Philips 32PFL3605/98 Specifications

Colour Television
Chassis
RAM1.0A
LA
18930_000_100308.eps
100308
Contents
Page
1.
2.
3.
4.
5.
6.
7.
8.
9.
Revision List
2
Technical Specifications, Connections
2
Precautions, Notes, and Abbreviation List
5
Mechanical Instructions
9
Service Modes, Error Codes, and Fault Finding 16
Alignments
29
Circuit Descriptions
31
IC Data Sheets
35
Block Diagrams
Wiring Diagram (32")
41
Wiring Diagram (42")
42
Block Diagram
43
10. Circuit Diagrams and PWB Layouts
Drawing
Power Supply Unit 32"
(A01) 44
Power Supply Unit 42"
(A01) 47
SSB: Power
(B01) 50
SSB: AV Input
(B02) 51
SSB: VGA Input
(B03) 52
SSB: HDMI Input
(B04) 53
SSB: RF Tuner
(B05) 54
SSB: Keyboard/LED/IR Interface
(B06) 55
SSB: MT8222
(B07) 56
SSB: DDR2 DRAM
(B08) 57
SSB: LVDS Output
(B09) 58
SSB: Audio Amplifier
(B10) 59
SSB: TCON
(B11) 60
SSB: TCON Power
(B12) 61
IR/LED Board
(J) 64
11. Styling Sheets
Styling Sheet 32" - 42"
66
PWB
45-46
48-49
62-63
62-63
62-63
62-63
62-63
62-63
62-63
62-63
62-63
62-63
62-63
62-63
65
©
Copyright 2010 Koninklijke Philips Electronics N.V.
All rights reserved. No part of this publication may be reproduced, stored in a
retrieval system or transmitted, in any form or by any means, electronic, mechanical,
photocopying, or otherwise without the prior permission of Philips.
Published by ER/MB/CH/WSK 1063 BU TV Consumer Care, the Netherlands
Subject to modification
EN 3122 785 18930
2010-Mar-12
EN 2
1.
Revision List
RAM1.0A LA
1. Revision List
Manual xxxx xxx xxxx.0
• First release.
2. Technical Specifications, Connections
2.2
Index of this chapter:
2.1 Technical Specifications
2.2 Directions for Use
2.3 Connections
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:
Model Number
Styling
Published in
32PFL3605/67
Dali
3122 785 18930
32PFL3605/93
Dali
3122 785 18930
32PFL3605/98
Dali
3122 785 18930
42PFL3605/67
Dali
3122 785 18930
42PFL3605/93
Dali
3122 785 18930
42PFL3605/98
Dali
3122 785 18930
2010-Mar-12
Directions for Use
Directions for use can be downloaded from the following
websites:
http://www.philips.com/support
http://www.p4c.philips.com
Technical Specifications, Connections
2.3
RAM1.0A LA
2.
EN 3
Connections
5
6
1
2
3
4
10
9
8
7
18930_001_100309.eps
100312
Figure 2-1 Connection overview
Note: The following connector colour abbreviations are used
(acc. to DIN/IEC 757): Bk= Black, Bu= Blue, Gn= Green,
Gy= Grey, Rd= Red, Wh= White, Ye= Yellow.
4 - USB2.0
1
2.3.1
Side Connections
1, 2 - Cinch: Video CVBS - In, Audio - In
Ye - Video CVBS
1 VPP / 75 ohm
Wh - Audio L
0.5 VRMS / 10 kohm
Rd - Audio R
0.5 VRMS / 10 kohm
3 - S-Video (Hosiden): Video Y/C - In
1 - Ground Y
Gnd
2 - Ground C
Gnd
3 - Video Y
1 VPP / 75 ohm
4 - Video C
0.3 VPP / 75 ohm
2
3
4
10000_022_090121.eps
090121
Figure 2-2 USB (type A)
jq
jq
jq
1
2
3
4
- +5V
- Data (-)
- Data (+)
- Ground
Gnd
k
jk
jk
H
H
H
j
j
2010-Mar-12
EN 4
2.3.2
2.
RAM1.0A LA
Technical Specifications, Connections
Rear Connections
9 - HDMI 1, 2: Digital Video, Digital Audio - In
19
18
5 - Aerial - In
- - IEC-type (EU)
Coax, 75 ohm
D
6 - Cinch: Audio - Out
Rd - Audio - R
0.5 VRMS / 10 kohm
Wh - Audio - L
0.5 VRMS / 10 kohm
kq
kq
7 - Cinch: Video YPbPr - In, Audio - In
Gn - Video Y
1 VPP / 75 ohm
Bu - Video Pb
0.7 VPP / 75 ohm
Rd - Video Pr
0.7 VPP / 75 ohm
Rd - Audio - R
0.5 VRMS / 10 kohm
Wh - Audio - L
0.5 VRMS / 10 kohm
jq
jq
jq
jq
jq
8 - VGA: Video RGB - In, Mini Jack: Audio - In
1
5
10
6
15
11
10000_002_090121.eps
090127
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
Wh - Audio L
Rd - Audio R
2010-Mar-12
0.7 VPP / 75 ohm
0.7 VPP / 75 ohm
0.7 VPP / 75 ohm
j
j
j
Gnd
Gnd
Gnd
Gnd
+5 V
Gnd
H
H
H
H
j
H
DDC data
0-5V
0-5V
DDC clock
j
j
j
j
0.5 VRMS / 10 kohm
0.5 VRMS / 10 kohm
jo
jo
1
2
10000_017_090121.eps
090428
Figure 2-4 HDMI (type A) connector
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
10 - Service Connector (UART)
1 - Ground
Gnd
2 - UART_TX
Transmit
3 - UART_RX
Receive
H
k
j
Precautions, Notes, and Abbreviation List
RAM1.0A 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
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. Of de set
ontploft!
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.
3.2
•
Warnings
•
•
•
•
All ICs and many other semiconductors are susceptible to
electrostatic discharges (ESD w). Careless handling
during repair can reduce life drastically. Make sure that,
during repair, you are connected with the same potential as
the mass of the set by a wristband with resistance. Keep
components and tools also at this same potential.
Be careful during measurements in the high voltage
section.
Never replace modules or other components while the unit
is switched “on”.
When you align the set, use plastic rather than metal tools.
This will prevent any short circuits and the danger of a
circuit becoming unstable.
3.3
Notes
3.3.1
General
•
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
3.3.2
Schematic Notes
•
•
•
•
•
•
3.3.3
picture carrier at 475.25 MHz for PAL, or 61.25 MHz for
NTSC (channel 3).
Where necessary, measure the waveforms and voltages
with (D) and without (E) aerial signal. Measure the
voltages in the power supply section both in normal
operation (G) and in stand-by (F). These values are
indicated by means of the appropriate symbols.
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
Lead-free Soldering
Due to lead-free technology some rules have to be respected
by the workshop during a repair:
• Use only lead-free soldering tin. If lead-free solder paste is
required, please contact the manufacturer of your soldering
equipment. In general, use of solder paste within
workshops should be avoided because paste is not easy to
store and to handle.
• Use only adequate solder tools applicable for lead-free
soldering tin. The solder tool must be able:
– To reach a solder-tip temperature of at least 400°C.
– To stabilize the adjusted temperature at the solder-tip.
– To exchange solder-tips for different applications.
• Adjust your solder tool so that a temperature of around
360°C - 380°C is reached and stabilized at the solder joint.
Heating time of the solder-joint should not exceed ~ 4 sec.
Avoid temperatures above 400°C, otherwise wear-out of
tips will increase drastically and flux-fluid will be destroyed.
To avoid wear-out of tips, switch “off” unused equipment or
reduce heat.
• Mix of lead-free soldering tin/parts with leaded soldering
tin/parts is possible but PHILIPS recommends strongly to
avoid mixed regimes. If this cannot be avoided, carefully
clear the solder-joint from old tin and re-solder with new tin.
2010-Mar-12
EN 6
3.3.6
3.
RAM1.0A LA
Precautions, Notes, and Abbreviation List
3.4
Alternative BOM identification
It should be noted that on the European Service website,
“Alternative BOM” is referred to as “Design variant”.
The third digit in the serial number (example:
AG2B0335000001) indicates the number of the alternative
B.O.M. (Bill Of Materials) that has been used for producing the
specific TV set. In general, it is possible that the same TV
model on the market is produced with e.g. two different types
of displays, coming from two different suppliers. This will then
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.
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
0/6/12
AARA
ACI
ADC
AFC
AGC
AM
AP
AR
ASF
ATSC
ATV
Auto TV
AV
AVC
AVIP
B/G
BDS
BLR
BTSC
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
Abbreviation List
Practical Service Precautions
•
•
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.
B-TXT
C
CEC
CL
CLR
ComPair
CP
CSM
CTI
CVBS
DAC
DBE
DCM
DDC
D/K
DFI
2010-Mar-12
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
RAM1.0A 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-Mar-12
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-Mar-12
RAM1.0A 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
RAM1.0A LA
4.
EN 9
4. Mechanical Instructions
Index of this chapter:
4.1 Cable Dressing
4.2 Service Positions
4.3 Assembly/Panel Removal
4.4 Set Re-assembly.
4.1
Notes:
• Figures below can deviate slightly from the actual situation,
due to the different set executions.
Cable Dressing
18930_101_100303.eps
100303
Figure 4-1 Cable dressing (32")
2010-Mar-12
EN 10
4.
RAM1.0A LA
Mechanical Instructions
18930_120_100303.eps
100303
Figure 4-2 Cable dressing (42")
4.2
Service Positions
For easy servicing of a TV set, the set should be put face down
on a soft flat surface, foam buffers or other specific workshop
tools. Ensure that a stable situation is created to perform
measurements and alignments. When using foam bars take
care that these always support the cabinet and never only the
display. Caution: Failure to follow these guidelines can
seriously damage the display!
Ensure that ESD safe measures are taken.
2010-Mar-12
Mechanical Instructions
4.3
Assembly/Panel Removal
4.3.1
Rear Cover
RAM1.0A LA
4.
EN 11
1
3
3
3
3
3
1 1
2
2
2
3
2
2
3
3
3
3
3
18930_100_100302.eps
100305
Figure 4-3 Rear cover removal (32")
1
2
4
4
4
3
4
1 1
2
3
3
3
2
2
3
3
3
3
4
18930_121_100303.eps
100303
Figure 4-4 Rear cover removal (42")
2010-Mar-12
EN 12
4.
Mechanical Instructions
RAM1.0A LA
Warning: Disconnect the mains power cord before removing
the rear cover.
See Figure 4-3 and Figure 4-4.
1. Remove the 3 different kind of fixation screws that secure
the rear cover.
2. Lift the rear cover from the TV. Make sure that wires and
flat foils are not damaged while lifting the rear cover from
the set.
4.3.2
Speakers
3
5
4
6
4
8
8
8
8
6
7
1
8
4
8
4
8
2
2
2
2
18930_106_100305.eps
100305
Figure 4-5 Speakers, PSU & SSB removal (32")
3
5
6
4
4
8
8
8
7
8
6
1
4
4
8
8
8
2
2
2
2
18930_122_100304.eps
100305
Figure 4-6 Speakers, PSU & SSB removal (42")
2010-Mar-12
Mechanical Instructions
See Figure 4-5 and Figure 4-6.
1. Unplug the speaker connector [1] from the SSB and
remove the wire wrap from this cable.
2. Remove the fixation screws from the speakers [2].
3. Take the speakers out.
When defective, replace the whole unit.
4.3.3
RAM1.0A LA
4.
EN 13
1
2
1
Power Supply Unit (PSU)
1
Caution: it is mandatory to remount all different screws at their
original position during re-assembly. Failure to do so may result
in damaging the PSU. See Figure 4-5 and Figure 4-6.
1. Unplug all connectors [3] from the PSU.
2. Remove all fixation screws [4] from the PSU.
3. The PSU can now be taken out of the set.
When defective, replace the whole unit.
4.3.4
Small Signal Board (SSB)
2
Caution: it is mandatory to remount all different screws at their
original position during re-assembly. Failure to do so may result
in damaging the SSB. See Figure 4-5 and Figure 4-6.
1. Release the clips from both the LVDS Flat Foil
connectors [5].
Caution: be careful, as these are very fragile connectors!
Take the flat foils out of their connectors.
2. Unplug all other connectors [1] and [6].
3. Remove grounding screws [7] from the stand support.
4. Remove all other fixation screws [8] from the SSB.
5. The SSB can now be lifted upwards away from the bottom
shield cover.
Caution: be careful not to damage the bottom shielding
between the SSB and the plastic stand-off.
4.3.5
2
18930_124_100305.eps
100305
Figure 4-8 Stand support plate (42")
See Figure 4-7 and Figure 4-8.
1. Remove the SSB as described earlier.
2. Remove the PSU as described earlier.
3. Remove shielding fixation screws [1]. See Figure 4-7
4. Remove stand support plate fixation screws [2].
5. Lift up the support plate together with the stand.
Stand support plate
2
1
1
1
2
2
18930_105_100304.eps
100304
Figure 4-7 Stand support plate (32")
2010-Mar-12
EN 14
4.3.6
4.
Mechanical Instructions
RAM1.0A LA
Bezel removal
2
2
1
1
1
1
1
2
1
1
18930_102_100303.eps
100305
Figure 4-9 Bezel removal (32")
1
1
1
1
1
1
1
2
2
2
2
2
3
3
1
1
18930_123_100305.eps
100305
Figure 4-10 Bezel removal (42")
See Figure 4-9 and Figure 4-10.
1. Remove the speakers as described earlier.
2. Remove the panel holders [3] (42" version only).
3. Remove the other fixation screws [1] and [2].
4. Lift up the LCD panel.
2010-Mar-12
Mechanical Instructions
4.3.7
4.3.9
IR/LED Board
RAM1.0A LA
4.
EN 15
LCD removal
18930_103_100304.eps
100304
Figure 4-11 IR/LED Board
1. Remove the bezel as described earlier.
2. Unplug the connectors from the IR/LED board.
3. Release the clips that hold the board and take it from the
bezel, see Figure 4-11.
When defective, replace the whole unit.
4.3.8
Keyboard Control Board
1. Remove the bezel as described earlier.
2. Unplug the connector from the Keyboard Control Board.
3. Remove the fixation screws from the Keyboard Control
Board and take unit out.
When defective, replace the whole unit.
4.4
18930_107_100315.eps
100315
Figure 4-12 Vesa spacer
1.
2.
3.
4.
5.
Remove the SSB as described earlier.
Remove the PSU as described earlier.
Remove the stand support plate as described earlier.
Remove the bezel as described earlier.
Remove the Vesa spacer as shown in Figure 4-12 by using
a 10 m.m. wrench. Note it has been secured with
Loctite 2440.
6. Lift the LCD Panel from the bezel.
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 Figure 4-1 and Figure 4-2.
• Pay special attention not to damage the EMC foams on the
SSB shields. Ensure that EMC foams are mounted
correctly.
2010-Mar-12
EN 16
5.
RAM1.0A LA
Service Modes, Error Codes, and Fault Finding
5. Service Modes, Error Codes, and Fault Finding
Index of this chapter:
5.1 Service Modes
5.2 Service Tools
5.3 Software Upgrading
5.4 Error Codes
5.5 Fault Finding and Repair Tips
5.1
Service Modes
The Customer Service Mode (CSM) is used for communication
between the call centre and the customer, while the Service
Alignment Mode (SAM) offers several features for the service
technician. The Standard Default Mode (SDM) creates a predefined setting.
This chassis also offers the option of using ComPair, a
hardware interface between a computer and the TV chassis. It
offers the abilities of structured troubleshooting, error code
reading, and software version read-out for all chassis.
5.1.1
18930_200_100309.eps
100309
Figure 5-1 CSM Menu [1/3]
Service Default Mode (SDM)
Purpose
• To create a pre-defined setting, to get the same
measurement results as given in this manual
• To start the blinking LED procedure where only Layer 2
errors are displayed (see also Table 5-1).
How to Activate
Use the standard RC transmitter and key in the code “062596”,
directly followed by the “MENU” button.
How to Exit
Switch the set to STANDBY.
5.1.2
Customer Service Mode (CSM)
18930_201_100309.eps
100309
Figure 5-2 CSM Menu [2/3]
Purpose
The Customer Service Mode shows error codes and
information on the TV's operation settings.The call centre can
instruct the customer (by telephone) to enter CSM in order to
identify the status of the set.This helps the call centre to
diagnose problems and failures in the TV set before making a
service call.
The CSM is a read-only mode; therefore, modifications are not
possible in this mode.
How to Activate CSM
Key in the code “123654” via the standard RC transmitter.
Note: Activation of the CSM is only possible if there is no (user)
menu on the screen!
18930_202_100309.eps
100309
Figure 5-3 CSM Menu [3/3]
How to Navigate
Toggling between menus CSM1, -2 and -3 can be done by
means of the “CURSOR-DOWN/UP” knob.
CSM1
• Set Type Philips Model type number (16 characters
maximum)
• Production code Displays the production 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.
2010-Mar-12
Service Modes, Error Codes, and Fault Finding
•
•
•
•
•
•
Installation date Installation date.
Option code Displays the option code.
Codes Displays the latest 5 error codes status.
Refer to 5-1 Error codes.
SSB Displays the 12NC of the SSB (Small Signal Board).
Display Displays the 12NC of the display (LCD Panel).
PSU Displays the 12NC of PSU (Power Supply Unit).
CSM2
• Current Main SW Main software version.
• Standby SW Standby software version.
• SW version of other uP Other uP software version if
applicable.
• NVM-version NVM version.
CSM3
• Signal Quality/Present Digital percentage and analog
Yes/No.
• Child lock Child lock active/non-active.
• HDCP keys Detect and display HDCP keys: Valid/Nonvalid.
• HDMI audio format input stream Indication of HDMI
audio input stream format e.g. Dolby TrueHD, DTS-HD
Master Audio, MPCM.
• HDMI video format input stream Indication of HDMI
video input stream format e.g. 576i50Hz, 576p50Hz,
720p50Hz, 1080i50Hz, 1080p50Hz.
How to Exit CSM
Press “MENU” on the RC-transmitter.
5.1.3
RAM1.0A LA
5.2
Service Tools
5.2.1
ComPair
5.
EN 17
Introduction
ComPair (Computer Aided Repair) is a Service tool for Philips
Consumer Electronics products. and offers the following:
1. ComPair helps to quickly get an understanding on how to
repair the chassis in a short and effective way.
2. ComPair allows very detailed diagnostics and is therefore
capable of accurately indicating problem areas. No
knowledge on I2C or UART commands is necessary,
because ComPair takes care of this.
3. ComPair speeds up the repair time since it can
automatically communicate with the chassis (when the uP
is working) and all repair information is directly available.
4. ComPair features TV software upgrade possibilities.
Specifications
ComPair consists of a Windows based fault finding program
and an interface box between PC and the (defective) product.
The ComPair II interface box is connected to the PC via an
USB cable. For the TV chassis, the ComPair interface box and
the TV communicate via a bi-directional cable via the service
connector(s).
The ComPair fault finding program is able to determine the
problem of the defective television, by a combination of
automatic diagnostics and an interactive question/answer
procedure.
How to Connect
This is described in the chassis fault finding database in
ComPair.
Service Alignment Mode (SAM)
How to enter
To enter the factory mode, use the following method:
• Press the following key sequence on the remote control
transmitter: “062596” directly followed by the “INFO”
button.
After entering the service alignment mode, the following screen
is visible (refer to Figure 5-4).
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
PC
ComPair II Developed by Philips Brugge
HDMI
I2C only
18930_203_100310.eps
100310
Optional power
5V DC
10000_036_090121.eps
091118
Figure 5-5 ComPair II interface connection
Figure 5-4 Example of SAM
How to Navigate
The up/down cursor keys can be used to navigate through the
menu, while with the Left/Right cursor the values can be
changed.
How to Store
Choose “DO”, and press the “OK” button.
How to go one level up in the menu
Press the MENU button.
How to Exit
Go up in the menu to the root and switch the set to STANDBY.
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
damaged!
How to Order
ComPair II order codes:
• ComPair II interface: 3122 785 91020.
• Programming software can be downloaded from the Philips
Service portal.
• ComPair UART interface cable for RAM1.1x xx.
3138 188 75051.
Note: While having problems, contact the local support desk.
2010-Mar-12
EN 18
5.
RAM1.0A LA
5.3
Software Upgrading
5.3.1
Introduction
Service Modes, Error Codes, and Fault Finding
Philips continuously tries to improve its products, and we
recommend that you update the TV software when updates are
available. Software update files can be obtained from your
dealer or can be downloaded from the following website:
http://www.philips.com/support
Preparing a portable memory for software upgrade
You require the following:
1. A personal computer connected to the Internet.
2. An archive utility that supports the ZIP-format (e.g.
“WinZip” for Windows or “Stufflt” for Mac OS).
3. A USB flash drive (preferably empty).
18930_204_100310.eps
100310
Figure 5-6 Update the TV software 1
Note:
1. Only FAT/DOS-formatted flash drives are supported.
2. Only use software update files that can be found on the
Philips Service Portal.
5.3.2
Check the current TV software version
Before starting the software upgrade procedure, it is advised to
check the current TV software version:
1. Press the “Menu” button on your remote control.
2. Select “Setup” and press “OK”, then select [Software
update] > [Current software].
If the current software version of your TV is the same as the
latest update file found on the Philips Service Portal, it is not
necessary to update the TV software.
5.3.3
Download the latest software
18930_205_100310.eps
100310
Figure 5-7 Update the TV software 2
1. Point your web browser to the Philips Service Portal.
2. Find information and software related to your TV.
3. Select the latest software update file and download it to
your PC.
4. Insert a USB flash drive into one of the USB ports of your
PC.
5. Decompress the downloaded ZIP file and copy the
“autorun.upg” to the root directory of the USB flash drive.
5.3.4
Update the TV software
1. Power off your TV and disconnect all memory devices.
2. Insert the USB flash drive that contains the software
update file.
3. Switch on your TV, and TV will display the Main Menu upon
detection of USB portable.
4. Select [Setup] and press OK. See Figure 5-6.
Note: If the USB flash drive is not detected after power up,
disconnect it and re-insert it.
5. Select [Software update] > [Local updates] and press OK.
See Figure 5-7 and Figure 5-8.
6. When prompted, select [Cancel] or [OK] and press OK.
See Figure 5-9.
7. To proceed, In next menu select [Start] and press OK to
start software updates. See Figure 5-10.
8. Upgrading will now begins and the status of the updating
progress will be displayed. See Figure 5-11.
9. When the TV software is updated, the TV automatically
restarts and the TV starts up with the new software.
18930_206_100310.eps
100310
Figure 5-8 Update the TV software 3
18870_206_100209.eps
100209
Figure 5-9 Update the TV software 4
2010-Mar-12
Service Modes, Error Codes, and Fault Finding
RAM1.0A LA
5.
EN 19
Note:
• Do not remove the USB flash drive during the software
update.
• If a power failure occurs during the update, do not remove
the USB flash drive from the TV. The TV will continue the
software update as soon as power comes back.
• If an error occurs during the update retry the procedure or
contact your dealer.
• We do not recommend downgrading to an older version.
• Once the upgrade is finished, use your PC to remove the
TV software from your USB portable memory.
5.4
18870_207_100209.eps
100209
Error Codes
The error code buffer contains all errors detected since the last
time the buffer was erased. The buffer is written from left to
right. When an error occurs that is not yet in the error code
buffer, it is displayed at the left side and all other errors shift one
position to the right.
Figure 5-10 Update the TV software 5
18870_208_100209.eps
100209
Figure 5-11 Update the TV software 6
Table 5-1 Error codes
Error blinking
Error Code x yy1
Event
0 00
no error
2 13
I2C bus error
3 16
12V sensing of
platform supply
-
4 18
in SDM
Defective board
in CSM
spontaneous
n.a.
n.a.
n.a.
n.a.
layer 2
layer 1
layer 1
SSB
-
layer 1
platform supply
false POK-line display layer 2
or inverter
layer 1
layer 1
display supply/inverter
2 27
multi-standard
demodulator (IF)
layer 2
layer 1
-
SSB
2 34
tuner
layer 2
layer 1
-
SSB
Notes:
1. x = layer 1 error indication, yy = layer 2 error indication.
5.5
Fault Finding and Repair Tips
5.5.1
Speakers
Make sure that the volume is set to minimum during
disconnecting the speakers in the ON-state of the TV. The
audio amplifier can be damaged by disconnecting the speakers
during ON-state of the set!
5.5.2
Tuner
Attention: In case the tuner is replaced, always check the tuner
options.
2010-Mar-12
EN 20
5.5.3
5.
Service Modes, Error Codes, and Fault Finding
RAM1.0A LA
Power failure
For trouble shooting, following reference voltages are given:
• After power-up
• After power-down (switched to standby).
Table 5-2 Reference voltages
Signal name
Location
(testpoint,
item + pin
no.)
Voltage (± 5%)
after powerup
after powerdown
(standby)
5VIN
FB1
5V
5V
5VSB
R29
5V
5V
3V3SB
FB18
3.3 V
3.3 V
1V0SB
C6
1.1 V
1.1 V
5VSW
Q28 pin 7,8
5V
0V
VGA_5V
U6 pin 8
4.8 V
4.8 V
REG3V3
U38 pin 4
3.3 V
3.3 V
3V3SW
Q28 pin 5, 6
3.3 V
0V
1V2SB
U3 pin 3
1.2 V
1.2 V
VDD33
FB8
3.3 V
3.3 V
3V3DRV
FB15
3.3 V
0V
1V8SW
U1 pin 4
1.8 V
0V
B3V3SW
FB20
3.3 V
0V
12VIN
FB2
12 V
0V
12VSW
R34
12 V
0V
PANEL_VDD
Q22 pin 5 to 8 12 V
0V
TUNER_VCC
U9 pin 3
5V
0V
12VAMP
C454
12 V
0V
REG5V
U39 pin 3
5V
0V
H_VDD
C363
8V
0V
3V3TC
C419
3.3 V
0V
VGL
R587
-5 V
0V
VGH
C392
28.5 V
0V
16VTC
C359
16.5 V
0V
2010-Mar-12
Service Modes, Error Codes, and Fault Finding
5.5.4
RAM1.0A LA
5.
EN 21
Trouble shooting diagrams
Set is in PC mode, no image
Start
1.
2.
3.
4.
Is Power Core available?
Is SSB J1-Pin 6, 7, 8 - 5V available?
Is SSB J3-Pin 4 - 0~0.8V (Low level) available?
Is SSB J2-Pin9 - 0~0.8V (Low level) available?
No
1.
Is SSB J3 Pin 4 - 2.5~3.3V (Hi level) available?
No
1.
2.
3.
Is SSB J1 PIN 9, J2-Pin1, 2 Voltage 12V available?
Check if J1 Pin 2 - 2.5~3.3V(Hi Level) is available?
Check if J2 Pin 5 - 2.5~3.3V(Hi Level) is available?
1.
2.
3.
4.
5.
6.
D-sub cable is OK?
Check whether J2 -Pin 6 PWM is normal.
Is P2 video input signal normal?
Check whether U36 input/output of video signal is normal.
Check whether J10,J11 video signal is normal.
Is Connection of J10 and J11 FFC cable OK?
No
LED is lighted
Yes
LED ON to OFF
Yes
Is backlight on?
Yes
No
Is Display Normal?
END
18930_214_100310.eps
100310
Figure 5-12 Trouble shooting diagram - set is in PC mode, no image
2010-Mar-12
EN 22
5.
RAM1.0A LA
Service Modes, Error Codes, and Fault Finding
Set is in TV/Composite video mode, no image
Start
LED is lighted
No
1.
2.
3.
4.
Is Power Core available?
Is SSB J1-Pin 6, 7, 8- 5V available?
Is SSB J3-Pin 4-0~0.8V (Low level) available?
Is SSB J2-Pin9-0~0.8V (Low level) available?
No
1.
Is SSB J3 Pin 4-2.5~3.3V (Hi level) available?
1.
2.
3.
Is SSB J1-PIN9, J2-Pin1, 2 Voltage 12V available?
Check if J1-Pin 2-2.5~3.3V(Hi Level) is available.
Check if J2, Pin 5-2.5~3.3V(Hi Level) is available.
1.
2.
3.
4.
5.
6.
Axial RF/AV Composite /S-Video cable are OK?
Check whether J2 -Pin 6 PWM is normal.
Is T1/P3 video input signal normal?
Check whether U36 input/output of video signal is normal.
Check whether J10,J11 video signal is normal
Is Connection of J10 and J11 FFC Cable OK?
Yes
LED ON to OFF
Yes
No
Is backlight on?
Yes
Is Display Normal?
No
END
18930_215_100310.eps
100310
Figure 5-13 Trouble shooting diagram - set is in TV/Composite video mode, no image
2010-Mar-12
Service Modes, Error Codes, and Fault Finding
RAM1.0A LA
5.
EN 23
Set is in Component video mode, no image
Start
LED is lighted
No
1.
2.
3.
4.
Is Power Core available?
Is SSB J1-Pin 6, 7, 8- 5V available?
Is SSB J3-Pin 4 - 0~0.8V (Low level) available?
Is SSB J2-Pin 9 - 0~0.8V (Low level) available?
No
1.
Is SSB J3 Pin 4 - 2.5~3.3V (Hi level) available?
No
1.
2.
3.
Is SSB J1-PIN9, J2-Pin1, 2 Voltage 12V available?
Check if J1-Pin 2-2.5~3.3V(Hi Level) is available
Check if J2, Pin 5-2.5~3.3V(Hi Level) is available
1.
2.
3.
4.
5.
6.
Component Cable is OK?
Check whether J2 -Pin 6 PWM is normal.
Is P1/P2 video input signal normal?
Check whether U36 input/output of video signal is normal.
Check whether J10,J11 video signal is normal
Is Connection of J10 and J11 FFC Cable OK?
Yes
LED ON to OFF
Yes
Is backlight on?
Yes
Is Display Normal?
No
END
18930_216_100310.eps
100310
Figure 5-14 Trouble shooting diagram - set is in Component video mode, no image
2010-Mar-12
EN 24
5.
RAM1.0A LA
Service Modes, Error Codes, and Fault Finding
Set is in HDMI mode, no image
Start
LED is lighted
No
1.
2.
3.
4.
Is Power Core available?
Is SSB J1 - Pin 6, 7, 8- 5V available?
Is SSB J3 - Pin 4-0~0.8V (Low level) available?
Is SSB J2 - Pin 9-0~0.8V (Low level) available?
1.
Is SSB J3 Pin 4-2.5~3.3V (Hi level) available?
1.
2.
3.
Is SSB J1-PIN9, J2-Pin1, 2 Voltage 12V available?
Check if J1-Pin 2-2.5~3.3V(Hi Level) is available.
Check if J2, Pin 5-2.5~3.3V(Hi Level) is available.
1.
2.
3.
4.
5.
6.
HDMI Cable is OK?
Check whether J2 -Pin 6 PWM is normal.
Is P8/P9 video input signal normal?
Check whether U36 input/output of video signal is normal.
Check whether J10,J11 video signal is normal
Is Connection of J10 and J11 FFC Cable OK?
Yes
LED ON to OFF
No
Yes
Is backlight on?
No
Yes
Is Display Normal?
No
Yes
END
18930_217_100310.eps
100310
Figure 5-15 Set is in HDMI mode, no image
2010-Mar-12
Service Modes, Error Codes, and Fault Finding
RAM1.0A LA
5.
EN 25
DC/DC converter
Start
No
The voltage is about +5V
1. Check power board
2. Check power cable connection J1
No
The voltage is about +12V while power switch on
1. J1/J2 connection good
2. Check power board
J1 PIN6, 7, 8
Yes
J1 PIN 9, J2 PIN 1/2
Yes
No
The voltage is about +5V while power switch on
1. Check Q27-Gate B
Q28 PIN 7, 8
Yes
No
The voltage is about +3.3V
1. Check U4 PIN2 EN
U4 PIN 5, 6
Yes
No
The voltage is about +1.0V
U2 PIN 5, 6
Yes
No
The voltage is about +1.8V
U1 PIN2,4
Yes
No
The voltage is about +1.2V
U3 PIN 3
Yes
No
The voltage is about +3.3V
U38 PIN 2, 4
Yes
No
The voltage is about +5V
U9, U39 PIN 3
Yes
No
T CON-U32 PIN2
The voltage is about +12V
Yes
No
T CON-U35 PIN 3
The voltage is about +3.3V
18930_218_100310.eps
Figure 5-16 DC/DC converter [1/2]
2010-Mar-12
EN 26
5.
Service Modes, Error Codes, and Fault Finding
RAM1.0A LA
Yes
No
The voltage is about +1.8V
T CON-U35 PIN 2,4
Yes
No
T CON-D24 PIN 3
The voltage is about +16V
Yes
No
T CON-R556
The voltage is about +27.1V
Yes
No
T CON-R587
The voltage is about -5V
Yes
No
T CON-L8
The voltage is about +8V
Yes
END
18930_219_100310.eps
100310
Figure 5-17 DC/DC converter [2/2]
2010-Mar-12
Service Modes, Error Codes, and Fault Finding
RAM1.0A LA
5.
EN 27
DDC reading
Start
Yes
No
Analog DDC OK?
Support DDC1/2B
1. VGA cable ok?
2. Check signal (U6 to PIN5, 6)
3. Check U6- PIN8 5 V
4. Is input signal compliant to protocol?
Yes
No
HDMI DDC OK?
Support DDC1/2B
1. HDMI cable ok?
2. Check signal (U15 to Pin5, 6)
3. Check signal (U16 to Pin5, 6)
4. Is input signal compliant to protocol?
Yes
END
18930_220_100310.eps
100310
Figure 5-18 DDC reading
2010-Mar-12
EN 28
5.
Service Modes, Error Codes, and Fault Finding
RAM1.0A LA
No audio
Start
No
Input signal good?
1. Check Audio source
2. Check the player of source
Yes
No
1.
2.
No
1. Check MT8222 Audio In/Out
2. U37 AUDIO In/Out
Output Source OK?
Check Speaker
Audio Output of J6 Audio
Signal
Yes
Check signal correct?
Yes
No
1. Check U23 Audio Signal In/OUT
Check amplifier OK?
Yes
END
18930_221_100310.eps
100310
Figure 5-19 No audio
2010-Mar-12
Alignments
RAM1.0A LA
6.
EN 29
6. Alignments
•
Index of this chapter:
6.1 General Alignment Conditions
6.2 Hardware Alignments
6.3 Software Alignments
6.4 Display Option Settings
6.5 Reset of Repaired SSB
•
•
Note: The Service Alignment Mode (SAM) are described in
chapter 5. Service Modes, Error Codes, and Fault Finding.
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 ± 10 Hz.
• 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 MΩ, Ci < 20 pF.
• Use an isolated trimmer/screwdriver to perform
alignments.
6.1.1
6.2
White Point
•
Choose “TV menu”, “TV Settings” and then “Picture” and
set “Smart Picture” to “Vivid” mode.
White point alignment LCD screens:
• Use a 100% white screen as input signal and set the
following values:
– “Colour temperature”: “Normal”.
– All “White point” values to: “127”.
– “Red BL offset” value to “240” for HDMI source.
– “Green BL offset” value to “240” for HDMI source.
– “Red BL offset” value to “0” for VGA source.
– “Green BL offset” value “0” for VGA source.
Set the correct options:
• In SAM, select “Options” and then “Option numbers”
• Fill in the option numbers for “Group 1” and “Group 2”
according to the set sticker (see also section 6.4 Display
Option Settings).
• Press “OK” on the remote control before the cursor is
moved to the left
• In submenu “Option numbers” select “Store” and press OK
on the RC, or
• In main menu, select “Store” again and press OK on the RC
• Switch the stand to standby.
Warm the set up for >15 minutes.
In case you have a colour analyser:
• Measure with a calibrated contactless (max. 25 mm) colour
analyser in the centre of the screen. Consequently, the
measurement needs to be done in a dark environment.
• Adjust the correct x, y coordinates (while holding one of the
White point registers R, G or B on 127) by means of
decreasing the value of one or two other white points to the
correct x, y coordinates (see Table 6-1). Tolerance: dx: ±
0.004, dy: ± 0.004.
• Repeat this step for the other colour temperatures that
need to be aligned.
• When finished press “OK” on the RC and then press
STORE (in the SAM root menu) to store the aligned values
to the NVM.
• Restore the initial picture settings after the alignments.
Hardware Alignments
Table 6-1 White D alignment values
Alignment Sequence
Not applicable.
6.3
6.3.1
US/AP-NTSC models: an NTSC M/N TV-signal with a
signal strength of at least 1 mV and a frequency of 61.25
MHz (channel 3).
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).
DVB-T models: a DVB-T signal with the following
specifications:
- frequency: 546.00 PID
- video: 0B 06 PID
- PCR: 0B 06 PID
- Audio: 0B 07.
Value
Cool (11000K)
Normal (9000K)
Warm (6500K)
x
0.276
0.287
0.313
y
0.282
0.296
0.329
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 “RGB Align” and go to one of the sub menus.
The alignments are explained below.
The following item can be aligned:
• White point.
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.
If you do not have a colour analyser, you can use the default
values. This is the next best solution. The default values are
average values coming from production.
• Select a “COLOUR TEMPERATURE” (e.g. “COOL”,
“NORMAL”, or “WARM”).
• Set the White point “RED”, “GREEN” and “BLUE” default
values according to the values in Table 6-2.
• When finished press OK on the RC, then press STORE (in
the SAM root menu) to store the aligned values to the NVM.
• Restore the initial picture settings after the alignments.
For the next alignments, supply the following test signals via a
video generator to the RF input:
• EU/AP-PAL models: a PAL B/G TV-signal with a signal
strength of at least 1 mV and a frequency of 475.25 MHz
2010-Mar-12
EN 30
6.
Alignments
RAM1.0A LA
Table 6-2 White tone default settings 32" & 42" Dali sets
(3xxx series)
White Tone
6.4
32"
Black level
offset
42"
Colour Temp R
G
B
R
G
B
R
Normal
t.b.d.
t.b.d.
t.b.d.
t.b.d.
t.b.d.
t.b.d.
t.b.d.
G
t.b.d.
Cool
t.b.d.
t.b.d.
t.b.d.
t.b.d.
t.b.d.
t.b.d.
t.b.d.
t.b.d.
Warm
t.b.d.
t.b.d.
t.b.d.
t.b.d.
t.b.d.
t.b.d.
t.b.d.
t.b.d.
Display Option Settings
Table 6-3 Display code overview
6.5
CTN_ALT BOM#
Panel Type
Display code in SAM
32PFL3605/67
LGD LC320WUY-SCA1-8R1
009
32PFL3605/93
LGD LC320WUY-SCA1-8R1
004
32PFL3605/98
LGD LC320WUY-SCA1-8R1
001
42PFL3605/67
LGD LC420WUY-SCA1-7R1
010
42PFL3605/93
LGD LC420WUY-SCA1-7R1
005
42PFL3605/98
LGD LC420WUY-SCA1-7R1
002
Reset of Repaired SSB
A very important issue towards a repaired SSB from a service
repair shop implies the reset of the NVM on the SSB.
A repaired SSB in service should get the service Set type
“00PF0000000000” and Production code “00000000000000”.
Also the virgin bit is to be set. To set all this, you can use the
ComPair tool.
2010-Mar-12
Circuit Descriptions
RAM1.0A LA
7.
EN 31
7. Circuit Descriptions
7.1.1
Index of this chapter:
7.1 Introduction
7.2 Power Architecture
7.3 MT8222 Video/Audio processor
Key components of this chassis are:
• MT8222 scaler
• HFT-8/125H (China/AP)/HFT-8-13F2 (Argentina) tuner
• K3953M/K9362M (China/AP)/
M3953M/M9370M (Argentina) saw filter
• TDA9885TS IF demultiplexer
• TPA3101D2 audio amplifier
• TL2428MC T-CON IC
Notes:
• Only new circuits (circuits that are not published recently)
are described.
• Figures can deviate slightly from the actual situation, due
to different set executions.
• For a good understanding of the following circuit
descriptions, please use the wiring, block (see
chapter 9. Block Diagrams) and circuit diagrams (see
chapter 10. Circuit Diagrams and PWB Layouts). Where
necessary, you will find a separate drawing for clarification.
7.1
Implementation
7.1.2
RAM1.0A LA Architecture Overview
•
For details about the chassis diagrams refer to
chapter 10. Circuit Diagrams and PWB Layouts. An
overview of the RAM1.0A LA architecture can be
found in Figure 7-1.
Introduction
The RAM1.0A LA chassis is using the MT8222 video and audio
processor.
I.R. RE C E IV E R
KEY PAD
5 VDC
D C/DC
conversion
12 V D C
M A IN
POWER
S UP P LY
BL O C K
BL on/off
PWM
M ini-LVDS
A udio A m p
C lass-D
(T P A 3101D 2)
3V 3
5V
1V 8
1V 2
TCO N
TL2428MC
H /P o ut
(O p tional)
M a in b o a rd
C VBS
Aud io o ut
(1 9 2 0 × 1 0 8 0 )
B /L IN V E R TE R
R
L
LC D PA N E L
EEPR O M
24C 04
5V 0
SPI F L A SH (4M B )
M X25L3205D M
D D R 2 256M b × 2
IF Deco d er
TD A 9885
C VBS
SIF
S c a le r c h ip
MTK
MT8222AMMU for FHD
SIF
VIF
SAW
F ilter
SAW
F ilter
R /L
NT5TU32M 16 CG-25C
POK
IF
BL boost
An alo g
T u n er
EEPR O M
EDID
EDID
H D M1I
H D M2I
P /I b o a rd
Audio sw itch
24C 32
EDID
HEF4052
Power
Video &
control signal
Analogue Audio
C o m p os ite
S-Vid eo
Aud io in
C o m p onent
Aud io in
X1
D-SU B
Audio in
X1
USB
C o m p os ite
S-Vid eo
C o m p onent
D-SU B
X2
18930_210_100310.eps
100310
Figure 7-1 Architecture of RAM1.0A LA
2010-Mar-12
EN 32
7.1.3
7.
Circuit Descriptions
RAM1.0A LA
SSB Cell Layout
TCON
DC - DC CONVERSION
TUNER
DDR2
Scaler
Audio Amplifier
INPUT/OUTPUT CONNECTORS
Service
Connector
18930_211_100310.eps
100310
Figure 7-2 SSB layout cells (top view)
2010-Mar-12
Circuit Descriptions
7.2
RAM1.0A LA
7.
EN 33
Power Architecture
Refer to figure Figure 7-3 for the power architecture of this
platform. For trouble shooting, refer to section 5.5.3 Power
failure.
AP1534SG
5VSB
1V0SB
U2
+ CE4
220uf/25V
DVDD10
+ CE3
220uf/25V
RESET_MAX809STRG
U21
Power
Board
IR/LED BD
TJ3965D
AP1534SG
3V3SB
U4
+ CE8
220uf/25V
1V2SB
U3
R228
+ CE26
220uf/25V
+ CE7
220uf/25V
R224
R225
F1 I ≈ 725 mA
5VIN
R226
5VSB
R227
125V/3A
R229
AVDD33_CVBS
AVDD33_DIG
R230
AVDD33_XTAL
R231
AVDD33_ADAC
R234
AVDD33_USB
R232
R235
AVDD33_HDMI
AP1084KL
3V3SW
U1
GPIO25
AVDD12_RGB
U22
+ CE6
220uf/25V
R266
DRV602PWR
FB18
U26
USB_TPS2041BDR
VCC2IO_2
AT24C32CN
U8
VCC2IO_3
U20
+ CE27
100uf/25V
BAT54C
RVREF0
VCC2IO_1
C87
10uf/10V
D5
AVDD12_MEMPLL
DDR_NT5TU32M16CG
1V8SW
+ CE7
220uf/25V
5VSW
AVDD12_HDMI
AVDD12_DIG_RGB
AVDD33_VGA
MOS_SSG4953
Q28_1
Q28_2
AVDD12_VPLL
AVDD12_USB
AVDD33_REFP_AADC
R237
MOS_SSG4953
AVDD12_LVDS
AVDD33_LVDS
R236
FB16
AVDD12_PLL
AVDD33_AADC
R233
FB18
AVDD33_SIF
AT24C02BN
VGA_5V
U6
PI5C3257QE
U7
C87
10uf/10V
F2
Audio_SW_CD 4052BNSR
I ≈ 2.16 A
12 VSW
R266
HFT-8B/125
FB5
U5
125V/3A
T1
AZ7805T
12VIN
U9
+ CE16
100uf/25V
TUNER_VCC_5V
+ CE17
100uf/25V
TDA9885TS
FB16
TL2428_V18
U10
AP1117EL
AUDIO_AMP_TPA3101D2PHPR
3V3TC
U23
U35
1V8TC
TL2428_V18
Gamma_MAX9668
F3 I ≈ 843 mA
Q22
63V/2A
MAX17113ETL
MOS_RSS075P03
PANEL_VDD
U34
+ CE7
220uf/25V
16VTC
U30
VGL
VGH
GPIO5
RT8250GSP
U32
H_VDD
18930_212_100310.eps
100315
Figure 7-3 Power Architecture RAM1.0A LA platform
2010-Mar-12
EN 34
7.3
7.
Circuit Descriptions
RAM1.0A LA
MT8222 Video/Audio processor
Refer to figure Figure 7-4 for the power architecture of this
platform.
Debug PORT
TX
RX
Reset
Circuit
USB DM
USB DP
USB
PRST#
Data Bus 1
HDMI1
HDMI DDC I2C
EEPROM
AT24C02
U15
OPWR0 5V H1
Flash
MX25L3205DM2I-12G
DATA
Data Bus 2
HDMI2
U19
HDMI DDC I2C
EEPROM
AT24C02
U16
OPWR0 5V H2
TCON
LVDS
VGA Input
VGA I 2C
Channel 3
Channel Switch
74HC4052PW Channel 2
U7
Channel 1
VGA Audio Input
T CON
SIGNAL
TL2428MC
U36
RGB & H/V SY NC
LCD PANEL
VGA EDID
EEPROM
U6
VGA I 2C
T-CON I 2C
Scaler UART
MT8222
T-CON I 2C
EEPROM
AT24C32CN-SH-T
U29
Y6
CSTCE10M0G55
10MHz
VGA L/R IN
U17
o o
o o
AV1 Input
AV1 IN
DATA
SY 1 IN
DDR
NT5TU32M16CG-25C
SC1 IN
U22
AV1 L/R IN
Y 1 IN
PB1 IN
PR1 IN
IR_
KEY BD
CVI-1 Input
Y PBPR1 L/R IN
ADIN 0
IR BD
ADIN 0
LED 2
Y 2 IN
PB2 IN
CVI-2 Input
PR2 IN
Y PBPR2 L/R IN
Line OUT
AL2 & AR2 OUT
LINE OUT R/L
DRV602PWR
U26
TCVBS-N&P
Tuner SCL/SDA
AGC Tuner
Tuner
IF Tuner
Y2
27MHz
VIF(K3953M30)
SAW1
VIF
SIF(K9650M30)
SAW2
SIF
REF
Y1
4 MHz
Amp R+
DAC R
TDA9885TSV5
U10
I2S
Audio Amp
I2S DAC
CS4344
U37
Amp R-
TPA3101D2PHPR
DAC L
U23
Amp L+
Amp L-
18930_213_100310.eps
100310
Figure 7-4 MT8222 Video/Audio system application
7.3.1
Signal paths
RGB
Analogue RGB signals are transferred by the MT8222 to a
digital signal by the internal A/D converter. The MT8222
generates an LVDS signal to the TL2428 on-chip TCON which
drives the LCD display.
HDMI
HDMI signals are further processed digitally by the MT8222.
The MT8222 generates an LVDS signal to the TL2428 on-chip
TCON which drives the LCD display.
Component Input
Component signals are processed by the MT8222. The
MT8222 generates an LVDS signal to the TL2428 on-chip
TCON which drives the LCD display.
Audio is separately processed by the MT8222 and further
processed by the CS4344 and then the audio amplifier.
RF Input
RF input signals are demodulated by the TDA9885 IF
demodulator and further processed by the MT8222. The signal
is then split into an video and an audio part.
2010-Mar-12
The video signal is further processed by the MT8222 which
generates an LVDS signal to the TL2428 on-chip TCON which
drives the LCD display.
The audio signal is further processed by the MT8222 and split
into two parts. One part drives the Stereo Line Driver “AUDIO
OUT” chain, the other part drives the CS4344 and the audio
amplifier.
IC Data Sheets
RAM1.0A LA
8.
EN 35
8. IC Data Sheets
This section shows the internal block diagrams and pin
configurations of ICs that are drawn as “black boxes” in the
electrical diagrams (with the exception of “memory” and “logic”
ICs).
8.1
Diagram B05, TDA9885 (IC U10)
Block diagram
CVAGC(pos)
TOP
TAGC
VAGC (1)
VPLL
REF
AFC
9
14
16
19
15
21
CAGC(neg)
TUNER AGC
VIF2
2
n.c.
1
external reference signal
or 4 MHz crystal
VIF-PLL
filter
CBL
VIF-AGC
DIGITAL VCO CONTROL
RC VCO
AFC DETECTOR
17 CVBS
SOUND TRAPS
4.5 to 6.5 MHz
VIF-PLL
video output: 2 V (p-p)
[1.1 V (p-p) without trap]
TDA9885
8
SIF2
24
SIF1
23
SINGLE REFERENCE QSS MIXER
INTERCARRIER MIXER
AND AM DEMODULATOR
AUDIO PROCESSING
AND SWITCHES
AUD
audio output
5 DEEM
de-emphasis
network
MAD
6 AFD
SUPPLY
SIF AGC
OUTPUT
PORTS
NARROW-BAND
FM-PLL DEMODULATOR
I 2C-BUS TRANSCEIVER
CAF
CAGC
20
18
13
3
22
11
10
7
12
4
VP
AGND
n.c.
OP1
OP2
SCL
SDA
DGND
SIOMAD
FMPLL
sound intercarrier output
and MAD select
FM-PLL
filter
Pinning information
n.c. 1
24 SIF2
VIF2 2
23 SIF1
OP1 3
22 OP2
FMPLL 4
21 AFC
DEEM 5
AFD 6
20 VP
TDA9885T
19 VPLL
DGND 7
18 AGND
AUD 8
17 CVBS
TOP 9
16 VAGC
SDA 10
15 REF
SCL 11
14 TAGC
SIOMAD 12
13 n.c.
18930_300_100308.eps
100308
Figure 8-1 Internal block diagram and pin configuration
2010-Mar-12
EN 36
8.2
8.
IC Data Sheets
RAM1.0A LA
Diagram B07, MT8222TMMU/A (IC U17)
Block diagram
Analog Front End
CVBS / SV
YPbPr
ADC
(2 ×)
Main Path
HDTVD
ADC
ADC
VGAD
MDDi DS
PIP Path
MDDi DS
HDMIx3
Digital Path
Control Signal (GPIO,...)
LVDS
LVDS Tx
DRAM
VGA
8032
3D TVD
MUX
(Customer)
External
Switches
(8 ×)
ADC
OSD
Merge
Color
US
Gamma
Color
US
Dithering
DSP
18870_300_100211.eps
100305
Figure 8-2 Internal block diagram
2010-Mar-12
IC Data Sheets
RAM1.0A LA
8.
EN 37
Pinning information
18870_301_100211.eps
100305
Figure 8-3 Pin configuration
2010-Mar-12
EN 38
8.3
8.
IC Data Sheets
RAM1.0A LA
Diagram B10, TPA3101D (IC U23)
Block diagram
PVCCR
PVCCR
VCLAMPR
PVCCR
VBYP
BSRN
VBYP
AVCC
AVCC
Gain
RINN
Gate
Drive
Gain
Control
RINP
ROUTN
VClamp
Gen
PWM
Logic
PVCCR
VBYP
GAIN0
GAIN1
BSRP
T
Gain
Control
Gate
Drive
Adj.
8
ROUTP
Gain
FAULT
PGNDR
SC
Detect
VBYP
AVCC
Thermal
ROSC
VREG
Ramp
Generator
SYNC
Startup
Protection
Logic
Biases
and
References
MSTR/SLV
VREGok
PVCCL
AVCC
PVCCL
VCCok
VREG
VREG
PVCCL
SHUTDOWN
TLL Input
Buffer
MUTE
TLL Input
Buffer
BSLN
Gate
Drive
Gain
LINP
LOUTN
VClamp
Gen
VBYP
LINN
VCLAMPL
Gain
Control
PVCCL
BSLP
PWM
Logic
Gate
Drive
Gain
LOUTP
PGNDL
AGND
AVCC
NC
FA ULT
MUTE
SHUTDOWN
B SRP
ROUTP
ROUTP
ROUTN
ROUTN
B SRN
NC
Pinning information
48 47 46 45 44 43 42 41 40 39 38 37
NC
RINN
RINP
AGND
LINP
LINN
NC
GAIN0
GAIN1
MSTR/SLV
SYNC
NC
1
36
2
35
3
34
4
33
5
6
Exposed
32
31
7
30
8
29
9
28
10
27
11
26
12
25
NC
PVCCR
PVCCR
PGNDR
PGNDR
VCLAMPR
VCLAMPL
PGNDL
PGNDL
PVCCL
PVCCL
NC
NC
ROSC
VREG
VB YP
A GND
B SL P
L OUTP
L OUTP
L OUTN
L OUTN
B SL N
NC
13 14 15 16 17 18 19 20 21 22 23 24
18930_301_100309.eps
100309
Figure 8-4 Internal block diagram and pin configuration
2010-Mar-12
IC Data Sheets
8.
EN 39
Diagram B11, TL2428MC (IC U36)
Block diagram
14
RLV0~6P/M
LLV0~6P/M
14
SOE,POL
Source
Driver 1
Source
Driver 2
Source
Driver 5
Source
Driver 8
Internal
SSIC
1RxA~E
VST
OPC + ODC
TCON
mini-LVDS
2RxA~E
1RxCLK
2RxCLK
SDA
SCL
Frame Memory
SDRAM
(16Mbit)
EEPROM
(LUT)
16Kbit
or 32Kbit
CLK1(FLK), … , GCLK3(GSC), … , GCLK6
LVDS
Input
2
Gate
Driver
1
Gate in
panel
1
Gate
Driver
2
Gate in
panel
2
Gate
Driver
n
Gate in
panel
n
TFT LCD ARRAY
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
GIP_EN
MPVSS
MPVDD
RLV0+
RLV0MLVDD
RLV1+
RLV1MLVSS
RLV2+
RLV2RLV3+
RLV3MLVDD
RLV4+
RLV4RLV5+
RLV5MLVSS
RLV6+
RLV6MLVDD
LLV0+
LLV0MLVSS
LLV1+
LLV1LLV2+
LLV2MLVDD
LLV3+
LLV3LLV4+
LLV4MLVSS
LLV5+
LLV5LLV6+
LLV6MLVDD
MLVSS
RMLVDS
MPVSS
MPVDD
Pinning information
XIN
XOUT
EOVDD
EOVSS
OPT_N
H_CONV
EOVDD
EOVSS
POL
SOE
CVDD
CGND
EOVDD
EOVSS
CVDD
CGND
EIVSS
EIVDD
I2C_EN
NC
WP
EOVSS
EOVDD
OVDD
OGND
CVDD
CGND
WPWM
REFMODE
LEDON
EOVDD
EOVSS
REVERSE
CVDD
CGND
OVDD
OGND
EOVSS
EOVDD
SDA
SCL
DISM
OVDD
OGND
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
TESTB
TESTA
CGND
CVDD
EEP_SIZE
NC
GCLK6
GCLK5
NC
NC
OGND
OVDD
GCLK4(OPT_P)
GCLK3
GCLK2
GCLK1(GSP_R)
CGND
CVDD
VDD_EVEN(GOE)
VDD_ODD(GSC)
VST(GSP)
EIVSS
EIVDD
FLK1
DPM
CGND
CVDD
EIVSS
EIVDD
RESET
EIVSS
EIVSS
VCORES
TEST D
TEST C
OGND
OVDD
CGND
CVDD
EIVDD
EIVSS
ODC_BYPASS
MODE[ 1]
MODE[ 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
32
33
34
35
36
37
38
39
40
41
42
43
44
8.4
RAM1.0A LA
OGND
OVDD
RBF
FSEL
BIT_SEL
CVDD
CGND
R2EP
R2EM
R2DP
R2DM
LGND
R2CLKP
R2CLKM
R2CP
R2CM
LVDD
R2BP
R2BM
R2AP
R2AM
R1EP
R1EM
R1DP
R1DM
LGND
R1CLKP
R1CLKM
R1CP
R1CM
LVDD
R1BP
R1BM
R1AP
R1AM
LVDD
LGND
CGND
CVDD
OPC_EN
PWM_TOUT
PWM_TIN
OVDD
OGND
18850_305_100107.eps
100223
Figure 8-5 Internal block diagram and pin configuration
2010-Mar-12
EN 40
8.
RAM1.0A LA
IC Data Sheets
Personal Notes:
10000_012_090121.eps
090121
2010-Mar-12
Block Diagrams
RAM1.0A LA
9.
EN 41
9. Block Diagrams
Wiring Diagram (32")
WIRING DIAGRAM 32" DALI
Board Level Repair
Component Level Repair
Only For Authorized Workshop
CN4
1. N.C.
2. PS ON/OFF
3. GND
4. GND
5. GND
6. +5V
7. +5V
8. +5V
9. +12V
10. GND
11. N.C.
CN5 (B03C)
1. +12V
2. +12V
3. GND1
4. GND1
5. BL ON OFF
6. DIM
7. Boost
8. N.C.
9. POK
10. N.C.
11. N.C.
12. N.C.
J6 (B10)
J3 (B06)
1.
2.
3.
4.
1.
2.
3.
4.
5.
6.
7.
8.
L+
LRR+
J10 (B11)
1. GND
|
19. 16VTC
20. 16VTC
21. H_VDD
22. H_VDD
23. GND
24. 3V3TC
25. 3V3TC
|
60. GND
ADIN3
GND
IR
LED2
5VSB
LED1
ADIN0
5VSW
J11 (B11)
1. GND
|
36. 3V3TC
37. 3V3TC
38. GND
39. H_VDD
40. H_VDD
41. 16VTC
42. 16VTC
|
60. GND
J2 (B01)
J1 (B01)
1. 12VIN
2. 12VIN
3. GND
4. GND
5. BL_ON
6. BL_DIM
7. BL_BOOST
8. N.C.
9. POK
10. N.C.
11. N.C.
12. N.C.
1. N.C.
2. 12VIN
3. GND
4. GND
5. GND
6. 5VIN
7. 5VIN
8. 5VIN.
9. 12VIN
10. GND
11. N.C.
8561
1P3
1319
8Z01
8Z02
CN5
8P12
9P11
HIGH VOLTAGE
CN4
1P3
1316
8560
J10
J11
J2
J1
60P
60P
8P12
9P11
B
MAIN POWER SUPPLY
IPB PLHF-A961A
SSB
(1150)
USB
VGA
HDMI
HDMI
J6
CN1
4P
TO BACKLIGHT
TO BACKLIGHT
SVHS
J3
6P8
KEYBOARD CONTROL
(1114)
SHIELDING
J1
3P
TUNER
(1005)
MAINS CORD
8191
8M20
LOUDSPEAKER RIGHT
(5213)
J2
J1
3P
6P8
CN2
LCD DISPLAY
(1004)
CN1
LOUDSPEAKER RIGHT
(5213)
IR / LED BOARD
(1112)
18930_400_100310.eps
100310
2010-Mar-12
Block Diagrams
RAM1.0A LA
9.
EN 42
Wiring Diagram (42")
WIRING DIAGRAM 42" DALI
Board Level Repair
Component Level Repair
Only For Authorized Workshop
CN4
CN5 (B03C)
J6 (B10)
J3 (B06)
J10 (B11)
1. N.C.
2. PS ON/OFF
3. GND
4. GND
5. GND
6. +5V
7. +5V
8. +5V
9. +12V
10. GND
11. N.C.
1. +12V
2. +12V
3. GND1
4. GND1
5. BL ON OFF
6. DIM
7. Boost
8. N.C.
9. POK
10. N.C.
11. N.C.
12. N.C.
1.
2.
3.
4.
1.
2.
3.
4.
5.
6.
7.
8.
1. GND
|
19. 16VTC
20. 16VTC
21. H_VDD
22. H_VDD
23. GND
24. 3V3TC
25. 3V3TC
|
60. GND
L+
LRR+
ADIN3
GND
IR
LED2
5VSB
LED1
ADIN0
5VSW
J11 (B11)
1. GND
|
36. 3V3TC
37. 3V3TC
38. GND
39. H_VDD
40. H_VDD
41. 16VTC
42. 16VTC
|
60. GND
J2 (B01)
J1 (B01)
1. 12VIN
2. 12VIN
3. GND
4. GND
5. BL_ON
6. BL_DIM
7. BL_BOOST
8. N.C.
9. POK
10. N.C.
11. N.C.
12. N.C.
1. N.C.
2. 12VIN
3. GND
4. GND
5. GND
6. 5VIN
7. 5VIN
8. 5VIN.
9. 12VIN
10. GND
11. N.C.
8561
1P3
CN2
8Z01
CN5
MAIN POWER SUPPLY
IPB PLHF-A962A
8Z02
8P12
CN4
HIGH VOLTAGE
9P11
1P3
CN3
8560
J10
J11
J2
J1
60P
60P
8P12
9P11
B
SSB
(1150)
SHIELDING
SVHS
J3
8P
J6
4P
8126
J2
J1
4P
8P
VGA
HDMI
8191
HDMI
LOUDSPEAKER RIGHT
(5213)
MAINS CORD
TO BACKLIGHT
8126
USB
CN1
TO BACKLIGHT
J1
4P
KEYBOARD CONTROL
(1114)
TUNER
(1005)
CN2
CN1
LCD DISPLAY (1004)
LOUDSPEAKER RIGHT
(5213)
IR / LED BOARD
(1112)
18930_401_100310.eps
100310
2010-Mar-12
Block Diagrams
RAM1.0A LA
9.
EN 43
Block Diagram
I.R. RE C E IV E R
KEY PAD
LC D PA N E L
5 VDC
D C/DC
conversion
12 V D C
M A IN
POWER
S UP P LY
BLO CK
BL on/off
PWM
M ini-LVDS
A udio A m p
C lass-D
(T P A 3101D 2)
3V 3
5V
1V 8
1V 2
TCO N
TL2428MC
H /P o ut
(O p tional)
M a in b o a rd
C VBS
Aud io o ut
(1 9 2 0 × 1 0 8 0 )
B /L IN V E R TE R
R
L
EEPR O M
24C 04
5V 0
SPI F L A SH (4M B )
M X25L3205D M
D D R 2 256M b × 2
IF D eco d er
TD A 9885
C VBS
SIF
S c a le r c h ip
MTK
MT8222AMMU for FHD
SIF
SAW
F ilter
VIF
SAW
F ilter
R /L
NT5TU32M 16 CG-25C
POK
IF
BL boost
EDID
EDID
H D M1I
H D M2I
P /I b o a rd
A n alo g
T u n er
EEPR O M
Audio sw itch
24C 32
EDID
HEF4052
Power
Video &
control signal
Analogue Audio
C o m p os ite
S-Vid eo
Aud io in
C o m p onent
Aud io in
X1
D-SU B
Audio in
X1
USB
C o m p os ite
S-Vid eo
C o m p onent
D-SU B
X2
18930_402_100311.eps
100311
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 44
10. Circuit Diagrams and PWB Layouts
Power Supply Unit 32"
32" Power Supply Unit
A01
A01
1
C405
103
N.C
120K
1
C401
R411
54pF/6.3KV
0R0
R413
C403
C402
R444
R447
47R 2012
47R 2012
R704
680
68
C707
R443
R417A R417B
R445
R448
47R 2012
47R 2012
R446
R449
47R 2012
47R 2012
R418C
R417
68K
IM
NC
ZD706
10K
24V
300
R420A
HDR1
R456
R438
47R 2012
47R 2012
7
R454
R457
R439
47R 2012
47R 2012
47R 2012
LDR1
R455
R458
R440
47R 2012
47R 2012
47R 2012
5
UU1116
104/50V
103
820R
Q467
R418
A
R467C
820R
D404
300R
D467
1M
1N4148W
105/25V/2012
HDR2
R425
7
R423
G
4
Q431
1N4148W
LDR2
5
R426A
R426
COLD
UU1116
C426
1M
3K
S
2N7002A
30K
1
2
3
5
6
5
SYNC
VCC
VFB
3
C110
R106
100pF/1KV
1K/2012
4
U601
NC
C610
470pF/1KV
G
R610
10K
R502
270K/2012
R508
2.2K
C502
NC
R620
18V
47K/3W
R104A
C210
C209
470uF/10V/MK
D102
0.6UH
Q201
FQPF13N06
SB3200
R105
UF4007 10-1/2W fusibleCY202
FB201
220pF/250VBFD3565R
1000uF/25V/WB
SB3200
15V
1N4148W
1000uF/25V/WB
D222
CY201 !
R219
R224
150K
180R
1N4148W
Q131
KST2222A
R220
D220
ZD130
0R0
24V
R133
C131
2.2K
104
C206
C206A 225/2012 25V
225/2012 25V
R211
CN4(1M95)
ST3V3
R227
STANDBY
2.7K/2012
PC101
4
1
3
2
R228
R231
104
100K
R213
R230
2.4K
KST2222A
4
1
3
2
C223
E
R509
STANDBY
12V
R232
10k
C212
16V
220K
104
R217
4.7K
101
S
G
S
C504
105/2012
C505
5.6K
Q501
2N7002A
EL817MCDT
!
1
4
2
3
GND1
4
GND1
BL_ON_OFF
DIM
6
DIM
7
Boost
8
9
NC
11
NC
12
NC
R241
1K
NC
POK
10
105/2012
Q504
2N7002A
D
10K
R111
S
3
5
INV_ON/OFF
ADIM
PC103
2N7002A
C503
CN5(1M99)
1
+12V
2
+12V
STANDBY
R216
GND
NC
104
B
4.7K
Q503
G
D
12V
470
ZD102
R510
D
100K
5V
11
R215
Q203
5V
5V
9
10
KST2222A
KST2222A
OVP
EL817MCDT
100K
C
Q220
2.2K
10K
Q221
B
E
PC102
7
GND
GND
8
C
R214
R109
5V
0R0
100K
C211 R210
U201
GND
6
2.7K
560
3V3 stdby
Standby
3
5
R212
R209 51
1
2
4
DRIVE
240R
R208
36K
NC
91K
5VS
22uF/50V/WL
R108
NC
KIA431BM
R233
+5V
R132
R238
U202
10uF/50V/WL
CY203
220pF/250V
C104
470uF/25V/MK
20K
100K
C220
R225
9.1K/2012
R226
104 100K/2012
R222
R221
33/3216
US1J
!
C205
1.6K/2012
DRIVE
680pF/250V
+12V
D221
ZD220
C203
C202
D203
STATUS
2N7002A
10K
102
L201
C208
2200uF/10V/WL 2200uF/10V/WL
KST2907A
0R0
56K/2012
R619
8
Q130
D503
Q502
R506A
KST2222A
24/1W 470pF/1KV
EL817MCDT
680K/2012
C606
102
102
473
C605
ZD104
C107
R130
104
D
G
!
S
1
1uF/50V/WL
6
5
KST2222A
82K
ZD501
C491
S
L1
1N4148W
R507
VA101
TVR14621KSY
R490
100uH/2012 30K
330
D492
100R
560K
R506
L490
C201
R201
4
47uF/50V/MK
VCC
G
C501
R490A
9
7
MULTI_400
C130
D104
750K/1W
Q410
G
9.1K
1N4148W
C221
D502
56K
!
C108
56pF
2M/2012
R613
0.36/2W
R102
!
R491
102
IM
D413
1N4148W
C105
Q101
R505
2
D
C207
KIA431A
R501
1
! LF101
CV335022SS
1N4148W
R110
0.22uF/275V
3
D491
R496
0R0
C490
470pF/1KV
HOT_GND
R504
CX101
473
R494
1K
ENA
G
MBR20100CT
474
R618
2M/2012
270K/2012
270K/2012
COLD
C109
R617
R603
R503
240K/2012
FB104 CY102
100pF
CY101
100pF
BFD3565R
FB103
BFD3565R
!
2.2uF
D202
10
!
UF4007
!
2.2uF
D201
D103
105/2012
9
8
7
ZCD
R608
10/2012
7.5V
GND_PFC
!
C492
47K
B
KST2907A
+5V
1
DRAIN 1
VSTR
10
12K
ZD103
D501
BFS3550A
UVLS
EE2821
!
UF4007
FSQ0465R
C101
2
R616
2M/2012
R104
D101
U101
C103
D
AC_DET
FB102
FB101
BFS3550A
271/COG
221/COG
1N4148W
2
R107
4
3
R604
C603
102
C609
2
C421B
C421A
C421
181/COG
DIS-ARC
R207
C102
R615
2M/2012
S
4
475/2012
R499
C408A
220K
24/1W
2.2nF/630V
3.3K
1
C415
C418A
223
2.2M
100K/1W
SCY99102
104/2012 10K
C604
3
473
PROT
Q411
C408
2N7002A
R437
R101A
C607A
10nF/1kV
R131
CS
CTRL
CT
D603
1N4148W
! CX102
0.68uF/275V
! LF102
SQE2020
11
IS
1N4148W
4
R609
100/2012
GND
DRV
6
8
7
2
1
C602
104
FB
COLD
CT
12
C407
R434
LED Block
10nF/1kV
Q602
TK5P50D
5
VCC
TSA601MA1
s
SA101
R101
120/1W
330pF/250V 330pF/250V
PROT
S
D434
47K/3W 47K/3W
L601
R605
33K
!
CY104
VSEN
RT1
R409
225/2012
G
R103
100pF/1kV
VCC
!
CY103
CT
3.9K
0R0
Q402A
180R/2012 180R/2012
C611
47uF/450V/WL 47uF/450V/WL
C608
5pF
20K
ISEN
13
104
D
S
BFS3550A
C607
!
6
1
ISEN
C418
10
2N7002A
GND
2
VREF
FB601
SUR460
4
R432
R436
EE2020
4
9
GNDA
G
S
C435
D
Q432
104
GND_BD601
3
R421
0.6UH
PFC-OUTPUT
D602
! LF103
SQE2020
82K
9.1K
R499A
K
D431
LTST-C930TBKT-LG
180R/2012
C423
225
1
AC1 2
180K
SSTCMP
T201
D601
1N5397
TH101
3ohm 15D
!
C601
0.47UF/500V
R408D
R408B
Up
R408F
15
14
3.6K
5VS
HOT
4
STATUS
D
D426
4.7K
A
R435
180R/2012
15K
1
AC2 3
TIMER
SSTCMP
STATUS
NC
16
R409B
4.7K
Q402
+12V
R424
6
BD601
RS205M
!
NC
0R0
12V
DIS-ARC
VREF
C431
8
LG2
GNDP
R408C
0R0
C419
102
2N7002A
R467B
Current F/B
IM
!
T703
:
COLD_GND
LDR2
PWM
R415
R408A
0R0
R418G
2N7002A
COLD_GND
UVLS
Freq
Up
225/2012
D430
HS2
LDR2
R408E Freq
VREF
10K
1N4148W
HG2
17
VREF
C467
D
:
HOT_GND
HDR2
27K
R429
C413
C420A
200K
R467A
R418F
24V
HOT_GND
18
105/2012
BAV99
AC
R453
47R 2012
105/25V/2012
8
LG1
TK5P50D
ZD708
10K
24V
HDR2
HDR1
C412
105/2012
C
6
R713
NC
R418D
CT
R408S
UVLS
VREF
R418E
0R0
R417C
VREF
19
C412A
R421A
8
R467
6.2K
0R0
I_Up
C430
1
ZD702
TK5P50D
24V
6
10K
ISEN
!
T702
4
ZD704
R726
R480
R420
10K
1N4148W
2.7K
HDR1
LDR1
100K
DIM1
BAV99
A
ENA
20
470K
5
D406
AC
LDR1
E
680
68
105/2012
A
4
120K
C
R441
47R 2012
VCC
C411
20K
D403
7
UU2758
HS1
3
103
R427
IS
10
HG1
VREF
C431A
R431A
C
7
R442
Q707
2
E
DIM
6
HS1
R759
1
KST2222A
A
AC
2R2/2012
OZ9977B_1
2K
C
R711
Q709
B
12V
R412
U401
R431
104
1N4148W
R762
Q418
220K
1N4148W
INV_ON/OFF
R402
1M
5
1
L G1
D755
C
D401
BAV99
R414
N.C
103
I_Down
L G2
C
C410
103
120K
R406
1M
4
47R 2012
D757
D402
BAV99
C409
103
AC
T701
!
47R 2012
24V
C404
SSTCMP
CN3
B03B PASK 1
R401
1M
VREF
1N4148W
R405
B03B PASK 1
!
D405
120K
54pF/6.3KV
C222
ZD705
10K
HS2
24V
C706
C703
C701
24V
R710
0R0
C406
CN2
!
R410
R229
ZD707
TK5P50D
ZD701
TK5P50D
24V
10K
Q706
68
ZD703
R723
680
R701
105/50V/3216 105/50V/3216 105/50V/3216 105/50V/3216
Q708
680
68
R752
1N4148W
R756
C705
C702
1N4148W
R707
HG1
D751
C700
HG2
D753
C704
PFC-OUTPUT
105/50V/3216 105/50V/3216 105/50V/3216 105/50V/3216
BFS3550A
BFS3550A
FB605
FB608
PROT
R408
CY105
100pF/250V
FH101
FB58 FUSE HOLDER
FB606
FB607
BFS3550R
BFD3565R
3
!
F101
T3.15AH 250V
AC-inlet
Live
2010-02-10
1
2
!
CN1(1308)
32" PSU
Neutral
PLHC-A961A
18930_560_100315.eps
100315
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 45
Layout Power Supply Unit 32" (Top Side)
0
Power Supply Unit 32"
Top
2010-02-17
PLHC-A961A
18930_561_100312.eps
100312
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 46
Layout Power Supply Unit 32" (Bottom Side)
0
Power Supply Unit 32"
Bottom
2010-Mar-12
PLHC-A961A
2010-02-17
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 47
Power Supply Unit 42"
42" Power Supply Unit
C406A
ZD705
HS2
NC
NC
1
1
C707
C706
C705
0R0
1
2.2K
D403
7
IM
Q709
680
AC
R444
R441
22R/2012
R442
22R/2012
R445
22R/2012
R443
22R/2012
R446
22R/2012
R447
22R/2012
1N4148W
A
0R0
R448
R449
R417
R417A
47K
NC
22R/2012
0R0
680
R726
ZD708
10K
UU1116
ZD702
NC
R713
ZD706
10K
NC
22R/2012
R453
22R/2012
22R/2012
R457
22R/2012
R439
22R/2012
R455
22R/2012
R458
22R/2012
R440
22R/2012
BAV99
Q467
C
R467C
R418
A
C431
D404
R418G
Current F/B
HDR2
1N4148W
G
4
Q431
1N4148W
LDR2
UU1116
R426
R426A
30K
1M
C426
2N7002A
S
COLD
C423
AC2 3
30K
104
BFS3550A
D602
1
4
2
24/1W
471/1KV
5
7
10
8
9
6
D
G
7.5V
R610
10K
VCC
VFB
4
7
D103
D102
1N4148W
UF4007
5
6
R491
R490A
330
F201
JUMP
C209
2200UF/10V/WL
C210
470uF/10V/MK
L202
0.6UH
+12V
D221
C205
ZD220
C203
C202
15V
D222
DRIVE
CY201
R219
R224
150K
180R
1N4148W
R226
104
33/3216
US1J
3.3K
C220
C104
R508
KIA431BM
C206A
C206
R227
225/2012/25V
225/2012/25V
2.7K/2012
R133
C131
3.3K
104
!
PC101
R208
R209 51
4
1
3
2
2N7002A
R228
R231
100K
0R0
224
U201
KIA431A
KST2222A
10K
R109
2.2K
4
1
3
2
STANDBY
R230
2.4K
100K
C
Q220
C223
+12V
104
3
B
KST2222A
DIM
470
ADIM
R216
C212
220K
104
R256
STATUS
0R0
R506
11K
C502
S
R510
R111
5.6K
4.7k
S
4
2
3
DIM
7
Boost
8
NC
POK
10
NC
11
NC
12
NC
R241
1K
105/2012
Q504
D
Q501
S
1
GND1
BL_ON_OFF
6
G
G
R506A
105/2012
C505
2N7002A
D
NC
12K
2N7002A
C504
EL817MCDT
GND1
5
9
PC103
D
12V
GND
NC
4
INV_ON/OFF
R215
ZD102
5V
CN5(1M99)
1
+12V
2
+12V
KST2222A
E
Q203
16V
C503
101
82K
C501
11
Q221
B
R213
E
OVP
10
5V
5V
C
100K
100R
PC102
R250
1K
C211 R210
C215
EL817MCDT
D
GND
9
2.7K
2012
R108 36K
Q503
GND
5
+5V
R212
560
R214
G
4
8
NC
100K
GND
7
240R
R619
47K
R509
Q502
PS_ON/OFF
3
6
DRIVE
3V3 stdby
2
62K
R211
NC
G
1uF/50V/WL
STANDBY
0R0
D503
560K
R507
NC
CN4(1M95)
1
5VS
22uF/50V/WL
24V
R238
100K/2012
U202
+5V
ZD130
R132
104
20K
R233
KST2907A
0R0
100K
10uF/50V/WL
CY203
220pF/250V
Q130
R131
C221
R221 R222
KST2222A
56K
BFD3565R
CY102
FB104
100pF
100pF
CY101
FB103
!
FH101
FB58 FUSE HOLDER
1
VA101
TVR14621KSY
R225
9.1K/2012
1.6K/2012
R220
D220
R130
D104
R505
ZD501
!
470uF/25V/MK
1N4148W
1000uF/25V/WB 1000uF/25V/WB
C105
1N4148W
270K/2012
!
C491
102
680pF/250V
R110
240K/2012
BFS3550A
S
L201
FB201
!
R503
BFD3565R
!
KST2222A
R490
100uH/2012 30K
R504
BFS3550A
Q410
G
9.1K
L490
1N4148W
SB3200
MULTI_400
Q131
102
D
471/1KV
D203
56pF
C130
D502
222
R494
IM
1N4148W
2200UF/10V/WL
SB3200
CY202
47uF/50V/MK
VCC
R501
C492
47K
B
QPF13N06
NC
270K/2012
D491
D413
G
220pF/250V BFD3565R
474
R618
2M/2012
UVLS
R496
Q201
R105
10/1W
Fusible Res
18V
105/2012
R620
4.7K
R502
271/COG
0R0
C490
102
D201
R617
C606
102
221/COG
C201
R201
EL817MCDT
104
C605
R604
C603
105/2012
6.8K
C604
8
!
ZD104
C108
9
3
330/2012
100pF/1KV
3
2
R106
C103
SYNC
KST2222A
DRV
C109
2M/2012
R613
0.22/2W
C421B
C421A
C421
181/COG
+5V
24/1W
D101
UF4007
FB102
225/2012
33K/3W
DRAIN 1
VSTR
4
3
15K
ZD103
CS
CTRL
CT
R608
10/2012
R104
33K/3W
UF4007
D501
750K/1W
FB101
R107
2M/2012
C610
470pF/1KV
R103
R103A
33K/3W
Q101
R101
C418A
223
1K
C208
D202
10
MBRF20U65CT
GND
R616
SCY99102
270K/2012
!
C415
1N4148W
HOT_GND
LF101
CV335022SS
473
1.6UH
C107
Q602
TK8A50
S
3
!
PROT
DIS-ARC
ENA
2.2M
180R/2012
C102
C101
AC_DET
CX101
0.22uF/275V
11
D492
180R/2012
FSQ0465R
2
COLD
!
ZCD
GND
6
U601
5
VCC
8
7
2
1
FB
221
1
PROT
IS
C207
2.2nF/630V
R603
1K
C609
! LF102
SQE2424
RT1
C418
10
Q411
R434
R207
100K/1W
C607A
4
D603
1N4148W
C602
104
! CX102
0.68uF/275V
3K
12
S
D434
100pF/1kV
6
R609
200/2012
39K
!
4
2.2uF
Q402A
R437
R101A
C607
C611
68uF/450V/WL 68uF/450V/WL
VCC
3
2.2uF
2N7002A
R436
U101
R605
COLD
VSEN
KST2907A
T201
10nF/1kV
C608
5pF
CT
2N7002A
S
2
!
C408A
5VS
BYV25X-600
L601
EE2520
C620
CY103
CY104
330pF/250V 330pF/250V
9
R499
C408
D
1N4148W
5
4
2
1
3
BFS3550A
AC_DET
R421A
ISEN
C407
220K
225/2012
G
LED Block
R615
2
13
R409
C435
D
Q432
R432
2M/2012
1
ISEN
104/2012
MULTI_400
BFD3565R
FB605
D601
S3V60
FB604
10nF/1K Ceramic cap
4
GNDA
EE2821
1
! LF103
SQE2424
R421
14
R499A
K
D431
LTST-C930TBKT-LG
1
TH101
SSTCMP
G
S
VRE
FB603
3ohm 15D
STATUS
R409B
4.7K
Q402
180R/2012
PFC-OUTPUT
!
68K
12K
82K
Up
R408F
R408D
R408B
15
3.6K
STATUS Block
HOT
s
R102
SA101
120/1W TSA601MA1
R423
225
COLD_GND
3
A
R435
180R/2012
D
D426
6.8K
5
C601
0.47uF/500V
TIMER
NC
0R0
+12V
STATUS
R425
7
HOT_GND
AC1 2
NC
R415
12V
D467
1M
DIS-ARC
15K
1
!
LDR2
16
R408E Freq
C419
102
2N7002A
R467B
240R
R424
105/25V/2012
8
6
4
17
0R0
0R0
1.5K
VREF
IM
BD601
TS4B05G
GNDP
R408C
0R0
225/2012
2N7002A
!
COLD_GND
LDR2
PWM
R408A
C467
1N4148W
LG2
UVLS
Freq
Down
VREF
820R
NC
T703
HOT_GND
NC
D430
HS2
HDR2
24K
R429
C413
104/50V
103
D
HG2
HDR2
15K
2SK3868
NC
2SK3868
ZD704
LDR1
4
5
LG1
R438
R454
6
Q707
68
22R/2012
R456
HDR1
VREF
CT
CT
R408S
C420A
200K
R418R
750R
AC
HDR1
ENA
20K
8
UVLS
R467A
R418E
R418D
IS
C430
7
ISEN
R420A
I_Down
18
VREF
105/2012
SSTCMP
R467
6.2K
I_Up
R418C
22R/2012
HDR1
C412
105/2012
100K
R420
10K
VREF
22R/2012
105/25V/2012
8
HG1
R759
R704
68
6
7
C
1
1N4148W
R762
R711
R480
DIM1
D406
BAV99
UU2758
19
C412A
E
1N4148W
4
105/2012
A
DIM
10
LDR1
1M
R417C
R417B
20
C411
20K
5
6
HS1
3
103
5
HS1
L G1
D755
VRE
C431A
R431A
4
T702
L G2
E
51K
103/UJ
!
D757
2
C
R414
C403
LDR1
KST2222A
D401
BAV99
C410
10nF
VCC
C
NC
10K
R413
1
104
ZD707
ZD701
R710
B
A
AC
C402
103/UJ
T701
!
R411
100K
12V
2R2/2012
OZ9977B_1
2K
Q418
R412
U401
R431
C
220K
10K
C401
R406
1M
C
AC
100pF/6KV/J
B03B PASK 1
D402
BAV99
C409
10nF
103/UJ
39pF/6KV/J
CN3
SSTCMP
51K
C405
103/UJ
INV_ON/OFF
C222
NC
R723
2SK3868
ZD703
C700
68
R405
C404
C401A
R401
3K
VREF
1N4148W
100pF/6KV/J
B03B PASK 1
!
D405
0R0
R229
R701
680
68
Q706
2SK3868
R707
680
C406
CN2
R410
100K
10K
R756 Q708
R752
C704
HG1
D751
1N4148W
105/50V/3216 105/50V/3216 105/50V/3216 105/50V/3216
C703
C702
HG2
D753
1N4148W
C701
PFC-OUTPUT
105/50V/3216 105/50V/3216 105/50V/3216 105/50V/3216
R408
!
A01
PROT
39pF/6.3KV/J
R427
A01
2N7002A
CY105
100pF/250V
S
FB606
FB607
BFS3550R
BFD3565R
!
2
!
CN1(1308)
AC-SOCKET
1
3
F101
T3.15AH 250V
4
Live
42" PSU
Neutral
2010-02-25
PLHF-A962A
18930_550_100312.eps
100315
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 48
Layout Power Supply Unit 42" (Top Side)
4
Power Supply Unit 42"
Top
2010-02-25
PLHF-A962A
18930_551_100312.eps
100312
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 49
Layout Power Supply Unit 42" (Bottom Side)
4
Power Supply Unit 42"
Bottom
2010-02-25
PLHF-A962A
18930_552_100312.eps
100312
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 50
SSB: Power
Power
B01
3V3SB
R4
5VIN
R2
R1
4K7
0402R
1K
0402R
C4
0.1uF/16V
W200_12
UP34
8
1
R7
NC_4K7
TP12
100K
1
FB
Vss
8
C5
NC_0.1uF/16V
2
EN
Vss
7
3
5K6
OCSET
Output
6
R9
4
VCC
Output
5
TP13
U4
AP1534SG
TP34
L1
22 uH/1.7A
1
2
C8
0.1uF/25V
CE3
470uF_25V
ECD10
D2
B340A-13-F
TP10
TP9
+
CE4
220uF/25V TP32
R19
1K47_F
5VSB
C1
NC_0.1uF/16V
C6
0.1uF/16V
R22
100K
1
FB
Vss
8
C14
NC_0.1uF/16V
2
EN
Vss
7
3
5K6
OCSET
Output
6
R23
4
VCC
Output
5
L2
22 uH/1.7A
1
2
CE7
470uF_25V
ECD10
D3
B340A-13-F
C16
0.1uF/16V
CE8
220uF/25V TP27
C17
1uF/25V
C15
0.1uF/16V
12VIN
TP3
TP2
TP8
5VIN
R32
F1
125V/3A
FB1
80 ohm/4A
BL_ON
BL_DIM
BL_BOOST
5VSB
TP24
12VIN FB2
80 ohm/4A
12VSW
F2
125V/5A
3V3SW
3
IN
8
R28
NC_1K
1206R
C20
0.1uF/16V
R33
1K
R29
NC_1K
1206R
OUT
R6
2K7_F
ADJ
R34
1K
R11
NC_1K
+
C2
0.1uF/16V
TP51
CE6
220uF/25V
TP40
5VSB
3V3SB
3V3SW
8
R27
4K7
Q3
MMBT3904LT1G
2
TP22
R292
1K
Q27
MMBT3904LT1G
2
GPIO25
R289
10K
0402R
TP370
C256
10uF/10V
0805C
S2
NC_SCREW-HOLE_8
S3
NC_SCREW-HOLE_8
S4
NC_SCREW-HOLE_8
C10
0.1uF/16V
CE26
470uF_25V
ECD10
C11
R20
0.1uF/16V 15K_F
0603R
R21
TP471
NC_4K7
TP472
C12
NC_0.022uF/16V
3V3SW
5VSW
5VSW
C456
0.1uF/16V
0402C
R30
1K
R31
5VSW
C457
0.1uF/16V
0402C
8
1K
BL_BOOST
PWM1
+
C19
1uF/25V
CE12
NC_100uF/25V
0
BL_DIM
3V3SB
5
6
7
8
4
1
2
3
5
6
7
8
4
1
2
3
5
6
7
8
4
1
2
3
5
6
7
8
4
1
2
3
5
6
7
8
4
R297
1K
8
7
6
5
S5
NC_SCREW-HOLE_8
S8
S9
S10
R357
5
6
7
8
4
1
2
3
5
6
7
8
0603R
1K5_F
EN
GND
VIN
GND
VOUT BP
ADJ GND
R245
NC_1K
S7
NC_SCREW-HOLE_8
1
4
R17
1
2
3
4
TP424
R590
S6
NC_SCREW-HOLE_8
R298
1K
C455
0.1uF/16V
0402C
PWM_TIN
1
2
3
R291
1K
TP21
S1
NC_SCREW-HOLE_8
4K7
D23
1N4148WS-7-F
12
C18
330pF/50V
1
PWM0
R13
TP41
4K7
3
PWM_TIN
3V3SW
TP42
R290
100
U3
TJ3965D-ADJ
TP36
5
C257
0.1uF/25V
R288
470K
1V2SB
3
TP474
TP20
4
R286
10K
R294
4K7
3V3SB
6
TP38
TP37
R24
1K
R26
3
1
3
1
FB18
80 ohm/4A
TP19
R25
NC_4K7
EGA1-0603-V05-B
3V3SB
C9
0.1uF/16V
TP473
5VSW
7
S
UP35
2
Q2
MMBT3904LT1G
2
RV38
100
PMOS
R15
Q28
SSG4953
1
8
S
4K7
C3
0.1uF/16V
TP39
FB16
80 ohm/4A
BL_ON
R18
CE2
470uF_25V
ECD10
R10
1K2_F
TP56
R12
1K
0402R
TP18
FB21
1V8SW
80 ohm/4A
TP57
2
TO263
TP31
POK
4
ADJ
D1
NC_RED KPH-1608EC
100
TP4
U1
AP1084KL-13
3V3SW
1
TP1
R14
4K7
0402R
8
C13
NC_0.1uF/16V
TP28
+
3V3SB
8
3V3SB
4K7_F
0603R
R16
TP25
R5
3K92_F
R8
C7
0.1uF/16V
J2
2R00-LOCK-12M
1
2
3
4
5
6
7
8
9
10
11
12
1K5_F
TP30
U2
AP1534SG
2
C463
0.1uF/25V
0603C
FB22
1V0SB
80 ohm/4A
TP33
5VSB
R304 0
0402R
Q1
NC_MMBT3904LT1G
12VIN
C462
W200_11 0.1uF/25V
0603C
TP26
TP29
TP11
TP5
3
TP6 TP7
J1
2R00-LOCK-11M
1
2
3
4
5
6
7
8
9
10
11
1
2
3
B01
2
SCREW-H2
1
2
SCREW-H2
1
2
12
TP475
SCREW-H2
NC_100
BL_DIM
PWM_TOUT
C258
330pF/50V
2
Power
2010-01-05
0171 2271 3203
18930_500_100301.eps
100301
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 51
SSB: AV Input
AV Input
B02
TP200
R46
6
7
TP225
1
COM0
TP248
4
5
2
1
3
TP208
R50
80 ohm/0.4A
R51
68R1_F
6
7
8
4
5
2
1
3
C32
0.01uF/25V
R60
68R1_F
R52
80 ohm/0.4A
R53
68R1_F
D39
1N4148WS-7-F
3V3SB
TP261
TP263
TP266
TP269
TP259
TP348
8
R63
75_F
TP344
C37
0.047uF/25V
12VSW
8
C40
47pF/50V
R90
10K
TP264
R66
1K
R95
AV0_L
MUX_CTLB
C46
10uF/10V
R71
47K
C44
1000pF/50V
RV10
EGA1-0603-V05-B
10K
Q5
MMBT3904LT1G
2
PWM3
8
C43
10uF/10V
R69
47K
TP349
TP345
TP267
TP268
R72
1K
AV0_R
1K
COMP1_R
C54
10uF/10V
R77
47K
RV15
EGA1-0603-V05-B
C59
1000pF/50V
R58
100_F
0
CVBS1P
TP238
C53
10uF/10V
R76
47K
Q4
MMBT3904LT1G
2
INT0_
8
TP212
TP237
R74
10K
TP265
COMP0_R
RV14
EGA1-0603-V05-B
8
1K
RV12
EGA1-0603-V05-B
1K
R94
C34
47pF/50V
COMP1_L
C50
1000pF/50V
C31
0.047uF/25V
TP343
TP241
C57
1000pF/50V
R54
75_F
TP262
RV7
EGA1-0603-V05-B
TP242
R73
0
CVBS2P
TP235
C45
10uF/10V
R70
47K
R49
100_F
C39
0.01uF/25V
COMP0_L
RV11
EGA1-0603-V05-B
MUX_CTLA
TP342
R48
TP234
R68
R89
10K
TP211
TP222
PR1P
1K
12VSW
8
C28
47pF/50V
TP260
C42
15pF/50V
TP244
C48
1000pF/50V
R45
RV3
75_F
EGA1-0603-V05-B
5
3
1
9
8
7
R57
R62
68R1_F
C25
0.047uF/25V
CVBS3P
RV4
EGA1-0603-V05-B
TP233
R65
75_F
RV9
EGA1-0603-V05-B
0
RCA(YWR)+S
8
C41
15pF/50V
TP210
R42
100_F
12
13
8
C36
15pF/50V
R61
80 ohm/0.4A
TP258
R41
10
11
C33
0.01uF/25V
TP204
C38
0.01uF/25V
8
TP221
PB1P
TP245
R67
C30
0.01uF/25V
TP203
TP227
PR0P
R64
75_F
1
8
COM1
R56
RV6
75_F
EGA1-0603-V05-B
TP247
R59
80 ohm/0.4A
TP229
R47
TP231
G2
G1
2
4
6
TP220
TP202
C27
15pF/50V
R44
RV2
75_F
EGA1-0603-V05-B
C35
15pF/50V
TP209
RV8
EGA1-0603-V05-B
8
TP226
PB0P
R55
75_F
RV5
EGA1-0603-V05-B
Y1P
8
9
C29
0.01uF/25V
P3
C24
0.01uF/25V
3
TP207
C26
15pF/50V
R40
68R1_F
C Y
G G
R43
RV1
75_F
EGA1-0603-V05-B
8
9
8
R38
80 ohm/0.4A
8
TP219
TP201
1
Y0P
TP218
C22
4700pF/50V
SOY1
TP228
P2
G-B-R-W-R
11
10
12
C23
0.01uF/25V
1
3
R37
68R1_F
R36
1
R39
80 ohm/0.4A
8
TP224
TP230
TP206
TP232
SOY0
TP250
P1
G-B-R-W-R
11
10
12
TP236
TP223
C21
4700pF/50V
1
TP239
R35
TP251
TP249
TP246
TP243
TP240
TP205
C55
1000pF/50V
C52
10uF/10V
R75
47K
RV13
EGA1-0603-V05-B
3V3SB
TP272
4K7
2
3
TP273
R627
4K7
Q6
MMBT3906LT1G
R96
4K7
IR_
Q38
MMBT3904LT1G
2
1
TP606
7,8
3
R106
1
R92
4K7
R93
4K7
12VSW
R593
TP288
C280
150pF/50V
C61
10uF/10V
8
R405
R406
TP285
U26
DRV602PWR
0603R
68K_F
R409
68K_F
0603R
C284
15pF/50V
2
LINEOUTR
TP286
RV16
EGA1-0603-V05-B
3
3V3DRV
R78
NC_100
IR_OUT
R400
4K7
7
D21
1N4148WS-7-F
R403
R107
100
TP283
LINE_MUTE
4
SGND
5
EN
OUTL
NC
PGND
6
VDD
7
CN
PVDD
CP
4K7
R83
47K
0603R
68K_F
C285
15pF/50V
13
R408
0603R
20K_F
AL2
C67
10uF/10V
R399
56K
R401
1K
R86
47K
R87
47K
C72
0.1uF/25V
D33
MMSZ5234B-7-F
4
4
12
14
15
11
VGA_R
VGA_L
MUX_CTLA
MUX_CTLB
3V3DRV
9
8
TP280
R98
NC_47K
R99
NC_47K
R100
NC_47K
R101
NC_47K
R102
NC_47K
R103
NC_47K
R104
NC_47K
12VSW
D38
1N4148WS-7-F
C277
10uF/10V
C65
0.1uF/25V
X0
X1
X2
X3
1
5
2
4
Y0
Y1
Y2
Y3
10
9
A
B
1K6
R97
NC_47K
TP341
U5
CD4052BNSR
COMP0_L
COMP1_L
AV0_L
TP277
TP278
R398
10
R85
47K
COMP0_R
COMP1_R
AV0_R
8
R410
68K_F
0603R
LINEOUTL
12
R84
47K
TP346
14
11
R82
47K
6
7
16
X
Y
TP339
C63
10uF/10V
R88
13
TP340
20K_F
0402R
AIN_R
8
20K_F
0402R
AIN_L
8
3
C64
10uF/10V
TP395
R91
TP393
TP394
EN
VEE
VDD
C66
10uF/25V
1206C
C279
1uF/25V
Q31
MMBT3904LT1G
2
R404
OUTR
R81
47K
TP284
TP282
TP281
1
11
-INL
C276
1uF/25V
3
RV17
EGA1-0603-V05-B
+INL
C275
1uF/25V
TP290
C68
1000pF/50V
R407
-INR
R80
47K
TP350
TP275
TP279
+INR
TP274
100
TP289
LINEOUTR
TP271
C283
150pF/50V
TP276
1
LINEOUTL
C62
1000pF/50V
1
0603R
20K_F
C281
15pF/50V
100
2
4
5
3
AR2
TP270
R79
C282
15pF/50V
TP287
GND
TP351
P4
W-R
1K
TP397
TP607
8
R105
NC_100
R457
4K7
C278
10uF/10V
FB15
0805L
120 ohm/0.5A
REG3V3
P1
3V3DRV
3V3SW
J8
NC_1R25_5M
W125s_5A
FB19
0805L
NC_120 ohm/0.5A
LINEOUTL
1
2
3
4
5
P2
B02
LINEOUTR
12VSW
C458
1000pF/50V
0402C
C459
1000pF/50V
0402C
C460
0.1uF/25V
0603C
2
AV Input
2010-01-05
0171 2271 3203
18930_501_100301.eps
100301
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 52
SSB: VGA Input
VGA Input
B03
TP157
12
R137
510
R138
22
HSYNC_IN
HSYNC
R603
0
8
C91
5pF/50V
R139
2K2
1
2
3
4
TP194
TP165
TP166
1
R119
R120
VGA_SCL
VGA_SDA
1
2
100
100
VGA_SCL_EDID
VGA_SDA_EDID
TP183
R144
D5
BAV99
C78
0.1uF/16V
510
R145
22
VSYNC
C75
0.1uF/16V
C79
22pF/50V
TP160
TP159
TP192
C76
0.01uF/25V
100_F
R118
RV23
75_F
EGA1-0603-V05-B
TP196
C77
5pF/50V
VGA_PIN4
TP197
TP185
D37
MMSZ5237B-7-F
R622
TP599
R623
1K
R624 4K7
8
TP215
C82
0.01uF/25V
100_F
RV24
EGA1-0603-V05-B
RV25
EGA1-0603-V05-B
R125
75_F
TP198
C259
5pF/50V
R126
TP187
R128
R130
75_F
C453
0.1uF/16V
R625
1K
X0
X1
X2
X3
1
5
2
4
Y0
Y1
Y2
Y3
10
9
A
B
VGA_SCL_EDID
Q36
MMBT3904LT1G
C452
0.1uF/16V
6
7
16
VGA_5V
C87
10uF/10V
0805C
TP601
X
13
VGA_SDA_IN
Y
3
VGA_SCL_IN
TP161
EN
VEE
VDD
C88
TSSOP16
0.1uF/16V
0402C
8
TP217
VGA_5V
C85
0.01uF/25V
100_F
VGA_PIN11
RP
RV26
EGA1-0603-V05-B
VGA_SCL_TCON
RXD0R
12
14
15
11
C84
0.01uF/25V
100_F
TP199
80 ohm/0.4A
8
TP216
COM
TP188
100
12
7
1
R124
80 ohm/0.4A
TP597
R621
4K7
TP598
TP600
GP
R127
8
VGA_SDA_TCON
TXD0R
VGA_SDA_EDID
2
TP186
R123
TP596
TP214
C81
4700pF/50V
1
12
7
VGA_5V
BP
VGA_PIN4
TP169
TP164
D6
MMSZ5237B-7-F
8
C86
5pF/50V
TP172
TP191
TP162
R129
4K7
R132
TP173
R131
1K
R133 4K7
100
Q8
MMBT3904LT1G
/EN
L
L
L
L
H
B
L
L
H
H
X
A
L
H
L
H
X
Channel
0
1
2
3
none
Function
N/A
T-CON I2C
Scaler UART
VGA EDID
C89
0.1uF/16V
1
2
TP255
TP252
R135
TP174
U7
74HC4052PW
TP213
SOG
8
4K7
GND
R116
80 ohm/0.4A
R122
TP254
TP189
R356
8
11
R115
TP195
3
VGA_PIN11
TP156
2_54
2R54-1x2M
TP602
P2
VGA_SDA_IN 12
TP184
3
13
TP170
5
10
4
9
3
8
2
7
1
6
8
4K7
TP193
VGA_SCL_IN 15
HSYNC_IN
GPIO24
R121
1
2
1
14
R117
NC_4K7
2
8
8
C80
22pF/50V
8
5
C93
5pF/50V
R146
2K2
2
3
VSYNC_IN
Q7
MMBT3904LT1G
JP1
3
VSYNC_IN
P6
ZDAFA1-C5L0-4F
DSUB_15V
HDMI_WP_EN
3V3SW
VGA_SCL
VGA_SDA
2
RV22
EGA1-0603-V05-B
3
TP163
RV21
EGA1-0603-V05-B
VGA_5V
U6
AT24C02BN-SH-T
A0
VCC 8
WP 7
A1
A2
SCL 6
GND SDA 5
TP158
TP112
R114
10K
R113
47K
WP2TC
VGA_WP
TP190
D4
BAT54C
R112
47K
WP2TC
TP603
R602
NC_0
RV18
EGA1-0603-V05-B
TP182
D19
BAT54C
3
5VSB
suggest by MTK to
connect to 5VSB
VGA_5V
1
TP168
TP167
5VSW
P1
GPIO9
C90
0.1uF/16V
8
R134
1K
TP171
100
R136
100
GPIO10
TP256
TP253
R140
4K7
5
6
7
8
TP257
P1
VCC
DATADATA+
GND
P2
P7
USB-A
U8
TPS2041BDR
5
1
2
3
4
6
FB3
80 ohm/4A
OC
OUT
OUT
OUT
EN
IN
IN
GND
5VSW
R141
4
3
2
1
CE15
100uF_25V
SMDECF
SMDECF
CE27 100uF_25V
0
0
USB_DM0 8
USB_DP0 8
TP389
P5
WTJ-035-28ZSA0
PH_2SJ1535
R
R142
R143
8
4K7
8
B03
L
1
3
5
4
2
TP390
TP396
R108
R109
1K
TP391
1K
C69
10uF/10V
C70
10uF/10V
C92
0.1uF/16V
RV27
RV28
C71
1000pF/50V
RV19
R110
47K
C73
1000pF/50V
RV20
R111
47K
VGA_R
3
VGA_L
3
TP392
2
VGA Input
2010-01-05
0171-2271-3203
18930_502_100301.eps
100301
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 53
SSB: HDMI Input
HDMI Input
5VSW
TP152
D11
BAT54C
5VSW
D12
BAT54C
HDMI1_5V
1
3
3
2
PWR5V_2
8
D13
BAV99
2
PWR5V_1
C122
0.1uF/16V
C123
0.1uF/16V
D14
BAV99
2
2
3
3
1
1
R181
1K
R182
1K
100K
R184
TP153
RV29
EGA1-0603-V05-B
3
TP151
UP33
8
TP177
RV33 EGA1-0603-V05-B
HDMI1_SDA
HDMI1_SCL
R185
CEC_IN
TP142
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
TP178
NC_4K7
U11
1
2
3
4
5
L1
NC1
Vcc
L3
NC2
NC4
L2
GND
NC3
L4
10
9
8
7
6
RX2_CB
RX2_C
8
8
RX2_0B
RX2_0
8
8
RClamp0524P
ESD_SLP2510P8
R300
4K7
L1
NC1
Vcc
L3
NC2
NC4
L2
GND
NC3
L4
10
9
8
7
6
RX2_1B
RX2_1
8
8
RX2_2B
RX2_2
8
8
TP180
RV34 EGA1-0603-V05-B
HDMI2_SDA
HDMI2_SCL
8
R186
TP179
NC_4K7
TP150
CEC_IN
U12
1
2
3
4
5
L1
NC1
Vcc
L3
NC2
NC4
L2
GND
NC3
L4
10
9
8
7
6
RX1_CB
RX1_C
8
8
RX1_0B
RX1_0
8
8
3V3SB
D15
BAT54C
RClamp0524P
ESD_SLP2510P8
R193
27K
U14
1
2
3
4
5
P3
U13
1
2
3
4
5
UP30
RV32 EGA1-0603-V05-B
P9
TP144
P3
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
Q15
MMBT3904LT1G
R188 1K
2
1
RV31 EGA1-0603-V05-B
P8
TP181
1
P2
P1
TP145
Q14
MMBT3904LT1G
R187 1K
2
100K
RV30
EGA1-0603-V05-B
HDMI 2
3
HDMI 1
P2
P1
R183
1
8
HDMI2_5V
1
2
TP146
B04
3
B04
R301
4K7
L1
NC1
Vcc
L3
NC2
NC4
L2
GND
NC3
L4
10
9
8
7
6
RX1_1B
RX1_1
8
8
RX1_2B
RX1_2
8
8
R195
HDMI_CEC
RV35
EGA1-0603-V05-B
RClamp0524P
RClamp0524P
ESD_SLP2510P8
ESD_SLP2510P8
R189
47K
R190
47K
R191
10K
R196
47K
R197
47K
1
2
3
4
C127
47pF/50V
R198
10K
R605
HDMI_SCL2
HDMI_SDA2
U15
AT24C02BN-SH-T
VCC 8
A0
A1
WP 7
SCL 6
A2
GND SDA 5
8
HDMI2_5V
HDMI1_5V
8
8
100
CEC_IN
8
8
TP141
TP140
TP143
HDMI_SCL2
HDMI_SDA2
R192
R194
100
100
HDMI1_WP
HDMI1_SCL
HDMI1_SDA
HDMI_SCL1
HDMI_SDA1
1
2
3
4
U16
AT24C02BN-SH-T
A0
VCC 8
A1
WP 7
A2
SCL 6
GND SDA 5
TP148
NC_0
TP154
TP149
D16
BAT54C
TP147
HDMI_SCL1
HDMI_SDA1
R199
R200
100
100
HDMI2_WP
HDMI2_SCL
HDMI2_SDA
1
3
TP155
2
HDMI_WP_EN
4
for layout
C124
0.1uF/16V
C125
22pF/50V
C128
0.1uF/16V
C126
22pF/50V
C129
22pF/50V
C130
22pF/50V
R604
NC_0
MTK suggestion
2
HDMI Input
2010-01-05
0171-2271-3203
18930_503_100302.eps
100302
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 54
SSB: RF Tuner
RF Tuner
B05
IF_TUNER
IF_TUNER
TP328
C95
0.01uF/25V
L3
NC_10 uH/140mA
1
2
C94
0.01uF/25V
TP320
TUNER_VCC
TUNER_VCC
TUNER_VCC
R285
TP338
U9
KIA7805AF
R283
NC_10K
TUNER_VCC
FIX
1
IN
OUT
3
+
GND
2
R281
NC_220K
R280
NC_680K
R155
NC_220K
SAW1
VIF(K3953-M100)
R156
NC_680K
TH3
TH4
NC
23
OP1
OP2
22
FMPLL
AFC
TP305
C99
NC_0.1uF/16V
C100
NC_1000pF/50V
R160
33
R163
33
C102
0.01uF/25V
C103
390pF/50V
5
DEEM
7
6
R162
5K6
C104
0.01uF/25V
11
R161
C111
C112
0.1uF/16V
SDA_TUNER
R169
7
R168
1000pF/50V
TP293
1K
C269
NC_1000pF/50V 9
DGND
AGND
AUO
CVBS
SCL_TUNER
8
R174
TP292 10
VAGC
SDA
16
C113
REF
SCL
TAGC
XUGUAUNG suggest NC
Q12
MMBT3904LT1G
TP327
R166
NC_75_F
R165
NC_4K7
R167
NC_10
15
C114
CE21
NC_100uF/25V
smdecd
4.7pF_50V
0402C
TP301
R170
NC_220
R175
R172
C120
0.01uF/25V
Tuner
China
HFT-8-125H
098001041220
SAW Filter
Video IF
K3953-M100
Sound IF
K9362-M100
SIOMAD
NC
C119
0.01uF/25V
Video IF
K3953-M100
K9362-M100
Video IF
M3953-M100
Sound IF
M9370-M100
R177
100_F
C115
47pF/50V
R179
TCVBS_P
8
TCVBS_N
8
1
TP324
R180
NC_75_F
MPX2_N
TP380
FB20 0805L
120 ohm/0.5A
C121
0.01uF/25V
8
3V3SW
MPX1
TP382
C447
0.1uF/16V
0402C
8
HW_SCL R618
100
0402R
B3V3SW
B3V3SW
B3V3SW
TUNER_VCC
R153
NC_4K7
R154
4K7
3
1
C446
0.1uF/16V
0402C
SCL_TUNER
R147
NC_4K7
R148
4K7
8
HW_SDA R617
100
0402R
1
3
SDA_TUNER
S
HFT-8-13F2
098001041230
Sound IF
100_F
C260
NC_10uF/10V
S
Argentina
HFT-8-125H
098001041220
R173
13
TUNER_VCC
AP
100_F
R176
NC_75_F
100
TP401
8
TP325
R171
NC_33K TP326
TP314
AGC_TUNER
14
TP379
I2C ADDRESS:
READ is 0X87
WRITE is 0X86
Q13
NC_MMBT3904LT1G
2
TP313
TP309
12
MPX2_P
C107
0.1uF/16V
0.47uF/16V
TP302
11
C117
8
22pF/50V
470_F
2
TP322
33
C116
22pF/50V
R164
17
TP308
TOP
8
18
C118
0.01uF/25V
R178
NC_75_F
CE19
100uF_25V
SMDECF
C106
1500pF/50V
Y1
4MHz
R601
NC_12K
33
TP323
IF_TUNER
2
330
19
TP307
C109
0.47uF/16V
10
12
20
TP303
XUGUAUNG suggest 22pF ---> 47pF
8
VPLL
AFD
C110
47pF/50V
3
CE20
100uF_25V
SMDECF
FB4
TUNER_VCC
120 ohm/0.5A
TP310
C105
0.22uF/25V
TP296
SDA_TUNER
5
NC
VP
SCL_TUNER
C108
47pF/50V
TP312
TP333
6
8
C101
NC_0.1uF/16V
21
4
NC
IF
SIF1
+
NC
VIF2
TP306
TUNER_VCC
FB5
120 ohm/0.5A
NC
2
3
TP334
+5V
TP311
2
TH4
TH2
SDA
24
TP304
4
TP332
SIF2
1
TH3
TH1
VIF1
2
TH2
HFT-8B
TH1
D9
NC_1SS356
5
SCL
R159
100K
TP300
TP299 TP294
TP295
4
9
CE18
47uF_25V
SMDECD
SAW2
SIF(K9362-M100)
3
R607
0
0402R
5
4
AGC_TUNER
6.3
AS
I2C ADDRESS:
READ is 0XC1
WRITE is 0XC0
47K
1
TP298
24K
TP297
AGC
C96
NC_0.1uF/16V
TP317
3
R157
T1
HFT-8B
R158
R150
NC_6K8
U10
TDA9885TSV5
TUNER_VCC
D10
1N4148WS-7-F
R152
NC_22K
2
TP336
TP335
R606
0
1
C98
0.1uF/16V
2
2
0
1
CE17
100uF/25V
D8
NC_1SS356
Q10
NC_MMBT3904LT1G
TP315
R598
2
CE16
100uF/25V
D7
NC_1SS356
R149
NC_6K8
TP321
1
+
R151
NC_10K
D20
NC_1SS356
TP318
TO252
C97
0.1uF/25V
TP319
R284
NC_6K8
Q29
NC_MMBT3904LT1G
3
33
33
33
33
NC_10K
1
R464
R465
R462
R463
3
33
33
33
33
R303
3
TP337
R458
R459
R460
R461
NC_10
1
12VSW
TP316
TP331
3
B05
Q9
2N7002
Q11
2N7002
TP330
TP347
TP329
2
RF Tuner
2010-01-05
0171-2271-3203
18930_504_100302.eps
100302
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 55
SSB: Keyboard/LED/IR Interface
Keyboard/LED/IR Interface
B06
5VSW
B06
5VSB
FB6
120 ohm/0.5A
FB7
120 ohm/0.5A
TP64
TP61
TP62
TP59
TP60
TP58
TP65
5VSB
TP67
3V3SB
TP68
R206
R209
100
100
LED2
R210
R212
100
100
ADIN0
R214
C134
1000pF/50V
C135
1000pF/50V
C136
1000pF/50V
4K7
2
2
TP69
8
TP66
681_F
Q16
MMBT3906LT1G
R203 4K7
R202
4K7
REG3V3
3,8
IR_OUT
3
R443
NC_10K
R441
NC_10K
Q37
MMBT3904LT1G
TP353
TP356
TP604
8
TP605
C137
1000pF/50V
IR_
R448
NC_10K
LED1
2
GPIO20
Q33
NC_MMBT3904LT1G
C296
NC_0.1uF/16V
1
C132
C133
1uF/25V 1000pF/50V
R207
LED1
W200_8
C131
1uF/25V
8
3
ADIN3
1
100
0
R626
4K7
1
R205
R204
R201
4K7
3
J3
2R00-LOCK-8M
1
2
3
4
5
6
7
8
TP291
3V3SB
3V3SB
3
TP63
TP70
TP71
3V3SB
TP17
12VIN
3V3SB
3V3SB
R454
NC_10K
RXD0
8
R222
100
0603R
TXD0
8
TP16
R215
1K
TP14
TP415
100
R456
8
8
GPIO23
3
R211
PWR_DOWN
10K
Q35
MMBT3904LT1G
2
C299
NC_0.1uF/16V
Q17
MMBT3904LT1G
2
Q18
MMBT3904LT1G
2
TP416
LED2
TP355
1
100
0603R
R208
15K
0402R
3
R220
R213
15K
0402R
TP15
TP354
TP423
TP23
D17
MMSZ5237B-7-F
1
1
3
5
4
2
R218
4K7
0402R
3
L
R217
4K7
0402R
D18
NC_MMSZ5226B
1
P10
WTJ-035-28ZSA
PH_2SJ1535
R
R452
NC_10K
R216
1K
3V3SB
R612
4K7
0402R
TP175
TP176
RV36
EGA1-0603-V05-B
0603VAR
R613
4K7
0402R
TP425
R614
NC_100
0603R
RXD1
8
R615
NC_100
0603R
TXD1
8
RV37
EGA1-0603-V05-B
0603VAR
TP420
C138
0.22uF/25V
J4
2R00_1X4M
1
2
3
4
3V3SB
R221
R223
TP421
22
22
TXD0
RXD0
8
8
TXD0R
RXD0R
4
4
TP426
2
Keyboard/LED/IR Interface
2010-01-05
0171-2271-3203
18930_505_100302.eps
100302
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 56
SSB: MT8222
MT8222
BL ON
TP417
B07
TP419
B07
1V0SB
TP418
R239
NC_100
3
5
7
7
3,7
3
C139
10uF/10V
4
ADJ
3
5VSB
IN
OUT
2
RDQ0
RDQ1
RDQ2
RDQ3
RDQ4
RDQ5
RDQ6
RDQ7
RDQS0
RDQM0
RDQM1
RDQS1
RDQ8
RDQ9
RDQ10
RDQ11
RDQ12
RDQ13
RDQ14
RDQ15
1V8SW
1V8SW
1V8SW
1V8SW
1V0SB
1V8SW
1V8SW
1V8SW
1V8SW
AVDD12_MEMPLL
1V8SW
RCLK0#
RCLK0
RCKE
RA12
RA11
RA9
RA8
RA7
RA6
RA5
RA4
RWE#
RCAS#
RRAS#
RCS#
RBA0
RBA1
RA10
RA0
RA1
RA2
RA3
1V8SW
1V8SW
1V0SB
1V8SW
RVREF0
1V0SB
VDD33
R619
NC_100
0402R
3V3SB
PWM1
PWM0
SPDIF_OUT
TXD1
RXD1
HW_SCL
HW_SDA
GPIO25
GPIO24
GPIO23
GPIO22
GPIO21
GPIO20
I2S_ADIN
I2S_AOSDATA0
I2S_AOBCLK
I2S_AOLRCK
I2S_AOMCLK
VDD33_1
DVDD10_3
AR1
AL1
AVICM2
AR2
AL2
AR3
AL3
AVDD33_ADAC
AVDD33_REFP_AADC
AIN_R
AIN_L
VMID
AVDD33_AADC
AVDD12_APLL
AVDD12_SYSPLL
AVDD12_ADCPLL
AVDD12_PSPLL
AVDD12_DMPLL
XTALI
XTALO
AVDD33_XTAL
ADIN5
ADIN4
ADIN3
ADIN2
ADIN1
ADIN0
AVDD33_DIG
MPX1
MPX2_N
MPX2_P
AVDD33_SIF
AVDD33_CVBS
CVBS_BYPASS1
CVBS_BYPASS0
CVBS0N
CVBS0P
CVBS1P
CVBS2P
CVBS3P
CVBS_SY0
CVBS_SC0
CVBS_SY1
CVBS_SC1
DVDD10_2
DVDD10_2
RDQ0
RDQ1
VCC2IO_2
RDQ2
RDQ3
RDQ4
VCC2IO_2
RDQ5
RDQ6
RDQ7
VCC2IO_3
RDQS0
VCC2IO_2
RDQM0
DVDD10_2
RDQM1
VCC2IO_2
RDQS1
VCC2IO_2
RDQ8
RDQ9
VCC2IO_2
RDQ10
RDQ11
RDQ12
VCC2IO_2
RDQ13
RDQ14
RDQ15
AVDD12_MEMPLL_1
VCC2IO_1
RCLK0#
RCLK0
VCC2IO_2
RCKE
RA12
RA11
VCC2IO_2
RA9
RA8
RA7
RA6
RA5
RA4
RWE#
RCAS#
RRAS#
RCS#
RBA0
RBA1
RA10
RA0
RA1
DVDD10
RA2
RA3
VCC2IO_1
RVREF0
DVDD10_2
VDD33_2
VGA_SDA
VGA_SCL
R620
NC_100
0402R
VGA_SDA
64
63
62
61
60
59
58
57
56
55
54
53
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
2
2
33V / BOOST
DIMMING
1
TXD1
RXD1
HW_SCL
HW_SDA
GPIO25
GPIO24
GPIO23
PWR_DOWN
GPIO21
GPIO20
7
7
6
6
2
4
7
7
11
7
DTV
2
AR2
AL2
NVRAM /
TUNER
3
Shield
Shield
Shield
Shield
Shield
EDID
WP
AVDD33_ADAC
R226
0
TP375
C164
0.1uF/16V
REG3V3
C165
10uF/10V
AVDD33_AADC
TP374
3V3SB
AVDD33_LVDS
R233
0
6
C175
0.1uF/16V
5
TP55
C176
0.1uF/16V
C180
0.1uF/16V
4
REG3V3
AVDD33_DIG
0
TP372
11
11
11
11
TP376
R238
XTALI
Y2
27MHZ
1
2
11
11
C185
0.1uF/16V
TP377
820K
C186
0.1uF/16V
1V8SW
XTALO
3
3
C188
15pF_50V
0603C
C148
10uF/10V
C189
12pF_50V
0603C
C149
0.1uF/16V
C150
0.1uF/16V
C151
0.1uF/16V
C152
0.1uF/16V
C153
0.1uF/16V
C154
0.1uF/16V
C155
0.1uF/16V
C156
0.1uF/16V
TP429
AVDD12_PLL
XTALI
XTALO
ADIN3
7
ADIN0
AVDD33_DIG
MPX1
MPX2_N
MPX2_P
AVDD33_SIF
AVDD33_CVBS
7
C192
C193
6
6
6
AVDD33_USB
3V3SB
SPI_CS0R
SPI_SIR
SPI_WP
AVDD33_XTAL
1
2
3
4
U19
MX25L3205DM2I-12G
CS_ VCC 8
SO HOLD_ 7
W_
SCK 6
GND
SI 5
3V3SB
R227
TP427
0
TP407
C167
4.7uF/10V
SPI_SCKR
SPI_SOR
C168
4.7uF/10V
1V2SB
TP398
R248
R249
R250
0
68
0
C170
0.01uF/25V
R261
NC_0
PRST#
2
GND
VCC
nRESET
AVDD12_MEMPLL
TP412
C183
0.1uF/16V
TP53
TCVBS_P
TCVBS_N
CVBS1P
CVBS2P
CVBS3P
6
6
3
3
3
3V3SB
FB8
120 ohm/0.5A
VDD33
TP54
+
TP386 TP387 TP383 TP384 TP385 TP400
TP369
R279
100
SPI_CS0
R241
100
SPI_CS0R
SPI_SO
R242
100
SPI_SOR
SPI_SI
R243
100
SPI_SIR
SPI_SCK
R244
100
SPI_SCKR
SPI_WP
SPI_SI
SPI_SCK
SPI_WP
SPI_SCK
C160
0.1uF/16V
C161
0.1uF/16V
C162
0.1uF/16V
TP399
GPIO6
R240
R246
R247
R278
C191
GPIO6R
11
RDQ[0:15]
RA[0:12]
RDQS[0:1]
RDQM[0:1]
RBA[0:1]
RCLK0#
RCLK0
RCKE
RWE#
RCAS#
RRAS#
RCS#
TP368
10K
NC_10K
NC_10K
NC_10K
NC_22pF/50V
9
9
9
9
9
9
9
9
9
9
9
9
1V2SB
AVDD12_LVDS
R229
1V2SB
0
AVDD12_USB
R230
1V2SB
0
AVDD12_DIG_RGB
R231
TP404
C172
4.7uF/10V
C171
0.1uF/16V
AVDD12_VPLL
TP406
0
C173
4.7uF/10V
1V2SB
AVDD12_RGB
R235
0
TP408
C179
0.1uF/16V
1
2
3
4
3
TP373
AVICM
TP371
0
TP357
AVDD33_VGA
3V3SB
R237
0
C194
0.1uF/16V
C195
22pF/50V
100
100
HW_SCL
HW_SDA
C187
0.1uF/16V
C196
22pF/50V
3
S
C198
10uF/10V
C199
0.1uF/16V
TP360
R257
PWM2
TP361
3
Q21
MMBT3904LT1G
2
I2S_AOSDATA0
R253
10K
TP358
TP405
1
R263
R252
10K
TP359
R254
R255
10K
Q19
MMBT3904LT1G
2
1
1
VMID
TP367
3
R262
1K
C197
4.7uF/10V
Q20
2N7002
2
C184
0.1uF/16V
R251
10K
TP363
U20
AT24C32CN-SH-T
8
A0
VCC
7
A1
WP
A2
SCL 6
5
GND SDA
C174
0.1uF/16V
AVDD12_HDMI
TP413
C178
0.1uF/16V
AVDD33_ADAC
TP366
C159
0.1uF/16V
0
C177
0.1uF/16V
C182
4.7uF/10V
0.047uF/25V
1uF/25V
C169
0.1uF/16V
AVDD33_HDMI
TP409
TP428
R234
TP381 TP388
U21
NC_MAX809STRG
VDD33
1
TP365
1V0SB
C158
0.1uF/16V
RVREF0
AVDD12_PLL
R228
TP410
C190
0.1uF/16V
TP50
1V2SB
0
CE24
100uF/25V
AVDD12_HDMI
VSYNC
HSYNC
BP
SOG
GP
COM
RP
AVDD33_VGA
3
SOY1
3
Y1P
3
COM1
3
PB1P
3
PR1P
3
SOY0
3
Y0P
3
COM0
3
PB0P
3
PR0P
AVDD12_DIG_RGB
AVDD12_RGB
TP362
C157
0.1uF/16V
AVDD33_AADC
VDD33
R260
47K
C181
0.1uF/16V
AVDD33_REFP_AADC
R236
AMP MUTE
R256
5K11_F
R259
10K
C166
0.1uF/16V
0
3V3SW
TP411
C147
0.1uF/16V
C146
0.1uF/16V
REG3V3
0
7
4
4
4
4
4
4
4
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
1V0SB
HDMI_CEC
PWR5V_2
HDMI_SDA2
HDMI_SCL2
RX2_CB
RX2_C
RX2_0B
RX2_0
RX2_1B
RX2_1
RX2_2B
RX2_2
PWR5V_1
HDMI_SDA1
HDMI_SCL1
AVDD33_HDMI
RX1_CB
RX1_C
RX1_0B
RX1_0
RX1_1B
RX1_1
RX1_2B
RX1_2
C145
0.1uF/16V
TP403
R232
Shield
AVDD33_ADAC
AVDD33_REFP_AADC
AIN_R
3
AIN_L
3
VMID
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
AVDD12_USB
C144
0.1uF/16V
AVDD33_XTAL
R225
TP402
AVDD33_SIF
Shield
3V3SB
USB_DM0
USB_DP0
AVDD33_USB
3V3SB
0
U17H2
NC_SMALL SHIELDING
PWM1
PWM0
I2S_AOSDATA0
I2S_AOBCLK
I2S_AOLRCK
I2S_AOMCLK
VDD33
1V0SB
AR1
AL1
AVICM
VGA_SCL
4
4
AVDD33_CVBS
R224
C163
0.1uF/16V
GPIO11
GPIO10
GPIO9
GPIO8
GPIO7
GPIO6
GPIO5
GPIO4
GPIO3
GPIO2
GPIO1
GPIO0
VDD33_2
DVDD10_3
DVDD10_3
O0N
O0P
O1N
O1P
O2N
O2P
AVDD33_LVDSA
OCKN
OCKP
O3N
O3P
O4N
O4P
AVDD12_LVDS
E0N
E0P
E1N
E1P
E2N
E2P
AVDD33_LVDSB
ECKN
ECKP
E3N
E3P
E4N
E4P
TP
AVDD12_VPLL
DVDD10_4
VDD33_1
UP35
UP34
UP33
UP31
UP30
TXD0
RXD0
IR_
INT0_
SPI_CS1
SPI_SCK
SPI_SI
SPI_SO
SPI_CS0
PRST#
ICE
PWM3
PWM2
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
C143
0.1uF/16V
C142
0.1uF/16V
CE36
100uF/25V
TP352
R610
180_F
0603R
USB_DM0
USB_DP0
AVDD33_USB
USB_VRT
AVDD12_USB
USB_DM1
USB_DP1
DVDD10
HDMI_CEC
PWR5V_2
HDMI_SDA2
HDMI_SCL2
RX2_CB
RX2_C
RX2_0B
RX2_0
RX2_1B
RX2_1
RX2_2B
RX2_2
PWR5V_1
HDMI_SDA1
HDMI_SCL1
AVDD33_HDMI
RX1_CB
RX1_C
RX1_0B
RX1_0
RX1_1B
RX1_1
RX1_2B
RX1_2
PWR5V_0
HDMI_SDA0
HDMI_SCL0
RX0_CB
RX0_C
RX0_0B
RX0_0
RX0_1B
RX0_1
RX0_2B
RX0_2
AVDD12_HDMI_3
VSYNC
HSYNC
BP
SOG
GP
COM
RP
AVDD33_VGA
SOY1
Y1P
COM1
PB1P
PR1P
SOY0
Y0P
COM0
PB0P
PR0P
AVDD12_DIG_RGB
AVDD12_RGB
1V0SB
EPAD_GND
C141
0.1uF/16V
+
R609
110_F
0603R
ADJ
1
PWM3
PWM2
SPI_SCK
SPI_SI
SPI_SO
SPI_CS0
PRST#
+
CE35
100uF/25V
U17
MT8222AMMU/A
257
C140
0.1uF/16V
REG3V3
SOT223
UP30
TXD0
RXD0
IR_
INT0_
AVDD12_VPLL
1V0SB
VDD33
UP35
2
UP34
2
UP33
5
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
GPIO0
VDD33
1V0SB
O0N
O0P
O1N
O1P
O2N
O2P
AVDD33_LVDS
OCKN
OCKP
O3N
O3P
O4N
O4P
AVDD12_LVDS
E0N
E0P
E1N
E1P
E2N
E2P
AVDD33_LVDS
ECKN
ECKP
E3N
E3P
E4N
E4P
10
12
GPIO2
GPIO6
GPIO4
C255
0.01uF/25V
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
GPIO10
GPIO9
POK
4
4
2
TP414
TP378
U38
AP1117EL-13
C200
10uF/10V
C201
0.1uF/16V
C202
4.7uF/10V
C203
0.1uF/16V
R264
1K
R265
9K1_F
R258
NC_10K
2
MT8222
2010-01-05
0171-2271-3203
18930_506_100302.eps
100302
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 57
SSB: DDR2 DRAM
B08
DDR2 DRAM
B08
1V8SW
C204
10uF/10V
C205
0.1uF/16V
C206
0.1uF/16V
C207
0.1uF/16V
C208
0.1uF/16V
C209
0.1uF/16V
C210
0.1uF/16V
C211
0.1uF/16V
C212
3300pF/50V
C215
3300pF/50V
C214
3300pF/50V
C213
3300pF/50V
C216
3300pF/50V
C217
3300pF/50V
C218
3300pF/50V
U22
1V8SW
1V8SW
RDQ6
RDQ2
RDQ4
RDQ0
RDQ1
RDQ7
RDQ3
RDQ5
RDQ13
RDQ10
RDQ15
RDQ8
RDQ9
RDQ14
RDQ11
RDQ12
R269
1K
R266
1K_F
RVREF0
RODT
R267
1K_F
C219
10uF/10V
C220
0.1uF/16V
R268
NC_1K
C221
3300pF/50V
RDQS1
RDQS0
R270
RN1
22
RCKE
22
CKER
A3R
A2R
A1R
A0R
RA3
RA2
RA1
RA0
RVREF0
CKER
1V8SW
R271
22
RCLK0
RN2
CLK0R
22
A4R
A5R
A6R
A7R
RA4
RA5
RA6
RA7
R272
100_F
R273
22
RCLK0#
RN3
CLK0#R
22
RA8
RA9
RA11
RA12
RDQM1
RDQM0
A8R
A9R
A11R
A12R
G8
G2
H7
H3
H1
H9
F1
F9
C8
C2
D7
D3
D1
D9
B1
B9
A2
E2
B7
A8
F7
E8
B3
F3
J2
K2
A1
A9
C1
C3
C7
C9
E1
E9
G1
G3
G7
G9
J1
J9
M9
R1
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
NC
NC
UDQS
UDQS
LDQS
LDQS
UDM
LDM
VREF
CKE
VDD
VDDQ
VDDQ
VDDQ
VDDQ
VDDQ
VDD
VDDQ
VDDQ
VDDQ
VDDQ
VDDQ
VDDL
VDD
VDD
VDD
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10/AP
A11
A12
NC/A13
NC/A14
NC/N15
BA0
BA1
NC/BA2
CK
CK
CS
CAS
ODT
RAS
WE
VSS
VSSQ
VSSQ
VSSQ
VSSQ
VSSQ
VSS
VSSQ
VSSQ
VSSQ
VSSQ
VSSQ
VSS
VSSDL
VSS
VSS
M8
M3
M7
N2
N8
N3
N7
P2
P8
P3
M2
P7
R2
R8
R3
R7
L2
L3
L1
J8
K8
L8
L7
K9
K7
K3
A3
A7
B2
B8
D2
D8
E3
E7
F2
F8
H2
H8
J3
J7
N1
P9
A0R
A1R
A2R
A3R
A4R
A5R
A6R
A7R
A8R
A9R
A10R
A11R
A12R
BA0R
BA1R
CLK0R
CLK0#R
CS#R
CAS#R
RODT
RAS#R
WE#R
NT5TU32M16CG-25C
RN4
22
RA10
RBA1
RBA0
RCS#
A10R
BA1R
BA0R
CS#R
RN5
RRAS#
RCAS#
RWE#
22
RAS#R
CAS#R
WE#R
RDQ[0:15]
RA[0:12]
RDQS[0:1]
RDQM[0:1]
RBA[0:1]
RCLK0#
RCLK0
RCKE
RWE#
RCAS#
RRAS#
RCS#
8
8
8
8
8
8
8
8
8
8
8
8
2
DDR2 DRAM
2010-01-05
0171-2271-3203
18930_507_100302.eps
100302
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 58
SSB: LVDS Output
LVDS Output
B09
B09
TP459 TP460
RN6
8
8
8
8
O0N
O0P
O1N
O1P
O0N
O0P
O1N
O1P
O0NTC
O0PTC
O1NTC
O1PTC
12
12
12
12
O2NTC
O2PTC
OCKNTC
OCKPTC
12
12
12
12
O3NTC
O3PTC
O4NTC
O4PTC
12
12
12
12
E0NTC
E0PTC
E1NTC
E1PTC
12
12
12
12
E2NTC
E2PTC
ECKNTC
ECKPTC
12
12
12
12
E3NTC
E3PTC
E4NTC
E4PTC
12
12
12
12
0
12VIN
FB9
80 ohm/4A
J5
1R25_2x20M
TP422
5VIN
F3
2A_63V
R274
1K
LVDS19
39
40
LVDS17
LVDS15
37
38
LVDS13
3V3SW
TP35
O0NTC
35
36
O1NTC
12
12
O0PTC
33
34
O1PTC
12
31
32
R282
4K7
Q23
MMBT3904LT1G
2
GPIO4
+
TP52
R287
10K
12
O2NTC
29
30
OCKNTC
12
12
O2PTC
27
28
OCKPTC
12
25
26
TP44
C223
0.1uF/25V
12
O3NTC
23
24
O4NTC
12
12
O3PTC
21
22
O4PTC
12
12
E0NTC
19
20
E1NTC
12
CE28
NC_100uF/25V
12
E0PTC
17
18
E1PTC
12
15
16
E2NTC
13
14
ECKNTC
12
12
E2PTC
11
12
ECKPTC
12
9
10
12
R310
NC_1K
12
PANEL_H
E3NTC
7
8
E4NTC
12
E3PTC
5
6
E4PTC
12
3
4
PANEL_VDD
PANEL_VDD
NC_0
8
8
8
8
O2N
O2P
OCKN
OCKP
O2N
O2P
OCKN
OCKP
0
TP463 TP464
RN8
8
8
8
8
O3N
O3P
O4N
O4P
O3N
O3P
O4N
O4P
0
C224
0.1uF/25V
CE29
NC_220uF/25V
TP453 TP454
RN9
8
8
8
8
E0N
E0P
E1N
E1P
E0N
E0P
E1N
E1P
0
TP451 TP452
TP467 TP468
2
P1
+
C225
NC_0.1uF/16V
8
PANEL_VDD
1
TP445
R314
NC_1K
GPIO0
TP465 TP466
12
PANEL_VDD
R313
22
1
8
TP43
TP461 TP462
TP455 TP456
3
R295
NC_4K7
D22
1N4148WS-7-F
R296
12
TP45
R277
470K
TP48
RN7
TP446
R276
1K
G
C222
1uF/25V
0805C
R275
10K
PANEL_VDD
D
1206F
FB10
NC_80 ohm/4A
S
1
2
3
4
Q22
RSS075P03
8
7
6
5
TP457 TP458
TP443 TP444
TP441 TP442
TP47
P2
TP46
RN10
8
8
8
8
E2N
E2P
ECKN
ECKP
E2N
E2P
ECKN
ECKP
0
TP449 TP450
PANEL_H
PANEL_H
TP470 TP469
PANEL_H
PANEL_H
RN11
R308
NC_4K7
LVDS19
R315
NC_4K7
LVDS15
LVDS17
R316
NC_4K7
R309
NC_4K7
LVDS13
8
8
8
8
E3N
E3P
E4N
E4P
E3N
E3P
E4N
E4P
0
R311
NC_0
R317
NC_0
R312
NC_0
R318
NC_0
TP447 TP448
2
LVDS Output
2010-01-05
0171-2271-3203
18930_508_100302.eps
100302
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 59
SSB: Audio Amplifier
Audio Amplifier
B10
B10
MUTE_AMP
ROUTP
+
CE30
220uF/25V
C227
TP105 1uF/25V
100K
R319
NC_10K
ROUTN
0.22uF/25V
C226
R320
12VAMP
TP94
TP95
TP103
11
TP123
37
GAIN1
PGNDL_28
28
MSTR/SLV#
PVCCL_27
27
SYNC
PVCCL_26
26
PAD
25
PAD_12
R334
NC_0
TP91
0.1uF/25V
C235
L5
22 uH/2.5A
1
2
+
ROUTN
CE31
220uF/25V
1uF/25V
C242
1uF/25V
LOUTN
220uF/25V
CE32
C244
0.1uF/25V
TP82
0.22uF/25V
1uF/25V
TP116
R608
4K7
0402R
12VSW
R346
10K
24
L7
22 uH/2.5A
1
2
8
+
1
R348
4K7
R628
47K
0402R
LINE_MUTE
2
C252
1uF/25V
R338
TP134 TP135
TP129
1
2
3
4
5
C441
4.7pF_50V
0402C
C442
4.7pF_50V
0402C
12VSW
C253
1000pF/50V
NC_20
TP124
TP125
FB17
120 ohm/0.5A
SDIN
AOUTR
DEM/SCLK
VA
LRCK
GND
MCLK
AOUTL
VQ
FILT+
10
9
8
7
6
C264
10uF/10V
R599
470_F
0402R
DAC_AR
C265
10uF/10V
R600
470_F
0402R
DAC_AL
TP130
C263
10uF/10V
TP131
C443
4.7pF_50V
0402C
TP126
TP127 TP128
C261
10uF/10V
C262
0.1uF/16V
C268
10uF/10V
0805C
C267
1uF/25V
C266
0.1uF/16V
R359
10K
R360
10K
12VAMP
C454
0.1uF/25V
0603C
3V3SB
Q26
MMBT3906LT1G
TP84
TP80
33
33
33
33
3
TP113
2
3
3
C448
1000pF/50V
CE33
0402C
100uF/25V
L+
C251
NC_470pF/50V
TP132 TP133
TP137 TP136
1
GPIO6R
FB14
80 ohm/4A
LOUTN
C440
4.7pF_50V
0402C
TP115
D35
BAT54C
TP78
REG5V
LOUTP
R350
R351
R352
R353
I2S_AOSDATA0
I2S_AOBCLK
I2S_AOLRCK
I2S_AOMCLK
TP100
C451
0.33uF_50V
0805C
U37
CS4344
8
8
8
8
0
0
0
0
0
0
C250
0.22uF/25V
TP138 TP139
3V3SB
TP85
L+
LRR+
C247
1000pF/50V
NC_20
TP79
TP75
C249
C248
C254
1uF/25V
LC246
1uF/25V
R335
R341
R342
R343
R344
R345
R347
FB13
80 ohm/4A
C245
NC_470pF/50V
TP74
TP77
TP72
L6
22 uH/2.5A
1
2
TP88
TP73
TP76
C239
1000pF/50V
NC_20
TP81
LOUTP
100K
J6
2R00-LOCK-4M
W200_4
1
2
3
4
TP86
TP96
GND
R336
RC238
1uF/25V
R328
C240
FB12
80 ohm/4A
C237
NC_470pF/50V
TP89
TP83
VREG
TP98
+
PAD_37
BSRN
38
39
ROUTN_39
40
ROUTN_40
41
ROUTP_41
42
BSRP
ROUTP_42
44
SHUTDOWN#
43
45
MUTE
46
FAULT
47
AVCC_47
48
PGNDL_29
23
R333
100K
GAIN0_8
22
R332
NC_0
30
29
21
R331
0
VCLAMPL
20
R330
0
VCLAMPR
GAIN0_7
13
R329
NC_0
12
LINN
31
PAD_24
10
32
BSLN
TP101
PGNDR_32
LINP
LOUTN_22
9
TP104
33
LOUTN_21
8
PGNDR_33
LOUTP_20
2.2uF/16V
AGND_4
LOUTP_19
7
PVCCR_34
BSLP
C243
6
RINP
19
TP102
5
LINN
C450
0.33uF_50V
0805C
36
TP87
C232
1000pF/50V
NC_20
TP97
12VAMP
35
AGND
R327
47K_F
0402R
C241
2700pF_50V
0402C
TP119
LINP
AVCC_48
49
2.2uF/16V
TP121
C231
1uF/25V
R322
34
18
C236
0402R
4
TP122
0
0402R
TP90
PAD_36
R+
C230
NC_470pF/50V
PVCCR_35
RINN
17
R325
3
VBYP
AL1
2
VREG
8
R326
DAC_AL
RINN
RINP
16
DAC_AR
NC_2K21_F
2.2uF/16V
TP107
15
C234
0402R
0
R324
ROSC
0402R
NC_2K21_F
PAD_1
PAD_13
R323
1
14
TP117
8 AR1
TP106
R321
47K_F
0402R
Thermal
C233
2700pF_50V
0402C
TP118
U23
TPA3101D2PHPR
2.2uF/16V
FB11
80 ohm/4A
L4
22 uH/2.5A
1
2
ROUTP
TP93
C229
TP99
TP92
C228
0.22uF/25V
CE39
470uF_25V
ECD10
TP110
R349
4K7
0402R
R355
10K
0402R
TP109
R629
1
TP111
3
R611
10K
0402R
8
MUTE_AMP
R630
200
1206R
200
1206R
2
GPIO21
C449
1000pF/50V
0402C
U39
KIA7805AF
12VAMP
D34
BAT54C
R616
R339
100K
TP364
IN
OUT
3
REG5V
TO252
C298
0.1uF/16V
0402R
1K
FIX
1
R631
1206R
1206R
+
200
R632 200
CE37
100uF/25V
ECD6
GND
C461
0.1uF/25V
0603C
2
TP108
C444
0.1uF/16V
0402C
+ CE38
100uF/25V
ECD6
2
Audio Amplifier
2010-01-05
0171-2271-3203
18930_509_100302.eps
100302
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 60
SSB: TCON
TCON
B11
B11
3V3TC
3V3TC
3V3TC
R487
10K
C300
10uF/10V
100
C304
0.1uF/16V
C305
0.1uF/16V
C306
0.1uF/16V
C307
0.1uF/16V
C308
0.1uF/16V
C309
0.1uF/16V
C310
0.1uF/16V
C311
0.1uF/16V
C312
0.1uF/16V
C427
0.1uF/16V
C428
0.1uF/16V
C429
0.1uF/16V
TP584
C313
10uF/10V
16VTC
R594
C314
0.1uF/16V
C315
0.1uF/16V
C316
0.1uF/16V
C317
0.1uF/16V
C318
0.1uF/16V
C319
0.1uF/16V
C320
0.1uF/16V
C321
0.1uF/16V
C322
0.1uF/16V
C323
0.1uF/16V
C324
0.1uF/16V
C325
0.1uF/16V
C434
0.1uF/16V
C435
0.1uF/16V
C436
0.1uF/16V
12
GMA6
11
GMA4
R521
TP541
C344
0.1uF/25V
0
TP589
C345
0.1uF/25V
R480
R481
100_F
100_F
R482
100_F
R483
R478
100_F
R484
100_F
R479
100_F
100_F
R485
C10S8
FSEL
RBF
100_F
TP481
R467
10K
TP477
TP114
TP494 TP479 TP480
C336
22pF/50V
C334
22pF/50V
WP2
SCLTC
SDATC
WP2TC
5K6
22
22
WP2TC
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
GIP_EN
RNLV5N
RNLV5P
C337
10uF/25V
LNLV5N
LNLV5P
LNLV4N
LNLV4P
LNLV3N
LNLV3P
LNCLKN
LNCLKP
LNLV2N
LNLV2P
LNLV1N
LNLV1P
LNLV0N
LNLV0P
RNLV4N
RNLV4P
RNLV3N
RNLV3P
RNCLKN
RNCLKP
RNLV2N
RNLV2P
RNLV1N
RNLV1P
RNLV0N
RNLV0P
TP594 SOE
POL
LNLV5N
LNLV5P
13 VST_IN
H_CONV_IN
OPT_N
LNLV4N
LNLV4P
LNLV3N
LNLV3P
TP587
GMA18
GMA16
GMA15
GMA13
GMA12
TP582 GMA10
GMA9
GMA7
GMA6
GMA4
TP583 GMA3
GMA1
LNCLKN
LNCLKP
LNLV2N
LNLV2P
LNLV1N
LNLV1P
LNLV0N
LNLV0P
R486
24K
J7
NC_2R00S_1X4ML
1
TC_WP2
2
TC_SDA
3
TC_SCL
4
EP
NC2
VDD
OUT
NC1
3V3TC
R514
NC_1K
R513
NC_0
SOE_A
POL_A
NC_0
J10
196269-60041
GND
Z_OUT
CLK1
CLK2
CLK3
CLK4
CLK5
CLK6
VGI_N
VGI_P
VGH_ODD
VGH_EVEN
VSS
VST
GND
VCOM_FB
VCOM_IN
GND
VDD
VDD
Half_VDD
Half_VDD
GND
VCC
VCC
GND
LLV5LLV5+
LLV4LLV4+
LLV3LLV3+
LCLKLCLK+
LLV2LLV2+
LLV1LLV1+
LLV0LLV0+
GND
SOE
POL
VST_IN
H_CONV
OPT_N
GND
GMA18
GMA16
GMA15
GMA13
GMA12
GMA10
GMA9
GMA7
GMA6
GMA4
GMA3
GMA1
GND
GMA1
GMA3
GMA4
GMA6
GMA7
TP592 GMA9
GMA10
GMA12
GMA13
GMA15
GMA16
GMA18
OPT_N
H_CONV_IN
13
POL
SOE
VST_IN
RNLV5N
RNLV5P
RNLV4N
RNLV4P
RNLV3N
RNLV3P
RNCLKN
RNCLKP
RNLV2N
RNLV2P
RNLV1N
RNLV1P
RNLV0N
RNLV0P
H_VDD
C338 10uF/25V
VCOMR
VCOMRFB
13
13
13
13
13
13
13
13
13
13
13
13
VSTTC
VGL_ITC
VDD_EVENTC
VDD_ODDTC
VGI_PTC
VGI_NTC
CLK6TC
CLK5TC
CLK4TC
CLK3TC
CLK2TC
CLK1TC
Z_OUT
60
59
58
57
56
55
54
53
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
GND
GMA1
GMA3
GMA4
GMA6
GMA7
GMA9
GMA10
GMA12
GMA13
GMA15
GMA16
GMA18
GND
OPT_N
H_CONV
VST_IN
POL
SOE
GND
RLV5RLV5+
RLV4RLV4+
RLV3RLV3+
RCLKRCLK+
RLV2RLV2+
RLV1RLV1+
RLV0RLV0+
GND
VCC
VCC
GND
Half_VDD
Half_VDD
VDD
VDD
GND
VCOM_IN
VCOM_FB
GND
VST
VSS
VGH_EVEN
VGH_ODD
VGI_P
VGI_N
CLK6
CLK5
CLK4
CLK3
CLK2
CLK1
Z_OUT
GND
32"
22K
42"
24K
RIGHT
47"
24K
0
H_CONV
H_CONV_IN
TP536
10
POL_A
POL
R505
0
SOE_A
SOE
TP499
3V3TC
R519
NC_0
R591
NC_4K7
TP522
TP593
VCOMLFB
TP545
VCORES
TP505
8
OPC_EN
GPIO2
VCOM_OP
C348
NC_1uF/25V
R592
R520
NC_0
0402R
C347
NC_0.1uF/16V
TP49
TP543
NC_0
R522
NC_0
R509
0
VCOMR
VCOM_OP
TP524
1K
C421
0.1uF/16V
RBF
R490
NC_1K
R493
NC_1K ODC_BYPASS
R494
NC_1K
EEP_SIZE
R495
NC_1K
GIP_EN
R496
1K
I2C_EN
R498
1K
REVERSE
R499
NC_1K
DISM
R500
0
C10S8
R501
NC_0
FSEL
VCOM_FB
R508
8
7
6
5
C335
0.01uF/25V
VCOMRFB
PANEL_VDD
9
NC
INAINA+
GND
C328
0.1uF/16V
C340
15pF/50V
TP491
VCOM_OP
U31
NC_MAX9650ATA+
C327
0.1uF/25V
C341
NC_15pF/50V
R516
TP578
1
2
3
4
C326
10uF/25V
LEFT
ITEM
R486
R497
TP492
1V8TC
TP542
C332
0.01uF/25V
TP595
TP523
4
C445
4.7pF_50V
0402C
P1
P2
R473
NC_18K
R510
NC_1K
R518
NC_0
H_VDD
TP490
R470
R471
R472
C333
0.1uF/16V
VCOM_FB
VCOM_PG
VST
R488
U29
AT24C32CN-SH-T
A0
VCC 8
A1
WP 7
A2
SCL 6
GND SDA 5
R517
NC_430
60
59
58
57
56
55
54
53
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
VCOMLFB
VCOML
TLI TL2428 MC
ODC_BYPASS
1
2
3
4
R466
10K
TP478
3V3TC
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
3V3TC
R469
47K
TP476
CLK1TC
CLK2TC
CLK3TC
CLK4TC
CLK5TC
CLK6TC
VGI_NTC
VGI_PTC
VDD_ODDTC
VDD_EVENTC
VGL_ITC
VSTTC
13
13
E3NTC
E3PTC
E4NTC
E4PTC
13
13
13
13
13
13
13
13
13
13
13
13
U36
GIP_EN
GND_131
V18_130
RNL_V5N
RNL_V5P
V18_127
RNC_V4N
RNC_V4P
GND_124
RNC_V3N
RNC_V3P
RNCLKN
RNCLKP
V18_119
RNL_V2N
RNL_V2P
RNL_V1N
RNL_V1P
GND_114
RNL_V0N
RNL_V0P
V18_111
LNL_V5N
LNL_V5P
GND_108
LNL_V4N
LNL_V4P
LNL_V3N
LNL_V3P
V18_103
LNCLKN
LNCLKP
LNL_V2N
LNL_V2P
GND_98
LNL_V1N
LNL_V1P
LNL_V0N
LNL_V0P
V18_93
GND_92
GND_91
V18_90
R_MLVDS
13
GCLK5TC
13
GCLK6TC
13
EEP_SIZE
13
10
10
10
10
100_F
13
13
GCLK1TC
GCLK2TC
GCLK3TC
13
GCLK4TC
13
13
E2NTC
E2PTC
ECKNTC
ECKPTC
R477
13
10
10
10
10
100_F
GVSTTC
GVDD_ODDTC
GVDD_EVENTC
O3NTC
O3PTC
O4NTC
O4PTC
E0NTC
E0PTC
E1NTC
E1PTC
R476
DPMTC
FLKTC
10
10
10
10
10
10
10
10
100_F
PWM_TIN
PWM_TOUT
OPC_EN
GND_1
VCC_2
PWM_TIN
PWM_TOUT
OPC_EN
V18_6
GND_7
GND_8
V18_9
R1AM
R1AP
R1BM
R1BP
V18_14
R1CM
R1CP
R1CLKM
R1CLKP
GND_19
R1DM
R1DP
R1EM
R1EP
R2AM
R2AP
R2BM
R2BP
V18_28
R2CM
R2CP
R2CLKM
R2CLKP
GND_33
R2DM
R2DP
R2EM
R2EP
GND_38
V18_39
C10S8
FSEL
RBF
VCC_43
GND_44
RESETTC
O2NTC
O2PTC
OCKNTC
OCKPTC
R475
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
VCORES
10
10
10
10
100_F
1M
TP591
C346
10uF/25V
C331
0.1uF/16V
Z_OUT
R468
1V8TC
TP580
C330
0.1uF/25V
Y6
CSTCE10M0G55
VCC_45
VCC_46
ODC_BYPASS
GND_48
VCC_49
V18_50
GND_51
VCC_52
GND_53
NC_54
NC_55
VCORES
GND_57
GND_58
RESET
VCC_60
GND_61
V18_62
GND_63
DPM
FLK
VCC_66
GND_67
GVST
GVDD_ODD
GVDD_EVEN
V18_71
GND_72
GCLK1
GCLK2
GCLK3
GCLK4
VCC_77
GND_78
NC_79
NC_80
GCLK5
GCLK6
NC_83
EEP_SIZE
V18_85
GND_86
NC_87
NC_88
R474
O0NTC
O0PTC
O1NTC
O1PTC
C329
10uF/25V
TP581
2
2
10
10
10
10
I2C_EN
3V3TC
TP547
TP540
16VTC
TP497
177
176
175
174
173
172
171
170
169
168
167
166
165
164
163
162
161
160
159
158
157
156
155
154
153
152
151
150
149
148
147
146
145
144
143
142
141
140
139
138
137
136
135
134
133
N.C
0
VCOM_PG
3V3TC
J11
196269-60041
H_CONV
OPT_N
GMA7
GMA3
R515
C439
0.1uF/16V
GMA1
13
TP588
TP585
WP2
GMA12
REVERSE
14
DISM
SCLTC
SDATC
16
N.C
AVDD
GMA13
TP539
VCOM_FB
18
15
10
AVDD
GMA2
9
6
VCOM
GMA4
GMA3
8
VCOM_FB
AGND_AMP
7
4
AVDD_AMP
MAX9668
C438
0.1uF/16V
EP
GND_176
VCC_175
DISM
SCL
SDA
VCC_171
GND_170
GND_169
VCC_168
GND_167
V18_166
REVERSE
GND_164
VCC_163
LED_ON
REF_MODE
WPWM
GND_159
V18_158
GND_157
VCC_156
VCC_155
GND_154
WP2
NC_152
I2C_EN
VCC_150
GND_149
GND_148
V18_147
GND_146
VCC_145
GND_144
V18_143
SOE_A
POL_A
GND_140
VCC_139
H_CONV
OPT_N
GND_136
VCC_135
XOUT
XIN
18
17
19
GAMA8
GAMA5
DVDD
5
R595
GAMA6
A0
3
C343
0.1uF/16V
GAMA7
21
20
EP
SCL
SDA
2
C437
0.1uF/16V
18
TP501 TP496
3V3TC
C433
0.1uF/16V
C432
0.1uF/16V
16VTC
C339
22pF/50V
U30
C431
0.1uF/16V
TP586
GMA15
1
C430
0.1uF/16V
1V8TC
GMA16
100
C342
22pF/50V
C303
0.1uF/16V
P1
R506
C302
0.1uF/16V
P1
R507
SDATC
4 VGA_SDA_TCON
C301
0.1uF/16V
SCLTC
P2
100
P2
R492
P1
4 VGA_SCL_TCON
P1
TP548
P2
TP511
100
P2
R503
10K
R491
R511
0
R512
TP510
TP506
TP498
TP495
0
VCOML
VCOM_PG
TP544
TP504
TP509
TP502
TP503
2
TCON
2010-01-05
0171-2271-3203
18930_510_100302.eps
100302
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 61
SSB: TCON Power
TCON Power
B12
B12
3V3TC
16VTC
PANEL_VDD
D24
BAV99
R523
100
3V3TC
2
TP520
3
16VTC
TP488
12
D25
B340A-13-F
R633
NC_2R2
0402R
TP546
L9
22 uH/1.7A
2
1
TP564
R553
2R2
1
2
3
4
5
6
7
C383
1uF/25V
C388
1000pF/50V
C386
10uF/25V
CE10
220uF/25V
TP517
C387
150pF/50V
0
0
0
0
0
0
0
0
0
IN9
IN8
IN7
IN6
IN5
IN4
IN3
+
TP574
C382
1uF/25V
R544
R545
R546
R547
R548
R549
R550
R551
R552
12 GVDD_ODDTC
12 GVDD_EVENTC
12
GVSTTC
12
GCLK1TC
12
GCLK2TC
12
GCLK3TC
PANEL_VDD 12
GCLK4TC
12
GCLK5TC
12
GCLK6TC
3K
C371
NC_0.1uF/16V
Y9
Y8
Y7
Y6
Y5
Y4
Y3
TP532
TP531
TP529
U33
MAX17119ETI+
TP528
DISCHG
VST_IN
12
C464
NC_1000pF/50V
0402C
TP569
TP573
D26
BAV99
R537
TP572
C381
1500pF/50V
RESETTC
C380
10uF/25V
12
21
20
19
18
17
16
15
VDD_ODDTC
VDD_EVENTC
VSTTC
CLK1TC
CLK2TC
CLK3TC
CLK4TC
CLK5TC
CLK6TC
12
12
12
12
12
12
12
12
12
1
TP590
3V3TC
C379
1uF/25V
C375
10uF/25V
C374
10uF/25V
R539
10K
C367
NC_4700pF/50V
C378
1uF/25V
TP533
C373
1uF/25V
C377
0.1uF/25V
TP526
C376
0.1uF/25V
C372
1500pF/50V
R538
15K
TP487
0.1uF/25V
29
28
27
26
25
24
23
22
R532
15K
0402R
C370
R531
18K_F
0402R
47"
39K
42"
39K
EP
VSENSE
FLK1
FLK2
FLK3
RE
GND
Discharge
32"
43K
ITEM
R530
R543
10K
EN2
NC_0
IN2
IN1
VGH1
VGL
VGH2
Y1
Y2
TP489
R542
18K_F
0402R
TP507
TP519
8
9
10
11
12
13
14
R535
150K_F
0402R
C368
0.1uF/16V
1uF/25V
TP500
C366
4700pF/50V
R541
33K_F
0402R
R530
39K_F
0402R
C362
NC_1500pF/50V
C365
10uF/25V
R534
220K_F
0402R
C361
NC_0.1uF/16V
FLKTC
C369
TP508
C364
10uF/25V
R528
3K3
TP571
9
TP483
C363
1uF/25V
R529
4K7
TP534
R527
9K1_F
0402R
R533
8
7
6
5
SS
EN
COMP
FB
CE9
220uF/25V
TP514
BOOT
VIN
SW
GND
C359
10uF/25V
TP512
1
2
3
4
R524
47K
C352
C353
NC_1uF/25V NC_1uF/25V
R526
NC_18K_F
0402R
TP515
L8
22 uH/1.7A
1
2
R525
150K_F
0402R
C351
NC_1500pF/50V
U32
RT8250GSP
EP
C360
0.01uF/25V
TP485 TP486
TP513
8.0V Output (32")
H_VDD
TP518
+
TP484
TP521
EN2
1
C350
10uF/25V
TP516
C349
10uF/25V
3
16VTC
2
TP556
47"
68K
150K
VGL
TP566
TP565
TP562
TP561
U34
MAX17113ETL+
D27
NC_BAV99
2
0
VGH
1
2
3
4
5
6
7
8
9
10
3
1
27.1V
Output
(32")
R557
9K1
1206R
C392
4.7uF_50V
1206C
C390
1uF_50V
1206C
R560
68K_F
0402R
C393
1uF_50V
1206C
R561
NC_68K_F
0402R
R562
0
16VTC
TP553
C391
NC_1uF/25V
0603C
C394
NC_1uF/25V
0603C
R566
0
O
R567
NC_0
2
3
THR
DRVP
GND2
SRC
GON
DRN
MODE
DLP
FBP
CPGND
1
R571
150K_F
0402R
0
D30
BAV99
R573
0
C398
1uF/25V
0603C
TP567
C399
NC_150pF/50V
EN2
VGH
TP575
D28
D29
NC_MMSZ5237B-7-F
R559
R564
10
0603R
10
0603R
R563
R568
TP549
C395
1uF_50V
1206C
PANEL_VDD
R569
10
R565
TP550
C396
1uF/25V
NC_MMSZ5237B-7-F
10
0603R
10
0603R
NC_10
0603R
TP535
VGH
C397
1uF_50V
1206C
10
TP577
C400
R572
0.1uF/25V 1K
NC_1K
+
C401
C409
1uF/25V 10uF/25V
CE5
220uF/25V
10K_F
TP570
TP554
0402R
TP551
TP560
C410
1uF/25V
TP563
TP559
3
C411
0.1uF/25V
TP557
3
IN
2
3V3TC
1V8TC
R580
0
4
ADJ
OUT
2
3V3TC
L10
22 uH/1.7A
1
2
C412
0.1uF/25V
U35
AP1117EL
1
D31
BAV99
3V3TC
TP568
EN1
R575
R574
16VTC
TP576
30
29
28
27
26
25
24
23
22
21
PGND
EN2
VL
DEL2
EN1
FSEL
VIN
IN2
IN2
OUT
11
12
13
14
15
16
17
18
19
20
R570
R555
C389
0.1uF/25V
41
40
39
38
37
36
35
34
33
32
31
42"
68K
150K
EP
AGND
CRST
PGOOD
COMP
FB1
SWO
SWI
LX1
LX1
PGND
R556
32"
33K
174K
CTL
DRVN
AGND
FBN
REF
DEL1
FB2
BST
LX2
LX2
ITEM
R560
R571
D32
B340A-13-F
C413
C414
C415
C419
150pF/50V NC_1uF/25VNC_1uF/25V10uF/25V
+
CE13
220uF/25V
R576
5K1
TP558
TP493
SOT223
+
R584
GND
R358
1K_F
1
CE11
100uF/25V
C422
10uF/10V
NC_0
C420
1uF/25V
C423
10uF/10V
TP555
TP552
TP482
TP579
R587
0
VGL
R373
470_F
R585
27K_F
0402R
R586
150K_F
0402R
C424
0.22uF/25V
R586
32"
143K
C425
10uF/25V
42"
150K
R588
3K6
5V Output (32")
47"
143K
PANEL_VDD
TP538
R554
360
R577
0
VGL
R536
12
EN2
DPMTC
0
TP525
TP530
R579
NC_0
R583
0
VGL
EN1
R581
R540
1K
R578
VGL
TP527
0
R558
NC_360
DISCHG
NC_0
R582
VGL_ITC
12
VGH
NC_0
VGI_PTC
12
VGH
VGI_NTC
12
2
TCON Power
2010-01-05
0171-2271-3203
18930_511_100302.eps
100302
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 62
Layout Small Signal Board (Overview Top Side)
3
SSB top
2009-12-18
0171 2271 3203
18930_520_100311.eps
100311
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 63
Layout Small Signal Board (Overview Bottom Side)
3
SSB bottom
2009-12-18
0171 2271 3203
18930_521_100311.eps
100311
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 64
IR/LED Board
LED/IR Board
J
J
RI3
910
RI4
510
TP2
R
3
W
DI1
NC_KPTB-1612SURKQWDF
4
1
P2
JI1
1R25S_1X8M
CI6
0.1uF/16V
TP3
2
DI2
KPH-1608EC
RI6
0
STM
TP1
1
2
3
4
5
6
7
8
TP4
TP6
TP5
TP7
RI1
IR_OUT
LED2
5VSB
LED1
ADIN0
5VSW
UI1
47
3
VOUT GND
2
4
VCC
GND
1
TP8
RI2
47
TP9
P1
IR-FM6038
TP10
RVI1
EGA1-0603-V05-B
CI1
10uF/10V
CI2
0.1uF/16V
P2
JI2
1R25S_1X3M
P1
1
2
3
CI5
0.1uF/16V
2
IR/LED
2009-10-09
0171 1671 0722
18930_530_100311.eps
100311
2010-Mar-12
Circuit Diagrams and PWB Layouts
RAM1.0A LA
10.
EN 65
Layout IR/LED Board (Bottom Side)
Personal Notes:
18930_532_100311.eps
100311
Layout IR/LED Board (Top Side)
18930_531_100311.eps
100311
10000_012_090121.eps
090121
2010-Mar-12
Styling Sheets
RAM1.0A LA
11.
EN 66
11. Styling Sheets
Styling Sheet 32" - 42"
DALI 32"- 42"
0169
0170
0010
0260
Pos No.
0004
0010
0169
0170
0260
1085
Description
FRONT BEZEL(PC+ABS)
REAR COVER (PC+ABS )ASSY
SSB SIDE COVER
SSB GROUND BRACKET
STAND ASSY
REMOTE CONTROL
Remarks
NOT DISPLAYED
0004
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9
18930_800_100310.eps
100310
2010-Mar-12