSND
8. +12V
7. +12V
6. +12V
5. GND1
4. GND1
3. GND1
2. STANDBY
1. 3V3_ST

KEYBOARD CONTROL

MAIN POWER SUPPLY
IPB 32 PLHL-T810B
(1005)

8M95

8M99

51. GND
...
...
...
4. +VDISP
3. +VDISP
2. +VDISP
1. +VDISP

SSB
(1150)

+5V_SW
KEYBOARD
LED1
+3V3STBY
LED2
IR
GND
LIGHT-SENSOR

1M95 (B01)
11. N.C
10. GNDSND
9. +24VAUDIO
8. +12VS
7. +12VS
6. +12VS
5. GND
4. GND
3. GND
2. STANDBY
1. +3V3STBY
1M99 (B01)
12. GND
11. N.C
10. N.C
9. POWER-OK
8. GND
7. BACKLIGHT_BOOST
6. PWM_DIMMING
5. BL_ON_OFF
4. GND
3. GND
2. +12VDISP
1. +12VDISP

1. N
2. L

CN1

B

1M20 (B04c)
8.
7.
6.
5.
4.
3.
2.
1.

CN5
12. GND1
11. I2C_DATA
10. I2C_SCL
9. INV_OK
8. A/P_DIM
7. BOOST
6. DIM
5. BL_ON_OFF
4. GND1
3. GND1
2. +12V
1. +12V

1G50 (B04D)
1. GND
2. GND
...
...
38. +VDISP
39. +VDISP
40. +VDISP
41. +VDISP

1G51 (B04D)

1. HV2
2. N.C.
3. HV2

CN3

1. HV1
2. N.C.
3. HV1

CN2

8G51

1735 (B03)
4.
3.
2.
1.

TO
BACKLIGHT

IR LED PANEL

1736 (B03)
3. SPEAKER_RIGHT2. N.C.
1. SPEAKER_LEFT+

INLET

RIGHT SPEAKER
P2

P1

3P

8P

SPEAKER_RIGHTSPEAKER_RIGHT+
SPEAKER_LEFTSPEAKER_LEFT+

TO
BACKLIGHT

LEFT SPEAKER

18700_400_090818.eps
090824

2010-Jul-01

Block Diagrams

LC9.2L LA

9.

EN 48

Wiring Diagram 42" (P & S)
WIRING DIAGRAM 42" (P&S)
Board Level Repair
Component Level Repair
Only For Authorized Workshop

LCD DISPLAY (1004)
8319
51P

8316

CN4
11. FAN_PWM
10. GND_SND
9. +VSND
8. +12V
7. +12V
6. +12V
5. GND1
4. GND1
3. GND1
2. STANDBY
1. 3V3_ST

8M95

1G50 (B04D)
1. GND
2. GND
...
...
38. +VDISP
39. +VDISP
40. +VDISP
41. +VDISP

KEYBOARD CONTROL

MAIN POWER SUPPLY
IPB 42 PLHL-T814B

51. GND
...
...
...
4. +VDISP
3. +VDISP
2. +VDISP
1. +VDISP

1G51 (B04D)

1. HV2
2. N.C.
3. HV2

CN3

1. HV1
2. N.C.
3. HV1

CN2

8G51

B

SSB
(1150)

(1005)

1M20 (B04c)

CN5
12. GND1
11. I2C_DATA
10. I2C_SCL
9. INV_OK
8. A/P_DIM
7. BOOST
6. DIM
5. BL_ON_OFF
4. GND1
3. GND1
2. +12V
1. +12V

8M99

8.
7.
6.
5.
4.
3.
2.
1.

+5V_SW
KEYBOARD
LED1
+3V3STBY
LED2
IR
GND
LIGHT-SENSOR

1M95 (B01)
11. N.C
10. GNDSND
9. +24VAUDIO
8. +12VS
7. +12VS
6. +12VS
5. GND
4. GND
3. GND
2. STANDBY
1. +3V3STBY

1M99 (B01)
12. GND
11. N.C
10. N.C
9. POWER-OK
8. GND
7. BACKLIGHT_BOOST
6. PWM_DIMMING
5. BL_ON_OFF
4. GND
3. GND
2. +12VDISP
1. +12VDISP

4.
3.
2.
1.

SPEAKER_RIGHTSPEAKER_RIGHT+
SPEAKER_LEFTSPEAKER_LEFT+

1736 (B03)
3. SPEAKER_RIGHT2. N.C.
1. SPEAKER_LEFT+

TO
BACKLIGHT

8308

TO
BACKLIGHT

1. N
2. L

CN1

FUSE

1735 (B03)

SUB WOOFER

INLET

+ -

+ -

IR LED PANEL

RIGHT SPEAKER
P2

P1

3P

8P

LEFT SPEAKER

18700_401_090818.eps
090821

2010-Jul-01

Block Diagrams

LC9.2L LA

9.

EN 49

Wiring Diagram 42"(Frame)
WIRING DIAGRAM 42" (FRAME)

LCD DISPLAY (1004)
8319
51P

41P

TO
BACKLIGHT

TO
BACKLIGHT
8316

1G51 (B04D)
51. GND
...
...
...
4. +VDISP
3. +VDISP
2. +VDISP
1. +VDISP

1. HV2
2. N.C.
3. HV2

CN3

1. HV1
2. N.C.
3. HV1

CN2

8G51

1G50 (B04D)

MAIN POWER SUPPLY
IPB 42 PLHL-T814A
(1005)

11. FAN_PWM
10. GND_SND
9. +VSND
8. +12V
7. +12V
6. +12V
5. GND1
4. GND1
3. GND1
2. STANDBY
1. 3V3_ST

1. GND
2. GND
...
...
38. +VDISP
39. +VDISP
40. +VDISP
41. +VDISP

8G50

B

SSB
(1150)

1M20 (B04c)
8.
7.
6.
5.
4.
3.
2.
1.

8M20

CN5

(1114)

12. GND1
11. I2C_DATA
10. I2C_SCL
9. INV_OK
8. A/P_DIM
7. BOOST
6. DIM
5. BL_ON_OFF
4. GND1
3. GND1
2. +12V
1. +12V

+5V_SW
KEYBOARD
LED1
+3V3STBY
LED2
IR
GND
LIGHT-SENSOR

8M95

1M95 (B01)
11. N.C
10. GNDSND
9. +24VAUDIO
8. +12VS
7. +12VS
6. +12VS
5. GND
4. GND
3. GND
2. STANDBY
1. +3V3STBY

8M99

1M99 (B01)
12. GND
11. N.C
10. N.C
9. POWER-OK
8. GND
7. BACKLIGHT_BOOST
6. PWM_DIMMING
5. BL_ON_OFF
4. GND
3. GND
2. +12VDISP
1. +12VDISP
1735 (B03)
4.
3.
2.
1.

FUSE

8308

8735

1. N
2. L

CN1

INLET

SPEAKER_RIGHTSPEAKER_RIGHT+
SPEAKER_LEFTSPEAKER_LEFT+

1736 (B03)
3. SPEAKER_RIGHT2. N.C.
1. SPEAKER_LEFT+

Board Level Repair

+ -

Component Level Repair
Only For Authorized Workshop
IR LED PANEL

SPEAKER RIGHT (5212)

(1112)

+ -

KEYBOARD CONTROL

CN4

P2

P1

3P

8P

SPEAKER LEFT (5211)
18700_402_090818.eps
090821

2010-Jul-01

Block Diagrams

LC9.2L LA

9.

EN 50

Wiring Diagram 47"(P & S)
WIRING DIAGRAM 47" (P&S)
Board Level Repair
Component Level Repair
Only For Authorized Workshop

LCD DISPLAY (1004)
8319
51P

8316

1G51 (B04D)
51. GND
...
...
...
4. +VDISP
3. +VDISP
2. +VDISP
1. +VDISP

1. HV2
2. N.C.
3. HV2

CN3

1. HV1
2. N.C.
3. HV1

CN2

8G51

CN4
11. FAN_PWM
10. GND_SND
9. +VSND
8. +12V
7. +12V
6. +12V
5. GND1
4. GND1
3. GND1
2. STANDBY
1. 3V3_ST

8M95

1G50 (B04D)
1. GND
2. GND
...
...
38. +VDISP
39. +VDISP
40. +VDISP
41. +VDISP

KEYBOARD CONTROL

MAIN POWER SUPPLY
IPB 47 PLHC-T819A

B

SSB
(1150)

(1005)

1M20 (B04c)

CN5
12. GND1
11. I2C_DATA
10. I2C_SCL
9. INV_OK
8. A/P_DIM
7. BOOST
6. DIM
5. BL_ON_OFF
4. GND1
3. GND1
2. +12V
1. +12V

8M99

8.
7.
6.
5.
4.
3.
2.
1.

+5V_SW
KEYBOARD
LED1
+3V3STBY
LED2
IR
GND
LIGHT-SENSOR

1M95 (B01)
11. N.C
10. GNDSND
9. +24VAUDIO
8. +12VS
7. +12VS
6. +12VS
5. GND
4. GND
3. GND
2. STANDBY
1. +3V3STBY

1M99 (B01)
12. GND
11. N.C
10. N.C
9. POWER-OK
8. GND
7. BACKLIGHT_BOOST
6. PWM_DIMMING
5. BL_ON_OFF
4. GND
3. GND
2. +12VDISP
1. +12VDISP

1. N
2. L

CN1

FUSE

1735 (B03)

SUB WOOFER

4.
3.
2.
1.

SPEAKER_RIGHTSPEAKER_RIGHT+
SPEAKER_LEFTSPEAKER_LEFT+

1736 (B03)
3. SPEAKER_RIGHT2. N.C.
1. SPEAKER_LEFT+

TO
BACKLIGHT

8308

TO
BACKLIGHT

INLET

+ -

+ -

IR LED PANEL

RIGHT SPEAKER
P2

P1

3P

8P

LEFT SPEAKER

18700_403_090818.eps
090821

2010-Jul-01

Block Diagrams

LC9.2L LA

9.

EN 51

Wiring Diagram 52"(Frame)
WIRING DIAGRAM 52" (FRAME)

LCD DISPLAY (1004)

41P

51P

CN4
11. FAN_PWM
10. GND_SND
9. +VSND
8. +12V
7. +12V
6. +12V
5. GND1
4. GND1
3. GND1
2. STANDBY
1. 3V3_ST

MAIN POWER SUPPLY
PSU DPS-411AP4A B

8319

AMBI_SCL_OUT
GND
AMBI_SDA_OUT
I2S_SEL1
I2S_SEL2
+3V3_SW
GND

1M59 (B04E)

1.
2.
3.
4.
5.
6.
7.

SSB
(1150)

12. GND1
11. I2C_DATA
10. I2C_SCL
9. INV_OK
8. A/P_DIM
7. BOOST
6. DIM
5. BL_ON_OFF
4. GND1
3. GND1
2. +12V
1. +12V

+5V_SW
KEYBOARD
LED1
+3V3STBY
LED2
IR
GND
LIGHT-SENSOR

1M95 (B01)
11. N.C
10. GNDSND
9. +24VAUDIO
8. +12VS
7. +12VS
6. +12VS
5. GND
4. GND
3. GND
2. STANDBY
1. +3V3STBY

CN5

INVERTER
CONNECTOR

B

1M20 (B04c)
8.
7.
6.
5.
4.
3.
2.
1.

(1005)

(1114)

8M95
8M99

1M99 (B01)
12. GND
11. N.C
10. N.C
9. POWER-OK
8. GND
7. BACKLIGHT_BOOST
6. PWM_DIMMING
5. BL_ON_OFF
4. GND
3. GND
2. +12VDISP
1. +12VDISP
1735 (B03)
4.
3.
2.
1.

SPEAKER_RIGHTSPEAKER_RIGHT+
SPEAKER_LEFTSPEAKER_LEFT+

FUSE

1736 (B03)
3. SPEAKER_RIGHT2. N.C.
1. SPEAKER_LEFT+

8735

INLET
8308

8M20

Board Level Repair
+ -

SPEAKER RIGHT (5212)

Component Level Repair
Only For Authorized Workshop

IR LED PANEL
(1112)

P2

P1

3P

8P

+ -

CN1

KEYBOARD CONTROL

1G50 (B04D)
1. GND
2. GND
...
...
38. +VDISP
39. +VDISP
40. +VDISP
41. +VDISP

8G50

CN3/1316
12. N.C.
11. N.C.
10. GND3
9. GND3
8. GND3
7. GND3
6. GND3
5. 24Vinv
4. 24Vinv
3. 24Vinv
2. 24Vinv
1. 24Vinv

1G51 (B04D)
51. GND
...
...
...
4. +VDISP
3. +VDISP
2. +VDISP
1. +VDISP

6. GND
5. +24V
4. GND
3. +24V
2. GND
1. +24V

14. PDIM_Select
13. PWM
12. On/Off
11. Vbri
10. GND3
9. GND3
8. GND3
7. GND3
6. GND3
5. 24Vinv
4. 24Vinv
3. 24Vinv
2. 24Vinv
1. 24Vinv

1. N
2. L

INVERTER

CN7

CN2/1319

8316

INVERTER
CONNECTOR

8G51

SPEAKER LEFT (5211)

18700_404_090818.eps
090821

2010-Jul-01

Block Diagrams

LC9.2L LA

9.

EN 52

Block Diagram Video
VIDEO
B02A TUNER & ANALOG DEMOD

B04 MT5392:

B04D DISPLAY INTERFACE - LVDS

7701
MT5392RHMJ

1205
VA1G5BF8010

TUNER

DEMOD_RESET
RF_SW
GAIN_SW

11
SYRSTN
1
RF-SW
2
GAIN-SW
15
SBYTE
16
SPBVAL
17
SRDT
18
SRCK
AFT
SIF_OUT

5
6

SIF_OUT_1

7

CVBS0T

3246
7213
EF

G29

B04D LVDS

B04C GPIO

1G50
1

GPIO_4
D29
GPIO_11
E27
GPIO_12

TSO_SYNC
TSO_VALID
TSO_DATA0
TSO_CLK

C30
A30
C29
B30

AFT

AK28

SIF_OUT

AB26

CVBS_RF

AD29

VIDEO_OUT

2
LVDS_A_TXo

B04A PM_DEMOD
TSO_SYNC
TSO_VALID
TSO_DATA
TSO_CLK

3

TO DISPLAY

LVDS_A_TXe
32

B06D CVBS_SPDIF_USB
ADIN_6
B06B AVI

38
39
40

MPX0_P

41

+VDISP

CVBS_0
1G51
51

QUAD LVDS
1920x1080
100/120Hz

50

1

DRX2+

3

DRX2DRX1+

4
6
7

DRX1DRX0+

9
10

DRXC+

12

DRXC-

LVDS_B_TXe
2
CVBS

11

CVBS_3

3
2

B06C ANALOG I/O - CINCH
AH20

1E17
CRX2+

3

CRX2CRX1+

4
6
7

CRX1CRX0+

9
10

CRXC+

12

CRXC-

CRX0-

12

Y

9

PB

BRX2+

3

BRX2BRX1+

4
6
7

BRX1BRX0+

9
10

BRXC+

12

BRXC-

SC1_G
SC1_B
SC1_CVBS_OUT

Y0P-SC1

Y0P

PB0P-SC1
PR0P-SC1

PB0P
PR0P

SOY0

+VDISP

1

AJ21
Y0P
AJ19
PB0P
AH22
PR0P

Y0P-SC1

Y0N

AH21

PBR0N-SC1

PBR0N

AK22

7
PR

Y0N
PBR0N

1E19
12

Y

1

TO DISPLAY

9

PB

SY1P_SC2
PB1P_SC2

SY1P
SPB1P
SPR1P

PR1P_SC2

7
PR

AJ18
Y1P
AJ19
PB1P
AH19
PR1P

SY1N

AJ19

SPBR1N

AH19

PB1P
PR1P

BRX0-

B06D SIDE-AV & USB
B06D SIDE-AV & USB

B06D CVBS-SPDIF_USB
1F18

1B05
1

ARX2+

3

ARX2ARX1+

4
6
7

2
CVBS

ARX1ARX0+

9
10

ARXC+

12

ARXC-

ARX0-

1F12
1

CVBS2

AE29

SY0

AF30

SC0

AF29

CVBS_2
TO
7F01-6
SY_0

3

SVHS IN 5
4

2

SC_0

1F21
1
1

1
2
19
18
1
2
19
18
1
2
19
18

HDMI SIDE
CONNECTOR

AE230

4

SOY0

1B04

HDMI 3
CONNECTOR
(OPTIONAL)

CVBS3

PR

DRX0-

1

49
40

1D14

1B07

HDMI 2
CONNECTOR

LVDS_B_TXo

USB_DM0
USB_DP0

USB_DM0
USB_DP0

AAJ5
AK5

2
3

3 2

HDMI 1
CONNECTOR

MT5392

B06B ANALOG I/O - YPBPR

1B02

4

4

19
18

1
2

B05 HDMI & MUX

I2C

USB 2.0
CONNECTOR SIDE
SW UPLOAD
JPEG
MP3

B06E VGA
1G16

10

CRX2CRX1+

59
57

47
45

DRX2DRX1+

44
IN_D 42

DRX1DRX0+

41

DRX0-

38

DRXC+

37

DRXC-

CRX1CRX0+

56
IN_C
54

CRX0-

53

CRXC+

51

CRXC-

50

BRX2+

11

BRX2BRX1+

10
8

HDMI
SWITCH

BRX1BRX0+

7
IN_B
5

BRX0-

4

BRXC+

2

BRXC-

1

ARX2+

23

ARX2ARX1+

22
20

ARX1ARX0+

19 IN_A
17

ARX0-

16

ARXC+

14

ARXC-

13

1

VGA_R

VGA_Rp

RP

2

VGA_G

GP

3
13
14

VGA_B
H-SYNC

VGA_Gp
VGA_Bp

5

DRX2+

1

48

6

60

11

CRX2+

15

7B05
ADV3002BSTZ01

BP
HSYNC

V-SYNC

VSYNC

VGA
CONNECTOR

VGA_Rn
VGA_Gn

RN
GN

VGA_Bn

BN

B04C FLASH & EJTAG
AK17 RP
AK16
GP
AH15
BP
AK14
HSYNC
AJ14
VSYNC

7810
NAND01GW3B2BN6F

B04C FLASH_IF

PDD

B04B DREAM_IF

B04B GDDR3

B05 HDMI_XTAL_LDO

34
OUT_CLK_+
35
OUT_CLK_31
OUT_DATAD0_+
32
OUT_DATAD0_28
OUT_DATAD1_+
OUT_DATAD1_OUT_DATAD2_+
OUT_DATAD2_-

RX0+
RX0RX1+
RX1-

29
25

RX2+

26

RX2-

7702
H5RS1H23MFR

XTAL1
(0-12)

W30

XTALO

AK6
HDMI_RXC_B_N
AJ6
HDMI_RXC_B_P
AK7
HDMI_RX0_B_N
AJ7
HDMI_RX0_B_P
AK8
HDMI_RX1_B_N
AJ8
HDMI_RX1_B_P
AK9
HDMI_RX2_B_N
AJ9
HDMI_RX2_B_P

RXC+
RXC-

FLASH
1G

AJ17
RN
AJ16
GN
AJ15 BN

W29
1B10
27M

NAND_PDD(0-7)

RDQ

DDR3
SDRAM

DQ(0-31)

7703
H5RS1H23MFR

RA

RA(0-12)

DDR3
SDRAM

(0-31)
18700_405_090818.eps
090818

2010-Jul-01

Block Diagrams

LC9.2L LA

9.

EN 53

Block Diagram Audio
AUDIO
B02A

B04

TUNER & ANALOG DEMOD

B03

MT5392:

CLASS-D & MUTING

7701
MT5392RHMJ

1205
VA1G5BF8010

B06B ALI_ADAC

TUNER

DEMOD_RESET
RF_SW
GAIN_SW

11
SYRSTN
1
RF-SW
2
GAIN-SW
15

SBYTE
16
SPBVAL
17
SRDT
18
SRCK
SIF_OUT

6

SIF_OUT_1

7

CVBS0T

3246
7213
EF

G29

GPIO_4
D29
GPIO_11
E27
GPIO_12

TSO_SYNC
TSO_VALID
TSO_DATA0
TSO_CLK

C30
A30
C29
B30

SIF_OUT

AB26

CVBS_RF

AD29

AFT

AK28

VIDEO_OUT
AFT

5

B04C GPIO

7510
TDA8932BTW/N2

B04A PM_DEMOD
TSO_SYNC
TSO_VALID
TSO_DATA
TSO_CLK
B06B AVI

STANDBYn

B04A

6

27

SPEAKER_LEFT+

1735
1

7507
MUTEn

B04A

MUTE

5

MUTE

POWER_DOWN
B04A
(CONTROL)

MPX0_P
PGA_2OUTL
CVBS_0

PGA_2OUTR

B06D CVBS_SPDIF_USB
ADIN_6

M30

AUDIO_LS_L

AOUTL

2

M29

AUDIO_LS_R

AOUTR

14

CLASS D
POWER
AMPLIFIER

SPEAKER_LEFT-

2

SPEAKER_RIGHT+

3

SPEAKER_RIGHT-

4

22

7511÷7513
DC_PROT

B04C
(CONTROL)

B06B

HDMI & MUX

DRX2+

3

DRX2DRX1+

4
6
7

1D01

1
2
19
18

MUTE_C
J28

ASPDID_OUT

2

ASPDIF_OUT

9
10

DRXC+

12

DRXC-

1

CRX2+

3

CRX2CRX1+

4
6
7

B06D
AUDIO
L/R IN

AV2_L_IN

9
10

CRXC+

12

CRXC-

U29

AIN_2_L
HPOUTL

3

U28

AV2_R_IN

AIN_2_R
HPOUTR

CRX0-

1
2
19
18

3

BRX2BRX1+

4
6
7
9
10

1
2

B06C

HP_LOUT

M27

HP_ROUT

1F22
2
3
B04C
(CONTROL)

2

DVI_AUL_IN

U27

3

DVI_AUR_IN

U26

HP_DET

4
1

HEADPHONE

AIN3_L
AIN3_R

BRXC+

12

BRXC-

AIN0_L

52

3

AIN0_L

53

5

AIN1_L

V30

3

AIN1_R

V29

5

AV IN
AUDIO
L/R

SC2-IN-L

USB_DM0
USB_DP0

USB_DM0
USB_DP0

AJ5
AK5

2
3
4

USB 2.0
CONNECTOR SIDE
SW UPLOAD
JPEG
MP3

SC2-IN-R

1E17

1B05

AV OUT
AUDIO
L/R

ARX2+
ARX2ARX1+

4
6
7

1F21
1

ANALOG I/O - CINCH
1E19

BRX0-

AIN1_L
AIN1_R

ARX1ARX0+

9
10

ARXC+

12

ARXC-

ARX0-

B06D

SIDE-AV & USB

B04C

B04C FLASH_IF

FLASH & EJTAG

1F18

48

DRX2+

CRX2CRX1+

59
57

47
45

DRX2DRX1+

CRX1CRX0+

56
IN_C
54

44
IN_D 42

DRX1DRX0+

CRX0-

53

41

DRX0-

CRXC+

51

38

DRXC+

CRXC-

50

37

DRXC-

BRX2+

11

BRX2BRX1+

10
8

HDMI
SWITCH

BRX1BRX0+

7
IN_B
5

BRX0-

4

BRXC+

2

ARXC+

34
OUT_CLK_+
35
OUT_CLK_31
23
OUT_DATAD0_+
32
22
OUT_DATAD0_28
20
OUT_DATAD1_+
19 IN_A OUT_DATAD1_- 29
25
17
OUT_DATAD2_+
16
26
OUT_DATAD2_14

ARXC-

13

ARX0-

SIDE-AV & USB

1

BRX1BRX0+

60

ARX1ARX0+

B06B

1

BRX2+

CRX2+

ARX2ARX1+

B06C

B06D CVBS-SPDIF_USB

1

7B05
ADV3002BSTZ01

ARX2+

M28

1D11

CRX1CRX0+

3

BRXC-

MUTE_M

B06B ALI_DAC

1D14
5

1

HDMI SIDE
CONNECTOR

ANTI_PLOP

DRX0-

1B04

HDMI 3
CONNECTOR
(OPTIONAL)

SW_MUTE

B04A
(CONTROL)

DRX1DRX0+

1B07

HDMI 2
CONNECTOR

MT5392

ANALOG I/O - YPBPR

3 2

HDMI 1
CONNECTOR

1

4

19
18

1
2

1B02

19
18

B05

DC-DETECTION

1

SIDE AV
AUDIO
L/R

5

SAV_L_IN

R28

8

SAV_R_IN

T28

AIN_6_L

7810
NAND01GW3B2BN6F

AIN_6_R

PDD

B05 HDMI_XTAL_LDO
W29
1B10
27M

RXC+
RXCRX0+
RX0RX1+
RX1RX2+
RX2-

B04B DREAM_IF

NAND_PDD(0-7)

B04B

GDDR3
7702
H5RS1H23MFR

XTAL1
(0-12)

W30

XTALO

AK6
HDMI_RXC_B_N
AJ6
HDMI_RXC_B_P
AK7
HDMI_RX0_B_N
AJ7
HDMI_RX0_B_P
AK8
HDMI_RX1_B_N
AJ8
HDMI_RX1_B_P
AK9
HDMI_RX2_B_N
AJ9
HDMI_RX2_B_P

FLASH
1G

RDQ

DDR3
SDRAM

DQ(0-31)

7703
H5RS1H23MFR

RA

RA(0-12)

DDR3
SDRAM

(0-31)
18700_406_090818.eps
090819

2010-Jul-01

Block Diagrams

LC9.2L LA

9.

EN 54

Block Diagram Control & Clock Signals
CONTROL + CLOCK SIGNALS
B04C

FLASH & EJTAG

B04B

7701
MT5392RHMJ

Personal Notes:

GDDR3
7702
HYB18H1G321AF

B04B DREAM_IF

RDQ

DQ(0-31)

RA

RA(0-12)

RCLK0
RCLK0

DDR3

M2

RCLK0p

J11

M3

RCLK0n

J10

B04C

B04C FLASH_IF

FLASH & EJTAG
7810
NAND01GW3B2CN6F

MT5392

FLASH
1G

NAND_PDDD(0-7)

PDD

B04C GPIO
2843

AJ2

SDM
2833

AJ1

GPIO_16

GPIO_20
GPIO_15

PANEL
B03
B06D
B06D
B06D

DC_PROT

AH5

USB_PWE

AG6

USB_OC

AF7

HP_DET

G30

GPIO_14

GPIO_24

AK2

EDID_WC

B28

LCD_PWR_ON

D28

BL_ON_OFF

B05 B06E
B04D
B01

GPIO_0
GPIO_1
GPIO_2
GPIO_17
B04C SPIO_UART_IIC
D_1

OPWM_1

LVDS_SELECT

E9

B01

BACKLIGHT_BOOST

K27

B01

7816
OPWM_2

PWM_DIMMMING

C5

B01
1813

AJ13

UART_RX

3

U0TX AK13

UART_TX

2

U0RX

UART
SERVICE
CONNECTOR

1

1812
IR

AK11

OIRI
B04A PM_DEMOD

UART_RX

2

UART_TX

3

7602

RES

STANDBY

OPWRSB
OPCTRL_0
OPCTRL_5
OPCTRL_3
OPCTRL_4
OPCTRL_2
OPCTRL_8

AH14

STANDBYn

AJ12

HDMI_CEC

AF12

POWER_DOWN

AG11

MUTEn

AF13

SW_MUTE

AG12

LED1

AH13

LED2

B06D

B06D CVBS_SPDIF_USB

FOR
DEBUGGING
ONLY

B01
B03
B05
B03
B03
B03

SIDE-AV & USB

7F01
TPS2041BD
OUT

EN
OC

1M20
1
2

AK29

LIGHT_SENSOR

AJ29

KEYBOARD

AJ28

1F21
1

ADIN_6
ADIN_4
ADIN_3

AJ5
USB_DM0
AK5
USB_DP0

USB20-DM0
USB20-DP0

1

POWER-OK

B03

2
3

3 2

B01

AK28

B03

USB_OC

4

4

B02A

RF_AGC_MON

USB_PWE

USB 2.0
CONNECTOR
SIDE

ADIN_5

3
4
TO IR/LED PANEL
AND
KEYBOARD CONTROL 5

+3V3STBY

6
7
8

E_06532_012.e
1310

+5V_SW
18700_407_090818.eps
090819

2010-Jul-01

Block Diagrams

LC9.2L LA

9.

EN 55

Block Diagram I2C
I²C
B05

FLASH & EJTAG

B04D

HDMI & MUX

+3V3_SW

3B38

J30

3830

3831

B04C

DISPLAY INTERFACE - LVDS

VDDO_3V3
3B39

B04C

CONTROLLER

7701
MT5392RHMJ

SDA

OSDA0
SCL

38A4

EEPROM
(NVM)

HDMI
MUX

3

ERR
17

6

+5V_COMBINED

DDC-SDA
38A9

AK10

DDC-SCL

74

3B46

73

ARX-DDC-CLK

15

1G51
50

3916 LVDS3_SDA_DISP

HDMI
CONNECTOR
SIDE

3917

49

LVDS3_SCL_DISP

TO DISPLAY

RES

1B04
BRX-DDC-DAT

16

BRX-DDC-CLK

15

HDMI
CONNECTOR 3
(OPTIONAL)

B06E

VGA

68
67
DC_5V

DREAM_IF

3891

DQ(0-31)

1

DDR3

L28

4

16

DRX-DDC-CLK

15

L29

RA(0-12)

SCL_VGA

5

6

7G11
M24C02

HDMI
CONNECTOR 1

EEPROM
4G14

DRX-DDC-DAT

+5V_COMBINED

3

SDA_VGA

1B02

3B34

7703
H5RS1H23MFR

1812
2

3B35

3890

3889

7702
H5RS1H23MFR

B04B

3888

69

4G11

VGA
CONNECTOR

3B54

70

+3V3STBY

3B55

GDDR3

15

3G16

10

DRX-5V

1

B04B

15

3B53

5

HDMI
CONNECTOR 2

15

CRX-DDC-CLK

71

4G12

4G13

UART
SERVICE
CONNECTOR

2

12

16

CRX-DDC-DAT

1

3

3868

UART_TX

72

6

38A8

UA0RX

1813

3869

11

AK13

UART_RX

3865

3823

3864

AJ13

1G16
1B07

3G15

CRX-5V

+3V3STBY

UA0TX

16

3B52

OSCL2

3B19

FOR DEBUGGING ONLY
AJ10

1B05
ARX-DDC-DAT

BRX-5V

4

FLASH
512Mx8

OSDA2

75

1
ERR
15

NAND_PDD

76

3B50

MT5392

7B05
ADV3002BSTZ

1818
2

3B51

7810
NAND01GW3B2BN6F

38A3

ARX-5V

27

7

3B20

GPIO-18

40

7812
M24C64

7815
SYS_EEPROM_WE

L28

6

3B47

5

389F

SPIO_UART
IIC

RES
+3V3_SW
389D

ERR
14

3838

J29

3839

OSCL0

7G12
B04C
RES

EDID_WC

7

EDID_SDA
EDID_SCL

6
5

FOR DEBUGGING ONLY

B04E

7B07

AMBILIGHT
B04C

OSCL1

K29

AMBI-SCL

5A14

3A13

5A16

3A10

AMBI-SDA

3A11

K30
OSDA1

EDID_WC

7

6

7B02
M24C02
EEPROM
(EDID)

+3V3_SW

1M59
3
1
5

5A10
+3V3_SW

6

TO AMBILIGHT
DRIVERS

2
7
RES

B04A

MTK POWER

B02A

TUNER & ANALOG DEMOD

DATA
CLK

L28
L29

TUNER_SDA
TUNER_SCL
3271

PM_DEMOD

3270

B04A

3607

+3V3_SW
3606

B04

12

13

1205
VA1G5BF8010
MAIN
TUNER
ERR
16

18700_408_090819.eps
090819

2010-Jul-01

Block Diagrams

LC9.2L LA

9.

EN 56

Supply Lines Overview
SUPPLY LINES OVERVIEW
B01
+12V
+12V
GND1
GND1
BL-ON_OFF
DIM
BOOST
A/P_DIM
INV_OK

MAIN
I2C
POWER SUPPLY GND1
I2C

3V3_ST

CN5
1

B04D

DC / DC

1M99
1

B02A

+12VDISP

2

3

3

4

4

5

5

+1V2_SW

+5V5_TUN

+3V3_SW

+5V5_TUN

+5V5_TUN

BL_ON_OFF
PWM_DIMMING

7

7

BACKLIGHT_BOOST

9

9

10

10

11

11

IN OUT
COM

B04C
CONTROL
B04C
CONTROL

POWER-OK

GND1
+12V
+12V
+12V

IN OUT
COM

B03

1M95
1

B03,B04a,c,
B05,B07

2

2

3

3

4

4

5

5

B04A
CONTROL

CLASS-D & MUTING

+24VAUDIO

+24VAUDIO
VDDA

+3V3STBY

6

7

7

8

8

9

9

10

10

5100

11

7100

+8V_SW

IN OUT
COM

B04a

B04A

HDMI 2
CONNECTOR

MTK POWER

+1V0_SW

7

5101

+1V0_SW

B01

SENCE+1V0_MT5392

B01

B02a
+5V_SW
+3V3_SW
+12V_1

+1V8_SW
B04a,b

1B05
18

ARX-5V

1B04
18

BRX-5V

1B01
3
1B02
18

DRX-5V

1B07
18

CRX-5V
+3V3STBY

B06A

DIGITAL IO - ETHERNET (PROVISIONAL)

+1V2_SW

+1V2_SW

+3V3_SW

+3V3_SW

+3V3STBY

+3V3STBY

5NA1

+3V3AN

+1V8_SW

+1V8_SW

5NA2

+3V3DN

+8V_SW

+8V_SW

B01

B01
B02a,B03,B04c,
B05,B06d,e,B07
B02a,B03,
B04a,c,e,
B05,B06a,b,d

+1V2_SW

B01

SENSE+1V0_MT5392
+5V5_TUN

+5V_COMBINED

+3V3STBY

B01

+1V0_SW

B04a

3

+3V3_SW

+3V3_SW

B01
B01
B01

+12VS

+12VS

B06B

B01

+1V2_SW
B01

B02a,B04a,B05
+24VAUDIO

B04B

+1V8_SW

B01

B01
TO AMBILIGHT
MODULE
(OPTIONAL)

B01

FLASH & EJTAG

+3V3_SW

2

+3V3_SW

B06D

+1V8_SW

N.C.

B04C

ANALOG I/O - YPbPr

+3V3_SW
5810

SIDE-AV & USB

+3V3_SW

+3V3_SW

+5V_SW

+5V_SW

B06E

VGA

+3V3_FLASH

+3V3STBY

B01

+3V3STBY

+5V_SW

+5V_SW
6G13

B01
+5V_SW

DC_5V

+5V_SW

B01
5814

1M20
5

5815

8

TO
IR/LED
PANEL

B07
B01
B01

2010-Jul-01

+3V3_SW

GDDR3

B01

1

6

HDMI 1
CONNECTOR

B03,B04a

CN7

5

+12VS

B01

B03

11

BOLT-ON
MOD. DTV

+5V_SW

B01

GNDSND

GND

+3V3STBY

HDMI 3
CONNECTOR

B01

+12VS

7116
TPS54386PWP
1,14
3 5104
Non
Synchronous
5115
Converter 12

+24V

VDD
+3V3_SW

6B07

+5V_SW

HDMI SIDE
CONNECTOR

+3V3_SW

VDDO_3V3

+1V2_SW

B01

+12VS
6

3
4

+3V3_SW
5B01

+5V_SW

B01

B01

+5V_SW

TO
AMBI
LIGHT

HDMI & MUX

+3V3_SW

B01

7117
TPS54386PWP
1,14
3 5117
Non
Synchronous
5116
Converter 12
5103

GND
+24V
GND

B05

+5VS

3530

STANDBY

1M59
6

+2V5_SW

+3V3STBY

7201

B04a

+24V

5224

B01

DCDC
Converter

N.C.

5A10

N.C.

5108

GND_SND

+3V3_SW

7217

5217

7103
ST1S10PH

+VSND

AMBILIGHT

+3V3_SW

B01

5502

GND1

B04E

+5VTUN_DIGITAL

12

CN4
1

5912

+5V_SW

B06D
CONTROL

N.C.

5225

+5V_SW
B01

IN OUT
COM

GND1

7911
LCD_PWR_ON

7216

5223

12

+VDISP

5911

+5V5_TUN

B01

B04C
CONTROL

6

8

5910

7910

B01

6

8

+12VDISP

B01

B01

+1V2-STANDBY

STANDBY

+12VDISP

TUNER & ANALOG DEMOD

B04d
2

DISPLAY INTERFACE - LVDS

BDS iTV

+3V3STBY
+5V_SW

+3V3STBY
+5V_SW

18700_409_090818.eps
090819

Circuit Diagrams and PWB Layouts

LC9.2L LA

10.

EN 57

9

10

10. Circuit Diagrams and PWB Layouts
SSB: DC/DC
3

4

1

3

2

7

4

8

5

6

11

7

12

13

9

8

11

+12VDISP

F113
F114
F115
F116
F117
F118
F119
F120

POWER-OK

10n
2122

100p

100p

+8V_SW

2120

F122

1

OUT

2121

30R

IN

100p

3

100p

4100
4101

RES 2119

B

I111

A

BL_ON_OFF
PWM_DIMMING
BACKLIGHT_BOOST

68R
68R

RES

100p

1-1735446-2

3101
3102

B

10u

2171

E

C

I100

1n0

STANDBY

1n0

2111

1n0

RES

68R

F100
F101
F102
F103
F104
F105
F106
F107
F108
F109
F110

1
2
3
4
5
6
7
8
9
10
11

RES

STBY
3V3
3V
0V
0V
0V
0V

ONLY FOR ANALOG TUNER

5107

3100

1M95
ON
3V3
0V
12V
12V
12V
25V

2110

1M95
PIN
1
2
6
7
8
9

2109

+3V3STBY

RES

100n

2127

2

1u0

2125

COM

D

C

+12VS

+24VAUDIO
GNDSND

1-1735446-1

+12VS

1n0

1n0

RES

2115

100n
2169

2114

RES

100n

1n0

2113

RES

RES
5102

220u

3103

3

I102

7101
2N7002

1

G

1K0

3104

2

100p

220R

2128

22u 35V

D

GNDSND

I103

6102
BAV99

6101

D

PDZ33-B
2129

+VTUN
34V

2112

10u
F123

F

+12VS_1

GNDTUN

6100

E

2123
10u

E

2168
10u

+5V5_TUN

470p

2156

I131

VIA1
VIA2

16
17

8

+1V0_SW

9

22u

3171

1K0 1%

11

3173

220R 1%

VIA

2K2

10

SENSE+1V0_MT5392

3172

10p

7103-2
ST1S10PH

RES
2161

1K5

3125
10u

2164

2159
100u
6.3V

SS34

6124

10R

3131

4u7

2160

I135

I134
10R

3130

SS34

6123

10u

100u 6.3V
2162

10p
2158

RES
2163

1K0 1%

RES
3107

3138

18K 1%

15

J

G

G
1X05
REF EMC HOLE

2132
10u

16
17

2165

33n

I118 3134 1R0

I119

+1V2_SW

10p
RES

2166

I120

220R
1%

10u

GND_HS

H

F131

5115

1X01
REF EMC HOLE

1X02
REF EMC HOLE

1X07
REF EMC HOLE

I123
2140
100u
6.3V

I

10p
RES

15

2142

VIA1
VIA2

I117
13
12
6
8

3139

BOOT2
SW2
EN2
FB2

4u7

2141

4

10R

3109

6103

SS34

10u

2136

100u 6.3V
2137

10p

RES
2135

3106

PVDD2

ILIM2
SEQ
BP
GND

I136

I

Φ

390R
1%

M

9
I122 10
11

470p

2138

I104

BOOT1
SW1
EN1
FB1

3119

2
3
5
7

10u

33n

2144

PVDD1

I107
2167

10p

RES
2134

3105

1K5 1%

I106

3108
1R0

SS34

I105

10u

470p

5104

6122

F125

1X08
REF EMC HOLE

Oval screw hole of
5mm x 4.02mm

Round screw hole of 4.02mm

7116
14 TPS54386PWP

1

2139

H
+1V8_SW

1X03
REF EMC HOLE

2133
10u

10R

2131
100u
16V

L

1X12
REF EMC HOLE

+12VS_1

10u

3129

+12VS

1X06
REF EMC HOLE

F124

5103

K

1K2 1%

is prohibited without the written consent of the copyright
owner.

All rights reserved. Reproduction in whole or in parts

GND_HS

4

2104

F
I110

GND

22u
2105

2u0
3

220u 25V

4

VFB
GND
P
HS

22u

A

F134

2103

SW

VIN

SYNC

5101

22u
2102

INH

10u

10u

2108

10p

5

I109

2101

33R

7

10K 1%

2

4n7

I108

RES 3199

10u

5108

+12VS

2100

+3V3_SW

I130

6

A

F133

5116

2106

ILIM2
SEQ
BP

I129

RES
2155

BOOT2
SW2
EN2
FB2

3136
1R0

I128

3122

BOOT1
SW1
EN1
FB1

2153
33n

I127
13
12
6
8

10u
2107

9
10
11

I132

PVDD2

Φ

4K7 1%

2
3
5
7

7103-1
1
ST1S10PH

14

PVDD1

I126

10p

RES
2154

100u 16V

2170

2152
33n

I125

10u

SS36

100K 1%

3140

F

3135
1R0

I124

470p

5117

6125

SW

7117
TPS54386PWP 1
F132
+5V_SW

2157

H

I

RES
2150
100u
16V

BZX384-C6V2

Round screw hole of 4.5mm
N

1

2

3

4

5

6

8

7

9

10

11

12

20

19

18

13

F126
F111
F112

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

STBY
0V
0V
0V
0V
0V

7100
L78L08ACU
5100

12

RES 2118

A

+12VS

17

1M99

1M99
PIN ON
1 12V
5 3V
6 >1.5V
7 1.5V
9 3V

C

16

15

10

DC-DC
B

14

100p

A

6

5

2124

2

2116

1

1M95 C10
1M99 A10
1X01 I10
1X02 I10
1X03 G11
1X05 G9
1X06 G9
1X07 I11
1X08 G12
1X12 G10
2100 F11
2101 F12
2102 F12
2103 F12
2104 F12
2105 F13
2106 F8
2107 F9
2108 F9
2109 B11
2110 C11
2111 C11
2112 D10
2113 D10
2114 D11
2115 D11
2116 B10
2118 B10
2119 B11
2120 B11
2121 B11
2122 B11
2123 E5
2124 B10
2125 B1
2127 B3
2128 D2
2129 D1
2131 H3
2132 H3
2133 H3
2134 H1
2135 I1
2136 I1
2137 I2
2138 I3
2139 I4
2140 I6
2141 I3
2142 I6
2144 I6
2150 E4
2152 E3
2153 E5
2154 F1
2155 F7
2156 F3
2157 F5
2158 F2
2159 F6
2160 F3
2161 F7
2162 F2
2163 F1
2164 F6
2165 H4
2166 H6
2167 H3
2168 E5
2169 D11
2170 F1
2171 B3
3100 C11
3101 A11
3102 A11
3103 D3
3104 E2
3105 H1
3106 I1
3107 F1
3108 H2
3109 I3
3119 I6
3122 F6
3125 F6
3129 I4
3130 F3
3131 F5
3134 H5
3135 E3
3136 E5
3138 F1
3139 H6
3140 F1
3171 F12
3172 F11
3173 F11
3199 F11
4100 A11
4101 A11
5100 B1
5101 F10
5102 D2
5103 G2
5104 H2
5107 D1
5108 F8
5115 H5
5116 F6
5117 F2
6100 E3

6101 D1
6102 D1
6103 I2
6122 I5
6123 F2
6124 F5
6125 F1
7100 B2
7101 D2
7103-1 E10
7103-2 F10
7116 H4
7117 E4
F100 C10
F101 C10
F102 C10
F103 C10
F104 C10
F105 C10
F106 C10
F107 C10
F108 C10
F109 C10
F110 C10
F111 A10
F112 A10
F113 A10
F114 A10
F115 A10
F116 A10
F117 A10
F118 A10
F119 A10
F120 A10
F122 B3
F123 D1
F124 G3
F125 H1
F126 A10
F131 H6
F132 F1
F133 F7
F134 F11
I100 D2
I102 D3
I103 D2
I104 I1
I105 H2
I106 H3
I107 H3
I108 F9
I109 F10
I110 F11
I111 B1
I117 H4
I118 H5
I119 H5
I120 H5
I122 I3
I123 I5
I124 F2
I125 E3
I126 E3
I127 E4
I128 F5
I129 F5
I130 F5
I131 F1
I132 F3
I134 F3
I135 F5
I136 I3

A

B

C

D

E

F

G

H

I

J

K

L

M

N

13

O

O
CHN

DC391162

SETNAME

CLASS_NO

3PC332

P

MULTI 12NC : 3139_123_64641
BD 12NC
: 3139_123_64651
1

2

3

-- -- --

1

2009-02-23

2

2009-06-04

3

LC09M
PCB SB SSB DIGITAL

NAME Tee Chor Kimp
SV

4

5

6

7

8

9

10

11

12

13

14

CHECK

15

DATE

16

2009-02-23

1

2009-02-23

P
10
C

17

2009-06-04

3139 123 6465
15

SUPERS.

1

130

1

A2

ROYAL PHILIPS ELECTRONICS N.V. 2009

18

19

20

18700_500_090825.eps
090825
2010-Jul-01

Circuit Diagrams and PWB Layouts

LC9.2L LA

10.

EN 58

SSB: Tuner & Analog demodulator
1

2
1205 C1
2235 C7
2240 D7
2241 F11
2242 F11

A

4

3

2252 E7
2264 E10
2265 E11
2266 D10
2267 D11

2268 D10
2270 D4
2271 E4
2272 E11
2273 E10

2279 B3
2280 B3
2282 C3
2284 C3
2285 D3

2274 D11
2275 D12
2276 E12
2277 E11
2278 B3

1

2

B

6

5

2286 C3
2287 D3
2288 B3
3234 B7
3235 C6

3256 D7
3257 C10
3258 C10
3263 B4
3264 C4

3236 D6
3246 E6
3247 E6
3254 D7
3255 D7

3265 D4
3266 D4
3267 D4
3268 C3
3270 D4

7
3271 E4
3273 C6
3274 C6
3276 B4
3277 B4

4

3

8

3278 B2
3279 B2
3280 D7
3281 E4
3282 D2

5217 E10
5221 C3
5222 C3
5223 D10
5224 D12

9

5

10

A212 D14
A213 D14
A214 D14
A225 D14
A258 D14

7213 C6
7216 D11
7217 D11
A210 D14
A211 D14

5225 E12
5226 C3
5227 D3
6201 E3
7201 D3

A259 D14
F201 C2
F202 C2
F203 C2
F204 C2

11

F205 D2
F206 D2
F207 D2
F208 D2
F209 D2

7

6

F210 D2
F211 D2
F213 C2
F214 C14
F215 C6

8

12
F216 C14
F217 C14
F218 C14
F219 D14
F227 D8

F228 E11
F229 D14
F230 C14
F234 C14
F235 C14

13
F236 C14
F237 C14
F240 D2
F241 D2
F242 D2

F243 D2
F244 D2
F245 D2
F246 D2
F250 C14

9

14
F251 C14
F252 C14
F255 C14
F256 C14
F257 D14

15

F260 D8
I210 C13
I212 C13
I213 C13
I214 C13

10

16
I234 C14
I235 C14
I237 C6
I239 D6
I241 E9

I228 D13
I230 C14
I231 C14
I232 C14
I233 D13

I215 C13
I216 D13
I218 D13
I222 D13
I226 D13

11

17

I242 D14
I244 D14
I247 E7
I248 D14
I250 D14

18

19

20

I252 E6
I253 E6
I261 D10

12

A

13

14
B

TUNER & ANALOG DEMOD
A

A
+3V3_SW

C

10K

10K

3278

RES

3279

+5V_SW

C

GAIN_SW

B

2278

2279

+3V3_SW
100n

100n

10K
RF_SW
RES
3276
3234

7213
BC847B

1K0

SIF_OUT

1

+5V5_TUN

3246
I247
RES
2252

SIF_OUT_GND

I253

OUT

F235

I213

I230

F252

F217

F236
F237

F234

I214

I232

F255

F218

I215

I234

F256

F230

I216

I244

F257

A210
A211

C
F

I218

I242

A258

I222

I248

A259

A212

I226

I250

A225

A213

I228

A214

I233

F219

2275

100n

D

G

F229

+5VTUN_DIGITAL
33R

H

E

3247
1R0
I241

5217

F228

+5VS

+5V_SW

I

I

10u
2242
22u

All rights reserved. Reproduction in whole or in parts

F216

5225

3

COM

1R0

15p

IN

2276

TUNER_SCL

TSO_SYNC
TSO_VALID
TSO_DATA0
TSO_CLK

is prohibited without the written consent of the copyright
owner.

F251

7216
LD29150DT50R

I252

100R
2271

E

I231

100n

FOR DEV. ONLY

SIF_OUT_1

22u

15p
3271

GND_CVBS_RF

2277

1K0

I212

1R0

100R
2270

3281

F260

10n

6201

3256

TUNER_SDA

+2V5_SW

22u
2265

SML-310

F214

33R

2272

3270

F250

5224

2

OUT
COM

2

+3V3_SW

7201
BC847B

2273

1K0

IN

1

75R

RES
3267

3

100n

DEMOD_RESET

I261

33R

CVBS_RF

2266

1R0

F227

I239

1u0

3266

5223
+5V_SW

RES
3254

+3V3_SW

47p

10K

100n

1R0
3265

100n

100u 16V
2268

+1V2_SW

33R
2287 22u

3282

7217
LD1117DT25

3280

2274

100n

5227

2285

10K

3235

2284

I210

I235

1R0

75R
2240

F211
F240
F241
F242
F243
F244
F245
F246

RES
3273

33R
2286 22u

F201
F202
F203
F204
F205
F206
F207
F208
F209
F210

E

Common Testpoint With
LC09M Analog

TUNER_SDA

1V5
I237

RES
3255

21
22
23
RF-SW
GAIN-SW
BB
B1
AFT
SIF_OUT
VIDEO_OUT
B2
B3
B4
SYRSTN
SDA
SCL
RSEORF
SBYTE
SPBVAL
SRDT
SRCK

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

3258

2267

CVBS0T

TUNER_SCL

1R0

FRONTEND_SDA

F215

+3V3_SW

3257

FRONTEND_SCL

10n

47u 16V

100n

1R0

AFT
SIF_OUT_1
CVBS0T

1K0
1K0

+5VS

15R
2235

3236

TUNER

F240 same location as I227
F241 same location as I249
F242 same location as I251
F243 same location as I240
F244 same location as I238
F245 same location as I243
F246 same location as I245

200K

+2V5_SW

20
19 MT

D

5221
5222

100K

5226

MT

1205
VA1G5BF8010

F

H

2282

F213

C

G

330R

3263

15p

3268

3264

RES
3274

E

100n

22u
2264

+5VTUN_DIGITAL
47u

100K
2280

1R0

RES 2288

D

B

3277

220R

D

2241
10n

F

F

J

J

2

1

3

4

5

7

6

8

9

10

11

12

13

14

K

K

L

L

M

M

N

N

O

O
CHN

DC391162

SETNAME

CLASS_NO

3PC332

P

MULTI 12NC : 3139_123_64501
BD 12NC
: 3139_123_64511
1

2

3

"200" ~ "299"
4

5

6

7

8

9

10

11

12

13

14

-- -- --

1

2009-02-23

2

2009-06-04

3

LC09M
PCB SB SSB DIGITAL

NAME Evelyn/Lee Boon Hiong
SV

CHECK

15

DATE

16

2009-02-23

2009-02-23

P
10
C

17

2009-06-04

3139 123 6465
15

SUPERS.

1
1

130

A2

2

ROYAL PHILIPS ELECTRONICS N.V. 2009

18

19

20

18700_501_090825.eps
090825
2010-Jul-01

Circuit Diagrams and PWB Layouts

LC9.2L LA

10.

EN 59

SSB: Class-D & Muting
1

3

2

1

2

4

3

5
5

4

6

6

7

7

10

9
10

11

12

11

12

13

13

14

14

16

15

15

17

16

18

19

20

A

AOUTL

RES

A

9

8

CLASS-D & MUTING

A

8

A

3500

I510

+3V3_SW

WS

3

DATAI

B
6

7

8

MUTE

9

DEEM

10

PCS

14

VOL

VOR

16

I515

C
RES

I516

TO INDIA SUBWOOFER OUT

3559

AOUTR
2

470R

I597

RES
2567

2
AOUTL

3540
RES 2540

39K
100n

31
NC
11
-8V2
I588
18
I589 4V7
5
3V2
F536
6
-2V6
F593
13

GNDSND
2545

I526

1

I530

GNDSND

RES

1n0

1n0

RES

F

29
20

I570

VDDP
Φ
CLASS D
POWER
AMPLIFIER

IN1P

OUT1
OUT2

IN2P

DIAG

IN2N

HVP1
HVP2

INREF

BOOT1
BOOT2

OSCREF
OSCIO

STAB1
STAB2

HVPREF
DREF
ENGAGE

VIA

POWERUP
TEST
CGND VSSA

VSSP

VSSD|HW

2528
1n0

I571

27

4 2V6

EMC
2532

2554

F547

25
24

2541
I586
2544
2546

15n

5508
220R

GNDSND 5505
I584
22u

15n
100n

2542

34
35
36
37
38
39
40
41

I583

2543

I585

47K

3564

4n7

2569

RES

GNDSND

GNDSND

3565

1
2
3
4

GNDSND

G

1735446-4
TO SPEAKERS

F

GNDSND

DC-DETECTION

H

I590
2547
1n0

7511
BC857BW

I596

3549
100K

I595

F550

I

DC_PROT
3550

7513
BC857BW

G

7508
BC847BW

GNDSND
100K
GNDSND

GNDSND

I527

GNDSND

7519
2SD2653K

1K0

E

LEFT +
LEFTRIGHT+
RIGHT -

3541

2552
1n0
GNDSND

F543
F544
F546

22R

220n

220n

3542
10R

GNDSND

F542

220R

2537
470n

I582

I587

470u
25V

2534
1n0

19
28 8V9
21 3V9

2555

GNDSND

I576

1n0
GNDSND

30

470u
25V

5507

SPEAKER_LEFT+
SPEAKER_LEFTSPEAKER_RIGHT+
SPEAKER_RIGHT-

GNDSND

22

1735

GNDSND

J

D

1n0

GNDSND
2524
470n

GNDSND

VDDA

IN1N

2521

22R

1n0

3531

220n

RES

I566

RES

100n
2523

2519

2520

100n
2522

I565

220n

GNDSND

10K

3523

2565

100n

AOUTR

2549

1K0

3

100n

STANDBYn

7518
2SD2653K

2550

2

SW_MUTE

3563

7504
SI2301BDS

47u 25V

100K

RES
3520

RES
3521

100K

F579

2518

1n0
1n0
1n0
1n0

100n

10K

47K

4n7

3562

2568

RES

1u0
2539

GNDSND

G

F539

J

GNDSND
GNDSND

F524

H

HP_ROUT

3516

K

47K

6

3511

7515-1
BC857BS
4n7

10K

3553

K

1

2510

47K
2

RES

I599

3552

owner.

All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright

2536

MUTE

RES
3519
1R0

I523
7503
2SD2653K

1K0

L

L

I

HP_LOUT

47K

3524

4n7

2512

F525

RES

I

I578

2
-2V8
3
-2V8
15
RES
2533
-2V8
220p
14
-2V8
I580 12
-7V6
I581 10

I575

6502
BAS316

I

I577

1u0
1u0

5503
22u

3532
10R

3548

I562

OFF_MUTE

10K

3561

+3V3STBY

H

10K
3538

RES
2529
220p
I573

2530
2531

10n

7102
BC857BW
3

E

RES 2561
RES 2562
RES 2563
RES 2564

I525

47K

47K

GNDSND

4u7

F548

1u0
I572

3560

1

1736
1
2
3

4u7

AOUTR

I559

TO SUBWOOFER OUT

100K

6500
BAT54C

10K

8

3557

10K
3535
3536

F545

F569

2527

I568

GND_HS

10K

1

2

F

3533

GNDSND

7510
TDA8932BTW

33

I560

10n
F541

9

4502

3
RES
3517

3

26
23

5

MUTE_C

7

I522

56K

RES
2566

470n

1K8

2511

3513

4
BC857BS
7501-2

7516
BC857BW

AOUTL

470u 16V

I521

4K7

3556

12K

2
4K7

3514

RES
6501

BAS316

I524

G

1K0

1K0

F523

VDD

47K 2

7517
BC847BW 3

3512

RES
3515

I598

1

7501-1
BC857BS

VDD

1735446-3

3537

6

1

F

47K

VDDA

F580

I519

3510

24V

2516
220u 35V

1
16
17
32

4

10K

I518

F522

3555

3566

+12VS

30R

F540

C
D

5

3554

+5V_SW

GNDSND
I564

+24VAUDIO

MUTE_M

3534

E

3

12K

+12VS

5502

AUDIO_LS_L

470R

7515-2
BC857BS

H

2515
100n

100n

47u 16V
2509

2508

3509

E

10R

470R

1502

1
MTJ-032-21B-43 NI FE LF

VDDA

2556

D

AUDIO_LS_R

24V

3544

5

12

3502

I563

2560

3530

2559

VREF-DAC

VSSD

15

VSSA

D

B

NOISE SHAPER

470R

C

B

2553

1R0

1R0

3508

3507

RES

3558

SFOR1

1R0

INTERPOLATION
FILTER

DAC

C

11

SYSCLK

I512

I513

3501
+3V3_SW

SFOR0

DAC

AOMCLK

100n

2500

I511

DE-EMPHASIS
F518

47u 16V
2501

VDDD

DIGITAL
INTERFACE

100K

2

100n

BCK

2502

F516

AOSDATA0

1

47u 16V
2503

B

VDDA

F515

AOLRCK

4

7500
UDA1334BTS
F512

AOBCK

13

1R0

+3V3STBY

3526

2513

POWER_DOWN

J

I544

3527

4K7

3525

M

I543
3V3

M

7505
2SD2653K

MUTING CIRCUIT

7506
BC857BW

4K7

1u0

I535

1K0

J

I546

0V

I554

I552

3528

K

MUTE

N

7507
BC847BW

22K

10K
3529

6503

BAT54C

F535

N

K

F538

MUTEn

O

O
CHN

DC391162

SETNAME

CLASS_NO

3PC332

P

L

MULTI 12NC : 3139_123_64641
BD 12NC
: 3139_123_64651
1

1

"500 - 599"

2

1

2009-02-23

2

2009-06-04

3

NAME Roger Poon & Jason Ong
CHECK

SV

3

2

-- -- --

4

3

5

4

6

5

7

8

6

10

9

7

8

11

9

2010-Jul-01

12

13

10

14

11

LC09M
PCB SB SSB DIGITAL

15

12

SUPERS.
DATE

16

13

1

2009-06-04

1

2009-02-23

3139 123 6465
P
15

2009-02-23

10
C

17

130

A2

ROYAL PHILIPS ELECTRONICS N.V. 2009

18

14

3

19

15

20

16

L

1502 C16
1735 E16
1736 D16
2500 A5
2501 A5
2502 B5
2503 B5
2508 C4
2509 C4
2510 H5
2511 E3
2512 I5
2513 J3
2515 C13
2516 D13
2518 D13
2519 D14
2520 D15
2521 D15
2522 E10
2523 E10
2524 E13
2527 E8
2528 E12
2529 E9
2530 E8
2531 E8
2532 E11
2533 E9
2534 E12
2536 F8
2537 F13
2539 F8
2540 F8
2541 F11
2542 F13
2543 F14
2544 F11
2545 F9
2546 F11
2547 F12
2549 G9
2550 G8
2552 G12
2553 G15
2554 E13
2555 E14
2556 G15
2559 C15
2560 C16
2561 F15
2562 F16
2563 F16
2564 F16
2565 G4
2566 E7
2567 F7
2568 F5
2569 G5
3500 A6
3501 B6
3502 C5
3507 C2
3508 C2
3509 D5
3510 E3
3511 H6
3512 E2
3513 E3
3514 E1
3515 E1
3516 I5
3517 F1
3519 F2
3520 F3
3521 F2
3523 G4
3524 I6
3525 J5
3526 J3
3527 J3
3528 K5
3529 K5
3530 C12
3531 D14
3532 E12
3533 E8
3534 E8
3535 E8
3536 E8
3537 E8
3538 F8
3540 F8
3541 F14
3542 F12
3544 G15
3548 G16
3549 G15
3550 G15
3552 H4
3553 H4
3554 D5
3555 D5
3556 D6
3557 E6
3558 C3
3559 C5
3560 F5
3561 F5
3562 F6
3563 F5
3564 G6
3565 G5
3566 D5
4502 E4
5502 D12
5503 D12
5505 F12
5507 E15
5508 E15
6500 E4
6501 E1
6502 F2
6503 K4
7102 F5
7500 A4
7501-1 E2
7501-2 E2
7503 I6
7504 F4
7505 J6
7506 J4
7507 K5
7508 G16
7510 E10
7511 F15
7513 G16
7515-1 H5
7515-2 D5
7516 D6
7517 E4
7518 F6

7519 G6
F512 B3
F515 B3
F516 B3
F518 B3
F522 E2
F523 E4
F524 H6
F525 I6
F535 J6
F536 F9
F538 K3
F539 H13
F540 D12
F541 E7
F542 E16
F543 E16
F544 E16
F545 E7
F546 E16
F547 E11
F548 F7
F550 G16
F569 E9
F579 E9
F580 D6
F593 G9
I510 A5
I511 B5
I512 B2
I513 C2
I515 C3
I516 C5
I518 D2
I519 D3
I521 E2
I522 E2
I523 I5
I524 E1
I525 F4
I526 F5
I527 G5
I530 G3
I535 J5
I543 J3
I544 J3
I546 J4
I552 J5
I554 K5
I559 F4
I560 E3
I562 F2
I563 C13
I564 D13
I565 D13
I566 D14
I568 E8
I570 E12
I571 E11
I572 E8
I573 E9
I575 E9
I576 E12
I577 E8
I578 E8
I580 F9
I581 F9
I582 F11
I583 F13
I584 F12
I585 F14
I586 F11
I587 F11
I588 F9
I589 F9
I590 F12
I595 G12
I596 G15
I597 D5
I598 D6
I599 H4

18700_502_090825.eps
090825

Circuit Diagrams and PWB Layouts

LC9.2L LA

10.

EN 60

SSB: MTK Power
1

2

4

3

1

2

3

5

4

6

5

7

6

MTK POWER

8

9

8

7

10

9

10

12

11
12

11

13

+1V0_SW

F611
SENSE+1V0_MT5392

5607
+3V3STBY

30R

G

2691
2692

1u0
100n

I623
5608
+3V3STBY

30R

5609

F

I636
I637

ADAC1
ADAC2

DVSS12_VGA

100n

100n

4u7

2605

2606

2607

100n

100n
2604

100n

2603
100n
2638

100n

2635 100n

2602

100n

AF20

100n

100n

100n

100n

100n

100n

2662

2663

2664

2665

2666

2667

4u7

100n

1K0

+5V_SW

+3V3_SW
4K7

+3V3_SW

+5V_SW
3608

100R
100R
100R
100R

RES FOR ITV
3614
3615

LED2

3609

ARX-5V
BRX-5V
CRX-5V

I616
I617

100R
100R

PM_DEMOD

AH14
AJ12
AF11
AG12
AG11
AF13
AF12
AG13
AH12
AH13
AH11
AG10
AH10

100R

3610
3611
3612
3613

LCD_CLK_SDA
LCD_CLK_SCL

5610

30R

5602

2699
100n
2660

2661

Φ

STANDBYn
HDMI_CEC
DTV_IRQ
LED1
MUTEn
SW_MUTE
POWER_DOWN

L25
K25

2668

100n
100n
100n
2632
2633
2634

100n

100n

2651

2652

DVDD12_VGA

AVSS80

100n

100n
100n
100n
2629
2630
2631

100n
2650

ADAC1 AVDD80
ADAC2

2637

100n
100n
100n
2626
2627
2628

100n
2649

1u0

2694

100n
2695

AG20

4u7

H

2693

30R

L26
K26

100n

100n
100n
100n
2623
2624
2625

100n
2648

4u7

100n
2647

2653

100n
2646

+8V_SW

7701-4
MT5391

RES
3628

1u0
100n

4K7

I618
2689
2690

3607

+3V3STBY

30R

10K

3606

5606

I614

100R

OPWRSB
0
1
2
3
4 OPCTRL
5
6
7
8
0
1 OPWR_5V
2

4601
4602
4603

CLK
DATA
IF_AGC
CLK
VALID
TS0
SYNC
DATA

TUNER

FRONTEND_SCL
FRONTEND_SDA

L29
L28
K28
B30
A30
C30
C29

5 47R
7 47R
8 47R
6 47R

3629-4 4
3629-2 2
3629-1 1
3629-3 3

TSO_CLK
TSO_VALID
TSO_SYNC
TSO_DATA0

100n

1u0
100n

1K0

2687
2688

+3V3STBY

3602

RES

E

7602
BC847BW

STANDBY

E1
T18
F11
G3
H2
H3
J4
J6
K5
R4
R5
R6
W18
N18
D27
E26
W11
AA15
AB14
K12
L18
AA3
AA5
AB17
AD6
AE5
AF4
AG2
AG3
L13
L14
L16
M12
M13
M14
M15
M16
M17
M18
N12
N13
N14
N15
N16
N17
P11
P12
P13
P14
P15
P16
P17
P18
R10
R12
R13
R14
R15
R16
R17
T11
L19
L17
N19
R19
T19

F614

E8
G8
G25
H25
F9
AJ3
AH4
AG5
AF6
F26

26A6

+3V3STBY

30R

F

A

B

Φ
DIGITAL GROUND

+3V3_SW

RES
3627

I633 5605

10K

1u0
100n

7701-13
MT5391

+3V3STBY

3604

2686
26A4

VCC3IO

10K
10K

30R

+3V3STBY

R25
N25
P25
Y27
AD26
AC27
AC26
AB28
V26
AH8
K14
K15
K16
K17
K18
T26
AF16
AG26
AH26
Y29
Y28
AG8
AG7
AF23
AG22
Y30

3605
RES 3603

30R
I632 5604

T25
N26
P26
Y26
AD27
AC28
AC29
AC30
U25
AH9
E18
E15
E24
E21
R26
AG16
AG27
AJ27
AA28
AA27
AH6
AH7
AG23
AG21
W28

10K

4u7
100n

5603

U4
U3
U5
AB6
AB5
AC4
AD2
AD3
AE6
AF5
AG4
AB3

4K7
4K7

2685
26A3

I631

RES FOR ITV

100n

100n

2679

2680

4u7
100n

3601

100n
2678

2684
26A2

N10
V11
E16
E23
U11
AB18
AF17
AG17
AF19
AG24
AB11
AH25
E20

4K7

100n

100n

2683

2670

100n

2682

E

2669

100n

100n

2681

D

DLL1
DLL1
AVSS12
DLL2
DLL2
AVDD12
LVDSA
HDMI
LVDSB
LVDSA
MEMPLL
LVDSB
PLLG
MEMPLL
RGBADC_1
PLLG
RGBADC_2
RGBADC_1
RGBFE
RGBADC_2
SYSPLL
RGBFE
USB
SYSPLL
VGAPLL
USB
VOPLL
VGAPLL
VOPLL
AADC
AVSS33
AADC
ADAC1
AVDD33
ADAC1
ADAC2
ADAC2
APLL
APLL
CVBS1
CVBS1
CVBS2
CVBS2
CVBS3
CVBS3
DEMOD1
DEMOD1
DIG
DIG
HDMI
HDMI
LVDS_1
LVDSA
LVDS_2
LVDSB
LVDS_3
LVDSC
LVDS_4
LVDSD
LVDS_5
REF_AADC
REF_AADC
REG
REG
SRV
SRV
STB
STB
SYSPLL1
SYSPLL1
SYSPLL2
SYSPLL2
USB_1
USB_1
USB_2
USB_2
VDAC
VDAC
VDAC_BG
VDAC_BG
XTAL
XTAL

M4
N6
P6
T2

VCC2IO
VCCK

2601

100n
100n
100n
2620
2621
2622

100n
2645

N11
W10
AB12
E17
E22
T10
AB20
AF18
AG18
AG19
AH24
AB10
AJ25
E19

3600

100n

100n

POWER & GROUND

2659

2658

2657

Φ

2600

100n
100n
100n
2617
2618
2619

100n

100n
2644

100n
2642

2643

100n

100n

2640

2641

100n
100n

100n

100n
2656

2655

4u7

2654

7701-14
MT5391

POWER_DOWN

D

All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
owner.

F613

3625
3626

C

30R

5601

+3V3_SW

2639

2677 100n

B

2636 100n

100n
100n
100n
2614
2615
2616

+1V2_SW
30R

C1
D2
E3
V4
F4
G5
H6
L2
L3

100n

100n
100n
100n
2611
2612
2613

Φ
DIGITAL POWER

A1
A2
B1
B2
C2
C3
D3
D4
D5
E4
E5
E6
F5
F6
G6
L11
L12
L15
M19
P19
P10
R11
M11
R18
V18
Y11
K13
AA12
AB15
AA10
AA14
AB13

5600

F612

26A0

4u7

100n
100n
100n

2608

26A1
2609
2610

100n

2675 100n

7701-12
MT5391

B

C

A
+1V8_SW

2676

2673 1u0

2674 1u0

2672 100n

2671 100n

26A5

A

100u 6.3V

A

DVSS

B

T12
T13
T14
T15
T16
T17
U10
U12
U13
U14
U15
U16
U17
U18
V10
V12
V13
V14
V15
V16
V17
W12
W13
W14
W15
W16
W17
Y10
Y12
Y13
Y14
Y15
Y16
Y17
Y18
AA4
AA11
AA13
AA16
AA17
AA18
AB16
U21
U22
U23
U24
V20
V21
V22
V23
V24
W20
W21
W22
W23
W24
Y6
Y20
Y21
Y22
Y23
Y24
T21
T23
T24
M10

DVSS

C

C
D

E

D

F

E

G

F
H

I

1K0

3622
15K
3

1

CHN
7605-2
BC847BS
5

I630

3623
1K0

4
2698

7605-1
BC847BS

MULTI 12NC : 3139_123_64641
BD 12NC
: 3139_123_64651
1

1

2

2

3

3

4

4

5

5

DC391162

SETNAME

CLASS_NO

F615

6601

3PC332

+12VS

"600 - 699"
7

6

6

-- -- --

1

2009-02-23

2

2009-06-04

3

BZX384-C8V2

1K0

I629
2

220n
3624

6600

BZX384-C3V3

J

3621
6

G

3618
RES 3619

+3V3STBY
F616

H

4K7

3617

1u0

I

100n
2697

2696

G

10K
10K

30R

7

2010-Jul-01

LC09M
PCB SB SSB DIGITAL

NAME Hwang Zhen
SV

SUPERS.
CHECK

DATE

8

8

10

10

9

J

130

4

A3

ROYAL PHILIPS ELECTRONICS N.V. 2009

C

9

2009-06-04
2009-02-23

3139 123 6465
15

2009-02-23

1
1

11

10

12

11

13

12

H

2600 B8
2601 B8
2602 B8
2603 B8
2604 B8
2605 B8
2606 B9
2607 B9
2608 A3
2609 A3
2610 A3
2611 A3
2612 A3
2613 A3
2614 A4
2615 A4
2616 A4
2617 A4
2618 A4
2619 A4
2620 A4
2621 A4
2622 A4
2623 A4
2624 A5
2625 A5
2626 A5
2627 A5
2628 A5
2629 A5
2630 A5
2631 A5
2632 A5
2633 A5
2634 A5
2635 C8
2636 C8
2637 C8
2638 C8
2639 B2
2640 B2
2641 B2
2642 B3
2643 B3
2644 B3
2645 B3
2646 B3
2647 B3
2648 B4
2649 B4
2650 B4
2651 B4
2652 B4
2653 B4
2654 C1
2655 C2
2656 C2
2657 C2
2658 C2
2659 C2
2660 D8
2661 D8
2662 D8
2663 D8
2664 D8
2665 D8
2666 D8
2667 D9
2668 D9
2669 D2
2670 D2
2671 B1
2672 B1
2673 B2
2674 B2
2675 B2
2676 B2
2677 B2
2678 D2
2679 D2
2680 D2
2681 D1
2682 D1
2683 D2
2684 D2
2685 D2
2686 E2
2687 E2
2688 E2
2689 E2
2690 E2
2691 F2
2692 F2
2693 F1
2694 F2
2695 F2
2696 G2
2697 G2
2698 H6
2699 C8
26A0 C8

26A1 A3
26A2 D2
26A3 D2
26A4 E2
26A5 A3
26A6 F9
3600 D5
3601 E6
3602 E6
3603 E6
3604 E6
3605 E6
3606 E9
3607 E9
3608 F7
3609 F7
3610 F7
3611 F7
3612 F7
3613 F7
3614 F7
3615 F7
3617 G6
3618 G6
3619 G6
3621 G5
3622 H5
3623 H6
3624 H6
3625 E6
3626 E6
3627 E9
3628 E9
3629-1 F9
3629-2 F9
3629-3 F9
3629-4 F9
4601 G7
4602 G7
4603 G7
5600 B5
5601 B1
5602 D9
5603 D2
5604 D2
5605 E2
5606 E2
5607 E2
5608 F2
5609 F2
5610 G2
6600 H4
6601 H7
7602 E5
7605-1 H5
7605-2 H6
7701-12 B6
7701-13 B11
7701-14 C4
7701-4 E8
F611 A3
F612 B4
F613 C2
F614 D9
F615 H6
F616 G5
I614 F7
I616 F7
I617 F7
I618 E2
I623 F2
I629 H5
I630 H6
I631 D2
I632 D2
I633 E2
I636 F2
I637 F3

18700_503_090825.eps
090825

Circuit Diagrams and PWB Layouts

LC9.2L LA

10.

EN 61

SSB: GDDR3
1

3

2

4

5

6

7

8

9

11

10

12

13

14

15

16

18

17

19

20

A

A
2710 C12
2711 C13
2712 C10

2716 C11
2717 C11
2719 C11

2713 C10
2714 C10
2715 C11

2725 C13
2726 C13
2727 C13

2720 C12
2722 C12
2724 C12

2732 C12
2734 C12
2735 C13

2728 C14
2729 C14
2731 C12

2736 C13
2737 C13
2738 C13

2739 C13
2740 C13
2741 E9

2742 E10
2743 C6
2745 E10

2750 E10
2751 B11
2752 B11

2746 C5
2747 C10
2749 C14

2756 B12
2757 B12
2758 B12

2753 B11
2754 B11
2755 B12

2759 B12
2760 B13
2761 B13

2762 B13
2763 B13
2764 B14

2765 B14
2766 B14
2767 B14

2768 B14
3710 E10
3711 E2

3715 E10
3716 C5
3717 D4

3712 E10
3713 C6
3714 E10

3718 H8
3720 C5
3722 D5

3724 E2
3725 H4
3730 E7

3731 E6
5712 E9
5713 C6

7702-2 E12
7703-1 E3
7703-2 E14

5714 E9
7701-5 A3
7702-1 E7

F710 B10
I714 C6

B

B

1

3

2

4

GDDR3

6

7

9

8

10

11

12

14

13

7701-5
MT5391

Φ

G

D

RRAS
RCAS

U1

RWE

K4
AB4
AC5
H1

RDQM0
RDQM1
RDQM2
RDQM3

P3
W1
W3

RBA0
RBA1
RBA2

J3
AB1
AC3
G1

RDQS0
RDQS1
RDQS2
RDQS3

J2
AB2
AC2
G2

WDQS0
WDQS1
WDQS2
WDQS3

100n

100n
2768

100n
2767

100n
2765

100n
2766

100n
2764

100n
2763

100n
2762

100n
2761

100n
2760

100n
2759

100n
2758

100n
2757

100n
2756

100n
2755

100n
2754

100n
2753

100n
2749

100n

100n
2729

100n
2728

100n
2727

100n
2726

100n
2725

100n
2711

100n
2740

100n
2724

2710

100n
2722

100n

100n
2720

100n
2719

100n
2717

100n
2716

100n

100n
2739

100n
2738

100n
2737

100n
2736

100n
2735

100n
2734

+1V8_SW

30R

1K0 1%

RRESET

F

C

5713

100n
2732

I714

2731

V5
N4
AG1

RVREF
RRESET
REXTDN

100n
2752

2751
3713

D_RVREF0

100n
2715

0
1
2
3

100n
2714

WDQS

RDQ

100n
2713

0
1
2
3

E

+1V8_SW

2747

RDQS

B
F710

100u 6.3V
2712

RBA

0
1
2

100n

0
1
2
3

47K

RDQM

D

CAS1

2743

RWE

RCS1

100n

C

N2
P4
N5

RRAS
RCAS
RCAS1

C

A

RES
3720

E

RCKE
RCS
RCS1

RCLK0p
RCLK0n
RCLK1p
RCLK1n
RCKE
RCS

3716

B

RCLK1

RA

M2
M3
AF2
AF3
N1
W2
T5

2k4 1%
2746

DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQ16
DQ17
DQ18
DQ19
DQ20
DQ21
DQ22
DQ23
DQ24
DQ25
DQ26
DQ27
DQ28
DQ29
DQ30
DQ31

RCLK0

G

2K2

D

DRAM_IF

0
1
2
3
4
5
6
7
8
9
10
11
12
0
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

3722

A

P2
P5
P1
T4
V3
V1
U2
T3
V2
T1
N3
R2
R3
K1
L1
K2
K3
M6
M5
L4
L5
AA1
Y2
AA2
Y3
W4
W5
Y4
Y5
AD5
AA6
AE4
AD4
AD1
AE2
AE1
AE3
H5
J5
G4
H4
F2
E2
F3
D1

3717

RA(0)
RA(1)
RA(2)
RA(3)
RA(4)
RA(5)
RA(6)
RA(7)
RA(8)
RA(9)
RA(10)
RA(11)
RA(12)

150R 1%

C

F

5

D
H

H

All rights reserved. Reproduction in whole or in parts

J

F

K

G
L

H3
F4
H9

RDQM1
RDQM0
RDQM3
RDQM2

E3
E10
N10
N3

WDQS1
WDQS0
WDQS3
WDQS2

D2
D11
P11
P2

RBA1
RBA0
RRAS

G4
G9
H10

RA(4)
RA(5)
RA(6)
RA(9)
RA(0)
RA(1)
RA(2)
RA(11)
RA(10)
RA(3)
RA(8)
RA(7)

K4
H2
K3
M4
K9
H11
K10
L9
K11
M9
K2
L4

+1V8_SW

H

RA(12)

N

1

2

CKE
CS
RAS
CAS
WE
0
1
2
3

DM

0
1
2
3

WDQS

0
1
2

BA

0
1
2
3
4
5
6
7
8
9
10
11
AP

V9
A9
V4
J2
J3

RESET
MF
SEN

RDQS

0
1
2
3

B2
B3
C2
C3
E2
F3
F2
G3
B11
B10
C11
C10
E11
F10
F11
G10
M11
L10
N11
M10
R11
R10
T11
T10
M2
L3
N2
M3
R2
R3
T2
T3
D3
D10
P10
P3
A4

ZQ

RDQS1
RDQS0
RDQS3
RDQS2
3725

RCKE
RCS

H4
F9

RRAS
RCAS
RWE

H3
F4
H9

RDQM0
RDQM1
RDQM2
RDQM3

E3
E10
N10
N3

WDQS0
WDQS1
WDQS2
WDQS3

D2
D11
P11
P2

RBA0
RBA1
RBA2

G4
G9
H10

RA(0)
RA(1)
RA(2)
RA(3)
RA(4)
RA(5)
RA(6)
RA(7)
RA(8)
RA(9)
RA(10)
RA(11)

K4
H2
K3
M4
K9
H11
K10
L9
K11
M9
K2
L4

RRESET

V9
A9
V4
J2
J3

RA(12)

RFU

4

5

E

100n
3712

MAIN
J11
J10

280R 1%

3

Φ

2k4 1%

62R

2742

62R
RCLK1p
RCLK1n

DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ24
DQ25
DQ26
DQ27
DQ28
DQ29
DQ30
DQ31
DQ16
DQ17
DQ18
DQ19
DQ20
DQ21
DQ22
DQ23

1K0 1%

CK
CKE
CS
RAS
CAS
WE
0
1
2
3

DM

0
1
2
3

WDQS

0
1
2

BA

0
1
2
3
4
5
6
7
8
9
10
11
AP
RESET
MF
SEN

0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
DQ
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31

RDQS

0
1
2
3
ZQ

B2
B3
C2
C3
E2
F3
F2
G3
B11
B10
C11
C10
E11
F10
F11
G10
M11
L10
N11
M10
R11
R10
T11
T10
M2
L3
N2
M3
R2
R3
T2
T3
D3
D10
P10
P3
A4

DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQ16
DQ17
DQ18
DQ19
DQ20
DQ21
DQ22
DQ23
DQ24
DQ25
DQ26
DQ27
DQ28
DQ29
DQ30
DQ31

5714

3714

30R

1K0 1%

7702-2
HYB18H512321BF-14

Φ

Φ

A2
A11
F1
F12
K1
K12
M1
M12
V2
V11

+1V8_SW

A1
A12
C1
C4
C9
C12
E1
E4
E9
E12
J4
J9
N1
N4
N9
N12
R1
R4
R9
R12
V1
V12

RDQS0
RDQS1
RDQS2
RDQS3
3718

RFU

9

7703-2
HYB18H512321BF-14

POWER

POWER
H1
H12

8

I

D_RVREF2

+1V8_SW

280R 1%

7

6

DQ0

100n
3715

H4
F9

RBA2
RCS1
RCKE

CK

0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
DQ
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31

7702-1
HYB18H512321BF-14

2745

RWE
CAS1

RRESET

M

Φ

MAIN
J11
J10

3730

100n

62R

RCLK0p
RCLK0n

30R

3731

2741

62R

7703-1
HYB18H512321BF-14

2750

E

3711

D_RVREF1

2k4 1%

is prohibited without the written consent of the copyright
owner.

I

+1V8_SW

3724

3710

5712

100n

+1V8_SW

+1V8_SW

10

VREF

VSS

VDD

VSSQ

VDDQ

A3
A10
G1
G12
J1
J12
L1
L12
V3
V10

H1
H12
+1V8_SW

B1
B4
B9
B12
D1
D4
D9
D12
G2
G11
L2
L11
P1
P4
P9
P12
T1
T4
T9
T12

A1
A12
C1
C4
C9
C12
E1
E4
E9
E12
J4
J9
N1
N4
N9
N12
R1
R4
R9
R12
V1
V12

12

11

A2
A11
F1
F12
K1
K12
M1
M12
V2
V11

13

A3
A10
G1
G12
J1
J12
L1
L12
V3
V10

VREF

VSS

VDD

J

F

B1
B4
B9
B12
D1
D4
D9
D12
G2
G11
L2
L11
P1
P4
P9
P12
T1
T4
T9
T12

VSSQ

VDDQ

K

G
L

M

H

N

14

O

O
CHN

DC391162

SETNAME

CLASS_NO

3PC332

P

MULTI 12NC : 3139_123_64641
BD 12NC
: 3139_123_64651
1

2

3

"700 - 799"
4

5

6

7

8

9

10

11

12

13

14

-- -- --

1

2009-02-23

2

2009-06-04

3

LC09M
PCB SB SSB DIGITAL

NAME Hwang Zhen
SV

SUPERS.
CHECK

15

DATE

16

2009-02-23

P
10
C

17

2009-06-04

1

3139 123 6465
15

2009-02-23

1

130

A2

5

ROYAL PHILIPS ELECTRONICS N.V. 2009

18

19

20

18700_504_090825.eps
090825
2010-Jul-01

Circuit Diagrams and PWB Layouts

LC9.2L LA

10.

EN 62

SSB: Flash & EJTAG
2

4

3

4

5
5

6

6

7

7

8

9

9

+3V3_SW

FLASH & EJTAG

10

10

11

11

12

13

14

4K7

389H

I811

3816

I816

3820

100n

NAND_POOE
SERIAL_POCE

1R0

F813

F865
F867

3813

3818

HP_DETECT
SYS_EEPROM_WE

10K

+3V3_SW

I814

I810

+3V3_SW

30R

+3V3_FLASH

PBS_I2C_SCL
BL_ON_OFF

100R

3821

NAND_PDD(0)

RES FOR
ETHERNET

F811 2

VCC
Φ
16M
FLASH

Q

1R0
3866

C

7822
M25P16

LAN-RST

4800

ADR

5

22R

SDA

RES FOR
ETHERNET

1
2
3

4

0
1
2

10p

10p
2823

2822

1R0

38A6

1R0

38A7

RC2
+3V3_SW

1R0

F861

100R
F862

U0RX
U0TX
U2RX
U2TX
U2CTS
U2RTS

OPWM

0
1
2

OIRI

AJ11
K27
C5
AK11

1K0
1K0
1u0

2824

4K7

3879

BACKLIGHT_BOOST

MII-RXCLK
MII-TXCLK

4818
4819

PWM DIMMING

+3V3_SW

100n

+3V3_SW

100n
2812

2811

+3V3_SW

+3V3_SW

NAND_PCLE
NAND_PALE
NAND_POCE
NAND_POOE
NAND_POWE

0
1
2
3
IO
4
5
6
7

16
17
9
8
18
19
7

I832

I834

NAND_PARB

37

12

10K

4K7

330R

29
30
31
32
41
42
43
44

NC

CLE
ALE
CE
RE
WE
WP
R
B

VSS

F

E
G

F
H

I

10K
10K
10K
10K
10K

1R0

502382-1170

5

4u7

4u7

2836

2835

BAS316

1K0
6810

3857

AF14
AG14
AJ26
AK26
AF8

ER

GND SUB

1 I843

H

BAS316

Φ

VOUT

6814

4
2827
100n

100K

4K7
4K7

3861

F843

ORESET
3876
3877

AK27
AF27
AE27
K6
L6
AB7
AC6
AF9
AG9

K

I852

L

1K0

100R
100R

M

1
2
3
4
6

F864

I853

TRAP0
Normal mode
ICE mode
CPU model mode
SCAN mode
OLT Mode

5

B4B-PH-SM4-TBT(LF)

+3V3STBY

3890

I849

1R0
3891

4K7

TRAP1
PDWNC Normal
PDWNC SCAN

4K7

3888
I850

3889

J
N

O

1R0

TRAP2
XTA L 27MHZ
XTAL 60MHZ
XTAL 48MHZ
XTAL 54MHZ

1812

F853
F855
F856

1
2
3
4
6

I

1818

F859
38A3
38A4

UART_TX

J

FOR DEBUGGING
ONLY

SDA
SCL

UART_RX

ORESET
TN_0
TP_0
TN_1
TP_1
TN_2
TP_2
TN_HDMI
TP_HDMI
TN_VGA
TP_VGA
TN_PLLG
TP_PLLG
EVSS

JTMS
JTDI
JTDO
JTCK
JTRST

2

C27
C26
A27
B27
D26

3

4820

7820
BD45292G

VDD

RES

JTMS
JTDI
JTDO
JTCK
JTRST

+3V3_SW

F849

1814

JTDO

33R

MSJ-035-10A B AG PPO
1811

UART (SERVICE)

12

3
7
8
1

3863

Φ
MISC_JTAG

4K7

F848

1813

7701-1
MT5391
JTRST
JTDI
JTMS
JTCK

389D

F847

33R

6813

33R

3869

BZX384-C6V8

3868

BZX384-C6V8

UART_TX

5
4
2

3851

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

389F

1K0
6811

BAS316

1817

10K

3865
4K7

UART_RX

L

I842

100R

+3V3STBY

3864
4K7

RES
3858

3859

F841

PWM_DIMMING

FOR DEBUGGING
ONLY

4K7

3871

3850

I841
2u2

3852-4
3852-3
3852-2
3852-1
3856

+3V3STBY

4K7

7816
BC847BW
2826

J

G

RES
389C

I840

K

NAND_POWE
NAND_PALE
NAND_PCLE
NAND_PARB
NAND_PDD(2)
NAND_PDD(3)
NAND_PDD(4)
NAND_PDD(5)
NAND_PDD(6)
NAND_PDD(7)

1R0

10K

3848

680R

RES 3846
RES 3847
2837

4K7

6812

All rights reserved. Reproduction in whole or in parts

3841

1G

+3V3_SW

+3V3_SW

is prohibited without the written consent of the copyright
owner.

1

E14
C12
B13
A3
C10
A11
C13
A10
C11
B12

POWE
PALE
PCLE
PARB
2
3
4
PDD
5
6
7

1
2
3
4
5
6
10
11
14
15
20
21
22
23
24
25
26
27
28
33
34
35
38
39
40
45
46
47
48

[FLASH]

NAND_PDD(0)
NAND_PDD(1)
NAND_PDD(2)
NAND_PDD(3)
NAND_PDD(4)
NAND_PDD(5)
NAND_PDD(6)
NAND_PDD(7)

3845

I838
I839

BOOST_CONTROL
BACKLIGHT_CONTROL

+3V3_SW

4K7
3894

K

I835

10K

DRX-5V
1R0
1R0

3893

G

I

22R

4822
38A1
38A2

I833
RES
7815
BC847BW
2

3
RES
3842
4K7

38A9

SDA
SCL
AMBI_SDA
AMBI_SCL
DDC-SDA
DDC-SCL

3878

F835
F836
F837

10K

I

3

AJ13
AK13
H26
G26
H27
G27

J30
J29
K30
K29
AJ10
AK10

4802
4803
4804
4805
4806
4807
4808
4809
4810
4811
4812
4813
4814
4815
4816
4817

7810
NAND01GW3B2BN6F

VCC

Φ

E10 SERIAL_POCE
B10 NAND_POCE
B9 NAND_POOE
B11 NAND_PDD(0)
A13 NAND_PDD(1)

0
POCE
1
POOE
0
PDD
1

4K7
4K7
4K7

100R
100R
100R

OSDA0
OSCL0
OSDA1
OSCL1
OSDA2
OSCL2

3872

3823
38A8
3884
3885

CLK
CMD
0
SDIO
1
D
2

3873

UART_RX
UART_TX
BOLT_ON_UART_RXD
BOLT_ON_UART_TXD

+3V3_SW

MII-MDIO
MII-MDC
MII-MDINT
MII-RX-ER
MII-CRS
MII-RX-DV
MII-RXD(0)
MII-RXD(1)
MII-RXD(2)
MII-RXD(3)
MII-TXD(0)
MII-TXD(1)
MII-TXD(2)
MII-TXD(3)
MII-TXEN
MII-COL

4K7
4K7
47p

F8
D7
F7
E9
D6
E7

RES
3840

7701-3
MT5391
Φ
SPIO_UART_IIC

D

36

3839

SCL

I827

Φ
FLASH_IF

0
1
2
3
4
5
6
ONDA
7
8
9
10
11
12
13
8
9
10
11
ONDD
12
13
14
15
ONDOE
0
ONDCE
1

13

RC1

EEPROM
6

22R

RES
FRONT CONTROL

E

4K7

F831

1n0
1n0
1n0
1n0
1n0
1n0
1n0
2815
2816
2817
2818
2819
2820
2821

I829
3838
F832

4K7

(8Kx8)

WC

A5
C7
B7
D8
B5
B6
A8
B8
C9
C8
A7
F10
A4
B4
D13
F13
D11
E11
F12
E12
E13
D10
C4
C6
B3

3898

7

F860

I825

+3V3_SW

I855

1735446-8

3880

Φ

3837

7812
M24C64-RDW

33R
7814
BC847BW

3834

3829

F826
F829

RES
3899

3830
3831

LED1

+3V3_SW

7701-2
MT5391

4K7

+5V_SW

RES
38A5

100n

389J

389A
389B

+3V3STBY
I823
I824

2813

F825
3826
10K

LED2

4K7
4K7

IR

I819

220R

RES 3881
3882
3883

I821
I822

5811
+3V3_SW

8

30R
100R
30R
100R
100R
30R

10K
10K

5813
3827
5814
3828
3835
5815

KEYBOARD

4102

+3V3_SW

LIGHT_SENSOR
10K
10K

I820

3832
3833

100R

4K7

H

3
7

4

RES
3824

680R 1%
3825

F820

LVDS_SELECT
PBS_SPI_DO

D

5812
30R

+3V3_SW

PBS_SPI_CLK
PBS_SPI_DI

C

+3V3_SW
10K

1

VSS

RES
389L

H

3822

F814

6

C

HOLD

+3V3_SW

4K7

F

5

D

S

+3V3_SW

RES
389K

B

5810

LCD_PWR_ON

3874

B

+3V3_FLASH

4K7
+3V3_FLASH

HP_DET

10K

1M20

G

389G

EDID_WC

W

F821
F822
F823
F824
F827
F828

F812

SERIAL_POOE

D

F819

F810

SERIAL_PDD1

1R0

2834

100n

SDM

PANEL

RES
AK2
AJ1
AJ2
G30
H28
A28
B28
A29
B29
D30
D28
E28
H29

14
15
16
17
18
19
GPIO 20
21
22
23
24
25
26

+3V3STBY

E

20

8

0
1
2
3
4
5
6
GPIO
7
8
9
10
11
12
13

I812
I813

AOMCLK
AOLRCK
AOBCK
AOSDATA0
RF_SW
GAIN_SW
SPDIF_IN

F

19

100n

AH5
AG6
AF7
AH2
G29
F868 AH1
E29
F29
F30
F28
G28
D29
E27
AH3

100R
100R

C

D

18

RES FOR SERIAL FLASH

2810

3812
3814

1
2
3
4
5
6
7
8

17

16

A

4K7

DC_PROT
USB_PWE
USB_OC
DDC_RESET
DEMOD_RESET
HDMI_RESET

Φ
GPIO

2833

10K

3892

10K

10K

3811

7701-8
MT5391

B

E

16

15

+3V3_SW

NAND_PDD(1)

3810

15

14

+3V3_SW

+3V3_SW

C

13

A

A

B

12

4K7

A

8

RES
3897

1

3

4K7

2

389I

1

ONDA[ 1 ]
0
0
1
0
0

ONDA[ 2 ]
0
0
0
1
1

ONDA[ 0 ]
0
1
0
0
1

M

OPCTRL8(0)
0
1
PALE(0)
0
0
1
1

OPWM2 (0)
TRAP3
0
Serial Boot
0
OneNAND Boot
1
NAND Boot
1
Large NAND Boot (1G bit)

OPWM1 (0)
0
1
0
1

TRAP4
NORMAL
FT MODE
TEST MODE
OLT TEST MODE

TN0
0
1
0
1

J
N

PCLE(0)
0
1
0
1

TP0
0
0
1
1

K
O

5

CHN

DC391162

SETNAME

B4B-PH-SM4-TBT(LF)
CLASS_NO

FOR DEBUGGING ONLY

3PC332

P

L

MULTI 12NC : 3139_123_64641
BD 12NC
: 3139_123_64511
1

1

2

"800 - 899"

3

2

4

3

5

4

6

5

7

8

6

9

7

10

8

11

9

2010-Jul-01

12

13

10

-- -- --

1

2009-02-23

2

2009-06-04

3

NAME Hwang Zhen
SV

SUPERS.
CHECK

14

11

LC09M
PCB SB SSB DIGITAL

15

12

DATE

16

13

1

2009-06-04

1

2009-02-23

3139 123 6465
P
15

2009-02-23

10
C

17

130

ROYAL PHILIPS ELECTRONICS N.V. 2009

18

14

A2

6

19

15

20

16

L

1811 I4
1812 K8
1813 H5
1814 I4
1817 H7
1818 I10
1M20 D1
2810 B11
2811 D15
2812 D15
2813 D7
2815 E2
2816 E2
2817 E2
2818 E2
2819 E2
2820 E2
2821 E2
2822 E6
2823 E6
2824 F8
2826 G6
2827 H14
2833 B7
2834 B7
2835 H15
2836 H16
2837 G5
3810 B2
3811 B2
3812 B3
3813 B7
3814 B3
3816 A12
3818 B7
3820 B12
3821 C11
3822 C13
3823 F2
3824 D3
3825 D3
3826 D6
3827 D3
3828 D3
3829 D6
3830 D5
3831 D5
3832 D5
3833 D5
3834 E14
3835 D3
3837 E14
3838 E5
3839 E5
3840 F8
3841 F8
3842 F7
3845 G7
3846 G4
3847 G4
3848 G5
3850 G7
3851 G9
3852-1 G10
3852-2 G9
3852-3 G9
3852-4 G9
3856 G10
3857 H14
3858 H6
3859 H4
3861 H15
3863 H10
3864 H2
3865 H2
3866 C5
3868 H3
3869 I3
3871 I8
3872 I8
3873 I8
3874 C5
3876 H14
3877 H14
3878 F6
3879 F6
3880 D10
3881 G11
3882 G11
3883 G11
3884 G2
3885 G2
3888 J8
3889 J8
3890 K7
3891 K7
3892 B3
3893 G2
3894 G2
3897 C13
3898 E14
3899 F14
389A G13
389B G13
389C G6
389D I9
389F I10
389G B13
389H A7
389I A7
389J D7
389K E2
389L F2
38A1 G4
38A2 G4
38A3 I9
38A4 J9
38A5 E4
38A6 E4
38A7 E4
38A8 G2
38A9 F5
4102 F2
4800 C5
4802 E10
4803 E10
4804 E10
4805 E10
4806 E10
4807 E10
4808 E10
4809 E10
4810 F10
4811 F10
4812 F10
4813 F10
4814 F10
4815 F10
4816 F10
4817 F10
4818 F10
4819 F10

4820 H11
4822 F4
5810 B11
5811 D14
5812 D7
5813 D3
5814 D3
5815 D3
6810 H14
6811 H6
6812 I3
6813 I3
6814 H16
7701-1 H12
7701-2 D12
7701-3 F3
7701-8 B4
7810 D15
7812 D7
7814 E6
7815 F8
7816 G6
7820 H15
7822 C12
F810 A12
F811 C11
F812 B12
F813 B13
F814 C13
F819 D2
F820 D2
F821 D2
F822 D2
F823 D2
F824 D2
F825 D7
F826 D6
F827 D2
F828 D2
F829 E5
F831 E5
F832 E5
F835 F4
F836 F4
F837 F4
F841 H4
F843 H14
F847 H4
F848 I4
F849 I4
F853 K8
F855 K8
F856 K8
F859 I9
F860 E6
F861 G2
F862 G2
F864 J10
F865 B5
F867 B5
F868 B3
I810 B11
I811 A11
I812 B3
I813 B3
I814 B7
I816 B11
I819 D15
I820 D4
I821 D4
I822 D4
I823 D4
I824 D4
I825 E11
I827 E11
I829 E6
I832 F14
I833 F8
I834 F14
I835 F7
I838 G7
I839 G7
I840 G6
I841 G6
I842 H5
I843 H15
I849 K2
I850 K2
I852 I13
I853 J10
I855 F14

18700_505_090825.eps
090825

Circuit Diagrams and PWB Layouts

LC9.2L LA

10.

EN 63

SSB: Display interface - LVDS
1

2
1

3
2

4

6

5

4

3

5

7

6

8

7
8

9

9

10
11

10

11

12

13
13

12

14

15

1
16
6

16

15
17

18

17

19

20

A

A

+5V_SW

E

F986
F987
F988
F989
F990
F991

LVDS_A_TXe2p_1
LVDS_A_TXe2n_1
LVDS_A_TXe1p_1
LVDS_A_TXe1n_1
LVDS_A_TXe0p_1
LVDS_A_TXe0n_1

+VDISP

100n

1n0

50

4916
4917
4918

30R
5911

I910

+VDISP

30R
5912

3913

7910
SI4835BDY

47K
6913
BZX384-C6V8

47R

1u0

I912

3914

2916

I913

3915

I914

C

1K0

30R

3912

I911

5910

I915
6912

LVDS_A_TXeCLKp_1
LVDS_A_TXeCLKn_1

B
8
7
6
5

3
2
1

C

SML-310

F984
F985

B
4910 RES
4911 RES
4912 RES

FOR DEV. USE ONLY

LVDS_A_TXe4p_1
LVDS_A_TXe4n_1
LVDS_A_TXe3p_1
LVDS_A_TXe3n_1

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
44
46
48

4

1902
1905
1906

10n

F980
F981
F982
F983

RES
2919

F

RES
2920

LVDS_SELECT
1907

E

1908

LVDS_A_TXe2p
LVDS_A_TXe2n
LVDS_A_TXe1p
LVDS_A_TXe1n
LVDS_A_TXe0p
LVDS_A_TXe0n

1909

LVDS_A_TXeCLKp
LVDS_A_TXeCLKn

LVDS_A_TXo2p_1
LVDS_A_TXo2n_1
LVDS_A_TXo1p_1
LVDS_A_TXo1n_1
LVDS_A_TXo0p_1
LVDS_A_TXo0n_1

F974
F975
F976
F977
F978
F979

RES
2917

LVDS_A_TXe4p
LVDS_A_TXe4n
LVDS_A_TXe3p
LVDS_A_TXe3n

LVDS_A_TXoCLKp_1
LVDS_A_TXoCLKn_1

F972
F973

1903

LVDS_A_TXo2p
LVDS_A_TXo2n
LVDS_A_TXo1p
LVDS_A_TXo1n
LVDS_A_TXo0p
LVDS_A_TXo0n

LVDS_A_TXo4p_1
LVDS_A_TXo4n_1
LVDS_A_TXo3p_1
LVDS_A_TXo3n_1

F969
F970
F971

1904

DLW21S
DLW21S

LVDS_A_TXoCLKp
LVDS_A_TXoCLKn

1901

F968
LVDS_A_TXo4p
LVDS_A_TXo4n
LVDS_A_TXo3p
LVDS_A_TXo3n

DLW21S

LVDS_B_TXo0p
LVDS_B_TXo0n
LVDS_B_TXo1p
LVDS_B_TXo1n
LVDS_B_TXo2p
LVDS_B_TXo2n
LVDS_B_TXo3p
LVDS_B_TXo3n
LVDS_B_TXo4p
LVDS_B_TXo4n
LVDS_B_TXoCLKp
LVDS_B_TXoCLKn
LVDS_B_TXe0p
LVDS_B_TXe0n
LVDS_B_TXe1p
LVDS_B_TXe1n
LVDS_B_TXe2p
LVDS_B_TXe2n
LVDS_B_TXe3p
LVDS_B_TXe3n
LVDS_B_TXe4p
LVDS_B_TXe4n
LVDS_B_TXeCLKp
LVDS_B_TXeCLKn

DLW21S

C20
D20
C21
D21
C22
D22
C24
D24
C25
D25
C23
D23
A21
B21
A22
B22
A23
B23
A25
B25
A26
B26
A24
B24

DLW21S

D

0P
0N
1P
1N
2P
2N
BO
3P
3N
4P
4N
CKP
CKN
0P
0N
1P
1N
2P
2N
BE
3P
3N
4P
4N
CKP
CKN

DLW21S

C

LVDS

DLW21S

C

0P
0N
1P
1N
2P
2N
AO
3P
3N
4P
4N
CKP
CKN
0P
0N
1P
1N
2P
2N
AE
3P
3N
4P
4N
CKP
CKN
TP_VPLL
TN_VPLL

DLW21S

B

B

C14
D14
C15
D15
C16
D16
C18
D18
C19
D19
C17
D17
A14
B14
A15
B15
A16
B16
A18
B18
A19
B19
A17
B17
A20
B20

RES 4913
RES 4914
RES 4915

1G50

DLW21S

LVDS_A_TXo0p
LVDS_A_TXo0n
LVDS_A_TXo1p
LVDS_A_TXo1n
LVDS_A_TXo2p
LVDS_A_TXo2n
LVDS_A_TXo3p
LVDS_A_TXo3n
LVDS_A_TXo4p
LVDS_A_TXo4n
LVDS_A_TXoCLKp
LVDS_A_TXoCLKn
LVDS_A_TXe0p
LVDS_A_TXe0n
LVDS_A_TXe1p
LVDS_A_TXe1n
LVDS_A_TXe2p
LVDS_A_TXe2n
LVDS_A_TXe3p
LVDS_A_TXe3n
LVDS_A_TXe4p
LVDS_A_TXe4n
LVDS_A_TXeCLKp
LVDS_A_TXeCLKn

+12VDISP

LVDS#2

Φ

D

A

LVDS
7701-6
MT5391

D

47K

F966

7911
PDTC114ET

LCD_PWR_ON

E

43
45
47

DLW21S

1910

DLW21S

1911

DLW21S

1912

F

F

E
G
ITEM #
1G50
1G51

6914

H
LVDS#1
1G51

F993

F994

BZX384-C6V8

I

2901
2902
3916
3917

SDA
SCL

10p RES
10p RES
22R
22R

LVSD3_SDA_DISP
LVDS3_SCL_DISP

LVDS_SELECT

J
DLW21S

1925

DLW21S

1926

DLW21S

LVDS_B_TXe0n
LVDS_B_TXe0p
LVDS_B_TXe1n
LVDS_B_TXe1p

DLW21S

LVDS_B_TXe4n
LVDS_B_TXe4p

10n

F923
F924
F925
F926
F927

LVDS_B_TXe0n_1
LVDS_B_TXe0p_1
LVDS_B_TXe1n_1
LVDS_B_TXe1p_1
LVDS_B_TXe2n_1
LVDS_B_TXe2p_1

F928
F929

LVDS_B_TXeCLKn_1
LVDS_B_TXeCLKp_1

F930
F931
F932
F933

LVDS_B_TXe3n_1
LVDS_B_TXe3p_1
LVDS_B_TXe4n_1
LVDS_B_TXe4p_1

F922

F934

100n

100u 16V
2904

2903

DLW21S

O

DLW21S

K

1930

N

1931

1929

+VDISP
DLW21S

J

DLW21S

LVDS_B_TXe3n
LVDS_B_TXe3p

1927

LVDS_B_TXeCLKn
LVDS_B_TXeCLKp

1928

LVDS_B_TXe2n
LVDS_B_TXe2p

M

LVDS_B_TXo3n_1
LVDS_B_TXo3p_1
LVDS_B_TXo4n_1
LVDS_B_TXo4p_1

RES
2921

LVDS_B_TXo4n
LVDS_B_TXo4p

L

F918
F919
F920
F921

DLW21S

1924

LVDS_B_TXoCLKn
LVDS_B_TXoCLKp
LVDS_B_TXo3n
LVDS_B_TXo3p

LVDS_A_TXoCLKn_1
LVDS_B_TXoCLKp_1

F916
F917

DLW21S

LVDS_B_TXo2n
LVDS_B_TXo2p

K

1922

LVDS_B_TXo1n
LVDS_B_TXo1p

LVDS_B_TXo0n_1
LVDS_B_TXo0p_1
LVDS_B_TXo1n_1
LVDS_B_TXo1p_1
LVDS_B_TXo2n_1
LVDS_B_TXo2p_1

F910
F911
F912
F913
F914
F915

1923

LVDS_B_TXo0n
LVDS_B_TXo0p

owner.

is prohibited without the written consent of the copyright

All rights reserved. Reproduction in whole or in parts

NC
NC

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

61
59
57
55
53

I

G

J

H
K

L

J

MULTI 12NC : 3139_123_64641
BD 12NC
: 3139_123_64651
1

2

2

3

N

K
O

3

DLW21S

DC391162

SETNAME

CLASS_NO

3PC332

-- -- --

1

2009-02-23

2

2009-06-04

3

LC09M
PCB SB SSB DIGITAL

NAME Kyaw Aung Aung
SV

5

4

4

7

6

5

6

8

7

9

1901 B8
1902 B8
1903 C8
1904 C8
1905 C8
1906 D8
1907 D8
1908 D8
1909 E8
1910 E8
1911 E8
1912 F8
1922 H8
1923 H8
1924 I8
1925 I8
1926 I8
1927 J8
1928 J8
1929 J8
1930 K8
1931 K8
1932 K8
1933 L8
1G50 B12
1G51 F12
2901 G10
2902 G10
2903 K11
2904 K11
2916 C13
2917 E11
2919 E11
2920 C10
2921 I10
3912 C15
3913 C13
3914 C14
3915 C13
3916 G10
3917 G10
4910 B13
4911 B13
4912 B13
4913 B12
4914 B12
4915 B12
4916 B13
4917 B13
4918 B13
5910 B14
5911 B14
5912 C14
6912 C15
6913 C13
6914 F10
6915 G10
7701-6 A3
7910 C14
7911 C15
F910 H10
F911 H10
F912 H10
F913 H10
F914 H10
F915 H10
F916 H10
F917 H10
F918 H10
F919 H10
F920 I10
F921 I10
F922 I10
F923 I10
F924 I10
F925 I10
F926 I10
F927 I10
F928 I10
F929 I10
F930 J10
F931 J10
F932 J10
F933 J10
F934 J11
F966 C16
F968 B9
F969 B9
F970 B9
F971 B9
F972 B9
F973 B9
F974 B9
F975 B9
F976 C9
F977 C9
F978 C9
F979 C9
F980 C9
F981 C9
F982 C9
F983 C9
F984 C9
F985 C9
F986 C9
F987 D9
F988 D9
F989 D9
F990 D9
F991 D9
F992 E12
F993 F10
F994 G10
I910 B14
I911 B13
I912 C14
I913 C13
I914 C13
I915 C15

FI-RE51S-HF

DLW21S

1932
1933

P

I

M

CHN

1

100HZ
NO
YES

# RESERVED FOR
DISPLAY I2C CONTROL

BZX384-C6V8
6915

L

50HZ
YES
YES

F

H

G

D

F992

49
51

FX15SC-41S-0.5SH

G

I

14

DISPLAY INTERFACE - LVDS

A

H

13

10

9

8

2010-Jul-01

12

11

10

13

11

14

12

DATE

15

2009-02-23

13

17

14

2009-02-23

P
10

130

A2

7

L

ROYAL PHILIPS ELECTRONICS N.V. 2009

C

16

2009-06-04

3139 123 6465
15

SUPERS.

CHECK

1
1

18

15

19

16

20

17

18700_506_090825.eps
090825

Circuit Diagrams and PWB Layouts

LC9.2L LA

10.

EN 64

SSB: Ambilight
1

2

3

5

4

6

8

7

9

10

11

12

13

A

A

B

1

2

3

4

5

6

AMBILIGHT
A

A
TO DRIVE AMBILIGHT DRIVERS
+3V3_SW

1R0

3A13

1R0

4K7

1M59
AMBI_SCL_OUT

100R

FA20

AMBI_SDA_OUT
I2S_SEL1
I2S_SEL2

100R

5A10

30R
1R0

3A17

B

1
2
3
4
5
6
7

D

E

33p

1735446-7

2A14

2A13

1R0

33p

RES
3A19

1R0
2A12

33p

3A18

120R

2A11

+3V3_SW
5A16

33p

AMBI_SDA

E

1R0

3A15

RES
3A16

FA17
FA18
FA19
FA13
FA14
FA16
FA15

C

1n0

B

RES
3A12

RES
3A14

4K7

120R
AMBI_SCL

3A11

D

3A10

5A14

2A10

All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
owner.

C

B

1M59 B7
2A10 C3
2A11 C3
2A12 C4
2A13 C4
2A14 C6
3A10 B3
3A11 B3
3A12 B4
3A13 B4
3A14 B2
3A15 B6
3A16 B2
3A17 B6
3A18 C4
3A19 C4
5A10 B6
5A14 B2
5A16 B2
FA13 B7
FA14 B7
FA15 B7
FA16 B7
FA17 B7
FA18 B7
FA19 B7
FA20 B1

7

C

C

F

F

1

2

3

4

5

6

7

G

G

H

H

I

I
CHN

DC391162

SETNAME

CLASS_NO

3PC332

J

MULTI 12NC : 3139_123_64641
BD 12NC
: 3139_123_64651
1

2

3

4

5

6

"A00 - A99"
7

-- -- --

1

2009-02-23

2

2009-06-04

3

LC09M
PCB SB SSB DIGITAL

NAME Fong King Hou
SV

8

DATE

9

2009-02-23

10
C

10

2009-06-04
2009-02-23

J

3139 123 6465
15

SUPERS.
CHECK

1
1

130

A3

8

ROYAL PHILIPS ELECTRONICS N.V. 2009

11

12

13
18700_507_090825.eps
090825

2010-Jul-01

Circuit Diagrams and PWB Layouts

LC9.2L LA

10.

EN 65

SSB: HDMI & MUX
1

3

2

1

2

4

3

4

5
5

7

6

6

7

8

8

9

9
10

11

10
12

11

12
14

13
13

13

14

16

15
15

15

17

16
19

18

20

HDMI & MUX

A

A

A

A

HDMI CONNECTOR SIDE

HDMI CONNECTOR 1

1B05

FB57
1B03

HDMI CONNECTOR 2

K

L

1B07
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19

4 4B01-4 5
3 4B01-3 6
2 4B01-2 7
1 4B01-1 8
4 4B02-4 5
3 4B02-3 6
2 4B02-2 7
1 4B02-1 8
4B37
4B38
4B39

21 20
23 22

FB44

DC1R019JBAR190

M

CRX2+
CRX2CRX1+
CRX1CRX0+
CRX0CRXC+
CRXCCEC
CRX-DDC-CLK
CRX-DDC-DAT

FB37
FB38
FB40
FB42
21 20
23 22
25 24
26

FB45

CRX-5V
CRX-HPD

1n0

3B61
3K3

3K3

3B35

3B34

1K0

5

ADR
SDA

BRXCBRXC+
BRX0BRX0+
BRX1BRX1+
BRX2BRX2+

1
2
4
5
7
8
10
11

CRXCCRXC+
CRX0CRX0+
CRX1CRX1+
CRX2CRX2+

50
51
53
54
56
57
59
60

DRXCDRXC+
DRX0DRX0+
DRX1DRX1+
DRX2DRX2+

37
38
41
42
44
45
47
48

DC1R019WBER220

4
10K

3B73

10K

3B72

100R

0
SEL
1
A

SCL
I2C
SDA

+
+
+
+

ENABLE
SCL
SDA

DDC_SCL
DDC_SDA

DDC_SCL
B
DDC_SDA

0
I2C_ADDR
1

+
+
+
+

1u0

2B11

3B37

7B04
BC847BW

+5V_COMBINED

3B19
EDID

+
+
+
+

G

3B36

2K2

F

9
18
33
43
52

RESETB

+
+
+
+

2K2

C
CLK
DATA0

D
IN_A

DATA1

DDC_SCL
DDC_SDA
DDC_SCL
DDC_SDA

DDC_SCL
COM
DDC_SDA

DATA2

OUT_CLK
+

CLK
DATA0

OUT_DATA0
IN_B

DATA1

+

OUT_DATA1
+

DATA2

H

OUT_DATA2
CLK

HPD

A
B
C
D

PSV

A
B
C
D

DATA0
IN_C
DATA1
DATA2

CLK
DATA0

+

TX_EN

IN_D
DATA1

AMUXVCC

3B46

47K

47K

ARX-DDC-CLK
ARX-DDC-DAT
47K

3B50 47K

3B51

3B52 47K

3B53

100R

CRX-DDC-CLK
CRX-DDC-DAT
47K

3B54 47K

3B55

69
70

DRX-DDC-CLK
DRX-DDC-DAT

67
68

IB03 DDC-SCL
IB02 DDC-SDA

35
34

RXCRXC+

32
31

RX0RX0+

29
28

RX1RX1+

26
25
3B56
6
3
58
55
80
79
78
77

AK6
AJ6
AK7
AJ7
AK8
AJ8
AK9
AJ9

RXC+
RXCRX0+
RX0RX1+
RX1RX2+
RX2-

Φ
HDMI_XTAL_LDO

C
CB
0
0B
RX0
1
1B
2
2B

3B58

1K0 3B59

W29
W30
J27

XTALI
XTALO
VCXO

STB_SCAN
VOUT12_STB
ACT_SCAN
LDO
VOUT12_ACT
SCAN_MAIN
VOUT10

AE26
AF26
W26
W27
AG15
AF15

IB04

J

H

XTALO

K

FB51

FB52

ARX-5V
BRX-5V
CRX-5V
DRX-5V

IB14
IB16

XTALI

DRX-DDC-CLK

ARX-HPD
BRX-HPD
CRX-HPD
DRX-HPD

64

I

G
IB01

7701-7
MT5391

RX2RX2+

1K0
10K

DDC_RESET

2K2

DDC-SDA
DDC-SCL

1K0

3B57
3B65

FB10

3B49

7B06
BC847BW

CRX-DDC-CLK

71
72

24

ARX-DDC-CLK

BRX-DDC-CLK
BRX-DDC-DAT
47K

2K2

3B48

BRX-DDC-CLK

73
74

3B44

7B09
BC847BW

3B47

75
76

L

I

1K0
+1V2_SW

+5V_COMBINED

DATA2

+3V3_SW

M

21
30
46

AVEE

100R

63
61
62

3B22

13
14
16
17
19
20
22
23

1
2
3

820K

IB1149
IB1239

0
1
2

1B10

10K
10K

(256x8)
EEPROM

10n

RES FOR FLECS

FB09

WC
SCL

Φ

IN
CEC
OUT

1u0

J

6

3B33

7B03
BC847BW

3B43

2B51

36
IB0912
IB1015

ARXCARXC+
ARX0ARX0+
ARX1ARX1+
ARX2ARX2+

1B06

7
FB08

E

3B32
100R

AVCC

BAT54
2B50

100R
10K
10K

27
40

G

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

10n
2B26
3B10

6K8

RES

3B40

3B45
3B66
3B67

3B63
3B64

All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
owner.

66
65

1R0
1R0

SCL
SDA

I

100n
2B25

2B24
RES 3B68
RES 3B69

1R0

I

7B05
ADV3002BST

HDMI_RESET

CEC
HDMI_CEC
3B70

H

6K8

10K

2K0

3B11

RES 3B39

DC1R019JBAR190

6B07

H

+5V_COMBINED

RES

Φ

RES
3B76

3K3

20 21
22 23

RES FOR FLECS

F

6K8

VDDO_3V3

2K0

4B35
4B36

D

F

RES

3B75

7B02
M24C02-WMN6

RES 3B38

G

+5V_COMBINED

+5V_COMBINED

+3V3STBY
+5V_COMBINED

6B06

8 4B04-1 1
4B34

E
+5V_COMBINED

7B07
BC847BW

10K
EDID_SCL
EDID_SDA

BAT54

6 4B04-3 3
7 4B04-2 2

VDDO_3V3

27K

8 4B03-1 1
5 4B04-4 4

FB07

3B62

EDID_WC

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

3B71

6 4B03-3 3
7 4B03-2 2

RES 3B41

5 4B03-4 4

E

470n
2B17

+5V_COMBINED

FI-RE21S-HF-R1500

DC1R019WBER220

F

D

DC1R019JBAR190

DC1R019WBER220

27M0

4B17-1

C

27p

BRX2+

ARX-5V
ARX-HPD

2B29

4B17-2

FB30
FB31
FB33

27p

BRX2BRX-5V
BRX-HPD

21
23

FB32

2B48

FB27

23
25
27
29
31

DRX-5V
DRX-HPD

ARX-DDC-CLK
ARX-DDC-DAT

4K7

4B17-3

BRX1+

FB21
FB22
FB26

C

ARXCCEC
FB28
FB29

30R

BRX-DDC-CLK
BRX-DDC-DAT

FB23
FB24

FB25 21
23
25
26

DRX-DDC-CLK
DRX-DDC-DAT

3B24

4B17-4

FB17
FB19

5B07

4B16-1

BRX1-

CEC

NC

ARX0ARXC+

2K0

FB18
FB20

BRX0+

DRXC-

2K0
3B20

BRXCCEC

FB16

DRX0DRXC+

VDDO_3V3
30R

ARX1ARX0+

B

FB11

5B01
+3V3_SW

4B40

BRX0BRXC+

DRX1DRX0+

B

ARX2+
ARX2ARX1+

8

4B16-2

DRX2DRX1+

10K

BRX0-

1 1B12 4

BRX1BRX0+

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
22

DRX2+

3B60

D

4B16-3

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

33R

E

21
23
25
26

BRXC+

BRX2BRX1+

2
3
DLW21S

D

BRX2+

1 1B13 4

C

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

1 1B14 4

C

BRXC-

CEC

2
3
DLW21S

1B04

2
3
DLW21S

HDMI CONNECTOR 3

2
3
DLW21S

B

4B11-4
4B11-3
4B11-2
4B11-1
4B18
4B16-4

BRX-HPD
BRX-5V
BRX-DDC-DAT
BRX-DDC-CLK

1 1B11 4

1B01
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
24
26
28
30

220u 25V

1B02

B

2B16

HDMI-DTV

J

J

FB47

For DTV only

+5V_SW
1B08

N

HDMI SIDE
HDMI 1
HDMI 2

CONNECTOR
HORIZONTAL
HORIZONTAL
HORIZONTAL

ITEM NO
1H03
1H05
1H04

HDMI 1
HDMI 2
HDMI 3

VERTICAL
VERTICAL
VERTICAL

1H01
1H00
1H02

HDMI PNS 1+1 HDMI PNS 2+1 HDMI FRAME 3+1 HDMI FLECS 2+0 32"_42" HDMI FLECS 2+0 22"
Y
Y
Y
N
Y
N
N
N
Y
Y
Y
N
N
Y
N
Y
N
N

Y
Y
N

Y
Y
Y

N
N
N

N
N
N

K
O
15

DTV_IRQ
BOLT_ON_UART_RXD
BOLT_ON_UART_TXD

FB53
FB54
FB55

1
2
3
4
5
6
7
8
9
10
11
12
13
14
16

FB56

FB48
4B28

FB06
FB05

4B29
4B30

N

SPDIF_IN
DTV_L_IN
DTV_R_IN
FB49

CVBS_IN_DTV

K
O
CHN

DC391162

SETNAME

CLASS_NO

3PC332

501331-1409

P

L

MULTI 12NC : 3139_123_64641
BD 12NC
: 3139_123_64651
1

1

"B00 - B99"

2

1

2009-02-23

2

2009-06-04

3

NAME Fong King Hou

5

4

3

4

6

5

8

7

6

10

9

7

8

11

9

2010-Jul-01

13

12

10

14

11

SUPERS.
CHECK

SV

3

2

-- -- --

LC09M
PCB SB SSB DIGITAL

15

12

DATE

16

13

1

2009-06-04

1

2009-02-23

3139 123 6465
P
15

2009-02-23

10
C

17

130

A2

ROYAL PHILIPS ELECTRONICS N.V. 2009

19

18

14

9

15

20

16

L

1B01 B6
1B02 B9
1B03 D6
1B04 B1
1B05 B11
1B06 H2
1B07 H3
1B08 J6
1B10 H16
1B11 B5
1B12 C5
1B13 C5
1B14 D5
2B11 B15
2B16 B14
2B17 B14
2B24 E9
2B25 E9
2B26 E10
2B29 G16
2B48 H16
2B50 J10
2B51 J10
3B10 F10
3B11 F7
3B19 F13
3B20 F13
3B22 H16
3B24 I15
3B32 E14
3B33 E15
3B34 E10
3B35 E10
3B36 F14
3B37 F15
3B38 F7
3B39 F7
3B40 F7
3B41 F7
3B43 F14
3B44 F15
3B45 F8
3B46 G10
3B47 G10
3B48 G14
3B49 G15
3B50 G10
3B51 G11
3B52 G11
3B53 G11
3B54 G11
3B55 G11
3B56 I10
3B57 I10
3B58 I10
3B59 I11
3B60 D12
3B61 E12
3B62 D10
3B63 G8
3B64 G8
3B65 I10
3B66 G8
3B67 G8
3B68 F8
3B69 F8
3B70 F6
3B71 F7
3B72 F10
3B73 F10
3B75 E12
3B76 F9
4B01-1 H2
4B01-2 H2
4B01-3 H2
4B01-4 H2
4B02-1 I2
4B02-2 I2
4B02-3 I2
4B02-4 H2
4B03-1 E5
4B03-2 E5
4B03-3 E5
4B03-4 D5
4B04-1 E5
4B04-2 E5
4B04-3 E5
4B04-4 E5
4B11-1 B3
4B11-2 B3
4B11-3 B3
4B11-4 B3
4B16-1 C3
4B16-2 C3
4B16-3 C3
4B16-4 B3
4B17-1 D3
4B17-2 D3
4B17-3 C3
4B17-4 C3
4B18 B3
4B28 K7
4B29 K7
4B30 K7
4B34 E5
4B35 E5
4B36 E5
4B37 I2
4B38 I2
4B39 I2
4B40 D12
5B01 B15
5B07 I15
6B06 F7
6B07 J10
7701-7 H14
7B02 E12
7B03 E14
7B04 F14
7B05 F9
7B06 G14
7B07 D11
7B09 F14
FB05 K7
FB06 K7
FB07 D11
FB08 E11
FB09 F11
FB10 G15
FB11 B15
FB16 C2
FB17 C9
FB18 C2
FB19 C9
FB20 C2
FB21 C9
FB22 C9
FB23 D2
FB24 D2
FB25 C9
FB26 C9
FB27 D2

FB28 C12
FB29 C12
FB30 C12
FB31 C12
FB32 C11
FB33 C12
FB37 I4
FB38 I4
FB40 I4
FB42 I4
FB44 I3
FB45 I3
FB47 J9
FB48 K7
FB49 K7
FB51 H15
FB52 I15
FB53 J7
FB54 J7
FB55 J7
FB56 K7
FB57 D11
IB01 G15
IB02 H12
IB03 H12
IB04 H15
IB09 G8
IB10 G8
IB11 G8
IB12 G8
IB14 I12
IB16 I12

18700_508_090825.eps
090825

Circuit Diagrams and PWB Layouts

LC9.2L LA

10.

EN 66

SSB: Digital I/O - Ethernet (provisional)
1

2

3

4

5

6

7

8

9

10

12

11

13

14

15

16

17

18

A

A

B

B

1

2

3

4

5

6

7

8

9

10

11

12

DIGITAL IO - ETHERNET (PROVISIONAL)

C

5NA1

+3V3AN

FNAD

+3V3_SW

LAN-RST

28

G

64
63
MII-TXD(0)
MII-TXD(1)
MII-TXD(2)
MII-TXD(3)
3NA3

RES
3NAL

1K0

1K0

3NAP

RES
3NAQ

1K0

1K0

3NAR

RES
3NAT

1K0

1K0

RES
3NAU

3NAV

1K0

1K0

+3V3DN

3NAW

RES
3NAY

1K0

1K0

+3V3DN

3NB1

RES
3NB2

1K0

1K0

F

5
4
3
2
1
6
9NA3

INAZ

27

49R9

49R9

GNDLAN
GNDLANGNDLANGNDLANGNDLAN

9
13
16
17
22
Φ

VCCA
COL

ETHERNET
TRANSCEIVER

X2

CRS

RESET

IREF

0
CFG
1

RIP

0
1
2
3
4
RX_ER

0
1
2 TXD
3
4
TX_ER

RXD

RX_CLK
RX_DV

TX_EN
TX_CLK
P
RX
N

TX

C
IO MD
INT

P
N

R10
TR
LED
L
C
S

0
1
2 MF
3
4

TEST
TEST_SE

FDE

NC

PWRDWN
GNDE
25
40
50

RES
3NAN

VCCE
X1

4K7

1K0

3NAM

+3V3DN

42
41
61

3NB5

1K0
+3V3DN

+3V3DN

19
18

MII-MDC
MII-MDIO
MII-MDINT

4K7

J

100R

TPIM

1K0

3NAK

+3V3DN

3NA4

RES
3NAJ

+3V3DN

I

E

INAP
INAQ

3NB4

3NAH
1K0

K

54
53

MII-TXEN
MII-TXCLK
TPIP

D
+3V3DN

All rights reserved. Reproduction in whole or in parts

1K0

55
56
57
58
52

INAR

H

1840419-1

B

59

MII-COL

60

MII-CRS
3NA5

15
29

C

INAS
GNDLAN

4K99 1%
NC

47
46
44
43
51

MII-RXD(0)
MII-RXD(1)
MII-RXD(2)
MII-RXD(3)
MII-RX-ER

49
48

MII-RXCLK
MII-RX-DV
TPOP

21
23
38
37
36
35
34

D

TPOM
INAY
INAT
INAU
INAV
INAW

3NA6
3NA7
3NA9
3NAB
3NAC

1K5
270R
270R
1K5
1K5

RJLED_G
RJLED_Y
3NA8
3NAA

1K5
1K5

+3V3DN

26
33
8
30
31
32

E
NC

GNDLAN

GNDA
7
10
14
20
24

FNAF

39
45
62

3NA2

11

TPIM

GNDLAN

7NA1
E-STE100P
12

C

+3V3AN

FNA8

10p

+3V3DN
+3V3DN
GNDLAN

10K

1u0

F

TPOP
TPOM
TPIP

10p
2NAA

FNAC
5NA3

FNAA
YELLOW
11
14

FNA4
FNA6

100n
2NAB

B

1
2
FNA5
3
4
FNA7
5
6
FNA9
7
NC
8
13

GREEN
9
12

2NAD

FNAB

100n
2NAC

820K

25M

1NA2

10

27p

2NAF

10n

10n
2NA9

10n
2NA8

2NA7

2NA6

100u 16V

30R

3NB3

1NA1
RJ45

+3V3_SW

E

3NAD

9NA2

27p

+3V3DN

FNAE

3NAE

10n

A
2NAE

5NA2

10n
2NA5

10n
2NA4

10n
2NA3

+3V3AN
2NA2

2NA1

A

D

100u 16V

30R

is prohibited without the written consent of the copyright
owner.

20

19

GNDLAN

F
+3V3DN

+3V3DN

1NA1 A10
1NA2 B6
2NA1 A3
2NA2 A3
2NA3 A3
2NA4 A4
2NA5 A4
2NA6 B3
2NA7 B3
2NA8 B3
2NA9 B4
2NAA B12
2NAB B11
2NAC B11
2NAD B11
2NAE A6
2NAF B6
3NA2 C4
3NA3 D5
3NA4 D5
3NA5 C7
3NA6 D7
3NA7 D7
3NA8 D8
3NA9 E7
3NAA E8
3NAB E7
3NAC E7
3NAD A12
3NAE A11
3NAH D2
3NAJ D2
3NAK D2
3NAL D2
3NAM E2
3NAN E2
3NAP E2
3NAQ E2
3NAR E2
3NAT E2
3NAU F2
3NAV F2
3NAW F2
3NAY F2
3NB1 F2
3NB2 F2
3NB3 B6
3NB4 F4
3NB5 F4
5NA1 A3
5NA2 A3
5NA3 B4
7NA1 C5
9NA2 A11
9NA3 E5
FNA4 B11
FNA5 B10
FNA6 B11
FNA7 B10
FNA8 B11
FNA9 B10
FNAA B10
FNAB B9
FNAC B9
FNAD A4
FNAE A4
FNAF C4
INAP D2
INAQ D2
INAR D5
INAS C7
INAT D7
INAU D7
INAV E7
INAW E7
INAY D7
INAZ E5

C

D

E

F

G

H

I

J

K

L

L

1

2

3

4

5

6

7

8

9

10

11

12

M

M

N

N

O

O
CHN

DC391162

SETNAME

CLASS_NO

3PC332

P

MULTI 12NC : 3139_123_64641
BD 12NC
: 3139_123_64651
1

2

3

" XNA0 ~ XNBZ "
4

5

6

7

8

9

10

11

12

13

-- -- --

1

2009-02-23

2

2009-06-04

3

LC09M
PCB SB SSB DIGITAL

NAME Hwang Zhen
SV

14

CHECK

15

DATE

16

2009-02-23

1

2009-02-23

P
10
C

17

2009-06-04

3139 123 6465
15

SUPERS.

1

130

10

A2

ROYAL PHILIPS ELECTRONICS N.V. 2009

18

19

20

18700_509_090825.eps
090825
2010-Jul-01

Circuit Diagrams and PWB Layouts

LC9.2L LA

10.

EN 67

SSB: Analog I/O - YPbPr
2

1

3

4

5

7

6

9

8

10

14

13

12

11

15

16

17

18

19

20

A

A
1D01 D14
1D03 E13
1D04 C14
1D08 C13
1D11 F1
1D13 F1
1D14 A1
1D15 B2

B

1D17 G1
1D18 B2
1D19 G13
1D20 D2
1D21 D2
1D22 E13
1D23 D2
1D24 D12

1D25-1 E14
1D25-2 E14
1D25-3 F14
2D10 A6
2D11 A6
2D12 B11
2D13 C4
2D14 B4

1

2D25 D4
2D27 D13
2D28 C13
2D29 D4
2D30 C6
2D31 B11
2D33 F2
2D34 E10

2D15 B6
2D16 B12
2D17 B6
2D18 B12
2D19 B12
2D20 B4
2D21 C6
2D22 C4

2

C

2D35 G10
2D37 G2
2D38 F2
2D39 G2
2D40 D4
2D41 D4
2D46 F7
2D47 F8

2D56 E11
2D57 E11
2D58 G11
2D59 G11
2D60 C11
2D61 E7
2D62 E8
2D63 F8

2D48 E10
2D49 F10
2D50 B4
2D51 B4
2D52 C4
2D53 D4
2D54 F3
2D55 F3

3

4

2D72 E11
2D73 E12
2D74 E12
3D10 A6
3D11 A4
3D12 A6
3D13 B3
3D14 B6

2D64 F8
2D65 G4
2D66 G5
2D67 A11
2D68 F7
2D69 F8
2D70 C12
2D71 D11

3D23 D11
3D24 D11
3D25 E12
3D26 E10
3D27 G12
3D28 C12
3D29 B12
3D30 F2

3D15 B4
3D16 B 6
3D17 B3
3D18 C4
3D19 C6
3D20 C3
3D21 C4
3D22 C6

6

5

3D44 F10
3D45 F3
3D46 F3
3D47 E11
3D48 F11
3D49 G10
3D50 D8
3D51 D9

3D32 F2
3D33 C4
3D34 D4
3D35 E5
3D36 E5
3D41 F8
3D42 F8
3D43 E10

7

3D52 B4
3D53 B12
3D54 A12
3D55 D12
3D56 E11
3D57 A5
3D58 B5
3D59 C5

8

6D11 F13
6D12 B2
6D13 G2
6D14 B2
6D15 G13
6D16 D2
6D17 D2
6D18 D2

4D00 C12
5D00 C13
5D01 A3
5D02 B3
5D03 C3
5D05 D11
6D09 C13
6D10 F2

9

FD15 B2
FD17 B2
FD18 B4
FD19 B2
FD20 B2
FD21 C4
FD22 C1
FD23 D12

6D22 E13
7701-11 E7
7D10-1 E12
7D10-2 G12
7D11 D8
FD12 C10
FD13 A4
FD14 A2

10

11

12

13

14
C

SY1P

SPB1P_1

SY1N

SPB1P

3D18

SPBR1N

SPBR1N

1R0

10n

3D14

2D15

100R
3D16

10n
2D17

68R

10n

3D19

2D21

100R

10n

Y1N

PB1P

PBR1N

68R

1u0

GND_CVBS_RF

2D18
2D19

10n
10n

SIF_OUT
SIF_OUT_GND

RESERVE FOR FLEX

2D28

ID13

100n

ID12

6D09
3D23

220R

3D24

100R

2D71

33p

1D24
3D55
1R0

ID32

1

MSP-303H-BBB-432-03 NI
WHITE

PESD5V0S1BA
1D03

2

1K0

E

3

6

6D11

1n0

RES
2D57

1n0

47K

RES
2D56

RES
2D34

3D25

10u

2D64

100n

2D63

MSP-303H-BBB-432-03 NI
YELLOW
4 1D25-2

FD24
7D10-1
BC847BS

I

1D25-1

1

J

MUTE_M
R_MON_OUT
L_MON_OUT
2D49
10u

ID37

ID38

3D44
470R

6

FD29

1R0
3
ID43
5

1K0

4
7D10-2
BC847BS

5

MSP-303H-BBB-432-03 NI
RED

PESD5V0S1BA
1D19

3D27

K

1D25-3

FD26

3D48

6D15

3D41
3D42

F
R_MON_OUT

1n0

2D69 10u
220u 6.3V
2D47 220u 6.3V

AUDIO_LS_R
AUDIO_LS_L
33R HP_ROUT
33R
HP_LOUT

RES
2D59

2D46

10u

1n0

2D68

10u

2D66

2D65

G

100n

1n0

SAV_R_IN
SAV_L_IN

P28
P29
N29
N30
N28
N27
M29
M30
M27
M28

RES
2D58

DTV_R_IN
DTV_L_IN

ADAC_VCM
VCMCOUPLE
0OUTR
0OUTL
1OUTR
PGA
1OUTL
2OUTR
2OUTL
HPOUTR
HPOUTL

2
FD28

3D47
1R0

4n7
3D26

3D36

ID42

0_R
0_L
1_R
1_L
2_R
2_L
3_R
AIN
3_L
4_R
4_L
5_R
5_L
6_R
6_L
VMID_AADC

ID31

3D43
470R

47K

30K

ID30

4n7
3D49

3D46

10u

2D48

PESD5V0S1BA
1D22

ID14

1u8

6D22

5D05

DACOUT2

15p

OFF_MUTE

10K

RES
2D35

2D55

1R0

V27
V28
V29
V30
U28
U29
U26
U27
T29
T30
R29
R30
T28
R28
T27

33p

2D27

MTJ-032-21B-43 NI FE LF

30K
30K
3D32

RES
2D39

AIN0_R
AIN0_L
AIN1_R
AIN1_L
AV3_R_IN
AV3_L_IN
DVI_AUR_IN
DVI_AUL_IN

1n0

RES
2D38

1n0
1n0

RES
6D13

RES
2D37

L

PESD5V0S1BA

1D17

FD27

Φ
ALI_ADAC

ID36

H

D

1

2D74

10u

3D51

10u

30K

10u

CON_JACK
1D01

2

SC2_CVBS_OUT

180R
7D11
BC847BW

3D56

2D61

100n

3D50

3D35
1R0
RES
2D33

RES
6D10

1D11

PESD5V0S1BA

F

K

1
3
2

1D13

YKB21-5157V

3D45

G

GND

FD23

47p

1n0

RES

7701-11
MT5391
3D30

C

SPDIF

J
ID35

PESD5V0S1BA
1D08

100p

4D00

100R

ID29

L_MON_OUT

2D54

1D04
1734806-2
VS

FD12

E

ID34

+3V3_SW

IN

I

FD25

F

5D00

10n

75R
2D72

2D53

E

B

HSYNC
VSYNC
SC1_FB

3D28

10u

RES

CVBS2
CVBS3
CVBS4
2D16

1n0

RES

2D25

ID28

2D29

1n0

CVBS_RF

100R
100R

3D53
RES 3D29

PR1P

10u

1R0
RES
2D41

47n
47n

ID26

2D52

D

SC0

100n

2D60

2D30

A

SY0
CVBS_IN_DTV

100R

3D54

47n

2D70

SPR1P

3D22

ASPDIF_OUT

PESD5V0S1BA

RES 6D18

68R

Y1P

AF30
AG29
2D67
AH30
AF29
AG28
AH29
AD29
2D12
AE28 RES 2D31
AE29
AE30
AF28
AD28
AA26
AB27
AB26
AJ30
AB30
AB29
AA29
AK14
AJ14
AJ23
AK20
NC

15p

ID25

3D34

1D23

SPR1P_1

1R0

1n0

RES
2D40

PESD5V0S1BA

1D20

RES 6D16

PESD5V0S1BA

1D21

RES 6D17

3D59

1R0

1R0

D

2D11

Φ
AVI

SCT0
0
SYNC
SCT1
SY 1
RP
2
0
RN
SC 1
SOG
GP
2
0
GN
BP
1
2
BN
CVBS
3
SOY0
Y0P
4
N
Y0N
AF
PB0P
P
PBR0N
MPX0
N
PR0P
SOY1
D2S
DC_DEMOD
Y1P
ADCIN N_DEMOD
Y1N
PB1P
P_DEMOD
PBR1N
HSYNC
PR1P
VSYNC
0
FB
1

30R

ID22

3D21

3D33

3D12

AH23
AJ20
AK17
AJ17
AH16
AK16
AJ16
AH15
AJ15
AH20
AJ21
AH21
AJ22
AK22
AH22
AH17
AJ18
AH18
AJ19
AK19
AH19

2D73

G

RES
2D22

15p

2D13

75R

3D20

MSP-636H2-01

60R

4n7

SCART_CVBS0
SCART_CVBS1
RP
RN
SOG
GP
GN
BP
BN
SOY0
Y0P
Y0N
PB0P
PBR0N
PR0P

15p

RES
2D20
FD21

5D03

1R0

S0Y1

47p

RES
2D14

15p

1R0

FD22

C

2D10

15p

3D58

1R0
3D17

1D18
FD20

SY1N

1R0
FD18

3D15

60R

PESD5V0S1BA

3
2
1

RES 6D14

FD19

4

F

75R

3D13
5D02

6
5

2D50

3D52

FD17

15p

PR

SY1P_1

1R0

1R0

75R

7

B

3D57

3D10

2D62

8

FD13

3D11

60R

PESD5V0S1BA

FD15

1D15

E

PB

RES 6D12

9

5D01

FD14

12
11
10

2D51

1D14

H

MT5391

RU / AP

A

D

All rights reserved. Reproduction in whole or in parts

B

ANALOG I/O - YPbPr
Near IC

is prohibited without the written consent of the copyright
owner.

ID32 E12
ID34 F3
ID35 F3
ID36 F4
ID37 F10
ID38 F10
ID42 F4
ID43 G12

ID14 D12
ID22 C4
ID25 C4
ID26 C5
ID28 D4
ID29 D5
ID30 E10
ID31 E10

FD24 E13
FD25 F1
FD26 F13
FD27 F1
FD28 E13
FD29 F14
ID12 C13
ID13 C13

L

G

RES FOR MONITOR OUT

M

M

1

2

3

4

6

5

7

8

9

10

11

12

13

14
N

N

O

O
CHN

DC391162

SETNAME

CLASS_NO

3PC332

P

MULTI 12NC : 3139_123_64641
BD 12NC
: 3139_123_64651
1

2

3

-- -- --

1

2009-02-23

2

2009-06-04

3

LC09M
PCB SB SSB DIGITAL

NAME Kyam Aung Aung / Roger Poon
SV

4

5

6

7

8

9

10

11

12

13

14

CHECK

15

DATE

16

2009-02-23

1

2009-02-23

P
10
C

17

2009-06-04

3139 123 6465
15

SUPERS.

1

130

11

A2

ROYAL PHILIPS ELECTRONICS N.V. 2009

18

19

20

18700_510_090825.eps
090825
2010-Jul-01

Circuit Diagrams and PWB Layouts

LC9.2L LA

10.

EN 68

SSB: Analog I/O - Cinch
1

3

2

1

2

4

3

4

5

6

6

5

7

7

9

8
9

8

10

10

11

11

12

12

13

13

14

15

14

16

15
18

17

16
19

20

ANALOG I/O - CINCH

A

A
A

A

AP
3
IE95

3E99

1E10

PESD5V0S1BA

1n0

RES
6E28

RES
2E51

47K
1n0

D

2

1K0

1

IE21

PGA0OUTL-SC1

3E68
PESD5V0S1BA
1E14

3E17
470R

RES
6E26

4n7

RES
2E18

1R0

CVBS_SC2
HSYNC
VSYNC

1n0

2E84

RES
2E55

7E02-1
BC847BS

1n0

FE50
FE51

C

1R0

IE96

3EA0

MUTE_C

C

3E66

RES
2E23

4E06
4E07

IE16

AIN1_R-SC1

RES
2E53

10u

10u

E

AIN1_L

100R

1R0

IE24

CVBS_SC2

3E73

4E12
IE56

4n7

1R0

2E25

3E23

10n

68R

Y0P-SC1

IE34

4E13

PESD5V0S1BA
1E26

RES 6E16
RES

6E14

10
11
12

SC1_G

60R

3E26

3E81

IE13

5E12
60R

1R0

IE42

3E27

YON-SC1

100R Near IC

10n

J

H

1R0

SC1_CVBS_OUT

75R

47p
3E57

5E15

1R0

FE36

H

9

SC1_B

3E38

2E28

Y0N

2E47

15p

IE14

PESD5V0S1BA
1E24

PB0P-SC1

FE38

G

1R0

Near IC

1n0

RES
2E57
68R

2E35

3E79

2E71

K

3E55

3E35

10n

F

8

1R0

RES
2E59

47n
4n7
2E46

RES

SCART_CVBS1

2E32

SOY0

AP
3EA2

3E47

IE78

PBR0N-SC1

SC1_CVBS_OUT 7

PESD5V0S1BA
1E20

75R

15p
3E03

2E02

15p

PB0P

Y0P
2E88

100R

10
11
FE47 12

1R0

CVBS4

3E46

10n

6
FE39

I

60R

3E02

SY1N

J

2E43

5

AP

IE17

IE20

5E19

DACOUT1

47p

2E70

47p

2E69

75R

3E54

K

3E56
1R0

1u8

15p

5E13

PESD5V0S1BA
1E02

3E01
1R0
RES
2E03

RES
6E03

75R

15p
3E06

60R

SY1P_SC2

PBR0N

9

75R

G

8
FE48

G

4

60R

1R0

Near IC

FE49

E

1E17
1 MSP-636H1-01
2
3

FE35

5E16

3E75

RES
6E10

SY1P

5E14

1R0

IE72

4E11

7

PESD5V0S1BA
1E01

I

3E04

RES
6E02

SPB1P

PR0P-SC1

6
PR1P_SC2

PB1P_SC2

2E04

15p

RES
2E05

1R0

68R

75R

3E08

SPBR1N

H

3E42

10n

3E36

RES
6E04
IE01

2E39
PR0P

5

75R

FE18

75R

15p
3E12

2E06

15p

RES
2E07

4

60R

3E43

5E17

2E50

IE25

15p
3E24

3E07

FE26

15p

FE15

LA
IE99
SPR1P

F

CVI-1
AVout

1E19
1 MSP-636H1-01
2
3

2E40

FE14

DF13-40DP-1.25V

1R0

CVI-2
AVin

SC1_CVBS_OUT

3E70

IE26

AIN1_L-SC1

15p

1R0

10u

2E33

SY1P

2E86

30K

2E26

RES
3EA9

SY1P_1

AIN1_L-SC1
AIN1_R-SC1

1R0

10u

3E96

15p

+3V3_SW

30K

3E71

RES
2E65

1R0

AIN0_L-SC2

15p

3E97

AIN0_L

RES
2E63

SC2_CVBS_OUT
ASPDIF_OUT

SPB1P

IE29

1E18

SPB1P_1

2E87

PESD5V0S1BA

RES
3EA8

F

LA

4n7

3E59

2E48

1R0

IE89

CVBS_SC1

3E78

L

I

PR

1R0

RES

75R

100R

2E49

3EA3

47n

2E72

2E89

47p
3E60

CVBS3

15p

L

SCART_CVBS0

M

M

J

J

LOCATION NEAR 1D14

N

N

K

K
O

O
CHN

DC391162

SETNAME

CLASS_NO

3PC332

P

L

D

LA
AIN0_L-SC2
AIN0_R-SC2

1R0

All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
owner.

2E82

30K

4n7

RES
2E10
SPR1P

1R0

3E92

6

L_MON_OUT

HSYNC_B
VSYNC_B

1R0

AP
0001

1R0

PESD5V0S1BA
1E13

10u

LA

3E67

1n0

RES
3EA7

SPR1P_1

30K

IE18

AIN0_R-SC2

RES
6E30

SY1P_1
SPR1P_1

2E83

RES
2E16

1R0
1R0

3E93

1n0

1R0

3EA5
3EA6

PGA0OUTR-SC1

470R

15p

41

G

3EA4

CVBS_SC1
SPB1P_1

FE11

PESD5V0S1BA
1E03

E

AIN1_R
AIN0_R

RES
6E32

F

PGA0OUTL-SC1
PGA0OUTR-SC1

1n0

D

PR0P-SC1

RES
2E24

E

4E10

RES
2E54

D

PB0P-SC1
Y0P-SC1

1n0

C

4E08
4E09

RES
2E58

C

10u
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
42

FE32

3E64

IE11

1n0

R_MON_OUT
1E35

B

3E10

RES
2E14

2E80

47K

RES FOR FLECS

I

4

7E02-2
BC847BS

3E90

B

H

B

5

1K0

3E94

B

MUTE_C

MULTI 12NC : 3139_123_64641
BD 12NC
: 3139_123_64651
1

1

2

"E00 - E99"

3

2

4

3

5

4

6

5

7

8

6

9

7

10

8

11

9

2010-Jul-01

12

1

2009-02-23

2

2009-06-04

3

11

LC09M
PCB SB SSB DIGITAL

NAME Kyam Aung Aung / Roger Poon
CHECK

SV

14

13

10

-- -- --

15

12

SUPERS.
DATE

16

13

1

2009-06-04

1

2009-02-23

3139 123 6465
P
15

2009-02-23

10
C

17

130

A2

ROYAL PHILIPS ELECTRONICS N.V. 2009

18

14

12

19

15

20

16

L

1E01 G9
1E02 F9
1E03 F9
1E10 C15
1E13 C9
1E14 D15
1E17 E16
1E18 E9
1E19 E11
1E20 H15
1E24 F15
1E26 F15
1E35 B1
2E02 G8
2E03 G8
2E04 F8
2E05 F8
2E06 F8
2E07 F8
2E10 C14
2E14 C14
2E16 C9
2E18 D14
2E23 E14
2E24 E9
2E25 H12
2E26 H14
2E28 H12
2E32 G12
2E33 F14
2E35 G12
2E39 E12
2E40 F14
2E43 F12
2E46 H6
2E47 H8
2E48 I12
2E49 J14
2E50 I14
2E51 C14
2E53 C14
2E54 C8
2E55 D14
2E57 E14
2E58 E8
2E59 H14
2E63 F14
2E65 F14
2E69 I13
2E70 I14
2E71 H8
2E72 J14
2E80 B12
2E82 C13
2E83 C7
2E84 D12
2E86 D13
2E87 E7
2E88 H6
2E89 I12
3E01 G8
3E02 G8
3E03 G9
3E04 G8
3E06 F9
3E07 E8
3E08 F8
3E10 B13
3E12 F9
3E17 D13
3E23 H13
3E24 H14
3E26 H13
3E27 H14
3E35 G13
3E36 F14
3E38 G13
3E42 E13
3E43 F14
3E46 F13
3E47 F14
3E54 I13
3E55 H6
3E56 H14
3E57 H9
3E59 I13
3E60 J15
3E64 B14
3E66 C14
3E67 C8
3E68 D14
3E70 D14
3E71 E8
3E73 G14
3E75 E14
3E78 I14
3E79 H8
3E81 H14
3E90 C14
3E92 C12
3E93 C6
3E94 D14
3E96 D12
3E97 E6
3E99 B12
3EA0 C12
3EA2 H6
3EA3 I13
3EA4 C2
3EA5 D2
3EA6 D2
3EA7 C4
3EA8 E4
3EA9 E4
4E06 D2
4E07 D2
4E08 B2
4E09 C2
4E10 C2
4E11 E13
4E12 G13
4E13 H13
5E12 H14
5E13 G9
5E14 G9
5E15 G14
5E16 E14
5E17 E9
5E19 H13
6E02 G9
6E03 F9
6E04 F9
6E10 H15
6E14 F15
6E16 F15
6E26 D15
6E28 C15
6E30 C9
6E32 E9
7E02-1 D12
7E02-2 B12
FE11 C6

FE14 E10
FE15 E10
FE18 F10
FE26 E16
FE32 B15
FE35 E16
FE36 F15
FE38 F15
FE39 F15
FE47 F10
FE48 F10
FE49 F10
FE50 D2
FE51 D2
IE01 F6
IE11 B14
IE13 H14
IE14 G14
IE16 C14
IE17 H13
IE18 C8
IE20 H14
IE21 D14
IE24 H8
IE25 E8
IE26 D14
IE29 E8
IE34 H14
IE42 H13
IE56 G14
IE72 E14
IE78 F14
IE89 I14
IE95 B12
IE96 C12
IE99 E6

18700_511_090825.eps
090825

Circuit Diagrams and PWB Layouts

LC9.2L LA

10.

EN 69

SSB: Side - A/V & USB
1

3

2
1

4

2

3

5
5

4

7

6
6

8

9

8

7

10

9

11

11

10

12

12

13

SIDE-AV & USB
A

IF10

PESD5V0S1BA

2F10

100R

47n

3F13

2F12

100R

47n

A

PESD5V0S1BA

(YELLOW)

1
MTJ-032-37BAA-432 NI

2F14

100R

47n

100n

SAV_R_IN

3F19
3F49
3F22
3F23

LIGHT_SENSOR
POWER-OK
KEYBOARD
AFT

ASPDIF_OUT

AH28
AH27
AK30
AJ29
AK29
AJ28
AK28

SAV_L_IN

15p

RES
2F23

47p

75R
2F15

3F21

RES
6F12

1F14

1F18-1
YELLOW2

100R
100R
100R
1R0

0
1
2
3
4
5
6

HP_LOUT

FS
VREF
DAC
OUT1
OUT2

ADIN

VRT
DP0
USB DM0
DP1
DM1

IF19

3F38

AK3
AK5
AJ5
AK4
AJ4

100n
FF12
FF28

10u

6

1n0

RES
2F24

30K

USB
5F13

FF16

1 5V
2 DM
3 DP
FF29
4
5

FF17

C
USB_PWE

+5V_SW

3

2F17
100u
16V

2F19
100n

E

D

1

10u

2F20

FF15

2

1
2

OC_

USB_OC

FF21

NUP1301ML3

6F17

NUP1301ML3

30K

1n0

RES
2F25

292303-4

3F37

EN_

3

5

6F15

IF21

10u

1R0
1n0

2F32

1F03

IF20

1F01

3F33

RES
2F18

1F19

FF20

PESD5V0S1BA

FF18

4

IN

8

FF19

RED

8
9
(RED)
7
MTJ-032-37BAA-432 NI

C

IF24
USB_DP0
USB_DM0

D

2 OUT

30R

6F16 BZX384-C6V8

6

1

7

1F21

RIGHT
1F18-3

E

DACOUT1
DACOUT2

7F01
TPS2041BD

GND

2F33

IF18

1R0
1n0

WHITE 5
6
(WHITE)
4
MTJ-032-37BAA-432 NI

RES
6F20

LEFT1F18-2

3F32

RES
2F16

D

PESD5V0S1BA

FF14

B

RES
2F34
AF22
AF21
AJ24
AK24

HP_ROUT

RES
6F13

IF22

3F24
0R

F

F

IF23

3F25
0R

E

15K

RES
3F27

E

15K
RES
3F28

D

CVBS

1R0

3F16

J28

560R

3F40

CVBS2
IF16

3F31

Φ
CVBS_SPDIF_USB

2F43

ASPDIF_OUT

FF13

1F16

C

All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
owner.

C

10K

3F48
SC0

IF14

5K1 1%

15p

RES
2F22

47p

2F13

Near IC

B

3F39

7701-10
MT5391

SY0

MDC-013V1-B
1F12

A

15p

RES
2F21

47p

75R
2F11

3F11

75R

FF11
1

1R0
3F14

3

B

IF12

3F30

FF27

Y

3F10

+3V3_SW

PESD5V0S1BA

C

4
5

RES
6F11

SVHS IN

1R0

FF10

1F11

B

2

RES
6F10

1F10

3F29

1F02

A

RC1

RES
RC2

G

HEADPHONE
3F26

1R0

3F42

100R

L_MON_OUT

3F43

47R

MUTE

3F44

100R

SC2_CVBS_OUT

3F45

47R

1n0

RES
2F35

1n0

RES
2F28

1n0

RES
2F31

100p
FF31

2F38

100p

2F39

100p

FF32
FF33
FF34
FF35
FF36

F
H

1-1735446-1
SAV_R_IN

100R

3F46
3F47

R_MON_OUT

G

2F37

4F01

SC0
SAV_L_IN

1R0

PESD5V0S1BA

1n0

RES
2F29

6F19

3F36

RIGHT

1R0
RES

1F23
6F18

FF38
1F24

H

3F41

PESD5V0S1BA

FF25
3
7
8
FF26
1
MSJ-035-10A B AG PPO

1
2
3
4
5
6
7
8
9
10
11

FF30

LEFT

1R0

G

1M36

100p

HP_DET

FF24
3F35

F

2F36

4F00

CVBS2

FF23

1n0

5
4
2

RES
2F30

1F22

2F40
FF37

47R

100p
5F14

HP_LOUT

2F41

100p

2F42

100p

30R

I

5F15

HP_ROUT

I

G

30R

CHN

DC391162

SETNAME

CLASS_NO

3PC332

H

J

MULTI 12NC : 3139_123_64641
BD 12NC
: 3139_123_64651
1

1

2

2

3

3

4

4

5

5

"F00 - F99"
7

6

6

7

2010-Jul-01

-- -- --

1

2009-02-23

2

2009-06-04

3

LC09M
PCB SB SSB DIGITAL

NAME Kyam Aung Aung / Roger Poon
SV

CHECK

SUPERS.
DATE

8

8

10

10

9

2009-02-23

J

130

A3

13

ROYAL PHILIPS ELECTRONICS N.V. 2009

C

9

2009-06-04

1

3133 123 6465
15

2009-02-23

1

11

10

12

11

13

12

H

1F01 D7
1F02 D7
1F03 D7
1F10 A3
1F11 B3
1F12 B2
1F14 C3
1F16 D3
1F18-1 C2
1F18-2 C2
1F18-3 D2
1F19 D3
1F21 D6
1F22 F2
1F23 F4
1F24 F3
1M36 F11
2F10 A5
2F11 A4
2F12 B5
2F13 B4
2F14 B5
2F15 C4
2F16 C4
2F17 D10
2F18 D4
2F19 D10
2F20 D8
2F21 A4
2F22 B4
2F23 C4
2F24 C4
2F25 D5
2F28 F6
2F29 F4
2F30 F4
2F31 F5
2F32 D5
2F33 C5
2F34 B11
2F35 F6
2F36 F9
2F37 F9
2F38 F9
2F39 G9
2F40 G9
2F41 G9
2F42 G9
2F43 B9
3F10 A5
3F11 A4
3F13 B5
3F14 B4
3F16 B5
3F19 C9
3F21 C4
3F22 C9
3F23 C9
3F24 E9
3F25 E9
3F26 F3
3F27 E9
3F28 E10
3F29 A4
3F30 B4
3F31 B4
3F32 C4
3F33 D4
3F35 F4
3F36 F5
3F37 D5
3F38 C5
3F39 B11
3F40 C11
3F41 F3
3F42 F8
3F43 F8
3F44 F8
3F45 F8
3F46 G8
3F47 G8
3F48 B8
3F49 C9
4F00 F9
4F01 F9
5F13 D9
5F14 G9
5F15 G9
6F10 A4
6F11 B4
6F12 C4
6F13 D3
6F15 D7
6F16 D8
6F17 D8
6F18 F5
6F19 F3
6F20 C3
7701-10 B10
7F01 C9
FF10 B3

FF11 B3
FF12 B11
FF13 B3
FF14 C4
FF15 C10
FF16 D7
FF17 D7
FF18 D4
FF19 D7
FF20 D2
FF21 D10
FF23 F2
FF24 F2
FF25 F2
FF26 F2
FF27 B3
FF28 B11
FF29 D7
FF30 F11
FF31 F11
FF32 F11
FF33 F11
FF34 F11
FF35 F11
FF36 F11
FF37 G11
FF38 F3
IF10 A5
IF12 B5
IF14 B11
IF16 B5
IF18 C4
IF19 C5
IF20 D5
IF21 D5
IF22 E11
IF23 E11
IF24 B11

18700_512_090825.eps
090825

Circuit Diagrams and PWB Layouts

SSB: VGA
1

2

3

1

2

LC9.2L LA

4
3

10.

5

4

EN 70

6

5

7

6

8

9

8

7

10

9

11

11

10

12
13

12

VGA
6G13

A

A

IG02

FG16

3G33

EDID_SDA

B

B

EDID_SCL

B

B

5G12

2K2

RES
6G12

3G12
5G11

D

C

1G11

RES
6G11

2K2

3G11

15p

2G11

C
H_SYNC

30R

PESD5V0S1BA

HSYNC

RES
3G35

GN

E

1R0
3G24

10n

100R

75R

3G22

2G19
2G23

3G25

VGA_Gn

FG13

1R0

FG14
FG20
FG15

5G13

6G16

3G26

60R

BAS316

150R

FG19

3G30

10n

100R

33R

10K

3G34

3G16

10K

3G15

RES

RES

4G14

EEPROM

5

SCL
ADR
SDA

1
2
3

0
1
2

4

F

E

F
VGA_R

H

1G15

60R
2G27

2G29

FG18

(256x8)

WC

1n0

1R0

H
RN

2G24

5G16

PESD5V0S1BA

68R

3G28

RES
6G17

2G26

VGA_Rp

SDA_VGA

7
6

G

75R

3G27

3G29

10n
RP

5p6

F

4G12

FG17

1226-00B-15S-FAE-02

100n

2G25

DC_5V

G

4G13

0001

1G13

FG11

3G31

VGA_Rn

1R0

I

I
CHN

DC391162

3PC332

J

MULTI 12NC : 3139_123_64641
BD 12NC
: 3139_123_64651
2

1

2

3

3

4

5

5

6

2009-06-04

3

LC09M
PCB SB SSB DIGITAL
CHECK

2009-02-23

8

10

9

130

10

2009-06-04

1

2009-02-23

J

14

H

A3

ROYAL PHILIPS ELECTRONICS N.V. 2009

C

9

1

3139 123 6465
15

SUPERS.
DATE

8

7

2010-Jul-01

2

SV

7

6

1

NAME Kyaw Aung Aung/ Roger Poon

"G00" - "G99"
4

-- -- -2009-02-23

G

SETNAME

CLASS_NO

1

D

Φ

6K2

60R

SCL_VGA

330p
RES 3G38

1R0

4G11

E

7G11
M24C02-WMN6 8
IG01

2G22

68R

VGA_G

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

330p

10n
4n7

VGA_Gp

FG12

100n

6K2
2G21

5G15

1G16

RES 3G37

1R0
3G21

4G15

0001

100R
3G20

RES
6G15

10n
2G17

SOG

F

3G19

VGA_Bn

3G23

GP

3G18

PESD5V0S1BA

2G16

2G18

E

6K2
2G14

VGA_B

1G14

60R

PESD5V0S1BA

5G14

1R0

RES
6G14

3G10

75R

VGA_Bp

5p6

68R

3G14

3G13

10n

2G10

2G13

5p6

BP

BN

H

D

DC_5V

DC_5V

owner.

All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright

C

15p

2G12

30R

1G12

V_SYNC
PESD5V0S1BA

VSYNC

G

A

7G12
BC847BW

10K

D

A

10K
EDID_WC

C

+5V_SW

BAS316

3G32

1G11 C7
1G12 B7
1G13 D7
1G14 E7
1G15 F7
1G16 D8
2G10 D6
2G11 C6
2G12 B6
2G13 D3
2G14 D11
2G16 D3
2G17 D3
2G18 E6
2G19 E3
2G21 E9
2G22 E10
2G23 E3
2G24 F6
2G25 F6
2G26 F3
2G27 F6
2G29 G3
3G10 D5
3G11 C7
3G12 B7
3G13 D4
3G14 D6
3G15 D9
3G16 D10
3G18 D4
3G19 D5
3G20 D4
3G21 D5
3G22 E4
3G23 E6
3G24 E4
3G25 E5
3G26 E6
3G27 F4
3G28 F5
3G29 F6
3G30 G4
3G31 G5
3G32 A10
3G33 A8
3G34 D10
3G35 D11
3G37 E9
3G38 E10
4G11 D9
4G12 E9
4G13 D9
4G14 D9
4G15 D11
5G11 C6
5G12 B6
5G13 E5
5G14 D6
5G15 D6
5G16 F6
6G11 C7
6G12 B7
6G13 A11
6G14 D7
6G15 E7
6G16 E5
6G17 F7
7G11 D11
7G12 A9
FG11 E8
FG12 D8
FG13 E8
FG14 E8
FG15 E8
FG16 A8
FG17 D10
FG18 E10
FG19 E8
FG20 E8
IG01 D10
IG02 A9

11

10

12

11

13

12

18700_513_090825.eps
090825

Circuit Diagrams and PWB Layouts

LC9.2L LA

10.

EN 71

SSB: BDS iTV
1

3

2

4

5

6

8

7

9

10

11

12

13

A

A

1
B

5

6

7

BDS iTV
A

A

1H16
1H13

6

RC1
RC2

SDA_CLOCK
SCL_CLOCK

FH14
FH15
FH16

5H10
3H16
3H17

FH17

5H11

30R
100R
100R

+3V3STBY
LCD_CLK_SDA
LCD_CLK_SCL
4

30R

+5V_SW

FH27

1
2
3
5

AOUTL
FH30

AOUTR

BM03B-SRSS-TBT

BM05B-SRSS-TBT

1n0

9

PBS_SPI_DI
PBS_SPI_CLK
PBS_SPI_DO
PBS_I2C_SCL

FH31
FH32
FH33
FH34
FH35
FH36

1H14
1
2
3
4
5
7

1n0
2H20

1
2
3
4
5
6
7
8
10

2H19

C

BM08B-SRSS-TBT

D

B

B

E

C

C
1H11

100p

100p
2H26

BM08B-SRSS-TBT

100p
2H25

SC1_AOUTL
SC1_AOUTR

100p
2H24

11

1
2
3
4
5
6
7
8
9
10
12

FH18
FH19
FH20
FH21
FH22
FH23
FH24
FH25
FH26

5H12
3H20
3H21
3H22
3H23
3H24

30R
100R
100R
100R
100R
100R

RES 4H10
RES 4H11

RES 4H12
RES 4H13

+3V3STBY

SCL
SDA
RC1
DDC_RESET
STANDBY
SC1_CVBS_OUT
AMBI_SCL
AMBI_SDA

D

1

2

3

4

100p

100p
2H29

100p
2H15

100p
2H14

15p
2H28

2H27

G

100p
2H13

BM10B-SRSS-TBT
15p
2H12

D

FH11

1n0
2H23

9

SC1_B
SC1_G
SC1_CVBS_OUT
SC1_FB

1
2
3
4
5
6
7
8
10

1n0
2H22

F

1H12

2H21

All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
owner.

4

3

2

5

6

1H11 C1
1H12 C3
1H13 A3
1H14 A6
1H16 A1
2H12 D4
2H13 D5
2H14 D5
2H15 D5
2H19 B7
2H20 B7
2H21 D1
2H22 D2
2H23 D2
2H24 D2
2H25 D2
2H26 D2
2H27 D4
2H28 D4
2H29 D5
3H16 A4
3H17 A4
3H20 D5
3H21 D5
3H22 D5
3H23 D5
3H24 D5
4H10 D6
4H11 D6
4H12 D6
4H13 D6
5H10 A4
5H11 A4
5H12 C5
FH11 D1
FH14 A4
FH15 A4
FH16 A4
FH17 A4
FH18 C4
FH19 C4
FH20 C4
FH21 C4
FH22 D4
FH23 D4
FH24 D4
FH25 D4
FH26 D4
FH27 B4
FH30 A7
FH31 A1
FH32 A1
FH33 A1

FH34 A1
FH35 B1
FH36 B1

B

C

D

E

F

G

7

H

H

I

I
CHN

DC391162

SETNAME

CLASS_NO

3PC332

J

MULTI 12NC : 3139_123_64641
BD 12NC
: 3139_123_64651
1

2

3

"H00" - "H99"
4

5

7

6

-- -- --

1

2009-02-23

2

2009-06-04

3

LC09M
PCB SB SSB DIGITAL

NAME Alexi Jebakumar
CHECK

SV

8

9

2009-02-23

10
C

10

2009-06-04
2009-02-23

J

3139 123 6465
15

SUPERS.
DATE

1
1

130

A3

15

ROYAL PHILIPS ELECTRONICS N.V. 2009

11

12

13
18700_514_090825.eps
090825

2010-Jul-01

Circuit Diagrams and PWB Layouts

LC9.2L LA

10.

EN 72

SSB: SRP List Explanation
Example
Net Name

Diagram

+12-15V
AP1 (4x)
+12-15V
AP4 (4x)
+12-15V
AP5 (12x)
+12-15V
AP6 (4x)
+12-15V
AP7 (8x)
+12V
AP1 (4x)
+12V_NF
AP1 (2x)
+12VAL
AP1 (2x)
+25VLP
AP1 (4x)
+25VLP
AP2 (1x)
+3V3-STANDBY
AP5 (3x)
+400V-F
AP1 (2x)
+400V-F
AP2 (2x)
+400V-F
AP3 (2x)
+5V2
AP1 (6x)
+5V2
AP2 (1x)
+5V2-NF
AP1 (1x)
+5V2-NF
AP2 (1x)
+5V-SW
AP1 (6x)
+5V-SW
AP2 (1x)
+8V6
AP1 (3x)
+AUX
AP1 (2x)
+AUX
AP2 (1x)
+DC-F
AP1 (2x)
+DC-F
AP3 (2x)
+SUB-SPEAKER
AP5 (1x)
+SUB-SPEAKER
AP6 (2x)
-12-15V
AP1 (4x)
-12-15V
AP4 (6x)
-12-15V
AP5 (14x)
-12-15V
AP6 (6x)
-12-15V
AP7 (8x)
AL-OFF
AP1 (2x)
AUDIO-L
AP4 (1x)
AUDIO-L
AP5 (1x)
AUDIO-PROT
AP5 (3x)
AUDIO-R
AP4 (1x)
AUDIO-R
AP5 (1x)
AUDIO-SW
AP5 (1x)
AUDIO-SW
AP7 (1x)
BOOST
AP1 (2x)
CPROT
AP4 (2x)
CPROT
AP5 (1x)
CPROT-SW
AP5 (1x)
CPROT-SW
AP6 (2x)
-DC-F
AP1 (2x)
-DC-F
AP3 (2x)
DC-PROT
AP1 (1x)
DC-PROT
AP5 (2x)
DIM-CONTROL
AP1 (2x)
FEEDBACK+SW
AP6 (2x)
FEEDBACK-L
AP4 (2x)
FEEDBACK-R
AP4 (2x)
FEEDBACK-SW
AP6 (2x)
GND-AL
AP1 (2x)
GNDHA
AP1 (40x)
GNDHA
AP2 (20x)
GNDHA
AP3 (2x)
GNDHOT
AP3 (2x)
GND-L
AP1 (2x)
GND-L
AP4 (4x)
GND-L
AP5 (34x)
GND-LL
AP4 (7x)
GND-LL
AP5 (1x)
GND-LR
AP4 (7x)
GND-LR
AP5 (1x)
GND-LSW
AP5 (1x)
GND-LSW
AP6 (15x)
GND-S
AP1 (11x)
GND-SA
AP4 (8x)
GND-SA
AP5 (2x)
GND-SA
AP6 (8x)
GND-SA
AP7 (6x)
GNDscrew
AP3 (2x)
GNDscrew
AP5 (2x)
GND-SSB
AP5 (3x)
GND-SSP
AP1 (51x)
GND-SSP
AP2 (15x)
IN+SW
AP6 (2x)
IN-L
AP4 (2x)
IN-R
AP4 (2x)
IN-SW
AP6 (2x)
INV-MUTE
AP4 (1x)
INV-MUTE
AP5 (1x)
INV-MUTE
AP6 (1x)
LEFT-SPEAKER
AP4 (1x)
LEFT-SPEAKER
AP5 (1x)
MUTE
AP4 (2x)
MUTE
AP5 (1x)
MUTE
AP6 (2x)
ON-OFF
AP1 (3x)
OUT
AP6 (1x)
OUT
AP7 (2x)
OUTN
AP6 (1x)
OUTN
AP7 (1x)
POWER-GOOD
AP1 (2x)
POWER-OK-PLATFORM AP1 (2x)
RIGHT-SPEAKER
AP4 (1x)
RIGHT-SPEAKER
AP5 (1x)
SOUND-ENABLE
AP5 (3x)
STANDBY
AP1 (5x)
STANDBY
AP2 (1x)
-SUB-SPEAKER
AP5 (1x)
-SUB-SPEAKER
AP6 (2x)
V-CLAMP
AP1 (1x)
V-CLAMP
AP3 (2x)

1.1.

Personal Notes:

Introduction
SRP (Service Reference Protocol) is a software tool that creates a list with all references to signal lines. The list contains
references to the signals within all schematics of a PWB. It replaces the text references currently printed next to the signal
names in the schematics. These printed references are created manually and are therefore not guaranteed to be 100%
correct. In addition, in the current crowded schematics there is often none or very little place for these references.
Either there will be an SRP reference list for a schematic, or there will be printed references in the schematic.

1.2.

Non-SRP Schematics
There are several different signals available in a schematic:

1.2.1.

Power Supply Lines
All power supply lines are available in the supply line overview (see chapter 9). In the schematics (see chapter 10) is not
indicated where supplies are coming from or going to.
It is however indicated if a supply is incoming (created elsewhere), or outgoing (created or adapted in the current schematic).
+5V

Outgoing
1.2.2.

+5V

Incoming

Normal Signals
For normal signals, a schematic reference (e.g. B14b) is placed next to the signals.
B14b

1.2.3.

signal_name

Grounds
For normal and special grounds (e.g. GNDHOT or GND3V3 etc.), nothing is indicated.

1.3.

SRP Schematics
SRP is a tool, which automatically creates a list with signal references, indicating on which schematic the signals are used.
A reference is created for all signals indicated with an SRP symbol, these symbols are:
+5V

name

name

+5V

Power supply line.

name

Stand alone signal or switching line (used as less as possible).
name

Signal line into a wire tree.
name

name

Switching line into a wire tree.
name

Bi-directional line (e.g. SDA) into a wire tree.
name

Signal line into a wire tree, its direction depends on the circuit (e.g. ingoing for PDP, outgoing for LCD sets).
Remarks:
•
When there is a black dot on the “signal direction arrow” it is an SRP symbol, so there will be a reference to the signal
name in the SRP list.
•
All references to normal grounds (Ground symbols without additional text) are not listed in the reference list, this to keep
it concise.
Signals that are not used in multiple schematics, but only once or several times in the same schematic, are included
•
in the SRP reference list, but only with one reference.
Additional Tip:
When using the PDF service manual file, you can very easily search for signal names and follow the signal over all the
schematics. In Adobe PDF reader:
•
Select the signal name you want to search for, with the “Select text” tool.
•
Copy and paste the signal name in the “Search PDF” tool.
•
Search for all occurrences of the signal name.
•
Now you can quickly jump between the different occurrences and follow the signal over all schematics. It is advised to
“zoom in” to e.g. 150% to see clearly, which text is selected. Then you can zoom out, to get an overview of the complete
schematic.
PS. It is recommended to use at least Adobe PDF (reader) version 6.x, due to better search possibilities in this version.
10000_031_090121.eps
100323

2010-Jul-01

Circuit Diagrams and PWB Layouts

LC9.2L LA

10.

EN 73

SSB: SRP List
Netname
+12VDISP
+12VDISP
+12VS
+12VS
+12VS
+12VS_1
+1V0_SW
+1V0_SW
+1V2_SW
+1V2_SW
+1V2_SW
+1V2_SW
+1V8_SW
+1V8_SW
+1V8_SW
+24VAUDIO
+24VAUDIO
+2V5_SW
+3V3_FLASH
+3V3_SW
+3V3_SW
+3V3_SW
+3V3_SW
+3V3_SW
+3V3_SW
+3V3_SW
+3V3_SW
+3V3_SW
+3V3_SW
+3V3_SW
+3V3AN
+3V3DN
+3V3STBY
+3V3STBY
+3V3STBY
+3V3STBY
+3V3STBY
+3V3STBY
+5V_COMBINED
+5V_SW
+5V_SW
+5V_SW
+5V_SW
+5V_SW
+5V_SW
+5V_SW
+5V_SW
+5V_SW
+5V5_TUN
+5V5_TUN
+5VS
+5VTUN_DIGITAL
+8V_SW
+VDISP
+VTUN
5V
AFT
AFT
AIN0_L
AIN0_L
AIN0_L-SC2
AIN0_R
AIN0_R
AIN0_R-SC2
AIN1_L
AIN1_L
AIN1_L-SC1
AIN1_R
AIN1_R
AIN1_R-SC1
AMBI_SCL
AMBI_SCL
AMBI_SCL
AMBI_SCL_OUT
AMBI_SDA
AMBI_SDA
AMBI_SDA
AMBI_SDA_OUT
AOBCK
AOBCK

Diagram AOLRCK
B01 (1 ×)
B04D (1 ×)
B01 (5 ×)
B03 (2 ×)
B04A (1 ×)
B01 (2 ×)
B01 (1 ×)
B04A (1 ×)
B01 (1 ×)
B02A (1 ×)
B04A (2 ×)
B05 (1 ×)
B01 (1 ×)
B04A (1 ×)
B04B (9 ×)
B01 (1 ×)
B03 (1 ×)
B02A (2 ×)
B04C (3 ×)
B01 (1 ×)
B02A (5 ×)
B03 (2 ×)
B04A (5 ×)
B04C (24 ×)
B04E (2 ×)
B05 (2 ×)
B06A (2 ×)
B06B (1 ×)
B06C (1 ×)
B06D (1 ×)
B06A (3 ×)
B06A (14 ×)
B01 (1 ×)
B03 (2 ×)
B04A (9 ×)
B04C (5 ×)
B05 (1 ×)
B07 (2 ×)
B05 (8 ×)
B01 (1 ×)
B02A (3 ×)
B03 (1 ×)
B04A (4 ×)
B04C (1 ×)
B04D (1 ×)
B05 (1 ×)
B06D (1 ×)
B06E (1 ×)
B01 (1 ×)
B02A (1 ×)
B02A (2 ×)
B02A (2 ×)
B01 (1 ×)
B04D (3 ×)
B01 (1 ×)
B06D (1 ×)
B02A (1 ×)
B06D (1 ×)
B06B (1 ×)
B06C (1 ×)
B06C (1 ×)
B06B (1 ×)
B06C (1 ×)
B06C (1 ×)
B06B (1 ×)
B06C (1 ×)
B06C (1 ×)
B06B (1 ×)
B06C (1 ×)
B06C (1 ×)
B04C (1 ×)
B04E (1 ×)
B07 (1 ×)
B04E (1 ×)
B04C (1 ×)
B04E (1 ×)
B07 (1 ×)
B04E (1 ×)
B03 (1 ×)
B04C (1 ×)

AOLRCK
AOMCLK
AOMCLK
AOSDATA0
AOSDATA0
AOUTL
AOUTL
AOUTR
AOUTR
ARX0ARX0+
ARX1ARX1+
ARX2ARX2+
ARX-5V
ARX-5V
ARXCARXC+
ARX-DDC-CLK
ARX-DDC-DAT
ARX-HPD
ASPDIF_OUT
ASPDIF_OUT
ASPDIF_OUT
AUDIO_LS_L
AUDIO_LS_L
AUDIO_LS_R
AUDIO_LS_R
AV3_L_IN
AV3_R_IN
BACKLIGHT_BOOST
BACKLIGHT_BOOST
BL_ON_OFF
BL_ON_OFF
BN
BN
BOLT_ON_UART_RXD
BOLT_ON_UART_RXD
BOLT_ON_UART_TXD
BOLT_ON_UART_TXD
BP
BP
BRX0BRX0+
BRX1BRX1+
BRX2BRX2+
BRX-5V
BRX-5V
BRXCBRXC+
BRX-DDC-CLK
BRX-DDC-DAT
BRX-HPD
CEC
CRX0CRX0+
CRX1CRX1+
CRX2CRX2+
CRX-5V
CRX-5V
CRXCCRXC+
CRX-DDC-CLK
CRX-DDC-DAT
CRX-HPD
CVBS_IN_DTV
CVBS_IN_DTV
CVBS_RF
CVBS_RF
CVBS_SC1
CVBS_SC2
CVBS0T
CVBS2
CVBS2
DACOUT1
DACOUT1

B03 (1 ×)
B04C (1 ×)
B03 (1 ×)
B04C (1 ×)
B03 (1 ×)
B04C (1 ×)
B03 (3 ×)
B07 (1 ×)
B03 (3 ×)
B07 (1 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B04A (1 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B06B (1 ×)
B06C (1 ×)
B06D (1 ×)
B03 (1 ×)
B06B (1 ×)
B03 (1 ×)
B06B (1 ×)
B06B (1 ×)
B06B (1 ×)
B01 (1 ×)
B04C (1 ×)
B01 (1 ×)
B04C (1 ×)
B06B (1 ×)
B06E (1 ×)
B04C (1 ×)
B05 (1 ×)
B04C (1 ×)
B05 (1 ×)
B06B (1 ×)
B06E (1 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B04A (1 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (4 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B04A (1 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (1 ×)
B06B (1 ×)
B02A (1 ×)
B06B (1 ×)
B06C (1 ×)
B06C (1 ×)
B02A (2 ×)
B06B (1 ×)
B06D (2 ×)
B06C (1 ×)
B06D (1 ×)

DACOUT2
DACOUT2
DC_5V
DC_PROT
DC_PROT
DDC_RESET
DDC_RESET
DDC_RESET
DDC-SCL
DDC-SCL
DDC-SDA
DDC-SDA
DEMOD_RESET
DEMOD_RESET
DM
DP
DRX0DRX0+
DRX1DRX1+
DRX2DRX2+
DRX-5V
DRX-5V
DRXCDRXC+
DRX-DDC-CLK
DRX-DDC-DAT
DRX-HPD
DTV_IRQ
DTV_IRQ
DTV_L_IN
DTV_L_IN
DTV_R_IN
DTV_R_IN
DVI_AUL_IN
DVI_AUR_IN
EDID_SCL
EDID_SCL
EDID_SDA
EDID_SDA
EDID_WC
EDID_WC
EDID_WC
FRONTEND_SCL
FRONTEND_SCL
FRONTEND_SDA
FRONTEND_SDA
GAIN_SW
GAIN_SW
GN
GN
GND_CVBS_RF
GND_CVBS_RF
GNDLAN
GNDSND
GNDSND
GNDTUN
GP
GP
HDMI_CEC
HDMI_CEC
HDMI_RESET
HDMI_RESET
HP_DET
HP_DET
HP_DETECT
HP_LOUT
HP_LOUT
HP_LOUT
HP_ROUT
HP_ROUT
HP_ROUT
HSYNC
HSYNC
HSYNC
I2S_SEL1
I2S_SEL2
JTCK
JTDI
JTDO
JTMS

B06B (1 ×)
B06D (1 ×)
B06E (3 ×)
B03 (1 ×)
B04C (1 ×)
B04C (1 ×)
B05 (1 ×)
B07 (1 ×)
B04C (1 ×)
B05 (2 ×)
B04C (1 ×)
B05 (2 ×)
B02A (1 ×)
B04C (1 ×)
B06D (1 ×)
B06D (1 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B04C (1 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (2 ×)
B05 (1 ×)
B05 (2 ×)
B04A (1 ×)
B05 (1 ×)
B05 (1 ×)
B06B (1 ×)
B05 (1 ×)
B06B (1 ×)
B06B (1 ×)
B06B (1 ×)
B05 (1 ×)
B06E (1 ×)
B05 (1 ×)
B06E (1 ×)
B04C (1 ×)
B05 (1 ×)
B06E (1 ×)
B02A (1 ×)
B04A (1 ×)
B02A (1 ×)
B04A (1 ×)
B02A (1 ×)
B04C (1 ×)
B06B (1 ×)
B06E (1 ×)
B02A (1 ×)
B06B (1 ×)
B06A (10 ×)
B01 (2 ×)
B03 (26 ×)
B01 (1 ×)
B06B (1 ×)
B06E (1 ×)
B04A (1 ×)
B05 (1 ×)
B04C (1 ×)
B05 (1 ×)
B04C (1 ×)
B06D (1 ×)
B04C (1 ×)
B03 (1 ×)
B06B (1 ×)
B06D (2 ×)
B03 (1 ×)
B06B (1 ×)
B06D (2 ×)
B06B (1 ×)
B06C (1 ×)
B06E (1 ×)
B04E (1 ×)
B04E (1 ×)
B04C (2 ×)
B04C (2 ×)
B04C (2 ×)
B04C (2 ×)

JTRST
KEYBOARD
KEYBOARD
L_MON_OUT
L_MON_OUT
L_MON_OUT
LAN-RST
LAN-RST
LCD_CLK_SCL
LCD_CLK_SCL
LCD_CLK_SDA
LCD_CLK_SDA
LCD_PWR_ON
LCD_PWR_ON
LED1
LED1
LED2
LED2
LIGHT_SENSOR
LIGHT_SENSOR
LVDS_A_TXe0n
LVDS_A_TXe0p
LVDS_A_TXe1n
LVDS_A_TXe1p
LVDS_A_TXe2n
LVDS_A_TXe2p
LVDS_A_TXe3n
LVDS_A_TXe3p
LVDS_A_TXe4n
LVDS_A_TXe4p
LVDS_A_TXeCLKn
LVDS_A_TXeCLKp
LVDS_A_TXo0n
LVDS_A_TXo0p
LVDS_A_TXo1n
LVDS_A_TXo1p
LVDS_A_TXo2n
LVDS_A_TXo2p
LVDS_A_TXo3n
LVDS_A_TXo3p
LVDS_A_TXo4n
LVDS_A_TXo4p
LVDS_A_TXoCLKn
LVDS_A_TXoCLKp
LVDS_B_TXe0n
LVDS_B_TXe0p
LVDS_B_TXe1n
LVDS_B_TXe1p
LVDS_B_TXe2n
LVDS_B_TXe2p
LVDS_B_TXe3n
LVDS_B_TXe3p
LVDS_B_TXe4n
LVDS_B_TXe4p
LVDS_B_TXeCLKn
LVDS_B_TXeCLKp
LVDS_B_TXo0n
LVDS_B_TXo0p
LVDS_B_TXo1n
LVDS_B_TXo1p
LVDS_B_TXo2n
LVDS_B_TXo2p
LVDS_B_TXo3n
LVDS_B_TXo3p
LVDS_B_TXo4n
LVDS_B_TXo4p
LVDS_B_TXoCLKn
LVDS_B_TXoCLKp
LVDS_SELECT
LVDS_SELECT
MII-COL
MII-COL
MII-CRS
MII-CRS
MII-MDC
MII-MDC
MII-MDINT
MII-MDINT
MII-MDIO
MII-MDIO
MII-RXCLK
MII-RXCLK

3139 123 6465.1

B04C (2 ×)
B04C (1 ×)
B06D (1 ×)
B06B (2 ×)
B06C (1 ×)
B06D (1 ×)
B04C (1 ×)
B06A (1 ×)
B04A (1 ×)
B07 (1 ×)
B04A (1 ×)
B07 (1 ×)
B04C (1 ×)
B04D (1 ×)
B04A (1 ×)
B04C (1 ×)
B04A (1 ×)
B04C (1 ×)
B04C (1 ×)
B06D (1 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (3 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (3 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (3 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (3 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04D (2 ×)
B04C (1 ×)
B04D (1 ×)
B04C (1 ×)
B06A (1 ×)
B04C (1 ×)
B06A (1 ×)
B04C (1 ×)
B06A (1 ×)
B04C (1 ×)
B06A (1 ×)
B04C (1 ×)
B06A (1 ×)
B04C (1 ×)
B06A (1 ×)

MII-RXD(0)
MII-RXD(0)
MII-RXD(1)
MII-RXD(1)
MII-RXD(2)
MII-RXD(2)
MII-RXD(3)
MII-RXD(3)
MII-RX-DV
MII-RX-DV
MII-RX-ER
MII-RX-ER
MII-TXCLK
MII-TXCLK
MII-TXD(0)
MII-TXD(0)
MII-TXD(1)
MII-TXD(1)
MII-TXD(2)
MII-TXD(2)
MII-TXD(3)
MII-TXD(3)
MII-TXEN
MII-TXEN
MUTE
MUTE
MUTE_C
MUTE_C
MUTE_M
MUTE_M
MUTEn
MUTEn
NAND_PALE
NAND_PARB
NAND_PCLE
NAND_PDD(0)
NAND_PDD(1)
NAND_PDD(2)
NAND_PDD(3)
NAND_PDD(4)
NAND_PDD(5)
NAND_PDD(6)
NAND_PDD(7)
NAND_POCE
NAND_POOE
NAND_POWE
OFF_MUTE
OFF_MUTE
PB0P
PB0P
PB0P-SC1
PB1P
PBR0N
PBR0N
PBR1N
PBS_I2C_SCL
PBS_I2C_SCL
PBS_SPI_CLK
PBS_SPI_CLK
PBS_SPI_DI
PBS_SPI_DI
PBS_SPI_DO
PBS_SPI_DO
PGA0OUTL-SC1
PGA0OUTR-SC1
POWER_DOWN
POWER_DOWN
POWER-OK
POWER-OK
PR0P
PR0P
PR0P-SC1
PR1P
PWM_DIMMING
PWM_DIMMING
R_MON_OUT
R_MON_OUT
R_MON_OUT
RC1
RC1
RC1
RC2

B04C (1 ×)
B06A (1 ×)
B04C (1 ×)
B06A (1 ×)
B04C (1 ×)
B06A (1 ×)
B04C (1 ×)
B06A (1 ×)
B04C (1 ×)
B06A (1 ×)
B04C (1 ×)
B06A (1 ×)
B04C (1 ×)
B06A (1 ×)
B04C (1 ×)
B06A (1 ×)
B04C (1 ×)
B06A (1 ×)
B04C (1 ×)
B06A (1 ×)
B04C (1 ×)
B06A (1 ×)
B04C (1 ×)
B06A (1 ×)
B03 (2 ×)
B06D (1 ×)
B03 (1 ×)
B06C (1 ×)
B03 (1 ×)
B06B (1 ×)
B03 (1 ×)
B04A (1 ×)
B04C (2 ×)
B04C (2 ×)
B04C (2 ×)
B04C (3 ×)
B04C (3 ×)
B04C (2 ×)
B04C (2 ×)
B04C (2 ×)
B04C (2 ×)
B04C (2 ×)
B04C (2 ×)
B04C (2 ×)
B04C (3 ×)
B04C (2 ×)
B03 (1 ×)
B06B (1 ×)
B06B (1 ×)
B06C (1 ×)
B06C (1 ×)
B06B (1 ×)
B06B (1 ×)
B06C (1 ×)
B06B (1 ×)
B04C (1 ×)
B07 (1 ×)
B04C (1 ×)
B07 (1 ×)
B04C (1 ×)
B07 (1 ×)
B04C (1 ×)
B07 (1 ×)
B06C (1 ×)
B06C (1 ×)
B03 (1 ×)
B04A (1 ×)
B01 (1 ×)
B06D (1 ×)
B06B (1 ×)
B06C (1 ×)
B06C (1 ×)
B06B (1 ×)
B01 (1 ×)
B04C (1 ×)
B06B (2 ×)
B06C (1 ×)
B06D (1 ×)
B04C (1 ×)
B06D (1 ×)
B07 (2 ×)
B04C (1 ×)

RC2
RC2
RF_SW
RF_SW
RJLED_G
RJLED_Y
RN
RN
RP
RP
RX0RX0+
RX1RX1+
RX2RX2+
RXCRXC+
S0Y1
SAV_L_IN
SAV_L_IN
SAV_R_IN
SAV_R_IN
SC0
SC0
SC1_AOUTL
SC1_AOUTR
SC1_B
SC1_B
SC1_CVBS_OUT
SC1_CVBS_OUT
SC1_FB
SC1_FB
SC1_G
SC1_G
SC2_CVBS_OUT
SC2_CVBS_OUT
SC2_CVBS_OUT
SCART_CVBS0
SCART_CVBS0
SCART_CVBS1
SCART_CVBS1
SCL
SCL
SCL
SCL
SDA
SDA
SDA
SDA
SENSE+1V0_MT5392
SENSE+1V0_MT5392
SERIAL_POCE
SIF_OUT
SIF_OUT
SIF_OUT_1
SIF_OUT_GND
SIF_OUT_GND
SOG
SOG
SOY0
SOY0
SPB1P
SPB1P
SPB1P_1
SPB1P_1
SPDIF_IN
SPDIF_IN
SPR1P
SPR1P
SPR1P_1
SPR1P_1
STANDBY
STANDBY
STANDBY
STANDBYn
STANDBYn
SW_MUTE
SW_MUTE
SY0
SY0
SY1P

B06D (1 ×)
B07 (1 ×)
B02A (1 ×)
B04C (1 ×)
B06A (1 ×)
B06A (1 ×)
B06B (1 ×)
B06E (1 ×)
B06B (1 ×)
B06E (1 ×)
B05 (1 ×)
B05 (1 ×)
B05 (1 ×)
B05 (1 ×)
B05 (1 ×)
B05 (1 ×)
B05 (1 ×)
B05 (1 ×)
B06B (1 ×)
B06B (1 ×)
B06D (2 ×)
B06B (1 ×)
B06D (2 ×)
B06B (1 ×)
B06D (2 ×)
B07 (1 ×)
B07 (1 ×)
B06C (1 ×)
B07 (1 ×)
B06C (1 ×)
B07 (2 ×)
B06B (1 ×)
B07 (1 ×)
B06C (1 ×)
B07 (1 ×)
B06B (1 ×)
B06C (1 ×)
B06D (1 ×)
B06B (1 ×)
B06C (1 ×)
B06B (1 ×)
B06C (1 ×)
B04C (3 ×)
B04D (1 ×)
B05 (1 ×)
B07 (1 ×)
B04C (3 ×)
B04D (1 ×)
B05 (1 ×)
B07 (1 ×)
B01 (1 ×)
B04A (2 ×)
B04C (2 ×)
B02A (1 ×)
B06B (1 ×)
B02A (2 ×)
B02A (1 ×)
B06B (1 ×)
B06B (1 ×)
B06E (1 ×)
B06B (1 ×)
B06C (1 ×)
B06B (1 ×)
B06C (1 ×)
B06B (1 ×)
B06C (2 ×)
B04C (1 ×)
B05 (1 ×)
B06B (1 ×)
B06C (1 ×)
B06B (1 ×)
B06C (2 ×)
B01 (1 ×)
B04A (1 ×)
B07 (1 ×)
B03 (1 ×)
B04A (1 ×)
B03 (1 ×)
B04A (1 ×)
B06B (1 ×)
B06D (1 ×)
B06B (1 ×)

SY1P
SY1P_1
SY1P_1
TPIM
TPIP
TPOM
TPOP
TSO_CLK
TSO_CLK
TSO_DATA0
TSO_DATA0
TSO_SYNC
TSO_SYNC
TSO_VALID
TSO_VALID
TUNER_SCL
TUNER_SDA
UART_RX
UART_TX
USB_OC
USB_OC
USB_PWE
USB_PWE
VDD
VDDA
VDDO_3V3
VSYNC
VSYNC
VSYNC
Y0N
Y0N
Y0P
Y0P
Y0P-SC1
Y1N
Y1P

B06C (1 ×)
B06B (1 ×)
B06C (2 ×)
B06A (2 ×)
B06A (2 ×)
B06A (2 ×)
B06A (2 ×)
B02A (1 ×)
B04A (1 ×)
B02A (1 ×)
B04A (1 ×)
B02A (1 ×)
B04A (1 ×)
B02A (1 ×)
B04A (1 ×)
B02A (2 ×)
B02A (2 ×)
B04C (3 ×)
B04C (3 ×)
B04C (1 ×)
B06D (1 ×)
B04C (1 ×)
B06D (1 ×)
B03 (2 ×)
B03 (2 ×)
B05 (3 ×)
B06B (1 ×)
B06C (1 ×)
B06E (1 ×)
B06B (1 ×)
B06C (1 ×)
B06B (1 ×)
B06C (1 ×)
B06C (1 ×)
B06B (1 ×)
B06B (1 ×)

18700_545_090827.eps
090827
2010-Jul-01

Circuit Diagrams and PWB Layouts

LC9.2L LA

10.

EN 74

F927

IF19

FA15

3A14
5A14

389D

389F

3NAY
3NAJ
3NAL

7822

5810

4912
4911
4910

I912

2764

2760

2765

2762

2108

3828
2820 2819 2818 2817 2816 2815

2125

2162

F109
F120

I100

5102

F118

F117

3842

I833

F115

F116

2824

7815 3841

3840

F123

3879
3845

6101

F119

I103

F114

I835

3D57

7513

5502

2522
I587

2523

6500

FE14

F522

1D18
1E10

7504

3566
2D20

FD17

5D03

6D16

FD18

3D21

ID25

2D22

FD21

6502

3523
2565

7517

7516

2D13
3D20

ID26

I560

ID28

ID22

1D20

I521

I530

3D35

2D52

3D15

3D33

3D17

2D25

2E55 3E94
3E68 2E18

2503

3D36
3D18

2D51

FD15

I524

6501

F580

2D40

6D12

5D01

3557 3556

1D15

FE15

1E13

I598

2E72
3E78
2E49
3E60

FE32

1D08

I513

FH30

5D02

ID12

FD14

3508

6D14

6D09

I510

I512

FD13

6E30

4B36
4B35

2D28

7500
3507

IE95

3E99

IE11

3D52

5D00

F516

F518

3EA0

2D14

1E18

I511
IE21

7E02

2D50

2D70
ID13

2E10 2E51
3E90 3E64

FE18

6E28

1B11

1B13

1B12

1B14

IE96

3D28

3501

I522

I518

3510
3520

I519

3515 3514

F523

I516

3521

3500

3559

2D53

7519

ID29

FD20

FD19

1D21

1D23

3560
3564
2569

2E69

2521

3512

3517

I525

2D29

3565

3D34

7518

3E56

4D00

IE18

2120

2520

2559
I526

2D41

FH11

2568

2E50

F541

2E70

3D13

FE35

3E66
2E14

2E54 3E67
2E16

2121
I565

2518

3502

2519

2560

IE20

3562

2H23

F548

2E57

6E32

F543

F542

I566

3531

F569

I568

F545

3509

2H24

3D11

IE26

F544

5507

I573

IE78

7501

IE24

6E26

2E53

F546

F539

7102

FE39

1E14

IE16

2E58
3E71
2E24

2561
2562
2563
2564

I582

I515

IE29

C051

F547

F593

F512

FB27

2537

2524

F515

2E23
3E70

7511

7507

7508

3621

I589

I576

3549

I577

2549
2532

2553 5508
3544

I596

6D18

FD28

I581

I595

3519

4B16

I590

I564

4502

FF12

3EA7

IE01

2E71
3E79
3E57
2E47

I583

I559

FE50

5E17

2543

3548

I570

I527

6E04

FE49

F126

3561

4E07

5E16

FE51

1E26

4B39
4B38

2E06 3E07
3E12 2E07

FB37

1E03

3B36

4B37

7B04

3B37

IE99

FB40

IE17

3D59
FB38

F112

F550

I585

I580

I572

2E40
3E43

5E19 6E16

FB23
FB20

2542

I571

IE89
3EA6

FB16

2E65
3E75

F113

2116

I588

2539
2540
3540

F536

3E47
IE72

3EA9

3541
I586

FH25

2H25

4E10
4E11
3EA8
3D58

3101

F111

I554

3550

IE14

2124
3102

2122

I552

F579

2515

2H26

FB24

3EA5

F535

3528

I584

I575

3530

2E33
3E36
3E73
2E63

3529

I563

5E15

FE38

IE56

3EA4

5E12

6E10

3E03

4E12

6E14

1E02

FE26

I546

I578

FH26

3E27
F540

4E08

FB42

3E81
2E59

I630

F615

IE34

3E08

3B43

FH24

2E26
3E24

IE42

1E24

7B02

6E03

FE48

3E01

2E02

3B10
3B73

5E14

3E04

3B34

2E03
3E02 4E13
2E04 4E09
3E06
2E05

5E13

FB26

FB09

I543

2556

IE13

6E02

3B35

3B61

FB08

5H12

FH23

2698

3623

6601

FE36

3563

2B50

1E20

3B76

3B60
3B72

3624

I629

FH21

1E01

F538

I544

3527
3526

7506

3622

FH20

3B40
2B51

FG16

7605

FH22

3B58

6B07
3B62
FB07

7B07

3B75 4B40

3104 2128

3138
3140

2513

6600

F616
FH19

IE25

1H14

2114

2134

2154

3B38

3B32

F849

4B03

I102

F100

4101
2119
4100
2118

I124

3103

F101

2109
3100
2111

I838

3B33

7B09

3135

7101

I125

2156 6100
3130

6102

I126

I129

2155 3131
3122
2161
3125 2160

2152

2110

F132

IB09

3865
3864

6813
6812

I134

I131

2164

FB25

FB19

2B26
3B48
FB30

1811

I132

I130

2163
3107

4E06

4B17

6125

2168

3B63

7B03

FB47

FB10

1814

4B11

1B04

F103

FB22

IB11

IB10

FB18

F104

3173

FB17

3B39

3B663B67 2B24

F868

3B45
2B25

FB57

1813

F105

3172

IB12

IB03

3868
3869

F107

I111

3811
3810
5B01
FB11

3B65

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6124 2159

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3888

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3D24

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2G22

3873

1D22
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2NAB

3NAE

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2D54

9NA2

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5116

3542
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FB52

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2687
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5101
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3884

38A9

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3872

2D73

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7820

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2763
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3G38

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6G16
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ID43

1D25

7G12

IF14

3614 3823

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3D56

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2768

5712
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F836

2G29
3G30
3G31

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6D11

6D15

3710
2741

7703

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2742
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2608

2674

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3861

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2682
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3713
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3E59 2E48

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3E26 2E28

3E38 2E35

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3D12

3D14

3D10

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3866 3874
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5605 2642

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3F26

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3822

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2766

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2D67

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2287

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1F22

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2917

3816

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2607

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2NA2

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3NA4
9NA3

4800

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3NAC
F211

F237

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3257
3271
2271

2D18

2F14 3F16

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2252

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C002

3D41

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2270 3270
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3820

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3821

I840

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389G

F257

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38A3

38A4
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2277
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3552
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3D42

1M36

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2810

3266

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I228

I250

2728

2E89

I810

3265
3267

2D60

2729

4808

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1B10

4818

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3E93 2E83

2B29 3B22 2B48

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F987
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3D50

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2727

2D62

F983

F984

4816

F236

F209

F979

4815

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I242

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2E80 3E10
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2920

4813

2285

2E84

2D61

INAU

F975

2812

I241

3628

2D63

4809

INAY

INAV

FNAE

F256

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3NA3

F829

F826

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3724

4817
4814

4807

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5811

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3834
3837

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4812

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5217

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3NAK

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2242

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2811

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3F30
2F22

7D11

7702

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2F13

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1M95

6F12 3F21

3894
2F43

3D49

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3256
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4805

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3718
3730 3731

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2722

1735

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4819

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3606 3627

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3263

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3E17

3711
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3246

2286

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3234
2241 2235

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7213

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F932

INAP

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3264

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2279

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FF38

3607
2D69

2276
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2717

2719

1736

6F10

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6F11
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2716

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2240
3255

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2714
3893
3833

5225

F214

3274

1F11

3629

26A6

2711

2710

2611
2622
2618
2620
2621

2749

2712

3281

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F915

F917

F918
F922
F923

2A11 3A11 5A16
3A16 3A15

3NB2

2278

I216

3525

7505

F920

F925
F929

F911

F202

F203

3273

7201
3282

F525

2512

F921

F928

F930

F934

F250
F201

F251

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FF34

FF36

3280 3236
3254 3235

2275

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2F15

2272
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2F42

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5224

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5F15

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3913

1205

2267

2916

3912

5911
5912
5910

3831 3839 2823

7911

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1H16

3826
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2822
3838
3830

7812

7910

2919

6912

389J 2813

7814

2264
2273

I215

FF33

1F14

2274

5812

2F38
3F45

1F18

2F39 3F44
3F47
2F40 2F41

3F31 2F23

5NA2

2F36
2F37

3F29

2NA6

2D46 2D47

7217

2NA1

FF32

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F926

FA17

2921

3A17

3276

2266

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F859

I261

A259

FF31

3511

5NA1

FA19

F933

3277

5A10

FA13

2A10
3A10

F864

3279

FF30

2A12 2A13
3A18 3A19
3A12 3A13

FA14

F931

2280

5223
2A14

3917

1901
1902
1903
1904
1905
1906
1907
1908
1909
1910
1911
1912

1G50

FF37

2903

1922
1923
1924
1925
1926
1927
1928
1929
1930
1931
1932
1933

2901

6914

3916

6915 2902

2904

2268

FA16

I853

2288

3F43
IF20

2F25
3F33 2F32 3F37
2F18
IF21

I253

2F16

2284 5226

FF20

3F38

3F32 2F33 3F42

7216

FF18

IF18

2F24

6F13

FF14

3F46

1F16

1818

1M59

1F19

1G51

6F20

Layout Small Signal Board

FB44

1B06

1B03

4B34

FD22

1B01
18700_550_090818.eps
090821

3139 123 6465.1

2010-Jul-01



---

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Title                           : LC9.2L LA, 3122 785 18700, 100701
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