Philips 42PFL6007G/77, 32PFL5007G/78, 42PFL7007G/77, 42PFL7007G/78, 47PFL5007G/78 Service Manual
...
Color Television Chassis
L12M1.1L
LA
Contents Page
1. Revision List 2
2. Technical Specifications and Connections 2
3. Precautions, Notes, and Abbreviation List 5
4. Mechanical Instructions 9
5. Service Modes, Error Codes, and Fault Finding 20
6. Alignments 27
7. Circuit Descriptions 29
8. IC Data Sheets 36
9. Block Diagrams
Wiring Diagram 32" (5000 series) 41
Wiring Diagram 42" (5000 series) 42
Wiring Diagram 42" (6000 series) 43
Wiring Diagram 42" (7000 series) 44
Wiring Diagram 47" (5000 series) 45
Wiring Diagram 47" (7000 series) 46
Block Diagram Video 49
Block Diagram Audio 50
Block Diagram Control & Clock Signals 51
Block Diagram I2C 52
Supply Lines Overview 53
10. Circuit Diagrams and PWB Layouts
A 272217190587 - 272217190588 PSL 54 56-57
B 313912365391 SSB MT5396 R2 LATAM 58 72-73
E 272217190554 - 272217190562 Keyboard Control
Module 74 75
J 272217190629 Sensor board 76 77
11. Styling Sheets
5000 series 32" 83
5000/6000 series 42"/47" 84
7000 series 42" 85
7000 series 47" 86
Published by ER/JY 1268 Quality Printed in the Netherlands Subject to modification EN 3122 785 19302
2012-Aug-17
2012 ©
TP Vision Netherlands B.V.
All rights reserved. Specifications are subject to change without notice. Trademarks are the
property of Koninklijke Philips Electronics N.V. or their respective owners.
TP Vision Netherlands B.V. reserves the right to change products at any time without being obliged to adjust
earlier supplies accordingly.
PHILIPS and the PHILIPS’ Shield Emblem are used under license from Koninklijke Phili ps Electronics N.V.
EN 2 L12M1.1L LA1.
Revision List
1. Revision List
Manual xxxx xxx xxxx.0
• First release.
Manual xxxx xxx xxxx.1
• Chapter 2: Table 2-1
updated (added CTNs).
• Chapter 4: added additional LVDS cable handling info; see
section 4.3.2
.
Manual xxxx xxx xxxx.2
• Chapter 2: Table 2-1
• Chapter 4: added RGB alignment data; see section 6.3.2
updated (added CTNs).
.
2. Technical Specifications and Connections
Index of this chapter:
Technical Specifications
2.1
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 and Diversity
24 79 10 11
Mechanics Descr. Block Diagrams Schematics Styling
CTN
32PFL5007G/77 2.3 4-1 4.3 7.2 9-1 9-9 9-10 9-11 9-12 9-13 10.1 10.2 10.4 10.3 - 11.1
32PFL5007G/78 2.3 4-1 4.3 7.2 9-1 9-9 9-10 9-11 9-12 9-13 10.1 10.2 10.4 10.3 - 11.1
42PFL5007G/77 2.3 4-2 4.3 - 9-2 9-9 9-10 9-11 9-12 9-13 - 10.2 10.4 10.3 - 11.2
42PFL5007G/78 2.3 4-2 4.3 - 9-2 9-9 9-10 9-11 9-12 9-13 - 10.2 10.4 10.3 - 11.2
42PFL6007G/77 2.3 4-4 4.3 - 9-3 9-9 9-10 9-11 9-12 9-13 - 10.2 10.4 10.3 - 11.2
42PFL6007G/78 2.3 4-4 4.3 - 9-3 9-9 9-10 9-11 9-12 9-13 - 10.2 10.4 10.3 - 11.2
42PFL7007G/77 2.3 4-5 4.3 - 9-4 9-9 9-10 9-11 9-12 9-13 - 10.2 10.4 10.3 10.6 11.3
42PFL7007G/78 2.3 4-5 4.3 - 9-4 9-9 9-10 9-11 9-12 9-13 - 10.2 10.4 10.3 10.6 11.3
47PFL5007G/78 2.3 4-3 4.3 - 9-5 9-9 9-10 9-11 9-12 9-13 - 10.2 10.4 10.3 - 11.2
47PFL7007G/77 2.3 4-6 4.3 - 9-6 9-9 9-10 9-11 9-12 9-13 - 10.2 10.4 10.3 10.5 11.4
47PFL7007G/78 2.3 4-6 4.3 - 9-6 9-9 9-10 9-11 9-12 9-13 - 10.2 10.4 10.3 10.5 11.4
55PFL6007G/77 2.3 4-7 4.3 - 9-8 9-9 9-10 9-11 9-12 9-13 - 10.2 10.4 10.3 - 11.5
55PFL6007G/78 2.3 4-7 4.3 - 9-8 9-9 9-10 9-11 9-12 9-13 - 10.2 10.4 10.3 - 11.5
55PFL7007G/78 2.3 4-7 4.3 - 9-7 9-9 9-10 9-11 9-12 9-13 - 10.2 10.4 10.3 10.5 11.5
Connection Overview
Wire Dressing
Dressing
Assembly Removal
Power Supply
Wiring Diagram
Video
Audio
Control & Clock
I2C
Supply lines
Power Supply
SSB
J (Sensor Board)
2.2 Directions for Use
You can download this information from the following websites:
http://www.philips.com/support
http://www.p4c.philips.com
E (Keyboard/Leading Edge)
AL (AmbiLight)
Sheet
2012-Aug-17
2.3 Connections
REAR CONNECTORS
BOTTOM REAR CONNECTORS
SIDE CONNECTORS
AV I N
NETWORK
SERV.U
AUDIO IN
DVI/VGA
VGA CVI USB 1
TV ANTENNA
(1) ARC (2) (3)
HDMI
HDMI
SIDE
DIGITAL
AUDIO
OUT
USB 3
USB 2
19300_046_120417.eps
120417
5
6 7 8
1
1
2
3
4
9 10 11 12 13 14 14
1 2 3 4
10000_022_090121.eps
090121
10000_017_090121.eps
090428
19
1
18 2
Technical Specifications and Connections
EN 3L12M1.1L LA 2.
Note: The following connector color abbreviations are used
(according to DIN/IEC 757): Bk= Black, Bu= Blue, Gn= Green,
Gy= Grey, Rd= Red, Wh= White, Ye= Yellow.
2.3.1 Side Connections
1 - USB2, -3
1-+5V k
2 - Data (-) jk
3 - Data (+) jk
4 - Ground Gnd H
2 - Head phone (Output)
Bk -Head phone 32 - 600 ohm / 10 mW ot
3 - HDMI: Digital Video, Digital Audio - In
Figure 2-2 USB (type A)
Figure 2-1 Connection overview
1 - D2+ Data channel j
2 - Shield Gnd H
3 - D2- Data channel j
4 - D1+ Data channel j
5 - Shield Gnd H
6 - D1- Data channel j
7 - D0+ Data channel j
8 - Shield Gnd H
9 - D0- Data channel j
10 - CLK+ Data channel j
11 - Shield Gnd H
12 - CLK- Data channel j
13 - Easylink Control channel/CEC jk
14 - n.c.
15 - DDC_SCL DDC clock j
16 - DDC_SDA DDC data jk
17 - Ground Gnd H
18 - +5V j
19 - HPD Hot Plug Detect j
20 - Ground Gnd H
4 - Cinch: S/PDIF - Out
Bk -Coaxial 0.4 - 0.6V
/ 75 ohm kq
PP
Figure 2-3 HDMI (type A) connector
2012-Aug-17
EN 4 L12M1.1L LA2.
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120320
1
6
10
11
5
15
10000_002_090121.eps
090127
1 2 3 4
10000_022_090121.eps
090121
10000_017_090121.eps
090428
19
1
18 2
10000_017_090121.eps
090428
19
1
18 2
Technical Specifications and Connections
2.3.2 Rear Connections
5 - RJ45: Ethernet
Figure 2-4 Ethernet connector
1 - TD+ Transmit signal k
2 - TD- Transmit signal k
3 - RD+ Receive signal j
4 - CT Centre Tap: DC level fixation
5 - CT Centre Tap: DC level fixation
6 - RD- Receive signal j
7 - GND Gnd H
8 - GND Gnd H
6 - Service Connector (UART)
1 - Ground Gnd H
2 - UART_TX Transmit k
3 - UART_RX Receive j
7 - AV IN (break-out cable): Cinch: Video CVBS - In, Audio - In
Ye -Video CVBS 1 V
Wh -Audio L 0.5 V
Rd -Audio R 0.5 V
/ 75 ohm jq
PP
/ 10 kohm jq
RMS
/ 10 kohm jq
RMS
8 - Mini Jack: Audio - In DVI/VGA
Bk -Audio 0.5 V
/ 10 k jo
RMS
2.3.3 Bottom Connections
9 - VGA: Video RGB - In
12 - USB1
Figure 2-6 USB (type A)
1-+5V k
2 - Data (-) jk
3 - Data (+) jk
4 - Ground Gnd H
13 - HDMI1: Digital Video, Digital Audio - In - Audio Return Channel
Figure 2-7 HDMI (type A) connector
1 - D2+ Data channel j
2 - Shield Gnd H
3 - D2- Data channel j
4 - D1+ Data channel j
5 - Shield Gnd H
6 - D1- Data channel j
7 - D0+ Data channel j
8 - Shield Gnd H
9 - D0- Data channel j
10 - CLK+ Data channel j
11 - Shield Gnd H
12 - CLK- Data channel j
13 - Easylink Control channel/CEC jk
14 - ARC Audio Return Channel j
15 - DDC_SCL DDC clock j
16 - DDC_SDA DDC data jk
17 - Ground Gnd H
18 - +5V j
19 - HPD Hot Plug Detect j
20 - Ground Gnd H
Figure 2-5 VGA Connector
1 - Video Red 0.7 V
2 - Video Green 0.7 V
3 - Video Blue 0.7 V
4-n.c.
/ 75 j
PP
/ 75 j
PP
/ 75 j
PP
5 - Ground Gnd H
6 - Ground Red Gnd H
7 - Ground Green Gnd H
8 - Ground Blue Gnd H
9-+5V
10 - Ground Sync Gnd H
+5 V j
DC
11 - n.c.
12 - DDC_SDA DDC data j
13 - H-sync 0 - 5 V j
14 - V-sync 0 - 5 V j
15 - DDC_SCL DDC clock j
10 - CVI (break-out cable): Cinch: Video YPbPr - In, Audio - In
Wh -Audio - L 0.5 V
Rd -Audio - R 0.5 V
Rd -Video Pr 0.7 V
Bu - Video Pb 0.7 V
Gn - Video Y 1 V
/ 10 k jq
RMS
/ 10 k jq
RMS
/ 75 jq
PP
/ 75 jq
PP
/ 75 jq
PP
11 - Aerial - In
- -F-type Coax, 75 D
14 - HDMI2, -3: Digital Video, Digital Audio - In
Figure 2-8 HDMI (type A) connector
1 - D2+ Data channel j
2 - Shield Gnd H
3 - D2- Data channel j
4 - D1+ Data channel j
5 - Shield Gnd H
6 - D1- Data channel j
7 - D0+ Data channel j
8 - Shield Gnd H
9 - D0- Data channel j
10 - CLK+ Data channel j
11 - Shield Gnd H
12 - CLK- Data channel j
13 - Easylink Control channel/CEC jk
14 - n.c.
15 - DDC_SCL DDC clock j
16 - DDC_SDA DDC data jk
17 - Ground Gnd H
18 - +5V j
19 - HPD Hot Plug Detect j
-Ground Gnd H
20
2012-Aug-17
Precautions, Notes, and Abbreviation List
3. Precautions, Notes, and Abbreviation List
Index of this chapter:
Safety Instructions
3.1
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.
Safety regulations require that after a repair, the set must be
returned in its original condition. Pay in particular attention to
the following points:
• Route the wire trees correctly and fix them with the
mounted cable clamps.
• Check the insulation of the Mains/AC Power lead for
external damage.
• Check the strain relief of the Mains/AC Power cord for
proper function.
• Check the electrical DC resistance between the Mains/AC
Power plug and the secondary side (only for sets that have
a Mains/AC Power isolated power supply):
1. Unplug the Mains/AC Power cord and connect a wire
between the two pins of the Mains/AC Power plug.
2. Set the Mains/AC Power switch to the “on” position
(keep the Mains/AC Power cord unplugged!).
3. Measure the resistance value between the pins of the
Mains/AC Power plug and the metal shielding of the
tuner or the aerial connection on the set. The reading
should be between 4.5 M and 12 M.
4. Switch “off” the set, and remove the wire between the
two pins of the Mains/AC Power plug.
• Check the cabinet for defects, to prevent touching of any
inner parts by the customer.
3.2 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
picture carrier at 475.25 MHz for PAL, or 61.25 MHz for
NTSC (channel 3).
• Where necessary, measure the waveforms and voltages
with (D) and without (E) aerial signal. Measure the
voltages in the power supply section both in normal
operation (G) and in stand-by (F). These values are
indicated by means of the appropriate symbols.
3.3.2 Schematic Notes
• All resistor values are in ohms, and the value multiplier is
often used to indicate the decimal point location (e.g. 2K2
indicates 2.2 k).
• Resistor values with no multiplier may be indicated with
either an “E” or an “R” (e.g. 220E or 220R indicates 220 ).
• All capacitor values are given in micro-farads (10
nano-farads (n 10
• 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.
3.3.3 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
“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.
3.3.6 Alternative BOM identification
It should be noted that on the European Service website,
“Alternative BOM” is referred to as “Design variant”.
The third digit in the serial number (example:
AG2B0335000001) indicates the number of the alternative
B.O.M. (Bill Of Materials) that has been used for producing the
specific TV set. In general, it is possible that the same TV
model on the market is produced with e.g. two different types
of displays, coming from two different suppliers. This will then
-9
), or pico-farads (p 10
. Select
-12
EN 5L12M1.1L LA 3.
-6
),
).
2012-Aug-17
EN 6 L12M1.1L LA3.
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110228
Precautions, Notes, and Abbreviation List
result in sets which have the same CTN (Commercial Type
Number; e.g. 28PW9515/12) but which have a different B.O.M.
number.
By looking at the third digit of the serial number, one can
identify which B.O.M. is used for the TV set he is working with.
If the third digit of the serial number contains the number “1”
(example: AG1B033500001), then the TV set has been
manufactured according to B.O.M. number 1. If the third digit is
a “2” (example: AG2B0335000001), then the set has been
produced according to B.O.M. no. 2. This is important for
ordering the correct spare parts!
For the third digit, the numbers 1...9 and the characters A...Z
can be used, so in total: 9 plus 26= 35 different B.O.M.s can be
indicated by the third digit of the serial number.
Identification: The bottom line of a type plate gives a 14-digit
serial number. Digits 1 and 2 refer to the production centre (e.g.
SN is Lysomice, RJ is Kobierzyce), digit 3 refers to the B.O.M.
code, digit 4 refers to the Service version change code, digits 5
and 6 refer to the production year, and digits 7 and 8 refer to
production week (in example below it is 2010 week 10 / 2010
week 17). The 6 last digits contain the serial number.
Figure 3-1 Serial number (example)
3.3.7 Board Level Repair (BLR) or Component Level Repair (CLR)
If a board is defective, consult your repair procedure to decide
if the board has to be exchanged or if it should be repaired on
component level.
If your repair procedure says the board should be exchanged
completely, do not solder on the defective board. Otherwise, it
cannot be returned to the O.E.M. supplier for back charging!
3.3.8 Practical Service Precautions
• 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.
3.4 Abbreviation List
0/6/12 SCART switch control signal on A/V
board. 0 = loop through (AUX to TV),
6 = play 16 : 9 format, 12 = play 4 : 3
format
AARA Automatic Aspect Ratio Adaptation:
algorithm that adapts aspect ratio to
remove horizontal black bars; keeps
the original aspect ratio
ACI Automatic Channel Installation:
algorithm that installs TV channels
directly from a cable network by
means of a predefined TXT page
ADC Analogue to Digital Converter
AFC Automatic Frequency Control: control
signal used to tune to the correct
frequency
AGC Automatic Gain Control: algorithm that
controls the video input of the feature
box
AM Amplitude Modulation
AP Asia Pacific
AR Aspect Ratio: 4 by 3 or 16 by 9
ASF Auto Screen Fit: algorithm that adapts
aspect ratio to remove horizontal black
bars without discarding video
information
ATSC Advanced Television Systems
Committee, the digital TV standard in
the USA
ATV See Auto TV
Auto TV A hardware and software control
system that measures picture content,
and adapts image parameters in a
dynamic way
AV External Audio Video
AVC Audio Video Controller
AVIP Audio Video Input Processor
B/G Monochrome TV system. Sound
carrier distance is 5.5 MHz
BDS Business Display Solutions (iTV)
BLR Board-Level Repair
BTSC Broadcast Television Standard
Committee. Multiplex FM stereo sound
system, originating from the USA and
used e.g. in LATAM and AP-NTSC
countries
B-TXT Blue TeleteXT
C Centre channel (audio)
CEC Consumer Electronics Control bus:
remote control bus on HDMI
connections
CL Constant Level: audio output to
connect with an external amplifier
CLR Component Level Repair
ComPair Computer aided rePair
CP Connected Planet / Copy Protection
CSM Customer Service Mode
CTI Color Transient Improvement:
manipulates steepness of chroma
transients
CVBS Composite Video Blanking and
Synchronization
DAC Digital to Analogue Converter
DBE Dynamic Bass Enhancement: extra
low frequency amplification
DCM Data Communication Module. Also
referred to as System Card or
Smartcard (for iTV).
DDC See “E-DDC”
D/K Monochrome TV system. Sound
carrier distance is 6.5 MHz
DFI Dynamic Frame Insertion
DFU Directions For Use: owner's manual
DMR Digital Media Reader: card reader
DMSD Digital Multi Standard Decoding
DNM Digital Natural Motion
2012-Aug-17
Precautions, Notes, and Abbreviation List
EN 7L12M1.1L LA 3.
DNR Digital Noise Reduction: noise
reduction feature of the set
DRAM Dynamic RAM
DRM Digital Rights Management
DSP Digital Signal Processing
DST Dealer Service Tool: special remote
control designed for service
technicians
DTCP Digital Transmission Content
Protection; A protocol for protecting
digital audio/video content that is
traversing a high speed serial bus,
such as IEEE-1394
DVB-C Digital Video Broadcast - Cable
DVB-T Digital Video Broadcast - Terrestrial
DVD Digital Versatile Disc
DVI(-d) Digital Visual Interface (d= digital only)
E-DDC 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.
EDID Extended Display Identification Data
(VESA standard)
EEPROM Electrically Erasable and
Programmable Read Only Memory
EMI Electro Magnetic Interference
EPG Electronic Program Guide
EPLD Erasable Programmable Logic Device
EU Europe
EXT EXTernal (source), entering the set by
SCART or by cinches (jacks)
FDS Full Dual Screen (same as FDW)
FDW Full Dual Window (same as FDS)
FLASH FLASH memory
FM Field Memory or Frequency
Modulation
FPGA Field-Programmable Gate Array
FTV Flat TeleVision
Gb/s Giga bits per second
G-TXT Green TeleteXT
H H_sync to the module
HD High Definition
HDD Hard Disk Drive
HDCP 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.
HDMI High Definition Multimedia Interface
HP HeadPhone
I Monochrome TV system. Sound
2
C Inter IC bus
I
2
I
D Inter IC Data bus
2
S Inter IC Sound bus
I
carrier distance is 6.0 MHz
IF Intermediate Frequency
IR Infra Red
IRQ Interrupt Request
ITU-656 The ITU Radio communication Sector
(ITU-R) is a standards body
subcommittee of the International
Telecommunication Union relating to
radio communication. ITU-656 (a.k.a.
SDI), is a digitized video format used
for broadcast grade video.
Uncompressed digital component or
digital composite signals can be used.
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.
iTV Institutional TeleVision; TV sets for
hotels, hospitals etc.
LS 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
LATAM Latin America
LCD Liquid Crystal Display
LED Light Emitting Diode
L/L' Monochrome TV system. Sound
carrier distance is 6.5 MHz. L' is Band
I, L is all bands except for Band I
LPL LG.Philips LCD (supplier)
LS Loudspeaker
LVDS Low Voltage Differential Signalling
Mbps Mega bits per second
M/N Monochrome TV system. Sound
carrier distance is 4.5 MHz
MHEG 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
MIPS Microprocessor without Interlocked
Pipeline-Stages; A RISC-based
microprocessor
MOP Matrix Output Processor
MOSFET Metal Oxide Silicon Field Effect
Transistor, switching device
MPEG Motion Pictures Experts Group
MPIF Multi Platform InterFace
MUTE MUTE Line
MTV Mainstream TV: TV-mode with
Consumer TV features enabled (iTV)
NC Not Connected
NICAM Near Instantaneous Compounded
Audio Multiplexing. This is a digital
sound system, mainly used in Europe.
NTC Negative Temperature Coefficient,
non-linear resistor
NTSC 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)
NVM Non-Volatile Memory: IC containing
TV related data such as alignments
O/C Open Circuit
OSD On Screen Display
OAD Over the Air Download. Method of
software upgrade via RF transmission.
Upgrade software is broadcasted in
TS with TV channels.
OTC On screen display Teletext and
Control; also called Artistic (SAA5800)
P50 Project 50: communication protocol
between TV and peripherals
PAL Phase Alternating Line. Color system
mainly used in West Europe (colour
carrier = 4.433619 MHz) and South
America (colour carrier
PAL M = 3.575612 MHz and
PAL N = 3.582056 MHz)
PCB Printed Circuit Board (same as “PWB”)
PCM Pulse Code Modulation
2012-Aug-17
EN 8 L12M1.1L LA3.
Precautions, Notes, and Abbreviation List
PDP Plasma Display Panel
PFC Power Factor Corrector (or Pre-
conditioner)
PIP Picture In Picture
PLL Phase Locked Loop. Used for e.g.
FST tuning systems. The customer
can give directly the desired frequency
POD Point Of Deployment: a removable
CAM module, implementing the CA
system for a host (e.g. a TV-set)
POR Power On Reset, signal to reset the uP
PSDL Power Supply for Direct view LED
backlight with 2D-dimming
PSL Power Supply with integrated LED
drivers
PSLS Power Supply with integrated LED
drivers with added Scanning
functionality
PTC Positive Temperature Coefficient,
non-linear resistor
PWB Printed Wiring Board (same as “PCB”)
PWM Pulse Width Modulation
QRC Quasi Resonant Converter
QTNR Quality Temporal Noise Reduction
QVCP Quality Video Composition Processor
RAM Random Access Memory
RGB Red, Green, and Blue. The primary
color signals for TV. By mixing levels
of R, G, and B, all colors (Y/C) are
reproduced.
RC Remote Control
RC5 / RC6 Signal protocol from the remote
control receiver
RESET RESET signal
ROM Read Only Memory
RSDS Reduced Swing Differential Signalling
data interface
R-TXT Red TeleteXT
SAM Service Alignment Mode
S/C Short Circuit
SCART Syndicat des Constructeurs
d'Appareils Radiorécepteurs et
SCL Serial Clock I
Téléviseurs
SCL-F CLock Signal on Fast I
SD Standard Definition
SDA Serial Data I
SDA-F DAta Signal on Fast I
2
C
2
C bus
2
C
2
C bus
SDI Serial Digital Interface, see “ITU-656”
SDRAM Synchronous DRAM
SECAM SEequence Couleur Avec Mémoire.
Colour system mainly used in France
and East Europe. Colour
carriers = 4.406250 MHz and
4.250000 MHz
SIF Sound Intermediate Frequency
SMPS Switched Mode Power Supply
SoC System on Chip
SOG Sync On Green
SOPS Self Oscillating Power Supply
SPI Serial Peripheral Interface bus; a 4-
wire synchronous serial data link
standard
S/PDIF Sony Philips Digital InterFace
SRAM Static RAM
SRP Service Reference Protocol
SSB Small Signal Board
SSC Spread Spectrum Clocking, used to
reduce the effects of EMI
STB Set Top Box
STBY STand-BY
SVGA 800 × 600 (4:3)
SVHS Super Video Home System
SW Software
SWAN Spatial temporal Weighted Averaging
Noise reduction
SXGA 1280 × 1024
TFT Thin Film Transistor
THD Total Harmonic Distortion
TMDS Transmission Minimized Differential
Signalling
TS Transport Stream
TXT TeleteXT
TXT-DW Dual Window with TeleteXT
UI User Interface
uP Microprocessor
UXGA 1600 × 1200 (4:3)
V V-sync to the module
VESA Video Electronics Standards
Association
VGA 640 × 480 (4:3)
VL Variable Level out: processed audio
output toward external amplifier
VSB Vestigial Side Band; modulation
method
WYSIWYR What You See Is What You Record:
record selection that follows main
picture and sound
WXGA 1280 × 768 (15:9)
XTAL Quartz crystal
XGA 1024 × 768 (4:3)
Y Luminance signal
Y/C Luminance (Y) and Chrominance (C)
signal
YPbPr Component video. Luminance and
scaled color difference signals (B-Y
and R-Y)
YUV Component video
2012-Aug-17
4. Mechanical Instructions
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Index of this chapter:
Cable Dressing
4.1
4.2 Service Positions
4.3 Assy/Panel Removal
4.4 Set Re-Assembly
4.1 Cable Dressing
Mechanical Instructions
Notes:
• Figures below can deviate slightly from the actual situation,
due to the different set executions.
EN 9L12M1.1L LA 4.
Figure 4-1 Cable dressing 32" 5000 series
2012-Aug-17
EN 10 L12M1.1L LA4.
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Mechanical Instructions
Figure 4-2 Cable dressing 42" 5000 series
2012-Aug-17
Figure 4-3 Cable dressing 47" 5000 series
Mechanical Instructions
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EN 11L12M1.1L LA 4.
Figure 4-4 Cable dressing 42" 6000 series
Figure 4-5 Cable dressing 42" 7000 series
2012-Aug-17
EN 12 L12M1.1L LA4.
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Mechanical Instructions
Figure 4-6 Cable dressing 47" 7000 series
2012-Aug-17
Figure 4-7 Cable dressing 55" 6000 & 7000 series
4.2 Service Positions
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3
4
4
4
3
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.
4.3 Assy/Panel Removal
4.3.1 Rear Cover
Warning: Disconnect the mains power cord before removing
the rear cover.
Attention: All sets are equipped with a hatch to disconnect the
keyboard control panel. Ambilight sets are in addition equipped
with a hatch to disconnect the Ambilight units.
These hatches are indicated on the rear cover with
SERVICE h.
It is mandatory to open the hatches and disconnect the
cables prior to removal of the rear cover!
See Figure 4-8
1. For sets equipped with Ambilight: open the hatch that
covers the Ambilight connector and unplug the connector
[1].
2. Remove the hatch that covers the keyboard control panel
connector [3].
3. For sets equipped with Ambilight: remove the stand and
swivel block [4].
4. Unplug the keyboard control panel connector [5].
5. Remove remaining fixation screws [metric, 6, and plastite,
7] that secure the rear cover.
6. 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.
to Figure 4-10 for details.
Mechanical Instructions
Figure 4-9 Rear cover removal -all models -2-
EN 13L12M1.1L LA 4.
Figure 4-8 Rear cover removal -all models -1-
2012-Aug-17
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6
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7
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LVD S CABLELVD S CABLE
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LVD S CABLELVD S CABLE
Mechanical Instructions
4.3.2 Small Signal Board (SSB)
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.
ATTENTION!
The LVDS connector(s) require(s) a special procedure for
disconnecting.
Refer to Figure 4-11
1. Press the catches [1] simultaneously.
2. Slide the LVDS cable sidewards carefully [2].
Failure to pressing the catches leads to a damaged LVDS
cable [3]!
Any LVDS cable that is damaged at the notch area must be
replaced with a new one to avoid future unnecessary
repair actions.
to Figure 4-14 for clarification.
Figure 4-11 LVDS connector - correct handling
2012-Aug-17
Figure 4-10 Rear cover removal -all models -3-
Figure 4-12 Unlocking LVDS connector
Figure 4-13 LVDS cable - damaged notch area [3]
Upon re-connecting the LVDS cable, ensure the catches are
locked after having inserted the LVDS cable.
Figure 4-14 SSB LVDS - catch locking
19222_001_120626.eps
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Click!
LVDS flat foil
Click!
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3
2
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4
5
Mechanical Instructions
EN 15L12M1.1L LA 4.
Figure 4-16 Re-mounting of SSB -2-
4.4 Set Re-Assembly
4.4.1 Re-mounting of Small Signal Board (SSB)
Refer to Figure 4-15
1. Attach the SSB back to the panel with mounting three
screws [1] as indicated on the figure.
2. Slide the side I/O bracket [2] into its position.
3. Slide the bottom I/O bracket [3] into its position.
4. Mount the three remaining screws [4].
5. Before closing the connector, slide the flat foil in its position
[5].
and Figure 4-16 for details.
Figure 4-15 Re-mounting of SSB -1-
2012-Aug-17
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4.4.2 Cable dressing & taping
Mechanical Instructions
Refer to Figure 4-17
correct positioning of speaker connectors
in the set (ridges on top side) - to avoid unwanted
disconnection when mounting the back cover.
Refer to Figure 4-18
to Figure 4-23 for cable dressing and
taping details.
Figure 4-17 Speaker connector orientation - ridges on top side
Figure 4-18 Cable dressing back cover 32PFL5007G (keyboard control panel)
19300_058_120418.eps
Figure 4-19 Cable dressing back cover 32PFL5007G (keyboard
control panel - detail)
2012-Aug-17
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Mechanical Instructions
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EN 17L12M1.1L LA 4.
Figure 4-20 Cable dressing back cover 42PFL5007G & ...6007G (keyboard control panel)
Figure 4-21 Cable dressing back cover 42PFL5007G & ...6007G
(keyboard control panel - detail)
2012-Aug-17
EN 18 L12M1.1L LA4.
19300_061_120418.eps
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Mechanical Instructions
Figure 4-22 Cable dressing back cover 42PFL7007G (keyboard control panel and Ambilight fixation double-sided tape)
2012-Aug-17
Mechanical Instructions
19300_062_120419.eps
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EN 19L12M1.1L LA 4.
Figure 4-23 Cable dressing back cover 47PFL7007G (keyboard control panel and Ambilight fixation double-sided tape)
2012-Aug-17
EN 20 L12M1.1L LA5.
10000_038_090121.eps
090819
PHILIPS
MODEL:
32PF9968/10
PROD.SERIAL NO:
AG 1A0620 000001
040
39mm
27mm
(CTN Sticker)
Display Option
Code
Service Modes, Error Codes, and Fault Finding
5. Service Modes, Error Codes, and Fault Finding
Index of this chapter:
Test Points
5.1
5.2 Service Modes
5.3 Service Tools
5.4 Error Codes
5.5 The Blinking LED Procedure
5.6 Fault Finding and Repair Tips
5.7 Software Upgrading
5.1 Test Points
In the chassis schematics and layout overviews, the test points
are mentioned. In the schematics and layouts, test points are
indicated with “Fxxx” or “Ixxx”.
As most signals are digital, it will be difficult to measure
waveforms with a standard oscilloscope. Several key ICs are
capable of generating test patterns, which can be controlled via
ComPair. In this way it is possible to determine which part is
defective.
Perform measurements under the following conditions:
• Service Default Mode.
• Video: Color bar signal.
• Audio: 3 kHz left, 1 kHz right.
5.2 Service Modes
The Service Mode feature is split into four parts:
• Service Default Mode (SDM).
• Service Alignment Mode (SAM).
• Customer Service Mode (CSM).
• Computer Aided Repair Mode (ComPair).
SDM and SAM offer features, which can be used by the Service
engineer to repair/align a TV set. Some features are:
• A pre-defined situation to ensure measurements can be
made under uniform conditions (SDM).
• Activates the blinking LED procedure for error identification
when no picture is available (SDM).
• The possibility to overrule software protections when SDM
is entered via the Service pins.
• Make alignments (e.g. White Tone), (de)select options,
enter options codes, reset the error buffer (SAM).
• Display information (“SDM” or “SAM” indication in upper
right corner of screen, error buffer, software version,
operating hours, options and option codes, sub menus).
The CSM is a Service Mode that can be enabled by the
consumer. The CSM displays diagnosis information, which the
customer can forward to the dealer or call centre. In CSM
mode, “CSM”, is displayed in the top right corner of the screen.
The information provided in CSM and the purpose of CSM is to:
• Increase the home repair hit rate.
• Decrease the number of nuisance calls.
• Solved customers' problem without home visit.
ComPair Mode is used for communication between a computer
and a TV on I2C /UART level and can be used by a Service
engineer to quickly diagnose the TV set by reading out error
codes, read and write in NVMs, communicate with ICs and the
uP (PWM, registers, etc.), and by making use of a fault finding
database. It will also be possible to up and download the
software of the TV set via I2C with help of ComPair. To do this,
ComPair has to be connected to the TV set via the ComPair
connector, which will be accessible through the rear of the set
(without removing the rear cover).
In this chassis, the set has to be put in Service Mode (SDM,
SDA) before you can use ComPair.
2012-Aug-17
5.2.1 General
Next items are applicable to all Service Modes or are general.
Life Timer
During the life time cycle of the TV set, a timer is kept (called
“Op. Hour”). It counts the normal operation hours (not the
Stand-by hours). The actual value of the timer is displayed in
SDM and SAM in a decimal value. Every two soft-resets
increase the hour by +1. Stand-by hours are not counted.
Software Identification, Version, and Cluster
The software ID, version, and cluster will be shown in the main
menu display of SDM, SAM, and CSM.
The screen will show: “AAAAAAB-XX.YY”, where:
• AAAAAA is the chassis name: L12M11L.
• B is the region indication: E= Europe, A= AP/China, U=
NAFTA, L= LATAM.
• XX is the main version number: this is updated with a major
change of specification (incompatible with the previous
software version). Numbering will go from 01 - 99 and AA ZZ.
– If the main version number changes, the new version
number is written in the NVM.
– If the main version number changes, the default
settings are loaded.
• YY is the sub version number: this is updated with a minor
change (backwards compatible with the previous versions)
Numbering will go from 00 - 99.
– If the sub version number changes, the new version
number is written in the NVM.
– If the NVM is fresh, the software identification, version,
and cluster will be written to NVM.
Display Option Code Selection
When after an SSB or display exchange, the display option
code is not set properly, it will result in a TV with “no display”.
Therefore, it is required to set this display option code after
such a repair.
To do so, press the following key sequence on a standard RC
transmitter: “062598” directly followed by MENU/HOME and
“
xxx”, where “xxx” is a 3 digit decimal va
see sticker on the side/bottom of the cabinet. When the value
is accepted and stored in NVM, the set will switch to Stand-by,
to indicate that the process has been completed.
Figure 5-1 Location of Display Option Code sticker
During this algorithm, the NVM-content must be filtered,
because several items in the NVM are TV-related and not SSBrelated (e.g. Model and Prod. S/N). Therefore, “Model” and
“Prod. S/N” data is changed into “See Type Plate”.
In case a call centre or consumer reads “See Type Plate” in
CSM mode, he needs to look to the side/bottom sticker to
identify the set, for further actions.
lue of the panel type,
Service Modes, Error Codes, and Fault Finding
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SDM
EN 21L12M1.1L LA 5.
5.2.2 Service Default Mode (SDM)
Purpose
Set the TV in SDM mode in order to be able to create a predefined setting for measurements to be made. In this platform,
a simplified SDM is introduced (without protection override and
without tuning to a predefined frequency).
Specifications
• Set linear video and audio settings to 50%, but volume to
25%. Stored user settings are not affected.
• Set Smart Picture to “Game”.
• Set Smart Sound to “Standard”.
• Tune channel to:
- for analogue SDM: channel 3 (61.25 MHz)
- for digital SDM: channel 26 (545.143 MHz).
• For digital SDM: set PID default from the stream.
• All service-unfriendly modes (if present) are disabled, since
they interfere with diagnosing/repairing a set. These
service unfriendly modes are:
– (Sleep) timer.
– Blue mute/Wall paper.
– Auto switch “off” (when there is no “ident” signal).
– Hotel or hospital mode.
– Child lock or parental lock (manual or via V-chip).
– Skipping, blanking of “Not favorite”, “Skipped” or
“Locked” presets/channels.
– Automatic storing of Personal Preset or Last Status
settings.
– Automatic user menu time-out (menu switches back/
OFF automatically.
– Auto Volume levelling (AVL).
How to Activate
To activate analogue SDM, use one of the following methods:
• Press the following key sequence on the RC transmitter:
“062596” directly followed by the MENU button.
• Short one of the “Service” pads on the TV board during cold
start (see Figure 5-2
(remove the short after start-up).
Caution: When doing this, the service-technician must
know exactly what he is doing, as it could damage the
television set.
To activate digital SDM:
• Press the following sequence on the RC transmitter:
“062593” directly followed by the MENU button.
). Then press the mains button
• AAAAAAB-XX.YY: See paragraph
Identification, Version, and Cluster for the SW name
definition.
• ERR: Shows all errors detected since the last time the
buffer was erased in format <xxx> <xxx> <xxx> <xxx>
<xxx> (five errors possible).
• OP: Used to read-out the option bytes. Ten codes (in two
rows) are possible.
How to Navigate
As this mode is read only, there is not much to navigate. To
switch to other modes, use one of the following methods:
• Command MENU from the user remote will enter the
normal user menu (brightness, contrast, color, etc...) with
“SDM” OSD remaining, and pressing MENU key again will
return to the last status of SDM again.
• To prevent the OSD from interfering with measurements in
SDM, command “OSD” or “i+” (“STATUS” or “INFO” for
NAFTA and LATAM) from the user remote will toggle the
OSD “on/off” with “SDM” OSD remaining always “on”.
• Press the following key sequence on the remote control
transmitter: “062596” directly followed by the INFO[i+]/OK
button to switch to SAM (do not allow the display to time out
between entries while keying the sequence).
How to Exit
Switch the set to Stand-by.
• pressing the standby button on the remote control
transmitter or on the television set, or
• via a standard RC-transmitter by keying the “00” sequence.
If you switch the television set “off” by removing the mains (i.e.,
unplugging the television), the television set will remain in SDM
when mains is re-applied, and the error buffer is not cleared.
The error buffer will only be cleared when the “clear” command
is used in the SAM menu.
Note:
• If the TV is switched “off” by a power interrupt while in SDM,
the TV will show up in the last status of SDM menu as soon
as the power is supplied again. The error buffer will not be
cleared.
• In case the set is accidentally in Factory mode (with an “F”
displayed on the screen), pressing and holding “VOL-“
button for 5 seconds and then followed by pressing and
holding the “CH-” button for another 5 seconds should exit
the Factory mode.
Software
Figure 5-2 Service pad
On Screen Menu
After activating SDM, the following items are displayed, with
“SDM” in the upper right corner of the screen to indicate that the
television is in Service Default Mode.
Menu items and explanation:
• xxxxx: Operating hours (in decimal).
5.2.3 Service Alignment Mode (SAM)
Purpose
• To change option settings.
• To display / clear the error code buffer.
• To perform alignments.
Specifications
• Operation hours counter (maximum five digits displayed).
• Software version, error codes, and option settings display.
• Error buffer clearing.
• Option settings.
• Software alignments (White Tone).
• NVM Editor.
• Set screen mode to full screen (all content is visible).
• Set Smart Picture to “Game”.
How to Activate
To activate SAM, use one of the following methods:
• Press the following key sequence on the remote control
transmitter: “062596” directly followed by the INFO[i+] /OK
button. Do not allow the display to time out between entries
while keying the sequence.
• Or via ComPair.
2012-Aug-17
EN 22 L12M1.1L LA5.
Service Modes, Error Codes, and Fault Finding
After entering SAM, the following items are displayed, with
“SAM” in the upper right corner of the screen to indicate that the
television is in Service Alignment Mode.
Menu items and explanation:
1. System Information.
• Op Hour: This represents the life timer. The timer
counts normal operation hours, but does not count
Stand-by hours.
• MAIN SW ID: See paragraph
Version, and Cluster for the SW name definition.
• ERR: Shows all errors detected since the last time the
buffer was erased. Five errors possible.
• OP1/OP2: Used to read-out the option bytes. See
paragraph 6.4
section for a detailed description. Ten codes are
possible.
2. Clear. Erases the contents of the error buffer. Select this
menu item and press the MENU RIGHT key on the remote
control. The content of the error buffer is cleared.
3. Options. To set the option bits. See paragraph 6.4
Settings in the “Alignments” chapter for a detailed
description.
4. Alignments.
• RGB Align. To align the White Tone. See
Alignment: for a detailed description.
• Ambilight. To align the Ambilight Units.
5. NVM editor.
• NVM Editor. To change the NVM data in the television
set. See also paragraph 5.6
Tips.
• Service Data. 12 nc data.
6. Upload to USB.
7. Download from USB.
8. Initialise NVM. To initialize a (corrupted) NVM. Be careful,
this will erase all settings!
9. Dealer Options.
10. Event Count.
• Hardware Events. To Display and Clear the hardware
events.
• Software Events. To Display and Clear the software
events.
How to Navigate
• In the SAM menu, select menu items with the UP/DOWN
keys on the remote control transmitter. The selected item
will be indicated. When not all menu items fit on the screen,
use the UP/DOWN keys to display the next / previous
menu items.
• With the LEFT/RIGHT keys, it is possible to:
– Activate the selected menu item.
– Change the value of the selected menu item.
– Activate the selected sub menu.
• When you press the MENU button twice while in top level
SAM, the set will switch to the normal user menu (with the
SAM mode still active in the background). To return to the
SAM menu press the MENU button.
• The “INFO[i+]/OK” key from the user remote will toggle the
OSD “on/off” with “SAM” OSD remaining always “on”.
• Press the following key sequence on the remote control
transmitter: “062596” directly followed by the MENU button
to switch to SDM (do not allow the display to time out
between entries while keying the sequence).
Option Settings in the Alignments
Software Identification,
Option
White Tone
Fault Finding and Repair
How to Exit
Switch the set to STANDBY by pressing the mains button on
the remote control transmitter or the television set, or by
keying-in the “00” sequence on a standard RC-transmitter.
Note:
• When the TV is switched “off” by a power interrupt while in
SAM, the TV will show up in “normal operation mode” as
soon as the power is supplied again. The error buffer will
not be cleared.
• In case the set is in Factory mode by accident (with “F”
displayed on screen), pressing and holding “VOL-“ button
for 5 seconds and then followed by pressing and holding
the “CH-” button for another 5 seconds should exit the
Factory mode.
5.2.4 Customer Service Mode (CSM)
Purpose
The Customer Service Mode shows error codes and
information on the TV’s operation settings. A call centre can
instruct the customer (by telephone) to enter CSM in order to
identify the status of the set. This helps them to diagnose
problems and failures in the TV before making a service call.
The CSM is a read-only mode; therefore, modifications are not
possible in this mode.
Specifications
• Ignore “Service unfriendly modes”.
• Set volume to 25%.
• Set Smart Picture to “Game”.
• Set Smart Sound to “Standard”.
• Line number for every line (to make CSM language
independent).
• Set the screen mode to full screen (all contents on screen
is visible).
• After leaving the Customer Service Mode, the original
settings are restored.
• Possibility to use “CH+” or “CH-” for channel surfing, or
enter the specific channel number on the RC.
How to Activate
To activate CSM, press the following key sequence on a
standard remote control transmitter: “123654” (do not allow the
display to time out between entries while keying the sequence).
After entering the Customer Service Mode, the following items
are displayed:
Menu Explanation CSM1
1. Set Type. Type number, e.g. 32PFL3605/78. (*)
2. Prod
3. Installation date. Indicates the date of the first initialization
4. a - Option Code 1. Option code information (group 1).
5. SSB. Indication of the SSB factory ID (= 12nc). (*)
6. Display. Indication of the display ID (=12 nc). (*)
7. PSU. Indication of the PSU factory ID (= 12nc).
uction code. Product serial no., e.g.
BZ1A1008123456 (*). BZ= Production centre, 1= BOM
code, A= Service version change code, 10= Production
year, 08= Production week, 123456= Serial number.
of the TV. This date is acquired via time extraction.
b - Option Code 2. Option code information (group 2).
How to Store SAM Settings
To store the settings changed in SAM mode (except the
OPTIONS and RGB ALIGN settings), leave the top level SAM
menu by using the POWER button on the remote control
transmitter or the television set. The mentioned exceptions
must be stored separately via the STORE button.
2012-Aug-17
(*) If an NVM IC is replaced or initialized, these items must be
re-written to it. ComPair will foresee in a possibility to do this.
Also the NVM editor in the SAM menu can be used.
Menu Explanation CSM2
1. Current Main SW. Shows the main software version.
2. Standby SW. Shows the Stand-by software version.
3. Panel Code. Shows the current display code.
4. Bootloader ID. Shows the Bootloader software ID.
5. NVM Version. The NVM software version no.
Service Modes, Error Codes, and Fault Finding
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UART SERVICE
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TO
UART SERVICE
CONNECTOR
TO
I2C SERVICE
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TO TV
PC
HDMI
I
2
C only
Optional power
5V DC
ComPair II Developed by Philips Brugge
RC out
RC in
Optional
Switch
Power ModeLink/
Activity
I
2
C
ComPair II
Multi
function
RS232 /UART
6. Flash ID. Shows the flash ID.
7. e_UM version. To display eUM version.
8. Channel_table_struct_version. Channel structure
version.
Menu Explanation CSM3
1. Signal Quality. Shows the signal quality for RF signals
and other sources (No Tuned/Poor/Average/Good).
2. Child lock. This is a combined item for locks. If any lock
(Preset lock, child lock, lock after, or Parental lock) is
active, this item indicates “active”.
3. HDCP Keys. not used (HDCP key is embedded in the
SiL9187 mux IC).
4. To display ethernet MAC address.
5. To display wireless MAC address.
6. not used.
7. not used.
8. not used.
9. not used.
10. Event Counter. Display event and Clear event.
Create a CSM dump on an USB stick
There will be CSM dump to a plugged in USB-stick upon
entering CSM-mode. An extended CSM dump will be created
when the “OK” button on RC is pressed in CSM while a USB
stick is plugged in. A direct CSM flash dump will be created
when the buttons “red + 2679” on the remote control are
pressed in CSM while a USB stick is plugged in.
How to Exit
To exit CSM, use one of the following methods:
• Press the MENU/HOME button on the remote control
transmitter.
• Press the POWER button on the remote control
transmitter.
• Press the POWER button on the television set.
5.3 Service Tools
5.3.1 ComPair
EN 23L12M1.1L LA 5.
Figure 5-3 ComPair II interface connection
Caution: It is compulsory to connect the TV to the PC as
shown in the picture above (with the ComPair interface in
between), as the ComPair interface acts as a level shifter. If
one connects the TV directly to the PC (via UART), ICs will be
blown!
How to Order
ComPair II order codes:
• ComPair II interface: 3122 785 91020.
• ComPair UART interface cable: 3138 188 75051.
• Program software can be downloaded from the Philips
Service web portal.
Note: For this chassis, “Pgammar” and “T-con NVM”
programming (VCOM alignment) are added to ComPair.
Prerequisite
In this chassis, ComPair can only be used in one of the
Service Modes (SAM, SDM).
Introduction
ComPair (Computer Aided Repair) is a Service tool for Philips
Consumer Electronics products. and offers the following:
1. ComPair helps you to quickly get an understanding on how
to repair the chassis in a short and effective way.
2. ComPair allows very detailed diagnostics and is therefore
capable of accurately indicating problem areas. You do not
have to know anything about I2C or UART commands
yourself, because ComPair takes care of this.
3. ComPair speeds up the repair time since it can
automatically communicate with the chassis (when the uP
is working) and all repair information is directly available.
4. ComPair features TV software up possibilities.
Specifications
ComPair consists of a Windows based fault finding program
and an interface box between PC and the (defective) product.
The (new) ComPair II interface box is connected to the PC via
an USB cable. For the TV chassis, the ComPair interface box
and the TV communicate via a bi-directional cable via the
service connector(s).
How to Connect
This is described in the ComPair chassis fault finding database.
Additional cables for VCOM Alignment
•ComPair/I
2
C interface cable: 3122 785 90004.
• ComPair/VGA adapter cable: 9965 100 09269.
5.4 Error Codes
5.4.1 Introduction
Error codes are required to indicate failures in the TV set. In
principle a unique error code is available for every:
• Activated (SW) protection.
• Failing I
• General I
The last five errors, stored in the NVM, are shown in the
Service menu’s. This is called the error buffer.
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.
An error will be added to the buffer if this error differs from any
error in the buffer. The last found error is displayed on the left.
An error with a designated error code never leads to a
deadlock situation. It must always be diagnosable (e.g. error
buffer via OSD or blinking LED or via ComPair).
In case a failure identified by an error code automatically
results in other error codes (cause and effect), only the error
code of the MAIN failure is displayed.
2
C device.
2
C error.
2012-Aug-17
EN 24 L12M1.1L LA5.
Service Modes, Error Codes, and Fault Finding
5.4.2 How to Read the Error Buffer
You can read the error buffer in three ways:
• On screen via the SAM/SDM/CSM (if you have a picture).
Example:
– ERROR: 0 0 0 0 0 : No errors detected
– ERROR: 6 0 0 0 0 : Error code 6 is the last and only
detected error
– ERROR: 9 6 0 0 0 : Error code 6 was detected first and
error code 9 is the last detected (newest) error
• Via the blinking LED procedure (when you have no
picture). See paragraph 5.5
The Blinking LED Procedure.
•Via ComPair.
5.4.3 Error codes
The “layer 1” error codes are pointing to the defective board.
They are triggered by LED blinking when CSM is activated. In
the LC10 platform, only two boards are present: the SSB and
the PSU/IPB, meaning only the following layer 1 errors are
defined:
• 2: SSB
• 3: IPB/PSU
•4: Display
Table 5-1 Error code table
Layer-1
error code
3 IPB/PSU 16 +12 V missing/low, PSU defective
3 IPB/PSU 17 POK line defective
2 SSB 13 general I2C bus error on SSB
2 SSB 35 EEPROM I2C error on SSB, 24MC64-W
2 SSB 34 tuner I2C erro r on SSB
2 SSB 27 channel decoder on SSB
Defective
board
Layer-2
error code Defective device
5.4.4 How to Clear the Error Buffer
The error code buffer is cleared in the following cases:
• By using the CLEAR command in the SAM menu:
• By using the following key sequence on the remote control
transmitter: “062599” directly followed by the OK button.
• If the contents of the error buffer have not changed for 50
hours, the error buffer resets automatically.
Note: If you exit SAM by disconnecting the mains from the
television set, the error buffer is not reset.
5.5 The Blinking LED Procedure
5.5.1 Introduction
The software is capable of identifying different kinds of errors.
Because it is possible that more than one error can occur over
time, an error buffer is available, which is capable of storing the
last five errors that occurred. This is useful if the OSD is not
working properly.
Errors can also be displayed by the blinking LED procedure.
The method is to repeatedly let the front LED pulse with as
many pulses as the error code number, followed by a period of
1.5 seconds in which the LED is “off”. Then this sequence is
repeated.
Example (1): error code 4 will result in four times the sequence
LED “on” for 0.25 seconds / LED “off” for 0.25 seconds. After
this sequence, the LED will be “off” for 1.5 seconds. Any RC
command terminates the sequence. Error code LED blinking is
in red color.
Example (2): the content of the error buffer is “129600”
After entering SDM, the following occurs:
• 1 long blink of 5 seconds to start the sequence,
• 12 short blinks followed by a pause of 1.5 seconds,
• 9 short blinks followed by a pause of 1.5 seconds,
• 6 short blinks followed by a pause of 1.5 seconds,
• 1 long blink of 1.5 seconds to finish the sequence,
• The sequence starts again with 12 short blinks.
5.5.2 Displaying the Entire Error Buffer
Additionally, the entire error buffer is displayed when Service
Mode “SDM” is entered.
5.6 Fault Finding and Repair Tips
Notes:
• It is assumed that the components are mounted correctly
with correct values and no bad solder joints.
• Before any fault finding actions, check if the correct
options are set.
5.6.1 NVM Editor
In some cases, it can be convenient if one directly can change
the NVM contents. This can be done with the “NVM Editor” in
SAM mode. With this option, single bytes can be changed.
Caution:
• Do not change these, without understanding the
function of each setting, because incorrect NVM
settings may seriously hamper the correct functioning
of the TV set!
• Always write down the existing NVM settings, before
changing the settings. This will enable you to return to the
original settings, if the new settings turn out to be incorrect.
5.6.2 Load Default NVM Values
It is possible to download default values automatically into the
NVM in case a blank NVM is placed or when the NVM first 20
address contents are “FF”. After the default values are
downloaded, it is possible to start-up and to start aligning the
TV set. To initiate a forced default download the following
action has to be performed:
1. Switch “off” the TV set with the mains cord disconnected
from the wall outlet (it does not matter if this is from “Standby” or “Off” situation).
2. Short-circuit the SDM pads on the SSB (keep short
circuited, see Figure 5-2
3. Press “P+” or “CH+” on the local keyboard (and keep it
pressed).
4. Reconnect the mains supply to the wall outlet.
5. Release the “P+” or “CH+” when the set is started up and
has entered SDM.
When the downloading has completed successfully, the set will
perform a restart. After this, put the set to Stand-by and remove
the short-circuit on the SDM pads.
Alternative method:
It is also possible to upload the default values to the NVM with
ComPair in case the SW is changed, the NVM is replaced with
a new (empty) one, or when the NVM content is corrupted.
After replacing an EEPROM (or with a defective/no EEPROM),
default settings should be used to enable the set to start-up and
allow the Service Default Mode and Service Alignment Mode to
be accessed.
5.6.3 No Picture
When you have no picture, first make sure you have entered
the correct display code.
Display Option Code Selection for the instructions.
See
).
2012-Aug-17
Service Modes, Error Codes, and Fault Finding
EN 25L12M1.1L LA 5.
5.6.4 Unstable Picture via HDMI input
Check (via ComPair) if HDMI EDID data is properly
programmed.
5.6.5 No Picture via HDMI input
Check if HDCP key is valid. This can be done in CSM.
5.6.6 HDMI CEC Not Functioning
Go to Home/Menu ->Setup -> Installation -> Preference and
set the Easylink option to “on”. Also check if the connected
device is CEC enabled.
5.6.7 TV Will Not Start-up from Stand-by.
Possible Stand-by Controller failure. Reflash the SW.
5.6.8 Cannot measure 1 kHz signal at tweeter 1D01 connector
This is normal behavior. Sound system is active 2.1 system
with separate tweeter and subwoofer paths. Use 8 kHz test
signal for tweeter measurement.
5.6.9 Low output measured at tweeter 1D01 connector
This is normal behavior. Tweeter only covers higher frequency
for rated power (4 W each), whereas the subwoofer output
(1D02 connector) is full range coverage for output power of 12
W.
5.6.10 No sound output at class D amplifier
Check following points:
• Presence of both supply +V
2
S input signal: pins 15, 20, 21, 22
•I
(12 V) & 3V3D (3.3 V)
SND
- pin 15: MCLK = 12.288 MHz
- pin 20: LRCLK = 48 kHz
- pin 21: SCLK = 3.072 MHz
- pin 22: SDIN = audio data.
2
• Check I
C communication: pins 23 and 24
• Check startup GPIO: pins 19 and 25; for normal operation,
both should be HIGH
• Check outputs: pins 1, 36, 39 and 46; all should have a
12 V PWM signal with a switching frequency of 384 kHz.
5.6.11 Front-end: no picture in analog RF mode
Check following points:
• Tuner supply voltage (3V3) presence available at pin 2/4
7216 and F203
2
C lines are working correctly (3V3)
•I
• Manually store a known channel and check if there is IF
output at tuner pins 7 & 8; if not, tuner may be faulty
• Check whether picture is present in CVBS; in not, check
Video section.
5.6.12 Front-end: no picture in digital RF mode
Check following points:
• Tuner supply voltage (3V3) presence available at pin 2/4
7216 and F203
2
C lines are working correctly (3V3)
•I
• Manually store a known channel and check if there is IF
output at tuner pins 2& 3; if not, tuner may be faulty
• Supply voltage (1V2, 2V5, 3V3) presence available to
digital demodulator 7210
• Correct functioning of crystal 1205 (41 MHz)
• Pin DEMOD_RST is HIGH in normal operation
• Transport stream output from 7210 is available; if yes,
check Video section.
5.6.13 USB troubleshooting
• USB hub does not work when it is plugged in to USB2 and
-3.
-> Connect USB hub to USB1 (only this port supports hub)
• TV cannot detect the presence of USB devices.
-> USB device maybe faulty, replace with another USB
device.
• TV cannot detect the presence of USB devices.
-> Ensure USB device connected to the TV USB input ports
comply with USB standard (USB certified).
• TV sometimes can/cannot detect USB devices.
-> If connected to a passive USB hub, remove the passive
USB hub.
-> Devices connected to a passive USB hub may have
drawn current exceeding 500 mA (= limit from TV USB
port).
5.6.14 Ethernet troubleshooting
• Ethernet cannot establish link.
-> Check the ethernet magnetic that it is stuffed with the
correct orientation.
• When connected to computer, the speed indicated on the
computer screen is 10 Mbps instead of 100 Mbps.
-> Check the computer network properties setting and
ensure that it is set to “Auto”.
• Unable to login to NetTV website.
-> Make sure all of the keys are loaded in e.g. MAC
address, ECD key, etc.
5.6.15 HDMI troubleshooting
• TV cannot detect the presence of HDMI source.
-> Check if there is +5 V at pin 18 of HDMI connector.
• No picture on TV screen.
-> Make sure HDCP is valid.
• In PC mode, TV is unable to display picture for certain
output resolutions.
-> Check TV specification if the TV can support the
selected resolution.
• CEC not functioning.
-> Turn on “Easyliok” feature from the TV menu.
5.7 Software Upgrading
5.7.1 Introduction
It is possible for the user to upgrade the main software via the
USB port. This allows replacement of a software image in a
stand alone set. A description on how to upgrade the main
software can be found in the DFU or on the Philips website.
5.7.2 Main Software Upgrade
Automatic Software Upgrade
In “normal” conditions, so when there is no major problem with
the TV, the main software and the default software upgrade
application can be upgraded with the “autorun.upg” (FUS part
in the one-zip file). This can also be done by the consumers
themselves, but they will have to get their software from the
commercial Philips website or via the Software Update
Assistant in the user menu (see DFU). The “autorun.upg” file
must be placed in the root of your USB stick.
How to upgrade:
1. Copy the “autorun.upg” file to the root of an USB stick.
2. Insert the USB stick in the side I/O while the set is “on”.
The TV will prompt an upgrade message. Press “Update”
to continue, after which the upgrading process will start. As
2012-Aug-17
EN 26 L12M1.1L LA5.
soon as the programming is finished, the set must be
restarted.
In the “Setup” menu you can check if the latest software is
running.
5.7.3 How to Copy NVM Data to/from USB
Write NVM Data to USB
1. Insert the USB stick into the USB slot while in SAM mode.
2. Execute the command "NVM Copy" > "NVM Copy to USB",
to copy the NVM data to the USB stick. The NVM filename
on the USB stick will be named
"L12M11L_NVM_T2U.BIN" (this takes a couple of
seconds).
Write NVM Data to TV
1. First, ensure (via a PC) that the filename on the USB stick
has the correct format: "L12M11L_NVM_U2T.BIN".
2. Insert the USB stick into the USB slot while in SAM mode.
3. Execute the command "NVM Copy" > "NVM Copy from
USB" to copy the USB data to NVM (this takes about a
minute to complete).
To write an NVM mask to the TV, ensure that the mask has the
correct format: "L12M11L_NVM_U2T.MAK" (0x00 to write
protect, 0xFF to overwrite).
Important: The file must be located in the "/Repair" directory
of the USB stick.
Service Modes, Error Codes, and Fault Finding
5.7.4 How to Copy EDID Data to/from USB
Write EDID Data to USB
1. Insert the USB stick into the USB slot while in SAM mode.
2. Execute the command "NVM Copy" > "EDID Copy to
USB", to copy the EDID data to the USB stick. The
filename on the USB stick will be named
"L12M11L_EDID_T2U.BIN" (this takes a couple of
seconds).
Write EDID Data to TV
1. First, ensure (via a PC) that the filename on the USB stick
has the correct format: "L12M11L_EDID_U2T.BIN".
2. Insert the USB stick into the USB slot while in SAM mode.
3. Execute the command "NVM Copy" > "EDID Copy from
USB" to copy the USB data to EDID (this takes about a
minute to complete).
Important: The file must be located in the "/Repair" directory
of the USB stick.
5.7.5 How to Copy the Channel List to/from USB
Write Channel List Data to USB
1. Insert the USB stick into the USB slot while in SAM mode.
2. Execute the command "Channel list Copy to USB", to copy
the channel list data to the USB stick. The filename on the
USB stick will be named "L12M11L_CHTB_T2U.BIN" (this
takes a couple of seconds).
Write Channel List Data to TV
1. First, ensure (via a PC) that the filename on the USB stick
has the correct format: "L12M11L_CHTB_U2T.BIN".
2. Insert the USB stick into the USB slot while in SAM mode.
3. Execute the command "Channel list Copy from USB" to
copy the USB data to the TV (this takes about a minute to
complete).
Important: The file must be located in the "/Repair" directory
of the USB stick.
2012-Aug-17
6. Alignments
Index of this chapter:
General Alignment Conditions
6.1
6.2 Hardware Alignments
6.3 Software Alignments
6.4 Option Settings
Note: Figures below can deviate slightly from the actual
situation, due to the different set executions.
General: The Service Default Mode (SDM) and Service
Alignment Mode (SAM) are described in chapter 5. Menu
navigation is done with the CURSOR UP, DOWN, LEFT or
RIGHT keys of the remote control transmitter.
6.1 Gene r al Ali gn m e n t Co nd it io n s
Perform all electrical adjustments under the following
conditions:
• Power supply voltage (depends on region):
– AP-NTSC: 120 V
– AP-PAL-multi: 120 - 230 V
– EU: 230 V
AC
– LATAM-NTSC: 120 - 230 V
– US: 120 V
AC
• Connect the set to the mains via an isolation transformer
with low internal resistance.
• Allow the set to warm up for approximately 15 minutes.
• Measure voltages and waveforms in relation to correct
ground (e.g. measure audio signals in relation to
AUDIO_GND).
Caution: It is not allowed to use heatsinks as ground.
• Test probe: Ri > 10 Mohm, Ci < 20 pF.
• Use an isolated trimmer/screwdriver to perform
alignments.
6.2 Hardware Alignments
There are no hardware alignments foreseen for this chassis.
6.3 Software Alignments
With the software alignments of the Service Alignment Mode
(SAM) the RGB settings can be aligned.
or 230 VAC / 50 Hz ( 10%).
AC
/ 50 Hz ( 10%).
AC
/ 50 Hz ( 10%).
/ 50 Hz ( 10%).
AC
/ 60 Hz ( 10%).
Alignments
In case you have a color analyzer:
• Measure with a calibrated (phosphor- independent) color
analyzer (e.g. Minolta CA-210) 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 max. value) by means of
decreasing the value of one or two other white points to the
correct x,y coordinates (see Table 6-1
values LC320EUE-SEM1 (panel ID 402) to 6-7 White D
alignment values LC420EUE-SEF2 (panel ID 411)).
Tolerance: dx: 0.002, dy: 0.002.
• Repeat this step for the other color Temperatures that need
to be aligned.
• When finished return to the SAM root menu and press
STANDBY on the RC to store the aligned values to the
NVM.
Table 6-1 White D alignment values LC320EUE-SEM1 (panel ID 402)
Value Cool (9480 K) Normal (8050 K) Warm (6100 K)
x 0.280 0.292 0.319
y 0.299 0.314 0.347
Table 6-2 White D alignment values LC420EUE-SEM2 (panel ID 403)
Value Cool (9710 K) Normal (8170 K) Warm (6150 K)
x 0.280 0.291 0.318
y 0.296 0.311 0.345
Table 6-3 White D alignment values LC470EUE-SEM2 (panel ID 404)
Value Cool (9490 K) Normal (8060 K) Warm (6080 K)
x 0.281 0.292 0.319
y 0.297 0.311 0.345
White D alignment
EN 27L12M1.1L LA 6.
6.3.1 Tuner Adjustment (RF AGC Take Over Point)
Purpose: To keep the tuner output signal constant as the input
signal amplitude varies.
No alignment is necessary, as the AGC alignment is done
automatically.
6.3.2 RGB Alignment
Before alignment, set the picture as follows:
Picture Setting
Dynamic backlight Off
Dynamic Contrast Off
Colour Enhancement Off
Picture Format Unscaled
Light Sensor Off
Brightness 50
Colour 0
Contrast 100
White Tone Alignment:
• Activate SAM.
• Select “RGB Align.“ and choose a color temperature.
• Use a 100% white screen as input signal and set the
following values:
– “Red BL Offset” and “Green BL Offset” to “7” (if
present).
– All “White point” values initial to “127”.
Table 6-4 White D alignment values LC420EUE-FEP1 (panel ID 406)
Value Cool (9540 K) Normal (8060 K) Warm (6130 K)
x 0.280 0.291 0.318
y 0.300 0.314 0.347
Table 6-5 White D alignment values LC470EUF-FEP1 (panel ID 407)
Value Cool (10100 K) Normal (8450 K) Warm (6310 K)
x 0.277 0.288 0.315
y 0.295 0.310 0.343
Table 6-6 White D alignment values LC550EUF-FEP1 (panel ID 410)
Value Cool (t.b.d. K) Normal (t.b.d. K) Warm (t.b.d. K)
x t.b.d. t.b.d. t.b.d.
y t.b.d. t.b.d. t.b.d.
Table 6-7 White D alignment values LC420EUE-SEF2 (panel ID 411)
Value Cool (t.b.d. K) Normal (t.b.d. K) Warm (t.b.d. K)
x t.b.d. t.b.d. t.b.d.
y t.b.d. t.b.d. t.b.d.
2012-Aug-17
EN 28 L12M1.1L LA6.
Alignments
If you do not have a color analyzer, you can use the default
values. This is the next best solution. The default values are
average values coming from production (statistics).
• Set the RED, GREEN and BLUE default values per
temperature according to the values in the “Tint settings”
table.
• When finished return to the SAM root menu and press
STANDBY on the RC to store the aligned values to the
NVM.
Table 6-8 Tint settings 32" 5000 series
Colour Temp. R G B
Cool 214 255 233
Normal 238 255 204
Warm 255 237 132
Table 6-9 Tint settings 42" 5000 series
Colour Temp. R G B
Cool 242 243 252
Normal 255 242 222
Warm 255 211 130
Table 6-10 Tint settings 42" 6000 series
Colour Temp. R G B
Cool t.b.d. t.b.d. t.b.d.
Normal t.b.d. t.b.d. t.b.d.
Warm t.b.d. t.b.d. t.b.d.
Table 6-11 Tint settings 42" 7000 series
6.4 Option Settings
6.4.1 Introduction
The microprocessor communicates with a large number of I
ICs in the set. To ensure good communication and to make
digital diagnosis possible, the microprocessor has to know
which ICs to address. The presence/absence of these specific
ICs (or functions) is made known by the option codes.
Notes:
• After changing the option(s), save them with the STORE
command.
• The new option setting becomes active after the TV is
switched “off” and “on” again with the mains switch (the
EAROM is then read again).
6.4.2 How To Set Option Codes
When the NVM is replaced, all options will require resetting. To
be certain that the factory settings are reproduced exactly, you
must set all option numbers. You can find the correct option
numbers see sticker on the inside the cabinet.
How to Change Options Codes
An option code (or “option byte”) represents eight different
options (bits). All options are controlled via ten option bytes
(OP#1... OP#10).
Activate SAM and select “Options”. Now you can select the
option byte (OP#1... OP#10) with the CURSOR UP/ DOWN
keys, and enter the new 3 digit (decimal) value. For the correct
factory default settings, see the sticker inside the set.
2
C
Colour Temp. R G B
Cool 214 251 250
Normal 238 255 226
Warm 255 237 144
Table 6-12 Tint settings 47" 5000 series
Colour Temp. R G B
Cool t.b.d. t.b.d. t.b.d.
Normal t.b.d. t.b.d. t.b.d.
Warm t.b.d. t.b.d. t.b.d.
Table 6-13 Tint settings 47" 7000 series
Colour Temp. R G B
Cool t.b.d. t.b.d. t.b.d.
Normal t.b.d. t.b.d. t.b.d.
Warm t.b.d. t.b.d. t.b.d.
Table 6-14 Tint settings 55" 6000 series
Colour Temp. R G B
Cool t.b.d. t.b.d. t.b.d.
Normal t.b.d. t.b.d. t.b.d.
Warm t.b.d. t.b.d. t.b.d.
Table 6-15 Tint settings 55" 7000 series
Colour Temp. R G B
Cool t.b.d. t.b.d. t.b.d.
Normal t.b.d. t.b.d. t.b.d.
Warm t.b.d. t.b.d. t.b.d.
2012-Aug-17
7. Circuit Descriptions
19300_063_120419.eps
120419
BLU
W-SL
Display (7000)
FHD@120Hz
FHD@100Hz
Display (5/6000)
FHD@60Hz
FHD@50Hz
Tuner
Low or Direct IF
FLASH
512MB
Quad LVDS (7000)
Dual LVDs (5000/6000)
Headphone
MediaTek
MT5396
SOC
DVB-T/C
ATSC
Analogue
I
2
S
32+32
DDR3 1.33GHz
512+256MB
WLAN (Integrated) (Reserved)
CVBS ×1
YPbPr ×1
VGA ×1
AVIO
NVM
64kB
Class-D
Audio DAC
TS
Service
UART
USB 4:1HDMI 4:1
RJ45
Ethernet
User ×3
Internal × 1
LDM
Ambilight
PWM
Backlight Control
BTL
7000
series
only
HDMI x4
(1× ARC)
ISDB-T
Demodulator
Index of this chapter:
Introduction
7.1
7.2 Power Supply
7.3 DC-DC converter
7.4 Front-End
7.5 Audio
7.6 USB configuration
Circuit Descriptions
7.1 Introduction
The LC12M1.1L LA chassis is a digital chassis using a
Mediatek chipset. It covers screen sizes of 32" to 55".
Main key components are the Mediatek MT5396 integrated
“System On Chip” (SoC) that supports multimedia video/audio
input.
EN 29L12M1.1L LA 7.
Notes:
•Only new circuits (circuits that are not published recently)
are described.
• Figures can deviate slightly from the actual situation, due
to different set executions.
• For a good understanding of the following circuit
descriptions, please use chapter 9.
10.
Circuit Diagrams and PWB Layouts. Where necessary,
Block Diagrams and
you will find a separate drawing for clarification.
System SoC is based on MT5396:
• NAND Flash – 512 Mbyte, Hynix.
• DDR 1.33 GHz– 512 + 256 Mbyte, Hynix.
Tuner/Frontend configuration:
• Sony Silicon In Can Tuner (SUT-RA214Z).
• Sony Digital Demodulator (CXD2828).
• Analog demodulator embedded in MT5396.
Audio configuration:
• Texas Instruments Audio Class-D Amplifier
(TAS5731PHP).
• Texas Instruments Headphone Amplifier
(TPA6111A2DGN).
Refer to Figure 7-1
for details.
Figure 7-1 L12M1.1L LA Architecture
2012-Aug-17
EN 30 L12M1.1L LA7.
(Reserved)
(Reserved)
19300_064_120419.eps
120419
Circuit Descriptions
Figure 7-2 SSB cell layout
2012-Aug-17
Circuit Descriptions
19300_069_120419.eps
120419
MT5396
DDR3
DDR3
DC-DC 1.5 V
Class-D amplifier
Digital
Demodulator
DC-DC 1.1 V
DC-DC 3.3 V
DC-DC 5 V
Headphone-Amp
NAND flash
EN 31L12M1.1L LA 7.
Figure 7-3 SSB key component overview (top)
2012-Aug-17
EN 32 L12M1.1L LA7.
19300_070_120419.eps
120419
V-Disp switch
Circuit Descriptions
Figure 7-4 SSB key component overview (bottom)
2012-Aug-17
7.2 Power Supply
19132_012_111221.eps
111221
V
STB
Regulator
V
SSB
BL Driver 1
BL Driver 2
Back Light
V
SND
STBY
ACin
198 V - 264 V
90 V - 276 V
Line
filter
Resonant
converter
PFC
Diode
bridge
7.2.1 Connector Overview, Block Diagram and Fault Finding
Table 7-1 Connector overview 32PFL5007G sets
Circuit Descriptions
EN 33L12M1.1L LA 7.
no. 1308 1M95 1M99 1M11 1M09
Descr. Mains PSU to SSB PSU to SSB Ambilight/Bolt-on Bolt-on
Pin CN1 CN4 CN5 CN6 CN7
1 N 3V3stdby GND_AL GND_AL GND_BO
2 L Standby +12V_AL +12V_AL +12V_BO
3 - GND1 GND_AL GND_AL GND_BO
4 - GND1 +12V_AL +12V_AL +12V_BO
5 - +12V GND1 - GND_BO
6 - +12V +12V - +12V_BO
7 - +Vsnd GND1 - 8 - +Vsnd +12V - 9 - GND_SND - - 10 - GND_SND - - 11 - BL-ON - - 12 - BL-DIM (Vsync) - - 13 - BL-I-CTRL - - 14 - POK - - 15 - - - - -
Connector
The PSU delivers the following voltages to the chassis:
•V
•V
•V
: 3.3 V +/- 3%.
STB
: 12.3 V +/- 5%.
SSB
: 12.3 V (11 V - 14 V).
SND
Figure 7-5 Block diagram
2012-Aug-17
EN 34 L12M1.1L LA7.
19132_013_111221.eps
111222
Normal operation
Apply the mains voltage (ACin)
Pull the Standby pin to LOW (GND)
Pull the BL_ON_OFF pin to HIGH (3.3 V)
Check the main supply at C208: measure 12.3 V
Check the audio supply at C233: measure 24.5 V
Check the PFC voltage at C644
PFC present: measure 380 V to 400 V
PFC not present: measure ACin × 2
No turn on
Check First step Second step
Check the entire block (PC102, VCC, etc.)
Check the entire block (V
CC
, ICs, etc.)
Allow the power supply to start-up a few times
Check the Standby voltage
at C306: measure 3.3 V
Check the reference voltage of the
LED Driver (U401): measure approximately 12 V
Check the fuse (F101)
Check the entire block (VCC, ICs, etc.)
19300_065_120419.eps
120419
DC/DC
RT8293A
+12VS
+3V3_SW
Lin
LD1117
+1V2_SW
PSU/PSL
DC/DC
RT8293A
+5V_SW
DC/DC
RT8293A
DC/DC
RT8288A
+1V5_SW
+1V1_SW
Enable
DELAY
Enable
Enable
Enable
Circuit Descriptions
Figure 7-6 Test instructions
Following checks have to be performed:
• check fuse (F101)
• standby check V
(C302), measure 3.3 V
STB
• PFC voltage check (C644), measure 380 - 400 V; if no PFC
applied, measure 311 @ 220 V
• multi-level check V
• multi-level check V
(C203), measure 12.3 V
SSB
(C206), measure 12.3 V
SND
• reference voltage check (U401), measure 5.96 V (appr.).
SAFETY INSTRUCTION
Replace safety components, indicated by the symbol h, only
by components identical to the original ones. Any other
component substitution (other than original type) may increase
risk of fire or electrical shock hazard.
7.3 DC-DC converter
Refer to Figure 7-7.
7.4 Front-End
Refer to Figure 7-8 for details.
RF input from
Antenna
Figure 7-7 DC-DC block diagram
Figure 7-8 Front-end functional block diagram
2012-Aug-17
19300_066_120419.eps
120419
7.5 Audio
19300_067_120419.eps
120419
MT5396
Front-end
Analog
input pairs
USB
HDMI
Muting /
reset circuit
I2S
AL/R3_ADAC
I
2
C
AIN0_L/R
AIN1_L/R
AIN2_L/R
SPDIF_OUT
ARC
MUTE
POWER_DOWN
RESET_AUDIO
Speaker out
Headphone out
Optical SPDIF out
HDMI1-ARC out
Digital Class
D amp
Headphone
Amp
Refer to Figure 7-9 for the implementation.
Circuit Descriptions
EN 35L12M1.1L LA 7.
7.6 USB configuration
This chassis comes with three external and one internal USB
port.
7.6.1 USB1 (external)
To be used for
• Mass storage
•Hub
•WiFi
• Bluetooth
• Camera
• Mouse/Keyboard.
7.6.2 USB2 & 3 (external)
To be used for
• Mass storage
•WiFi
• Bluetooth
• Camera
• Mouse/Keyboard.
7.6.3 USB4 (reserved for internal WiFi)
To be used for
• Mass storage
•Hub
•WiFi
• Mouse/Keyboard.
Figure 7-9 Audio functional block diagram
2012-Aug-17
EN 36 L12M1.1L LA8.
19300_043_120416.eps
120416
Block diagram
IQ Gen.
Image
Rejection
PLL
AGC
Terr.
In
Balun
FIL
1KΩ
100Ω
1KΩ
10
11
7
8
9
2
3
100Ω
4
1
100Ω
I2C
100Ω
IQ Gen.
Image
Rejection
PLL
3.3 V
AGC
Terr.
In
Balun
FIL
1KΩ
100Ω
1KΩ
10
Tuner I2C (SDA, SCL)
IFOUT2
IFOUT1
AGC2
AGC1
11
7
8
9
2
3
100Ω
4
1
100Ω
I2C
100Ω
IC Data Sheets
8. IC Data Sheets
This section shows the internal block diagrams and pin layouts
of ICs that are drawn as "black boxes" in the electrical diagrams
(with the exception of "memory" and "logic" ICs).
8.1 Diagram 10-2-2 B02, Tuner & Demodulator, Type SUT-RA214 (IC1201)
Figure 8-1 Internal block diagram and pin configuration
2012-Aug-17
8.2 Diagram 10-2-2 B02, Tuner & Demodulator, Type CXD2828 (IC7210)
19260_300_120320.eps
120323
Block diagram
Pinning information
3 4 5 6 7 8 9 11 12
XTALSEL
37
TTUSDA
38
TTUSCL
39
SLVADR1
40
CVDD
41
42
GPIO1
43
TIFAGC
44
45
46
47
2829
TSDATA4
TSDATA5
CXD2828ER-T4
OSCEN_X
RST_X
10
TSDATA3
3032333435
XTALI
31
XTALO
48
49
OSCMODE
25262736
XVSS
13
14
15
16
17
18
19
20
21
22
23
24
VSS
TSDATA7
DVDD
SCL
SDA
CVDD
TSDATA6
VSS
TESTMODE
SLVADR0
XVDD
PVDD
CVDD
VSS
PVSS
VSS
TAINM
TAINP
TAVDD
21
GPIO0
GPIO2
TSSYNC
TSVALID
TSCLK
VSS
VSS
DVDD
TSDATA0
TSDATA1
CVDD
TSDATA2
TAVSS
Oscillator
Host I2C
GPIO
TTUSDA
TTUSCL
Terrestrial
Tuner
TIFAGC
TAINP
TAINM
TSCLK
TSSYNC
TSVALID
TSDATA[7:0]
ADC
OFDM
Demodulator
AGC
TMCC
Status
Monitor
ISDB-T
Viterbi
decoder
RS
decoder
TSIF
Tuner I2C
SDA
SCL
41/20.5MHz
XTALI
XTALO
GPIO0 (EWS)
GPIO1 (PWM)
GPIO2 (TSERR)
OSCEN_X
XTALSEL
PLL Logic
CXD2828ER
IC Data Sheets
EN 37L12M1.1L LA 8.
Figure 8-2 Internal block diagram and pin configuration
2012-Aug-17
EN 38 L12M1.1L LA8.
19300_040_120416.eps
120416
Block diagram
MT5396JDNJ
IC Data Sheets
8.3 Diagram 10-2-4 B04A, MTK5396 Power, Type MT5396 (IC7300)
Figure 8-3 Internal block diagram
2012-Aug-17
IC Data Sheets
19300_041_120416.eps
120416
Pinning information 1, MT5396JDNJ
825 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
A
BRDQ0 BRDQ6 DDRV DDRV ARDQ21
ARDQM2
ARDQS2
#
ARDQ22 ARBA0 ARA2 ARA13
ARDQ8 DVSS
B
BRDQ9 BRDQ2 DDRV DDRV ARDQ23
ARDQ30
ARDQS2 ARDQ31
ARDQ18 ARA3
ARRESE
T
ARA7
ARDQ1 DVSS
C
BRDQ13 BRDQ4 DDRV DDRV ARDQ19 ARDQ24 ARDQ28 ARDQS3
ARCLK1
#
ARDQ29 ARDQ27 ARDQ16 ARDQ20 ARA11 ARA14 ARDQ5 ARDQ3 DVSS ARDQM0
D
BRDQM1 BRDQ15 BRDQ11 DDRV DDRV ARDQ17 ARDQ26
ARDQS3
#
ARCLK1 ARDQ25 DVSS DVSS ARA8 ARWE# ARDQ7 ARBA2 ARDQ10 DVSS ARDQ14
E
BRDQS0
#
BRDQS0 DDRV DDRV DVSS DVSS DVSS ARDQM3 DVSS DVSS ARA4 ARA6 ARA9 ARCS# ARCAS# ARODT DVSS
F
BRDQS1
BRDQS1# BRCLK0
#
BRCLK0 DVSS DDRV DDRV DVSS DVSS ARCKE ARA10 DVSS ARA12 ARA1 ARA0 ARA5 ARRAS# ARCSX# DVSS
G
BRDQM0 BRDQ12 BRDQ14 BRCSX# DDRV DDRV
MEMTN MEMTP ARBA1
RVREF_
B
DVSS DDRV DVSS DVSS DDRV DVSS
H
BRDQ10 BRRAS# BRCAS# BRODT DDRV DDRV
DDRV DVSS
DDRV
DVSS
J
BRDQ1 BRDQ3 BRDQ8 DVSS DVSS DVSS
DDRV
DDRV DVSS DVSS
K
BRDQ5 BRDQ7 BRCS# BRBA2 BRA5 BRA0 DVSS
L
BRA7 BRWE# BRA14 BRA8 DVSS DVSS
M
BRA2
BRRESE
T
BRA9 BRA13 BRA11
DVSS
N
BRBA0 BRA3 BRA1 BRA6 BRA12 BRA4 DDRV
AVDD33_
MEMPLL
AVSS33_
MEMPLL
P
BRDQ22 BRDQ18 BRDQ20 BRA10 BRBA1 BRCKE DDRV
RVREF_
C
VCCK VCCK VCCK VCCK VCCK VCCK
R
DVSS DVSS DVSS DVSS DVSS DVSS DVSS
VCCK DVSS DVSS DVSS DVSS DVSS
T
BRDQ27 BRDQ16 DDRV DDRV DVSS DVSS
VCCK DVSS DVSS DVSS DVSS DVSS
U
BRDQM3 BRDQ31 BRDQ29 BRDQ25 DDRV DDRV DVSS
VCCK DVSS DVSS DVSS DVSS DVSS
V
BRDQS2
#
BRDQS2
BRCLK1
#
BRCLK1 DDRV DDRV
RVREF_
D
VCCK DVSS DVSS DVSS DVSS DVSS
W
BRDQS3
BRDQS3
#
DVSS DVSS DVSS DVSS
VCCK DVSS DVSS DVSS DVSS DVSS
Y
BRDQM2 BRDQ30 BRDQ28 DVSS DVSS DVSS DVSS DVSS
VCCK DVSS DVSS DVSS DVSS DVSS
AA
BRDQ24 BRDQ26 DVSS
DVSS
VCCK DVSS DVSS DVSS DVSS DVSS
AB
BRDQ21 BRDQ23 BRDQ19 BRDQ17 DVSS DVSS
VCCK DVSS DVSS DVSS DVSS DVSS
AC
DDRV DDRV DDRV DDRV DDRV DDRV
VCCK VCCK VCCK VCCK VCCK VCCK
AD
BE4P BE4N
AVDD12_
REC
REXT
AVDD33_
COM
AVDD33_
LD
VCCK
AVDD12_
RGB
AE
BE3P BE3N BECKP BECKN
AVSS33_
LVDSB
AVDD33_
LVDSB
AF
BE2P BE2N
AVSS12_
VPLL
AVDD12_
VPLL
AG
BE1P BE1N BE0P BE0N
AVSS12_
LVDS_1
AVDD12_
LVDS_1
REXT_V
PLL
AH
BO4P BO4N
AVSS33_
LVDSA
AVDD33_
LVDSA
AJ
BO3P BO3N BOCKP BOCKN
AVSS12_
LVDS_2
AVDD12_
LVDS_2
AK
BO2P BO2N
VCC3IO_B VCC3IO_B VCC3IO_
B
AVSS33_
VGA_ST
B
AVDD33_
VGA_ST
B
AL
BO1P BO1N BO0P BO0N
VCC3IO_
B
AVSS12_
REC
AVSS33_
COM
AVSS33_
LD
AM
AE4P AE4N
VCCK VCCK LDM_DO
AOSDAT
A4
AOSDAT
A3
AOMCLK
JTDI
PHYLED
0
OPCTRL7 OPCTRL
2
AN
AE3P AE3N
VCCK VCCK
AOSDAT
A0
AOSDAT
A1
AOSDAT
A2
OSCL0
JTRST# OSCL1
PHYLED
1
OPCTRL9 OPCTRL
6
AP
AECKP AECKN AO4P AO3P AO2P AO1P VCCK VCCK GPIO52 LDM_DI AOLRCK OSDA0
AVDD33_
USB_P2
P3
JTCK OSDA1
U0RX
OPCTRL
5
AR
AE2P AE2N AO4N AO3N AO2N AO1N VCCK VCCK GPIO54
LDM_VS
YNC
AOBCK OPWM0
AVSS33_
USB_P2
JTDO JTMS ASPDIF0 U0TX
OPCTRL
4
AT
AE1P AE0P
AOCKP
AO0P VCCK VCCK GPIO53
LDM_CS OPWM1
USB_DP
_P2
USB_DP
_P3
U1TX RXVP_1 TXVP_0
AU
AE1N AE0N
AOCKN
AO0N VCCK VCCK GPIO55
LDM_CL
K
OPWM2
USB_DM
_P2
USB_DM
_P3
U1RX RXVN_1 TXVN_0
LB 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 RT
Figure 8-4 Pin configuration -1-
EN 39L12M1.1L LA 8.
2012-Aug-17
EN 40 L12M1.1L LA8.
19300_042_120416.eps
120416
Pinning information 2, MT5396JDNJ
ARCLK0
ARCLK0
#
ARDQ9
DDRV DVSS TCON5 TCON7 GPIO45
PDD3 PDD1
PACLE POWE# SD_D2 SD_D0
A
ARDQS1
ARDQS0
#
ARDQ11
DDRV DVSS TCON4 TCON6 TCON12
PDD4 PDD2
POCE1# SD_D3 SD_CMD SD_CLK
B
ARDQS1
#
ARDQS0 ARDQ15 ARDQ0 ARDQ6 DDRV DVSS
TCON8
EMMC_C
LK
PDD6 GPIO47 PDD0 POOE# PAALE SD_D1
USB_DP
_P0
USB_DM
_P0
C
ARDQ12 ARDQM1 ARDQ13 ARDQ2 ARDQ4 DDRV DVSS
FSRC_W
R
TCON9 PDD7 PDD5 GPIO46 PARB# POCE0#
AVSS33_
USB_P1
AVDD33_
USB_P0
P1
USB_DP
_P1
USB_DM
_P1
D
DDRV DVSS DVSS DDRV DDRV DVSS
TCON1 TCON10 GPIO51 GPIO48 GPIO49 GPIO43 GPIO42
VCC3IO_
A
GPIO35 GPIO28 GPIO36
E
DDRV DVSS DVSS DDRV DDRV DVSS
TCON0 TCON11 TCON3 TCON2 GPIO50 GPIO44
VCC3IO_
A
GPIO27 GPIO34 GPIO2 GPIO1
F
DDRV
RVREF_
A
DVSS DDRV DDRV DVSS
VCC3IO_A VCC3IO_
A
GPIO24 GPIO6 GPIO5 GPIO4 GPIO3
G
DVSS
VCC3IO_A VCC3IO_
A
GPIO26 GPIO0 GPIO12 GPIO7 GPIO25
H
DVSS
VCC3IO_A VCC3IO_
A
GPIO15 GPIO23 GPIO16 GPIO22 GPIO20 GPIO21
J
GPIO11 GPIO10 GPIO17 GPIO18 GPIO14 GPIO19
K
GPIO9 GPIO41 GPIO8 GPIO13
L
GPIO40 GPIO33 GPIO38 GPIO31 GPIO39 GPIO32
M
DVSS
GPIO37 GPIO29
SPI_DAT
A
SPI_CLE CI_INT
SPI_CLK
1
N
VCCK DVSS DVSS VCCK
GPIO30
PVR_TS
DATA0
PVR_TS
DATA1
SPI_CLK
P
DVSS DVSS DVSS DVSS VCCK
PVR_TS
VAL
PVR_TS
SYNC
PVR_TS
CLK
CI_TSDA
TA0
CI_TSVAL CI_TSSY
NC
R
DVSS DVSS DVSS DVSS VCCK
DEMOD_
TSDATA3
DEMOD_
TSVAL
DEMOD_
TSCLK
DEMOD_
TSDATA2
DEMOD_
RST
DEMOD_
TSSYNC
DEMOD_
TSDATA0
CI_TSCL
K
T
DVSS DVSS DVSS DVSS
AVDD12_
PCIE11
RF_AGC IF_AGC
DEMOD_
TSDATA1
U
DVSS DVSS DVSS VCCK
AVDD33_
PCIE11
DEMOD_
TSDATA7
DEMOD_
TSDATA6
DEMOD_
TSDATA5
DEMOD_
TSDATA4
OSDA2 OSCL2
V
DVSS DVSS DVSS VCCK
AVDD12_
HDMI_2_
RX
AVSS12_
PCIE11
PCIE11_
TXN
PCIE11_
TXP
PCIE11_
REFCKN
PCIE11_
REFCKP
W
DVSS DVSS DVSS VCCK
AVDD12_
HDMI_1_
RX
AVDD33_
HDMI_2_
RX
ASPDIF1 ALIN
PCIE11_
RXN
PCIE11_
RXP
Y
DVSS DVSS DVSS VCCK
AVDD12_
HDMI_0_
RX
AVDD33_
HDMI_1_
RX
HDMI_C
EC
HDMI_2_
RX_1B
HDMI_2_
RX_1
HDMI_2_
RX_2B
HDMI_2_
RX_2
AA
DVSS DVSS DVSS DVSS
AVDD12_
HDMI_3_
RX
AVDD33_
HDMI_0_
RX
AVSS33_
HDMI_R
X
HDMI_2_
SDA
HDMI_2_
RX_0B
HDMI_2_
RX_0
AB
VCCK VCCK VCCK VCCK VCCK
AVDD33_
HDMI_3_
RX
HDMI_2_
PWR5V
HDMI_2_
HPD
HDMI_2_
SCL
HDMI_1_
RX_2B
HDMI_1_
RX_2
HDMI_2_
RX_CB
HDMI_2_
RX_C
AC
AVDD33_
VDAC_B
G
AVDD33_
VDAC
AVDD33_
DEMOD
VCCK VCCK
AVSS33_
HDMI_R
X
HDMI_1_
SDA
HDMI_1_
RX_1B
HDMI_1_
RX_1
AD
AVSS33_
DAC1
HDMI_1_
PWR5V
HDMI_1_
HPD
HDMI_1_
SCL
HDMI_1_
RX_CB
HDMI_1_
RX_C
HDMI_1_
RX_0B
HDMI_1_
RX_0
AE
AVDD33_
DAC1
AVSS33_
HDMI_R
X
AVSS33_
HDMI_R
X
HDMI_0_
SDA
HDMI_0_
RX_2B
HDMI_0_
RX_2
AF
AVDD33_
DAC
HDMI_0_
PWR5V
HDMI_0_
HPD
HDMI_0_
SCL
HDMI_0_
RX_0B
HDMI_0_
RX_0
HDMI_0_
RX_1B
HDMI_0_
RX_1
AG
AVSS33_
XTAL_ST
B
HDMI_3_
PWR5V
HDMI_3_
SCL
HDMI_3_
SDA
HDMI_0_
RX_CB
HDMI_0_
RX_C
AH
AVDD10_
LDO
AVSS12_
RGB
AVSS33_
VDAC_B
G
AVSS12_
DEMOD
VMID_AA
DC
AVSS33_
AADC
HDMI_3_
HPD
HDMI_3_
RX_C
HDMI_3_
RX_1B
HDMI_3_
RX_1
HDMI_3_
RX_2B
HDMI_3_
RX_2
AJ
AVDD33_
PLLGP
AVDD33_
CVBS_1
AVDD33_
CVBS_2
AVDD33_
XTAL_ST
B
AVSS33_
DAC
HDMI_3_
RX_CB
HDMI_3_
RX_0B
HDMI_3_
RX_0
AK
AVSS33_
VDAC
AVSS33_
CVBS_1
AVDD12_
DEMOD
AVDD33_
AADC
AL
OPWRS
B
ORESET# ADIN7_S
RV
ADIN6_S
RV
VSYNC
AVSS33_
CVBS_2
AVSS33_
PLLGP
AVSS33_
DEMOD
AR1_AD
AC
AL2_ADAC AL1_ADAC AL3_ADAC AR3_AD
AC
AR2_AD
AC
AM
OPCTRL1 OPCTRL3 LED_PW
M1
ADIN0_S
RV
ADIN1_S
RV
HSYNC
MPXP CVBS0P LOUTP
AL0_ADAC AR0_AD
AC
AN
OPCTRL8 LED_PW
M0
VGA_SCL ADIN2_S
RV
COM SOY1 PR1P Y0P SC0
VDACY_
OUT
CVBS_C
OM
LOUTN
AIN4_L_
AADC
AIN2_L_
AADC
AIN6_L_
AADC
AIN5_L_
AADC
AP
OPCTRL0 STB_SDA VGA_SDA ADIN3_S
RV
GP RP PB1P SOY0 PR0P SY0 CVBS2P CVBS1P
AIN4_R_
AADC
AIN6_R_
AADC
AIN5_R_
AADC
AIN3_L_
AADC
AR
OPCTRL
10
STB_SC
L
ADIN5_S
RV
SOG
COM1
PB0P
CVBS3P
ADCINN_
DEMOD
XTALI
AIN1_R_
AADC
AIN3_R_
AADC
AIN1_L_
AADC
AT
OPCTRL
11
OIRI
ADIN4_S
RV
BP
Y1P
COM0
VDACX_
OUT
ADCINP_
DEMOD
XTALO
AIN0_L_
AADC
AIN2_R_
AADC
AIN0_R_
AADC
AU
20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 RB
IC Data Sheets
2012-Aug-17
Figure 8-5 Pin configuration -2-
9. Block Diagrams
19300_030_120406.eps
120406
CN2 CN1
White wires
RED Wires
51P
8G51
J2
3P
8M95
8308
8C20
LED Power
1316
8P
1308
2P
NL
1M95
14P
J1
11P
SENSOR BOARD
(1122)
8D01
AV IN
NETWORK
SERV.U
AUDIO IN
DVI/VGA
VGA C VI USB 1
TV ANTENNA
(1) ARC (2) (3)
HDMI
HDMI
SIDE
DIGITAL
AUDIO
OUT
USB 3
USB 2
1D01
4P
1C22
11P
1M95
14P
1D02
3P
1G51
52P
SSB
(1150)
B
MAIN POWER SUPPLY
(1005)
A
J
E
KEYBOARD CONTROL
(1114)
1C22 (B04C)
1. LIGHT-SENSOR
2. 3D-LED
3. LED-2
4. GND
5. KEYBOARD
6. +3V3-STANDBY
7. RC
8. +5V
9. SCL-SET
10. GND
11. SDA-SET
1D01 (B03)
1. LEFT-+
2. LEFT--
3. RIGHT-+
4. RIGHT--
1D02 (B03)
1. LEFT-+
2. GND
3. RIGHT--
1M95 (B01)
1. +3V3STBY
2. STANDBY
3. GND
4. GND
5. +12Vin
6. +12Vin
7. +12VAUDIO
8. +12VAUDIO
9. GND
10. GND
11. BL-ON-1
12. BL-DIM-1
13. BL-I-CTRL-1
14. POWER-OK-1
1G51 (B04D)
1. +VDISP
2. +VDISP
3. +VDISP
4. +VDISP
|
|
51.
J1 (J)
1. SDA-SET
2. GND
3. SCL-SET
4. +5 V
5. RC
6. +3.3 V - STANDBY
7. KEYBOARD
8. GND
9. LED-2
10. 3D-LED
11. LIGHT-SENSOR
J2 (J)
1. +5 V
2. KEYBOARD
3. +3.3 V - STANDBY
Wiring diagram 32" 5000 series
9-1 Wiring Diagram 32" (5000 series)
Block Diagrams
EN 41L12M1.1L LA 9.
2012-Aug-17
back to
div. table
9-2 Wiring Diagram 42" (5000 series)
19300_035_120416.eps
120416
1C22 (B04C)
1. LIGHT-SENSOR
2. 3D-LED
3. LED-2
4. GND
5. KEYBOARD
6. +3.3 V - STANDBY
7. RC
8. +5 V
9. SCL-SET
10. GND
11. SDA-SET
J1 (J)
1. SDA-SET
2. GND
3. SCL-SET
4. +5 V
5. RC
6. +3.3 V - STANDBY
7. KEYBOARD
8. GND
9. LED-2
10. 3D-LED
11. LIGHT-SENSOR
1D01 (B03)
1. LEFT-+
2. LEFT--
3. RIGHT-+
4. RIGHT--
1D02 (B03)
1. LEFT-+
2. GND
3. RIGHT--
J2 (J)
1. +5 V
2. KEYBOARD
3. +3.3 V - STANDBY
1M95 (B01)
1. +3V3STBY
2. STANDBY
3. GND
4. GND
5. +12Vin
6. +12Vin
7. +12VAUDIO
8. +12VAUDIO
9. GND
10. GND
11. BL-ON-1
12. BL-DIM-1
13. BL-I-CTRL-1
14. POWER-OK-1
1G51 (B04D)
1. +VDISP
2. +VDISP
3. +VDISP
4. +VDISP
|
|
51.
Wiring diagram 42" 5000 series
8G51
J2
3P
8C20
1316
8P
1M95
14P
1308
2P
NL
J1
11P
SENSOR BOARD
(1122)
CN2 CN1
White wires
RED Wires
51P
8M95
LED Power
8D01
8308
AV IN
NETWORK
SERV.U
AUDIO IN
DVI/VGA
VGA CVI USB 1
TV ANTENNA
(1) ARC (2) (3)
HDMI
HDMI
SIDE
DIGITAL
AUDIO
OUT
USB 3
USB 2
1D01
4P
1C22
11P
1M95
14P
1D02
3P
1G51
52P
SSB
(1150)
B
MAIN POWER SUPPLY
(1005)
A
J
E
KEYBOARD CONTROL
(1114)
Block Diagrams
EN 42L12M1.1L LA 9.
2012-Aug-17
back to
div. table
9-3 Wiring Diagram 42" (6000 series)
19300_036_120416.eps
120416
1C22 (B04C)
1. LIGHT-SENSOR
2. 3D-LED
3. LED-2
4. GND
5. KEYBOARD
6. +3.3 V - STANDBY
7. RC
8. +5 V
9. SCL-SET
10. GND
11. SDA-SET
J1 (J)
1. SDA-SET
2. GND
3. SCL-SET
4. +5 V
5. RC
6. +3.3 V - STANDBY
7. KEYBOARD
8. GND
9. LED-2
10. 3D-LED
11. LIGHT-SENSOR
1D01 (B03)
1. LEFT-+
2. LEFT--
3. RIGHT-+
4. RIGHT--
1D02 (B03)
1. LEFT-+
2. GND
3. RIGHT--
J2 (J)
1. +5 V
2. KEYBOARD
3. +3.3 V - STANDBY
1M95 (B01)
1. +3V3STBY
2. STANDBY
3. GND
4. GND
5. +12Vin
6. +12Vin
7. +12VAUDIO
8. +12VAUDIO
9. GND
10. GND
11. BL-ON-1
12. BL-DIM-1
13. BL-I-CTRL-1
14. POWER-OK-1
1G51 (B04D)
1. +VDISP
2. +VDISP
3. +VDISP
4. +VDISP
|
|
51.
Wiring diagram 42" 6000 series
8G51
J2
3P
8C20
1M95
14P
1308
2P
NL
J1
11P
SENSOR BOARD
(1122)
CN2 CN1
White wires
RED Wires
51P
8M95
LED Power
8D01
8308
8M54
4P
1316
8P
AV IN
NETWORK
SERV.U
AUDIO IN
DVI/VGA
VGA CVI USB 1
TV ANTENNA
(1) ARC (2) (3)
HDMI
HDMI
SIDE
DIGITAL
AUDIO
OUT
USB 3
USB 2
1D01
4P
1C22
11P
1M95
14P
1D02
3P
1G51
52P
SSB
(1150)
B
MAIN POWER SUPPLY
(1005)
A
J
E
KEYBOARD CONTROL
(1114)
Block Diagrams
EN 43L12M1.1L LA 9.
2012-Aug-17
back to
div. table
9-4 Wiring Diagram 42" (7000 series)
19300_037_120416.eps
120416
1C22 (B04C)
1. LIGHT-SENSOR
2. 3D-LED
3. LED-2
4. GND
5. KEYBOARD
6. +3.3 V - STANDBY
7. RC
8. +5 V
9. SCL-SET
10. GND
11. SDA-SET
J1 (J)
1. SDA-SET
2. GND
3. SCL-SET
4. +5 V
5. RC
6. +3.3 V - STANDBY
7. KEYBOARD
8. GND
9. LED-2
10. 3D-LED
11. LIGHT-SENSOR
1D01 (B03)
1. LEFT-+
2. LEFT--
3. RIGHT-+
4. RIGHT--
1D02 (B03)
1. LEFT-+
2. GND
3. RIGHT--
J2 (J)
1. +5 V
2. KEYBOARD
3. +3.3 V - STANDBY
1M95 (B01)
1. +3V3STBY
2. STANDBY
3. GND
4. GND
5. +12Vin
6. +12Vin
7. +12VAUDIO
8. +12VAUDIO
9. GND
10. GND
11. BL-ON-1
12. BL-DIM-1
13. BL-I-CTRL-1
14. POWER-OK-1
1G50/1G51 (B04D)
1. +VDISP
2. +VDISP
3. +VDISP
4. +VDISP
|
|
41. / 51.
1A04 (B08)
1. 3V3_AL
2. DATA_GND
3. SPI-DATA-OUT
4. DATA_GND
5. SPI-DATA-RETURN
6. DATA_GND
7. AMBI_TEMP
8. GND
9. GND
10. GND
11. GND
12. GND
13. 12V_AL
14. 12V_AL
15. 12V_AL
16. 12V_AL
17. 12V_AL
18. 12V_AL
19. 12V_AL
20. GND
Wiring diagram 42" 7000 series
8G518G50
J2
3P
8C20
1M95
14P
1M99
8P
1308
2P
NL
J1
11P
SENSOR BOARD
(1122)
41P
CN2 CN1
White wires
RED Wires
51P
8M95
8M99
8D01
8308
LED Power
4P
1316
8P
1316
8P
8M59
AMBILIGHT MODULE 10 LED
(1163)
AL
20P
1M83
AMBILIGHT MODULE 10 LED
(1163)
AL
1M84
20P
1M83
20P
8M83
AV IN
NETWORK
SERV.U
AUDIO IN
DVI/VGA
VGA CVI USB 1
TV ANTENNA
(1) ARC (2) (3)
HDMI
HDMI
SIDE
DIGITAL
AUDIO
OUT
USB 3
USB 2
1D01
4P
1C22
11P
1M95
14P
1M99
8P
1A04
18P
1D02
3P
1G51
51P
1G51
41P
SSB
(1150)
B
MAIN POWER SUPPLY
(1005)
A
J
E
KEYBOARD CONTROL
(1114)
Block Diagrams
EN 44L12M1.1L LA 9.
2012-Aug-17
back to
div. table
9-5 Wiring Diagram 47" (5000 series)
19300_038_120416.eps
120416
1C22 (B04C)
1. LIGHT-SENSOR
2. 3D-LED
3. LED-2
4. GND
5. KEYBOARD
6. +3.3 V - STANDBY
7. RC
8. +5 V
9. SCL-SET
10. GND
11. SDA-SET
J1 (J)
1. SDA-SET
2. GND
3. SCL-SET
4. +5 V
5. RC
6. +3.3 V - STANDBY
7. KEYBOARD
8. GND
9. LED-2
10. 3D-LED
11. LIGHT-SENSOR
1D01 (B03)
1. LEFT-+
2. LEFT--
3. RIGHT-+
4. RIGHT--
1D02 (B03)
1. LEFT-+
2. GND
3. RIGHT--
J2 (J)
1. +5 V
2. KEYBOARD
3. +3.3 V - STANDBY
1M95 (B01)
1. +3V3STBY
2. STANDBY
3. GND
4. GND
5. +12Vin
6. +12Vin
7. +12VAUDIO
8. +12VAUDIO
9. GND
10. GND
11. BL-ON-1
12. BL-DIM-1
13. BL-I-CTRL-1
14. POWER-OK-1
1G51 (B04D)
1. +VDISP
2. +VDISP
3. +VDISP
4. +VDISP
|
|
51.
Wiring diagram 47" 5000 series
8G51
J2
3P
8C20
1316
8P
1M95
14P
1315
8P
1308
2P
NL
J1
11P
SENSOR BOARD
(1122)
CN2 CN1
White wires
RED Wires
51P
8M95
LED Power
8D01
8308
AV IN
NETWORK
SERV.U
AUDIO IN
DVI/VGA
VGA C VI USB 1
TV ANTENNA
(1) ARC (2) (3)
HDMI
HDMI
SIDE
DIGITAL
AUDIO
OUT
USB 3
USB 2
1D01
4P
1C22
11P
1M95
14P
1D02
3P
1G51
52P
SSB
(1150)
B
MAIN POWER SUPPLY
(1005)
A
J
E
KEYBOARD CONTROL
(1114)
Block Diagrams
EN 45L12M1.1L LA 9.
2012-Aug-17
back to
div. table
9-6 Wiring Diagram 47" (7000 series)
19300_039_120416.eps
120416
1C22 (B04C)
1. LIGHT-SENSOR
2. 3D-LED
3. LED-2
4. GND
5. KEYBOARD
6. +3.3 V - STANDBY
7. RC
8. +5 V
9. SCL-SET
10. GND
11. SDA-SET
J1 (J)
1. SDA-SET
2. GND
3. SCL-SET
4. +5 V
5. RC
6. +3.3 V - STANDBY
7. KEYBOARD
8. GND
9. LED-2
10. 3D-LED
11. LIGHT-SENSOR
1D01 (B03)
1. LEFT-+
2. LEFT--
3. RIGHT-+
4. RIGHT--
1D02 (B03)
1. LEFT-+
2. GND
3. RIGHT--
J2 (J)
1. +5 V
2. KEYBOARD
3. +3.3 V - STANDBY
1M95 (B01)
1. +3V3STBY
2. STANDBY
3. GND
4. GND
5. +12Vin
6. +12Vin
7. +12VAUDIO
8. +12VAUDIO
9. GND
10. GND
11. BL-ON-1
12. BL-DIM-1
13. BL-I-CTRL-1
14. POWER-OK-1
1G50/1G51 (B04D)
1. +VDISP
2. +VDISP
3. +VDISP
4. +VDISP
|
|
41. / 51.
1A04 (B08)
1. 3V3_AL
2. DATA_GND
3. SPI-DATA-OUT
4. DATA_GND
5. SPI-DATA-RETURN
6. DATA_GND
7. AMBI_TEMP
8. GND
9. GND
10. GND
11. GND
12. GND
13. 12V_AL
14. 12V_AL
15. 12V_AL
16. 12V_AL
17. 12V_AL
18. 12V_AL
19. 12V_AL
20. GND
Wiring diagram 47" 7000 series
8G518G50
J2
3P
8C20
1M95
14P
1M99
8P
1308
2P
NL
J1
11P
SENSOR BOARD
(1122)
41P
CN2 CN1
White wires
RED Wires
51P
8M95
8M99
8D01
8308
LED Power
4P
1316
8P
1316
8P
8M59
AMBILIGHT MODULE 12 LED
(1163)
AL
20P
1M83
AMBILIGHT MODULE 12 LED
(1163)
AL
1M84
20P
1M83
20P
8M83
AV IN
NETWORK
SERV.U
AUDIO IN
DVI/VGA
VGA C VI USB 1
TV ANTENNA
(1) ARC (2) (3)
HDMI
HDMI
SIDE
DIGITAL
AUDIO
OUT
USB 3
USB 2
1D01
4P
1C22
11P
1M95
14P
1M99
8P
1A04
18P
1D02
3P
1G51
51P
1G51
41P
SSB
(1150)
B
MAIN POWER SUPPLY
(1005)
A
J
E
KEYBOARD CONTROL
(1114)
Block Diagrams
EN 46L12M1.1L LA 9.
2012-Aug-17
back to
div. table
9-7 Wiring Diagram 55" (7000 series)
19301_003_120703.eps
120703
1C22 (B04C)
1. LIGHT-SENSOR
2. 3D-LED
3. LED-2
4. GND
5. KEYBOARD
6. +3.3 V - STANDBY
7. RC
8. +5 V
9. SCL-SET
10. GND
11. SDA-SET
J1 (J)
1. SDA-SET
2. GND
3. SCL-SET
4. +5 V
5. RC
6. +3.3 V - STANDBY
7. KEYBOARD
8. GND
9. LED-2
10. 3D-LED
11. LIGHT-SENSOR
1D01 (B03)
1. LEFT-+
2. LEFT--
3. RIGHT-+
4. RIGHT--
1D02 (B03)
1. LEFT-+
2. GND
3. RIGHT--
J2 (J)
1. +5 V
2. KEYBOARD
3. +3.3 V - STANDBY
1M95 (B01)
1. +3V3STBY
2. STANDBY
3. GND
4. GND
5. +12Vin
6. +12Vin
7. +12VAUDIO
8. +12VAUDIO
9. GND
10. GND
11. BL-ON-1
12. BL-DIM-1
13. BL-I-CTRL-1
14. POWER-OK-1
1G50/1G51 (B04D)
1. +VDISP
2. +VDISP
3. +VDISP
4. +VDISP
|
|
41. / 51.
1A04 (B08)
1. 3V3_AL
2. DATA_GND
3. SPI-DATA-OUT
4. DATA_GND
5. SPI-DATA-RETURN
6. DATA_GND
7. AMBI_TEMP
8. GND
9. GND
10. GND
11. GND
12. GND
13. 12V_AL
14. 12V_AL
15. 12V_AL
16. 12V_AL
17. 12V_AL
18. 12V_AL
19. 12V_AL
20. GND
Wiring diagram 55" 7000 series
White wiresWhite wires
AV IN
NETWORK
SERV.U
AUDIO IN
DVI/VGA
VGA CVI USB 1
TV ANTENNA
(1) ARC (2) (3)
HDMI
HDMI
SIDE
DIGITAL
AUDIO
OUT
USB 3
USB 2
1A04
18P
1G51
51P
1G51
41P
SSB
(1150)
B
E
KEYBOARD CONTROL
(1114)
4P
NL
MAIN POWER SUPPLY
(1005)
A
1308
2P
Red wiresRed wires
CN2 CN1
41P 51P
LED power
8G51
8G50
8308
1M95
14P
1316
8P
1316
8P
J2
3P
J1
11P
SENSOR BOARD
(1122)
J
8M95
8M99
Red wires
White wires
1C22
11P
1D01
4P
1D023P1M95
14P
1M99
8P
1M99
8P
8C20
8D01
AMBILIGHT MODULE 12 LED
(1163)
AL
20P
1M83
AMBILIGHT MODULE 12 LED
(1163)
AL
1M84
20P
1M83
20P
8M59
8M83
Block Diagrams
EN 47L12M1.1L LA 9.
2012-Aug-17
back to
div. table
9-8 Wiring Diagram 55" (6000 series)
19301_002_120703.eps
120703
1C22 (B04C)
1. LIGHT-SENSOR
2. 3D-LED
3. LED-2
4. GND
5. KEYBOARD
6. +3.3 V - STANDBY
7. RC
8. +5 V
9. SCL-SET
10. GND
11. SDA-SET
J1 (J)
1. SDA-SET
2. GND
3. SCL-SET
4. +5 V
5. RC
6. +3.3 V - STANDBY
7. KEYBOARD
8. GND
9. LED-2
10. 3D-LED
11. LIGHT-SENSOR
1D01 (B03)
1. LEFT-+
2. LEFT--
3. RIGHT-+
4. RIGHT--
1D02 (B03)
1. LEFT-+
2. GND
3. RIGHT--
J2 (J)
1. +5 V
2. KEYBOARD
3. +3.3 V - STANDBY
1M95 (B01)
1. +3V3STBY
2. STANDBY
3. GND
4. GND
5. +12Vin
6. +12Vin
7. +12VAUDIO
8. +12VAUDIO
9. GND
10. GND
11. BL-ON-1
12. BL-DIM-1
13. BL-I-CTRL-1
14. POWER-OK-1
1G50/1G51 (B04D)
1. +VDISP
2. +VDISP
3. +VDISP
4. +VDISP
|
|
41. / 51.
Wiring diagram 55" 6000 series
White wiresWhite wires
AV IN
NETWORK
SERV.U
AUDIO IN
DVI/VGA
VGA CVI USB 1
TV ANTENNA
(1) ARC (2) (3)
HDMI
HDMI
SIDE
DIGITAL
AUDIO
OUT
USB 3
USB 2
1A04
18P
1G51
51P
1G51
41P
SSB
(1150)
B
E
KEYBOARD CONTROL
(1114)
4P
NL
MAIN POWER SUPPLY
(1005)
A
1308
2P
Red wiresRed wires
CN2 CN1
41P 51P
LED power
8G51
8G50
8308
1M95
14P
1316
8P
1316
8P
J2
3P
J1
11P
SENSOR BOARD
(1122)
J
8M95
8M99
Red wires
White wires
1C22
11P
1D01
4P
1D023P1M95
14P
1M99
8P
1M99
8P
8C20
8D01
Block Diagrams
EN 48L12M1.1L LA 9.
2012-Aug-17
back to
div. table
9-9 Block Diagram Video
B02
TUNER & DEMOD
B04
MT5396
B04D
LVDS DISPLAY
B06C
VGA
B05B
USB
B05A
DIGITAL I/O-HDMI
B04B
DDR3
B04C
FLASH+CONTROL+EJTAG
19300_018_120403.eps
120403
VIDEO
B06B
ANALOG I/O-COMPONENT & COMPOSITE
RES
DEMOD_TSCLK
DEMOD_TSVAL
DEMOD_TSSYNC
DEMOD_TSDATA7
IF2_N
IF2_P
IF_AGC2
IF_P
IF_N
IF_AGC1
ARA(0-14)
BRA(0-12)
ARDQ(0-31)
ARDQ(0-15)
ARDQ(16-31)
BRDQ(0-15)
BRDQ(16-31)
BRDQ(0-31)
NAND_PDD(0-7)
RX_1_2
RX_1_2B
RX_1_1
RX_1_1B
RX_1_0
RX_1_0B
RX_1_C
RX_1_CB
RX_2_2
RX_2_2B
RX_2_1
RX_2_1B
RX_2_0
RX_2_0B
RX_2_C
RX_2_CB
RX_3_2
RX_3_2B
RX_3_1
RX_3_1B
RX_3_0
RX_3_0B
RX_3_C
RX_3_CB
RX_0_2
RX_0_2B
RX_0_1
RX_0_1B
RX_0_0
RX_0_0B
RX_0_C
RX_0_CB
HSYNC
VSYNC
RP
GP
BP
CVBS_AV3
CVBS_AV4
SPR0P
SPB0P
SY0P
PX1
PX2
PX3
PX4
USB_DM_P3
USB_DP_P3
USB_DM_P2
USB_DP_P2
USB_DM_P1
USB_DP_P1
USB_DM_P0
USB_DP_P0
DEMOD_RST
7300
MT5396
LVDS_EPI
B04D
DEMOD_IF
B02
DEMOD_TSSYNC
DEMOD_TSDATA0
T32
T31
T35
T36
AT32
AU32
1201
SUT-RA214ZN
7210
CXD2828
TUNER
DIGITAL
DEMODULATOR
7
DEMOD_TSCLK
2
5
IF1_P
8
4321
C37
C36
USB_DP_P0
USB_DM_P0
1D01
1
2
4
3
HDMI-ETHERNET
B05A
HDMI_1_RX
HDMI_2_RX
AC35
AC34
AE35
AE34
AD35
AD34
AE37
AE36
AA37
AA36
AC37
AC36
AA35
AA34
AB35
AB34
19
1
18 2
1
1B03
3
4
7
9
10
12
6
HDMI 3
CONNECTOR
1
1B04
3
4
7
9
10
12
6
19
1
18 2
HDMI 4 (SIDE)
CONNECTOR
DEMOD_TSVAL
337
38
IF1_N
4
3
17
DDR3
B04B
GPIO_USB
B04C
7700
H27U4G8F2D
FLASH
4Gb
ARDQ
ARA
PDD
SDRAM
2Gb
7602
H5TQ2G63BFR
SDRAM
2Gb
7601
H5TQ2G63BFR
1
1A01
2
3
14
13
1
6
10
11
5
15
VGA
CONNECTOR
AM25
AN25
AU24
AR24
AR25
ADCINN_DEMOD
ADCINP_DEMOD
IF2_N
IF2_P
U35
9
IF_AGC
AGC2
4
48
SDRAM
1Gb
7604
H5TQ1G63DFR
SDRAM
1Gb
7603
H5TQ1G63DFR
BRA
BRDQ
SERIAL_NAND
SDIO_SPI
B04C
PDD
TO DISPLAY
TO DISPLAY
1G51
40
11
1G50
32
3
AO
AE
BO
BE
HDMI_3_RX
HDMI_0_RX
AJ37
AJ36
AJ33
AK33
AJ35
AJ34
AK35
AK34
AF35
AF34
AH35
AH34
AG37
AG36
AG35
AG34
1
1B01
3
4
7
9
10
12
6
1
1B02
3
4
7
9
10
12
6
19
1
18 2
HDMI 2
CONNECTOR
19
1
18 2
HDMI 1
CONNECTOR
RP
VSYNC
GP
BP
HSYNC
VIDEO_IO
B06B
CVBS
SIDE
AN29
CVBS0P
10
1VA1
18
14
5
AR31
AP27
AT28
AR28
PR0P
PB0P
Y0P
CVBS1P
AU14
AT14
USB_DP_P3
USB_DM_P3
1C03
1
2
4
3
AU13
AT13
USB_DP_P2
USB_DM_P2
1C02
1
2
4
3
D37
D36
USB_DP_P1
USB_DM_P1
1C01
1
2
4
3
4321
4321
4321
HDD
SKYPE
SIDE
WIFI
CVI1
29
T34
DEMOD_RST
Block Diagrams
EN 49L12M1.1L LA 9.
2012-Aug-17
back to
div. table
9-10 Block Diagram Audio
AUDIO
TUNER & DEMOD
B02
B06B
B03
B05A
CONNECTOR
CONNECTOR
CONNECTOR
HDMI 4 (SIDE)
CONNECTOR
1201
SUT-RA214ZN
TUNER
4
2
IF1_P
337
IF1_N
9
AGC2
7
IF2_P
8
IF2_N
ANALOG I/O-COMPONENT & COMPOSITE
1VA1
CVI1
PC_AUDIO
CVBS
SIDE
19
23
CLASS-D & MUTING
1D03
2
SPDIF
OUT
1
3
+3V3_SW
DIGITAL I/O-HDMI
1B01
1
1
19
HDMI 1
1
19
HDMI 2
1
19
HDMI 3
1
19
18 2
18 2
18 2
18 2
3
4
6
7
9
10
12
14
1B02
1
3
4
6
7
9
10
12
1B03
1
3
4
6
7
9
10
12
1B04
1
3
4
6
7
9
10
12
5B01
IF_AGC1
IF_N
IF_P
2B01
7210
CXD2828
48
38
SPDIF_OUT
3B09
Block Diagrams
DIGITAL
DEMODULATOR
DEMOD_TSCLK
5
4
DEMOD_TSVAL
DEMOD_TSSYNC
3
DEMOD_TSDATA7
17
IF_AGC2
IF2_N
IF2_P
AIN0_L
AIN0_R
AIN2_L
AIN2_R
AIN1_L
AIN1_R
RX_3_2
RX_3_2B
RX_3_1
RX_3_1B
RX_3_0
RX_3_0B
RX_3_C
RX_3_CB
RX_0_2
RX_0_2B
RX_0_1
RX_0_1B
RX_0_0
RX_0_0B
RX_0_C
RX_0_CB
RX_1_2
RX_1_2B
RX_1_1
RX_1_1B
RX_1_0
RX_1_0B
RX_1_C
RX_1_CB
RX_2_2
RX_2_2B
RX_2_1
RX_2_1B
RX_2_0
RX_2_0B
RX_2_C
RX_2_CB
ARC
B04
7300
MT5396
B02
T32
DEMOD_TSCLK
T31
DEMOD_TSVAL
T35
DEMOD_TSSYNC
T36
DEMOD_TSDATA0
U35
IF_AGC
AT32
ADCINN_DEMOD
AU32
ADCINP_DEMOD
B06B
AU35
AIN0_L_AADC
AU37
AIN0_R_AADC
AP34
AIN2_L_AADC
AU36
AIN2_R_AADC
AT37
AIN1_L_AADC
AT35
AIN1_R_AADC
AR16
ASPDIF0
Y32
ASPDIF1
B05A
AJ37
AJ36
AJ35
AJ34
AK35
HDMI_3_RX
AK34
AJ33
AK33
AF35
AF34
AG37
AG36
HDMI_0_RX
AG35
AG34
AH35
AH34
AC35
AC34
AD35
AD34
HDMI_1_RX
AE37
AE36
AE35
AE34
AA37
AA36
AA35
AA34
HDMI_2_RX
AB35
AB34
AC37
AC36
MT5396
DEMOD_IF
AUDIO_DAC_ADC
HDMI-ETHERNET
EN 50L12M1.1L LA 9.
AUDIO_DAC_ADC
B06B
GPIO_USB
B04C
SERIAL_NAND
B04C
SDIO_SPI
DDR3
B04B
AOLRCK
AOBCK
AOMCK
AOSDATA0
B01A
B06Q
AL3_ADAC
AR3_ADAC
USB_DM_P1
USB_DP_P1
USB_DM_P2
USB_DP_P2
USB_DM_P3
USB_DP_P3
USB_DM_P0
USB_DP_P0
PDD
PDD
BRDQ
ARDQ
ARA
BRA
AP11
AR11
AM12
AN9
AM35
AM36
D37
D36
AU13
AT13
AU14
AT14
C37
C36
CLASS-D & MUTING
B03
AOLRCK
AOBCK
AOMCK
AOSDATA0
MUTE
B04A
POWER_
DOWN
B04A
B06A
RESET-AUDIO
B04A
HPOUT_L
HPOUT_R
B05B
RES
B04C
NAND_PDD(0-7)
B04B
7601
H5TQ2G63BFR
ARDQ(0-15)
7401
ANALOG I/O - HEADPHONE
USB
USB_DM_P1
USB_DP_P1
USB_DM_P2
USB_DP_P2
USB_DM_P3
USB_DP_P3
USB_DM_P0
USB_DP_P0
FLASH+CONTROL+EJTAG
DDR3
ARDQ(0-31)
SDRAM
2Gb
ARA(0-14)
20
21
15
22
19
25
1C01
1C02
1C03
1D01
7700
H27U4G8F2D
FLASH
4Gb
7602
H5TQ2G63BFR
ARDQ(16-31)
SDRAM
7400
TAS5731
CLASS D
POWER
AMPLIFIER
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
2Gb
4321
4321
4321
4321
7801-1
46
1
+VSND
39
+VSND
36
HDD
SKYPE
SIDE
WIFI
BRDQ(0-15)
2467
2469
7800
TS48911
5
AMPLI-
2
FIER
6
BRDQ(0-31)
7603
H5TQ1G63DFR
SDRAM
1Gb
BRA(0-12)
2468
2470
1
7
1D01
1
2
SPEAKER L
3
4
SPEAKER R
7604
H5TQ1G63DFR
BRDQ(16-31)
5410
5413
1401
SDRAM
1Gb
1D02
1
2
3
SPEAKER
WOOFER
HEADPHONE
OUT 3.5 mm
19300_024_120404.eps
120404
2012-Aug-17
back to
div. table
9-11 Block Diagram Control & Clock Signals
CONTROL + CLOCK SIGNALS
B04B
DDR3
B01C
DC-DC
19300_027_120405.eps
120405
B04A
MTK5396 POWER
B04A
MTK5396 POWER
B03
B06A
B03
B04C
FLASH+CONTROL+EJTAG
B04D
B04D
B06B
B06B
B08
B08
B05A
B05A
B06C
B05B
B05B
B04C
FLASH+CONTROL+EJTAG
B08
B08
B07
ETHERNET
B08
AMBILIGHT
B08
B08
B04C
STANDBY
POWER_OK
BL_ON_OFF
PWM-DIMMING
BACKLIGHT-BOOST-A
+12VS
POWER_DOWN
RESET_AUDIO
MUTE
+3V3STBY
KEYBOARD
RC
LIGHT-SENSOR
LED2
+3V3STBY
3D-LED
+5V_SW
LCD_PWR_ON
3D_2D_SELECT
YPBPR_DETECT
CVBS_DETECT
ENABLE_3V3_AMBIn
AMBI_TEMP
HDMI_CEC
HDMI_x_HPD
VGA_DETECT
WOLAN_IRQ
ENABLE_WOLAN
ARDQ(0-31)
ARDQ(0-15)
ARDQ(16-31)
BRDQ(0-15)
BRDQ(0-31)
ARA(0-14)
BRA(0-14)
BRDQ(16-31)
ARcontrol
BRcontrol
NAND_control
AMBI_SPI_SDO
NAND_PDD(0-7)
AMBI_SPI_SCKO
TXVP_0
TXVN_0
RXVP_1
RXVN_1
AMBI_SPI_SDO
AMBI_SPI_SCKO
AMBI_TEMP
SERIAL_NAND
SDIO_SPI
B04C
DDR3
B04B
TO
IR/LED PANEL
AND
KEYBOARD
CONTROL
3
4
5
6
1
1C20
7300
MT5393
UART
SERVICE
CONNECTOR
1701
3
2
1
PDD
7
2701
SDM
2700
PANEL
1703
27M
AU34
AT34
ORESET
7701
BD45292G
VOUT
VDD
5
4
3
2
11
14
12
1M95
AM20
AR12
AN19
C31
13
AT12
7500
DRAM
B04B
OPWRSB
OPCTRL6
GPIO_USB
B04C
GPIO47
7703
MISC
B04C
OPWM1
OPWM0
OPTCTRL_TCON
B04A
7501, 7502
OPCTRL1
AN20
7504
OPCTRL2
AM19
7503
OPCTRL4
AR19
LED2_PWM1
AN22
TO
POWER
SUPPLY
GPIO_USB
B04C
ADIN4_SRV
AU23
ADIN5_SRV
AT23
MISC
B04C
OIRI
AU21
XTAL1
XTALO
ORESET
AM22
UORX
AP18
UOTX
AR18
ADIN5_SRV
AT23
2
8
GPIO_USB
B04C
GPIO43
E32
GPIO54
AR9
GPIO46
D31
GPIO48
E30
GPIO53
AT9
ADIN7_SRV
AM23
AP9
GPIO52
AP9
GPIO52
E29
GPIO51
HDMI_CEC
AA32
HDMI_x_HPD
Ax32
OPCTRL9
AN18
OPCTRL0
AR20
OPCTRL5
AP19
SDRAM
2Gb
7602
H5TQ2G63BFR
SDRAM
2Gb
7601
H5TQ2G63BFR
SDRAM
1Gb
7604
H5TQ1G63DFR
SDRAM
1Gb
7603
H5TQ1G63DFR
ARDQ
BRA
BRDQ
ARA
BRcontrol
ARcontrol
7700
H27U4G8F2D
FLASH
4Gb
Pcontrol
LDM_CS
AM9
LDM_CLK
AU11
ETHERNET
CONNECTOR
RJ45
AT18
AU18
AT17
AU17
HDMI_ETHERNET
B05A
TXVP_0
TXVN_0
RXVP_1
RXVN_1
3
1A04
5
7
TO
AMBILIGHT
Block Diagrams
EN 51L12M1.1L LA 9.
2012-Aug-17
back to
div. table
I²C
TUNER & DEMOD
B02
HDMI & MUX
B05A
FLASH + CONTROL + EJTAG
B04C
LVDS DISPLAY
B04D
CLASS-D & MUTING
B03
MTK5396 POWER
B04A
VGA
B06C
RES
B04D
B04C
RES
RES
B04C
RES
B04A
19300_001_120330.eps
120330
FLASH+CONTROL+EJTAG
B04C
RES
+3V3_SW
DEMOD_SDA
DEMOD_SCL
+3V3_SW
TUNER_SDA
TUNER_SCL
+3V3_SW
OPWR1_5V
OPWR2_5V
HDMI_2_SDA
HDMI_2_SCL
HDMI_1_SDA
HDMI_1_SCL
HDMI_0_SDA
HDMI_0_SCL
HDMI_3_SDA
HDMI_3_SCL
OPWR3_5V
OPWR0_5V
VGA_SDA
VGA_SCL
+5V_DC
+3V3_SW
VCOM_SDA
VCOM_SCL
VCOM_SDA
VCOM_SCL
+3V3STBY
SDA
SCL
VGA_SDA
VGA_SCL
STB_SDA
STB_SCL
SYS_EEPROM_WE
ERR
13
STB_SDA
STB_SCL
3537
3538
AR21
AT21
3784
3783
7300
MT5396
OSDA0
OSCL0
GPIO44
F327
AN12
AP12
3735
3734
OSDA2
OSCL2
56
7705
M24C64
EEPROM
(NVM)
3741
3740
V34
V35
3213
3212
MISC
B04C
ERR
35
7702
1
6
10
11
5
15
VGA
CONNECTOR
21 20
7210
CXD2828ER
DIGITAL
DEMODULATOR
3232
3231
11 10
1201
SUT-RA214ZN
MAIN
TUNER
ERR
27
3218
3217
46
45
7D04
PCA9540BDP
I2C
SWITCH
HDMI 3
CONNECTOR
HDMI 4 (SIDE)
CONNECTOR
1B04
16
15
TO
DISPLAY
1G51
50
49
3B22
3B21
AB33
AC33
1B03
16
15
3B12
3B11
AD33
AE33
HDMI_SCL2
HDMI_SCL1
HDMI_SDA2
HDMI_SDA1
4D23
4D24
3205
3204
23 24
7400
TAS5731PHP
CLASS D
AMPLIFIER
3402
3403
HDMI 1
CONNECTOR
HDMI 2
CONNECTOR
1B02
16
15
3B02
3B01
AF33
AG33
1B01
16
15
3B32
3B31
AH33
AH32
B04C
OPTCTRL_
TCON
HDMI_2_SDA
HDMI_2_SCL
HDMI_1_SDA
HDMI_1_SCL
HDMI_0_SDA
HDMI_0_SCL
HDMI_3_SDA
HDMI_3_SCL
1A01
12
15
3A20
3A21
AR22
AP22
VGA_SDA
VGA_SCL
3A26
3A27
19
1
18 2
19
1
18 2
19
1
18 2
19
1
18 2
AN15
AP15
OSDA0
OSCL0
2
1
7
8
STB_SDA
STB_SCL
3539
3540
TO
LOCAL
CONTROL
1C20
11
9
3759
37A9
ERR
34
3799
3798
TEMPERATURE
SENSOR
1T71
1
3
Block Diagrams
9-12 Block Diagram I2C
EN 52L12M1.1L LA 9.
2012-Aug-17
back to
div. table
9-13 Supply Lines Overview
SUPPLY LINES OVERVIEW
B01
DC - DC
B04C
CONTROLLER
B06A
ANOLOG I/O - HEADPHONE
B04A
MTK POWER
B04B
DDR3
B05A
DIGITAL I/O & HDMI
B05B
DIGITAL I/O - USB
B06C
VGA
B04D
LVDS DISPLAY
B02
TUNER & DEMOD
B03
CLASS-D & MUTING
B07
ETHERNET
19300_029_120406.eps
120406
B04A
B04C
B04C
B04C
B04A
B08
AMBILIGHT
+12V_AL
+12VS
+3V3STBY
STANDBY
+12VS
+VSND
BL_ON_OFF
BACKLIGHT-BOOST-A
PWM-DIMMING
POWER-OK
+12VS
+3V3_SW
+1V1_SW
+1V5_SW
+5V_SW
+1V2_SW
+1V2_SW+1V2_SW
+3V3_SW+3V3_SW
B01
B01
B01
+5V_SW
+2V5_SW
+3V3_TUN
+3V3_SW+3V3_SW
+VSND+VSND
B01
+12VS+12VS
B01
B01
+3V3_AUDIO
+3V3D
+1V1_SW+1V1_SW
+1V2_SW+1V2_SW
B01
+3V3_SW+3V3_SW
B01
+3V3STBY+3V3STBY
B01
B01
B01
+1V5_SW+1V5_SW
SENSE+1V1_MT5396
B01
SENSE+1V1_MT5396
B04a
B01
+12VS+12VS
OPWR0_5V
OPWR0_5V
OPWR2_5V
OPWR1_5V
OPWR2_5V
OPWR2_5V
OPWR3_5V
OPWR3_5V
B05a
B05a
B05a
B05a
SENSE+1V5_MT5396
B01
SENSE+1V5_MT5396
B04a
B01
+3V3_SW+3V3_SW
B01
+3V3STBY+3V3STBY
+5V_SW+5V_SW
B01
B01
B01
B01
+3V3STBY+3V3STBY
+3V3_SW+3V3_SW
+VDISP
+3V3_SW+3V3_SW
B01
+3V3STBY+3V3STBY
OPWR1_5V
OPWR2_5V
OPWR3_5V
OPWR0_5V
B04a
B04a
B04a
B04a
+5V_SW
+5V_SW
B01
+5V_USB1
+5V_USB2
+5V_USB3
USB_PWR_P0
+3V3STBY
+3V3_WOLAN
B01
+3V3_SW
B01
+3V3_SW
+3V3STBY
B01
+3V3STBY
B01
+5V_SW+5V_SW
5V_DC
+3V3AN+3V3_SW
B01
+3V3_SW
+3V3_SW
B01
+3V3_AL
+12V_AL
+12V_AL
B01
B01
+1V5_SW+1V5_SW
+12VS
B01
B08
B03
B03,B04a,B04d
B04a,B04c,B04d,
B05a,B05b,B06a
B02,B03,B04a,
B04c,B04d,B05a,
B06a,B07,B08
B02,B04a
B02,B04c,B05b,
B06c
B04a,B04b
B04a
TO
AMBILIGHT
5F05
4D05
POWER
SUPPLY
1M95
11
66
77
88
1M95
1M99
11
66
77
22
33
44
55
88
1M99
11 11
12 12
22
33
44
55
13 13
7116
RT8293
Synchronous
Step-down
Converter
5101
1B03
18
HDMI 3
CONNECTOR
5100
32
32
7118
RT8293
Synchronous
Step-down
Converter
7110
RT8288
5105 5104
32
7117
RT8293
32
1C20
8
6
5103
1B04
18
HDMI 4 SIDE
CONNECTOR
7D02, 7D03
LCD_PWR_ON
7D00
5D00
5D01
5D02
5106 5107
7220
IN OUT
COM
1E01
9
VGA
CONNECTOR
3A19
Synchronous
Step-down
Converter
5102
Synchronous
Step-down
Converter
7113
IN OUT
COM
6A07
5A06
1G51
4
2
1
3
99
10 10
14 14
7216
IN OUT
COM
7216
IN OUT
COM
4402
4403
5416
6
6
37A1
4D04
4D06
1B01
18
HDMI 1
CONNECTOR
1B02
18
HDMI 2
CONNECTOR
1C01
1
3C01
1C02
1
3C11
1C03
1
3C21
1C31
1
3C31
7C01
RT9715
5
1
6A06
ENABLE_WOLAN
4
5G58
1G07
T1A
1G06
T2A
1A04
1
14
15
16
17
18
TO
DISPLAY
PANEL
TO
CONTROL
PANEL
Block Diagrams
EN 53L12M1.1L LA 9.
2012-Aug-17
back to
div. table
Circuit Diagrams and PWB Layouts
19300_031_120410.eps
120410
Power Supply Unit with Integrated Led Driver
A01 A01
2011-12-08
1
2722 171 90587
2722 171 90588
PLDC-P102A
Power Supply Unit with
Integrated Led Driver
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!
COLD
COLD
COLD
HOT
Live
LiveLive
LiveNeutral
TP98 is on the pattern of Heatsink2.
TP230 is on Pin 3 of L602 but this pin is not indicated here
D116
RF101L4S
C115
1nF 630V
R127
1M 1/2 W PRC
C116
104
C117
104
R124
220K
R128
510K
R126
10K
R125
10K
1
2
CN1_1308
AC-inlet
CY104
OPEN
R101
120 1W
s
SA101
TSA601MA1
F101
T3.15AH 250V
PC101
EL817MC
PC102
EL817MC
R109
1K
ZD102
15V
Q101
KTN2222A / TO-92
R110
10K
R306
1.5K F
C304
104
U301
AZ431L
R302
100F
R303
1.5KF
R305
2.7K F
R310
1K
R308
560
C301
NXB 1000uF/10V
B
EC
Q301
KST2907A
R307
120 F
R304
4.3K F
R309
4.7K
C305
104
L301
4.7uH
C303
225
C109
ZS 22uF/50V
D107
UF4007
R105
0
C121
ZS22uF/50V
ZD103
OPEN
C107
225
D106A
IN4007
R113
200
ZD101
P6KE160A
PC501
EL817MC
CY202
471
C507
102/50V
ZD503
5.6V
C509
open
1
CSS
2
DELAY
3
CF
4
RFMIN
5
STBY
6
ISEN
7
LINE
8
DIS
9
PFC_STOP
10
GND
11
LVG
12
VCC
13
NC
14
OUT
15
HVG
16
VBOOT
U501
IC-SOP-16-L6599
L6599
R511
4.3KF
R521
47
R522
10
D504
MMSD4148W
R523
10K
R518
47
R519
10
D503
MMSD4148W
R520
10K
R513
56
C511
104
R512
0
C506
105
R509
47
R507
10KF
R508
3.3KF
C501
222
C504
224
C505
331 C0G
R510
750K
C502
103
C508
104
R527
33
R501
100K
R502
36K
R531
100/1W
D512
1N4148
D506
MMSD4148W
PC103
EL817MC
R507A
0
L501
BFS3550A
1
2
3
4
5
6
7
8
9
10
T101
EFD1515
1
GND2VCC3VFB4IPK
5
VSTR
6
DRAIN7DRAIN8DRAIN
U101
FSL106MR
G
D
S
Q501
5N50_D PACK
G
D
S
Q510
5N50_D PACK
R256
1K F
R251
620
R252
10K F
C215
OPEN
C411
68uF/100V
R255
56 F
C211
105
R257
4.3K F
R253
2.4K F
U203
AS431AZ
C201
NXB 1000uF/16V
C202
NXB 1000uF/16V
D212B
MBRF2060CTL
R254
300 F
C205
NXB 1000uF/16V
C206
NXB 1000uF/16V
C214
OPEN
L512
JUMPER
D211
MBRF10150CT
1
2
3
4
5
6
7
8
9
10
11
12
T501
PEE3232
B
EC
Q103
OPEN
R129
OPEN
C120
OPEN
R130
OPEN
D112
OPEN
R330
20K F
U306
AZ431AN / SMD
C320
102
R314
51K F
R317
0 F
B
EC
Q150
KTN2222A
C151
104
R156
1KF
B
EC
Q151
KTN2907A
R161
1KF
C152
104
R160
1KF
D151
1N4148W
R260
2KF
U204
AZ431AN/SMD
C260
102
R272
24K F
PC502
EL817MC
R270
1kF
CX101
100nF
TH601
3ohm SMT
D301
SB560 P=20mm
R311
1KF
C119
102 1KV
Q104
2N7002
L511
BFS3550A
R132
68K
R134
68K
R131
68K
R133
68K
Q105
2N7002
R120
470K
Q106
2N7002
R122
100K
C123
105
R121
220K
C122
104
1
2
3
4
BD601
10A 600V
CY103
OPEN
C645
68uF/450V
R615
470k F
R610
10k
G
G
D
D
S
S
Q602
MDF11N60
R609
100
R608
10
D603
MMSD4148
D602
NUR 460
L603
BFD3565R
G
D
S
Q603
STK0160
R619
12KF
C609
102
R620
120 F
R621
100k
R612
100
R614
2W 0.12
R604
100K F
C603
NC
C602
104
R603
1kF
C604
224
C608
473
R602
10K F
C605
102 C0G
C606
102
C607
102
D601
S3V60
R616
470k F
R617
470k F
R618
470k F
R633
2W 0.12
D601A
S3V60
D604
MMSD4148
1
FB
2
CT
3
CONTROL
4
CS5ZCD
6
GND
7
DRV
8
VCC
IC600
SCY99102BDR2G
C613
C613C613
C613
561 C0G
14
L602
400uH
12
3
4
LF102
CS1820250M
1
23
4
L601
PQ3211/10mm
C526
100pF/1kV
CY102
OPEN
C600
470nF / 500V
C601
470nF / 500V
D106
MMSD4148
C509A
225/ 25V
R152
10
L202
BFS3550A
L201
BFS3550A
CY106
470pF
R102
1K
ZD105
22V
Q102
KTN2222S / SOT-23
R103
100K
C103
ZS 10uF/50V
C102
OPEN
C610A
47p / 1KV
C610
47p / 1KV
C610B
47p / 1KV
CY101
OPEN
C513
6.8nF/1kV
CY105
470pF
L201A
BFS3550A
JW1
C203
NXB 1000uF/16V
L205
BFD3565R
C512
OPEN
C302
NXB 680uF/10V
D101
MMSD4148
D102
MMSD4148
C510
OPEN
R271
1kF
R312
1KF
VA101
OPEN
VA102
750V
TP2
TP15
TP17
TP18
TP19
TP20
TP21
TP22
TP23
TP24
TP25
TP26
TP27
TP28
TP29
TP30
TP31
TP32
TP33
TP34
TP35
TP36
TP37
TP38
TP39
TP40
TP41
TP42
TP43
TP44
TP45
TP46
TP47
TP48
TP49
TP50
TP51
TP52
TP53
TP54
TP55
TP56
TP57
TP58
TP59
TP60
TP61
TP62
TP63
TP64
TP65
TP66
TP67
TP68
TP69
TP70
TP71
TP72
TP73
TP74
TP75
TP76
TP77
TP78
TP79
TP80
TP81
TP82
TP83
TP84
TP85
TP86
TP87
TP88
TP89
TP90
TP91
TP92
TP93
TP94
TP95
TP96
TP97
TP98
TP99
TP100
TP101
TP102
TP103
TP104
TP105
TP106
TP107
TP111
TP112
TP113
TP114
TP115
TP116
TP117
TP120
TP121
TP122
TP123
TP124
TP125
TP126
TP127
TP128
TP129
TP133
TP134
TP135
TP136
TP137
TP138
TP139
TP140
TP141
TP142
TP143
TP144
TP145
TP146
TP147
TP153
TP174
TP211
TP222
TP229
TP231
TP232
TP233
TP234
TP235
TP236
TP237
TP16
TP238
TP239
C106
102
ZD103A9.1V
TP214
TP215
TP251
TP252
TP253
TP254
TP255
TP256
TP257
TP258
TP259
VCC
ST3V3
STANDBY
VCC
GND1
GND1
GND1
GND1
GND1
GND1
+12V
VLED
GND1
GND1
GND1
GND1
12V3_SND
GND_SND
3V3_OVP
GND1
GND1GND1
GND1
3V3_OVP
STVCC
GND1
DC_LINK
STVCC
LINE
LINE
12V3_OVP
12V3_OVP
ST3V3
VCC
VCC
DC_LINK
GND1
10. Circuit Diagrams and PWB Layouts
10.1 A 272217190587 - 272217190588 PSL
10-0-1 Power Supply Unit with Integrated LED Driver
EN 54L12M1.1L LA 10.
2012-Aug-17
back to
div. table
Circuit Diagrams and PWB Layouts
19300_032_120410.eps
120410
Power Supply Unit with Integrated Led Driver
A02 A02
2011-12-08
1
2722 171 90587
2722 171 90588
PLDC-P102A
Power Supply Unit with
Integrated Led Driver
!
SOT89
SOT89
SOT89
SOT89
SOT89
SOT89
3V3stdby
Standby
GND1
+12V
GND1
GND_SND
GND_SND
BL-I-CTRL
BL-ON
BL-DIM(Vsync)
POK
+Vsnd
+Vsnd
+12V
GND_AL
GND_AL
+12V_AL
+12V_AL
GND_AL/ GND_SND
+12V_AL/+Vsnd
GND_AL/ GND_SND
+12V_AL/+Vsnd
+12V_AL/+Vsnd
GND_AL/ GND_SND
NC
Anode_R
R5 Cathode
R6 Cathode
R4 Cathode
R3 Cathode
R2 Cathode
R1 C
athode
TP108.207.208 is on the pattern of Heatsink4
TP209/210 is on the solderjoint of the LED connector
but the pins are not indicated in schematic
R481C
5.1k
R482C
1k
R485C
100 F
R481B
5.1K
R482B
1K
R485B
100 F
R481A
5.1K
R482A
1K
R485A
100 F
R481F
5.1k
R482F
1k
R485F
100 F
R481E
5.1k
R482E
1k
R485E
100 F
R481D
5.1K
R482D
1K
R485D
100 F
R410
1K
R408
150K F
R406
10K
C408
105
R407
10
R403
1.2K
C437
474
R405
62K
R404
150K
C407
104
C406
105
1
NC
2
CMP7
3
IS6
4
CMP6
5
IS5
6
CMP5
7
IS4
8
CMP4
9
IS3
10
CMP3
11
IS2
12
CMP213IS114CMP115GNDA16OVP17UVLS18SSTCMP19RANGELED20ISW21GNDP22DRV
23
SYNC
24
NC
25
VREF
26
ENA
27
VIN
28
STATUS
29
ADIM
30
COMM
31
RT
32
PWM8
33
PWM7
34NC35NC36
PWM6
37
PWM5
38
PWM4
39
PWM3
40
PWM2
41
PWM1
42
IS8
43
CMP8
44
IS7
U401
LQFP-48 pin 0.8 Pitch OZ9909TN
R401
2K F
C403
102
C404
102 C0G
R402
3K F
C402
102
R409
100KF
C409
103
B
EC
Q403C
BCX52-16
B
EC
Q403B
BCX52-16
B
EC
Q403A
BCX52-16
B
EC
Q403F
BCX52-16
B
EC
Q403E
BCX52-16
B
EC
Q403D
BCX52-16
R484C
OPEN
R483C
3.9 F
R486C
30 F
R484B
OPEN
R483B
3.9 F
R486B
30 F
R484A
OPEN
R483A
3.9 F
R486A
30 F
R484D
OPEN
R483D
3.9 F
R486D
30 F
R484E
OPEN
R483E
3.9 F
R486E
30 F
R484F
OPEN
R483F
3.9 F
R486F
30 F
R412
100KF
Q407
KTN2907A
U405
AS431ANTR/SMD
C471
104
R468
560
R462
3.9K
R463
3.9K
R465
10K
R466
220K
R467
100K
R461
220F
R464
1.2KF
C472
475
R469
680F
R470
3.9KF
R471
12KF
R472
47K
C473
105
Q451
2N7002
R473
1.2KF
C474
OPEN
Q408
2N7002
C475
103
R475
470K
ZD401
5.1V
R417 100
R421
22K F
R455A 1F
R455B 1F
R455C 1F
R455D 1F
R420
10k
R421A
22K F
R421B
12K F
C442
103
R419
1K
D410
D4148W
R418
15
R455E 1F
R455F 1F
C460
OPEN
C422
OPEN
R455 1F
R411
10K F
R411A
10K F
R411B
10K F
C423
OPEN
R477
5.6K
C469
473
R478
4.7K
R476
100
G
D
S
Q402
AOD478/D-PACK
D401
MBRS3200
C413
68uF/100V
1
2
3
4
5
6
7
8
9
10
11
12
13
14
CN4_1M95
1-2041145-4
C461
104
C319
OPEN
1
2
3
4
CN6_1M11
2041145-4
1
2
3
4
5
6
CN7_1M09
2041145-6
1
2
3
4
5
6
7
8
CN2_1316
R460
0R0
R415
100K
R470A
OPEN
R470C
OPEN
R470B
OPEN
14
L401
55uH
C410
101 1KV
L402
BFD3565R
D401A
TP1
TP3
TP4
TP5
TP6
TP7
TP8
TP9
TP10
TP11
TP12
TP13
TP14
TP108
TP109
TP110
TP118
TP119
TP130
TP131
TP132
TP148
TP150
TP151
TP152
TP149
TP154
TP155
TP156
TP157
TP158
TP159
TP160
TP161
TP162
TP163
TP164
TP165
TP166
TP167
TP168
TP169
TP170
TP171
TP172
TP173
TP175
TP176
TP177
TP178
TP179
TP180
TP181
TP182
TP183
TP184
TP185
TP186
TP187
TP188
TP189
TP190
TP191
TP192
TP193TP19 4
TP195
TP196
TP197
TP198
TP199
TP200
TP201
TP202
TP203
TP204
TP205
TP206
TP207
TP208
TP213
TP223
TP224
TP225
TP226
TP227
TP228
TP240
TP241
TP242
TP243
TP212
TP216
TP217
TP218
TP219
TP220
TP221
TP244
TP245
TP246
TP247
TP248
TP249
TP250
TP260
R3
CMP3
IS3
GND1
R2
CMP2
IS2
GND1
R1
CMP1
IS1
R6
CMP6
IS6
GND1
R5
CMP5
IS5
GND1
R4
CMP4
IS4
GND1
BL-DIM(VSYNC)
BL-ON-OFF
DRV
STATUS
ADIM
+12V
IS2
IS3
IS4
IS5
IS6
CMP3
CMP4
CMP5
CMP6
CMP2
IS1
CMP1
GND1
GND1
GND1
GND1
ISW
UVLS
GND1
OVP
GND1
VREF
VREF
GND1
BL-I-CTRL
VREF
ADIM
1DN
G1DN
G1DNG
GND1 GND1
GND1 GND1
LED_A
GND1
ISW
DRV
OVP
GND1
VLED
UVLS
GND1
POK
VREF
STATUS
GND1
GND1
STANDBY
POK
GND1
+12V
+12V
12V3_SND
ST3V3
GND1
BL-ON-OFF
GND1
GND1
BL-I-CTRL
BL-DIM(VSYNC)
12V3_SND
GND_SND
GND_SND
+12V
GND1
R6
R5
R4
R3
R2
R1
LED_A
+12V
GND1
GND1 GND1
GND1
GND1
10-1-1 Power Supply Unit with Integrated LED Driver
EN 55L12M1.1L LA 10.
2012-Aug-17
back to
div. table
10-1-2 Layout top
19300_033_120410.eps
120410
2011-12-08
1
2722 171 90587
2722 171 90588
PLDC-P102A
Layout top
Circuit Diagrams and PWB Layouts
EN 56L12M1.1L LA 10.
2012-Aug-17
back to
div. table
10-1-3 Layout bottom
19300_034_120410.eps
120410
2011-12-08
1
2722 171 90587
2722 171 90588
PLDC-P102A
Layout bottom
Circuit Diagrams and PWB Layouts
EN 57L12M1.1L LA 10.
2012-Aug-17
back to
div. table
Circuit Diagrams and PWB Layouts
19300_002_120402.eps
120402
DC-DC
B01 B01
2012-01-20
1
3139 123 6539
MT5396 R2 LATAM 2K12
DC-DC
GND
GND HS
VIN
EN
SS
VIA
BOOT
SW
FB
COMP
SW
BOOT
EN
VIN
GND
GND HS
VCC
FB
GND
GND HS
VIN
EN
SS
VIA
BOOT
SW
FB
COMP
VIA
VIA
VIA
VIA
GND
GND HS
VIN
EN
SS
VIA
BOOT
SW
FB
COMP
COM
OUTIN
*
12V/1V5 CONVERSION
*
3V3/1V2 CONVERSION
0R
0R
*
*
To Be Connected Directly to 1A04/1A05 With 3mm Track.
12V/5V CONVERSION
12V/1V1 CONVERSION
0R
12V/3V3 CONVERSION
AMBILIGHT
Non TM100 Panel
TM100 Panel
*
2133 3127
Yes
No
SS4_GND
Yes
No
*
*
2155
22u
RES
2125
10u 16V
3123
1%
4K7
3105
2K2
3131
1%
RES
RES
2128
100p
100p
2127
2133
100p
1K0
3162
1%
33R
5101
3163
RES
2124
10u
2115
22u
RES
22u
2126
RES 2165
10n
3111
15K 1%
22u
2171
RES
1R0
3109
2179
100n
2184
1n0
RES
I145
100n
2122
I118
+12VS
I153
I136
3113
12K
F101
F113
2121
10n
10u
RES
2131
330K
3121
SS3_GND
SS2_GND
RES 2176
10u
3114
2K2
1%
1n0
2137
RES
2117
3106
22u
1%
1K5
10K
3112
1%
I159
I146
8
9
2
3
7
1
7110-1
RT8288AZSP
4
5
6
470p
RES
2172
3127 68R
8
3
10
2
7118
1
6
7
5
4
9
RT8293AHGSP
68R
3129
SS1_GND
3104
100K
2113
100n
F130
10u
2191
RES
F107
2167
220n
RES
+3V3STBY
22u
2148
2101
10u
3
10
2
I150
1
6
7
5
4
9
8
SS1_GND
RT8293AHGSP
7116
RES
1M0
3169
2143
+5V_SW
100n
2107
3n3
F128
F108
2197
220u 6.3V
RES
F102
2193
220n
RES
68R3128
3126 68R
10u
2196
RES
3122
18K
1%
5105
33R
2189
100u 16V
I155
RES
F122
100p
2132
10n
2185
SS2_GND
100n
I157
2175
I135
SS4_GND
3n3
2120
RES
2170
22u
100K
3170
2180
1n0
RES
100n
2109
2136
SS2_GND
1n0
2169
22u
2157
10n
F115
5102
10u
18
+3V3_SW
232425
26
11
12
13
141516
17
7110-2
RT8288AZSP
10
19
20
21
22
220n
2194
RES
I120
10K
RES
SS3_GND
3119
I106
3146
SS1_GND
F132
F123
3
4
5
6
7
8
10u
2177
2041145-8
1M99
1
2
SENSE_1V1_MT5396
3n3
2164
F119
100n
F121
+12VS
RES 2188
2108
10n
RES
10R
3118
RES
F120
5103
33R
10u
2178
2119
470p
+12VS
RES
F127
I149
1R0
3115
2174
100n
I122
10u
2192
10u
+1V2_SW
5100
I139
I152
5
6
7
8
9
SENSE_1V5_DDR
1
10
11
12
13
14
2
3
4
1-2041145-4
1M95
I138
33K
3130
1R0
3102
I143
100n
2154
RES
SS3_GND
1
3 2
22R
3133
LD1117DT12
7113
RES
100n
2198
3110
RES
I156
10R
2183
22u
10u
2110
2104
22u
2145
SS2_GND
4
9
8
3
10
2
1n0
RT8293AHGSP
7117
1
6
7
5
I147
I127
RES
SS3_GND
10n
2199
F118
GND_AL
22u
2168
I154
10u
2102
16V
F133
5104
3u6
22R
RES
SS1_GND
3167
RES
10R
3103
SS2_GND
F103
F129
F126
6.3V22u
2156
2u0
5107
I134
8K2
3117
SS3_GND
2187
2100
100n
+VSND
RES
100n
I119
F106
22u
2105
SS1_GND
10u
I140
33R
5106
2123
I144
100K
3100
I158
2111
10u
RES
I151
GND_AL
F131
F114
I132
RES
22u
2147
SS2_GND
SS1_GND
2116
22u
+12V_AL
2166
100n
GND_AL
2112
10u 16V
3116
100K
+1V5_SW
+1V1_SW
100p
2134
F134
12K
3107
RES
10R
3137
22u
2114
RES
SS1_GND
2118
22u
100K
3108
2106
470p
RES
39K
3168
SS3_GND
2182
22u
+3V3_SW
SS2_GND
SS3_GND
15K
3120
100n
2103
RES
2146
10n
POWER_OK
BACKLIGHT-BOOST-A
PWM-DIMMING
BL_ON_OFF
STANDBY
REF EMC HOLE
1X01
REF EMC HOLE
1X02
1X04
EMC HOLE
1X06
REF EMC HOLE
REF EMC HOLE
1X05
1X03
EMC HOLE
10.2 B 313912365391 SSB MT5396 R2 LATAM
10-2-1 B01 DC-DC
EN 58L12M1.1L LA 10.
2012-Aug-17
back to
div. table
10-2-2 B02, Tuner & Demodulator
19300_003_120402.eps
120402
Tuner & Demodulator
B02 B02
2012-01-20
1
3139 123 6539
MT5396 R2 LATAM 2K12
Tuner & Demodulator
ADCINP_DEMOD
RF_AGC
DEMOD_RST
DEMOD_TSCLK
DEMOD_TSVAL
DEMOD_TSSYNC
DEMOD_TSDATA0
DEMOD_TSDATA1
DEMOD_TSDATA2
DEMOD_TSDATA3
DEMOD_TSDATA4
DEMOD_TSDATA5
DEMOD_TSDATA6
DEMOD_TSDATA7
CI_TSCLK
CI_TSVAL
CI_TSSYNC
CI_TSDATA0
IF_AGC
PVR_TSCLK
PVR_TSVAL
PVR_TSSYNC
PVR_TSDATA0
PVR_TSDATA1
SPI_CLK
SPI_CLK1
SPI_CLE
SPI_DATA
CI_INT
ADCINN_DEMOD
COM
OUTIN
XTALSEL
XVSS
TAVSS
GND_HS
XVDD
TAVDD
PVDD
OSCMODE
4
3
XTALI
DVDDCVDD
VSS
5
TSDATA
SDA
VIA
TSCLK
TSVALID
TSSYNC
0
1
2
RST_X
OSCEN_X
SLVADR0
TESTMODE
TTUSDA
TTUSCL
TIFAGC
GPIO2
6
7
SCL
XTALO
TAINP
TAINM
SLVADR1
GPIO0
GPIO1
COM
OUTIN
0R
MT5396
3202
I208
47R
3210 33R
8p0
A209
2200
100n2208
+3V3_TUN
47R3226
3209
4K7
3206
10K
10n2233
I207
2209 100n
F212
100R3224
4K73229
100n
2218
1u02240
3211-2 22R27
P33
P34
R33
R32
U34
N35
P35
N37
N34
T33
T30
V33
V32
V31
V30
T35
T31
U35
R34
AT32
AU32
N36
T37
R35
R37
R36
T34
T32
T36
U36
DEMOD_IF
7300-7
1 8
+3V3_SW
3211-1 22R
10p
2247RES
F206
2201
8p0
F202
RES3203 1K0
2214 100n
+2V5_SW
2222 22p
1K05203
RES
F213
100n2248
2230
22u 6.3V
2246
47n
100n
2215
3214 4K7
2K2
F208
3212
5202 1K0
22u
2223RES
2249
330u 6.3V
RES
+3V3_SW
+5V_SW
3201
47R
3225 100R
2207 100n
10u
2226RES
RES
2227
100n
F207
3213 2K2
4201 RES
82p
2204
2205
82p
3204
3K3
3 6
+2V5_SW
22R3211-3
2217
47u
I206
100n2216
323247R
47R3231
RES
223647p
3207RES 1K0
47p2235
RES
F211
3208
100n2213
3227
47R
3222
150R
2232
10u
RES
10n2234
47p
2244
3200
1K0
A205
22391u0
3K3
3205
4u7
A204
5200
2
4
1 3
1205
41M
2220 1u0
15R3217
100n2210
F203
RES 2229
22u
RES 4202
+3V3_SW
+5V_SW
1u02219
273143
35
34
42
33
36
53
54
55
56
57
58
6
111823
66
67
68
51
69
70
71
72
73
74
52
4
46
45
50
59
60
61
62
63
64
65
8
9
12
13
14
15
16
17
3
21
25
41
37
38
40
39
24
48
5
19
49
1
47
2
26
30
32
29
20
7210
CXD2828ER
102228447
A210
+3V3_SW
F200
2224
100n
+1V2_SW
+3V3_TUN
3223
10K
100n
2211 100n
2206
100n
2231
3
2
4
RES
7216
LD1117S33
1
15R
2
4
3218
7220
LD1117S25
1
3
2245
47p
22p2221
16V10u
2225
22K
3230
8
IF2_P
7
12
13 14
15
16
A3.3V
AGC1
4
AGC2
9
I2C_SCL
10
I2C_SDA
11
IF1_N
3
IF1_P
2
IF2_N
TUNER
1201
SUT-RA214ZN
1
+3V3_SW
1K05201
2228
100n
5204 1K0
3228
22K
IF1_P
IF1_N
IF2_P
IF2_N
DEMOD_SCL
DEMOD_SDA
TUNER_SCL
TUNER_SDA
IF_AGC2
IF_AGC1
IF_AGC2
DEMOD_RST
DEMOD_RST
DEMOD_TSDATA7
IF_AGC1
DEMOD_TSCLK
IF1_P
IF2_P
IF1_N
IF2_N
TUNER_SDA
TUNER_SCL
DEMOD_TSDATA7
DEMOD_TSSYNC
DEMOD_TSVAL
DEMOD_TSCLK
DEMOD_TSSYNC
DEMOD_TSVAL
Circuit Diagrams and PWB Layouts
EN 59L12M1.1L LA 10.
2012-Aug-17
back to
div. table
10-2-3 B03, Class-D and muting
19300_004_120402.eps
120402
Class-D and muting
B03 B03
2012-01-20
1
3139 123 6539
MT5396 R2 LATAM 2K12
Class-D and muting
MT
COM
OUTIN
SCL
PLL_FLT
VIA
PVDD_AB
PVDD_CD
PGND_AB
PGND_CD
NC
VIA
DVDD
AVDD
OUT_A
BST_A
BST_B
OUT_B
OUT_C
BST_C
BST_D
OUT_D
OSC_RES
GVDD_OUT
AGND
AVSS
DVSS
DVSSO
GND
GND_HS
A_SEL
RESET
PDN
P
M
PBTL
SSTIMER
STEST
VR_ANA
VR_DIG
VREG
LRCLK
SCLK
MCLK
SDIN
SDA
ACTIVE 2.1
*
*
**
*
*
***
*
*
*
YES NO
2432, 2433, 2434, 2435, 2438, 2439, 2440, 2441, 2465, 2466.2474, 2475.
+24VAudio
+12VAudio NO
*
*
YES
44034402
*
*
**
*
3422, 3423, 3424, 3425.
*
*
Left+
*
*
SPDIF
*
*
*
*
*
*
(CURRENT)
*
*
*
*
*
*
5410, 5413.
2467, 2468, 2469, 2414, 2423, 2426, 2430, 2431, 2470, 2473.
*
Right+
*
*
*
*
*
YES
Right-
*
*
*
*
OUTPUT DIVERSITY
*
1D02
Left-
*
*
*
2413, 2416, 2418, 2425, 2422, 2427,
*
*
*
NO
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
5406, 5408
2.0 YESNO
2431
10u
5401
10n
I422
33p
1405
2461
30R
5404
2437
220n
3418
18R
2
VIN
1
10K
3425
3
GND
45
VCC
1D03
47u
2467
25V
2463 10u
330p
2420
3409
18R
2471
100n
30R
5415
+3V3D
F412
1404
3404
15K
100n
2460
2468
47u 25V
10K
3422
RES
+3V3D
5417
30R
2421
330p
3400
47K
3420 22KRES
I421
2412
330p
+3V3D
+3V3D
+3V3_SW
I407
1403
10u
2465
4
I417
2041145-4
1D01
1
2
3
RES
2413
I424
220n
2041145-3
1
2
3
33n 1D022462
18K23407
F404
30R
5405
3417
1R0
470R
3406
I408
2464 1u0RES
10u
5403
240833n
47n
F403
2401
RES
F401
3419 15K
220n
2423
3408
18R
10u
2435
220n
2436
2466
10u
F407
220n
2442
4401
RES
30R
5412
+3V3D
47n
2402
1402
F411
1406
5411
30R
I410
GND_PLL
RES
10u
2440
I414
5408
30R
10n
RES
F408
RES
2416
100n
2406
3421
33R
3424
10K
10n
2427
RES
5
3
4
3410
PUMH2
7401-2
18R
56
57
58
31
12
18
I409
65
66
67
68
51
69
52
53
54
55
23
22
6
26
50
59
60
61
62
63
64
37
38
10
11
2
3
34
35
25
24
21
1
46
39
36
8
19
47
48
49
32
20
15
5
7
40
41
44
45
16
13
9
14
4
43
42
33
27
281729
7400
TAS5731PHP
30
I423
1408
+3V3_SW
1
3 2
I406
7402
LD1117DT33
10n
2417
3405
470R
10u
2432
10u
2405
33n2410
4n7
2403
330p
2419
30R
RES
+3V3_AUDIO
5407
2411 1u0
I405
10u
I404
2441
10n
2424
2469
47u 25V
+VSND
+3V3_AUDIO
RES
5406
30R
10n
2426
+12VS
2443
220n
2430
10n
5413
30R
30R
5414
2472
+3V3D
6.3V22u
I420
F402
47R3403
3401
10K
47R
I415
3402
RES
F413
2418
10n
I411
10K
I419
3423
2
6
1
I418
PUMH2
7401-1
I416
2409 33n
5410
30R
100n2428
2475
2474
47u35V
35V47u
1R0
3412
10u
5400
10u
5402
10u
I412
GND_PLL
2439
220n
2473
F410
F406
25V47u
2470
2n22404
100n2429
10u
2438
1407
4402
2407
100n
4403
RES 2422
1R0
220n
3411
30R
5416
+VSND
I413
2400 4n7
10n
F405
2425
RES
2414
RES
220n
5409
30R
F409
10u
2433
2434
10u
SPEAKER_L-
AOLRCK
AOBCK
AOMCLK
AOSDATA0
D_RESET
MUTE
SPEAKER_R-
D_RESET
A_STBY
SPEAKER_L+
SPEAKER_R+
SPDIF_OUT
SPEAKER_R-
SPEAKER_R+
SPEAKER_L-
SPEAKER_R-
SPEAKER_L-
SPEAKER_L+
SDA
SCL
POWER_DOWN
Circuit Diagrams and PWB Layouts
EN 60L12M1.1L LA 10.
2012-Aug-17
div. table
back to
10-2-4 B04A, MTK5396 Power
19300_005_120402.eps
120402
MTK5396 Power
B04A B04A
2012-01-20
1
3139 123 6539
MT5396 R2 LATAM 2K12
MTK5396 Power
TCON12
OPCTRL6
OPCTRL7
OPCTRL8
OPCTRL9
OPCTRL10
OPTCTRL_TCON
TCON3
TCON4
TCON5
TCON6
TCON7
TCON8
TCON9
TCON10
TCON11
TCON0
TCON1
TCON2
OPCTRL11
OPWRSB
HDMI_CEC
HDMI_0_SDA
HDMI_0_SCL
HDMI_0_HPD
HDMI_0_PWR5V
HDMI_1_SDA
HDMI_1_SCL
HDMI_1_HPD
HDMI_1_PWR5V
HDMI_2_SDA
HDMI_2_SCL
HDMI_2_HPD
HDMI_2_PWR5V
HDMI_3_SDA
HDMI_3_SCL
HDMI_3_HPD
HDMI_3_PWR5V
VGA_SDA
VGA_SCL
STB_SDA
STB_SCL
LED_PWM0
LED_PWM1
OPCTRL0
OPCTRL1
OPCTRL2
OPCTRL3
OPCTRL4
OPCTRL5
DDRV_42
DDRV_43
DDRV_44
DDRV_45
DDRV_46
DDRV_47
DDRV_48
DDRV_49
DDRV_26
DDRV_27
DDRV_28
DDRV_29
DDRV_30
DDRV_31
DDRV_32
DDRV_33
DDRV_34
DDRV_35
DDRV_36
DDRV_13
DDRV_14
DDRV_15
DDRV_16
DDRV_17
DDRV_18
DDRV_19
DDRV_20
DDRV_21
DDRV_22
DDRV_23
DDRV_24
DDRV_25
DDRV_1
DDRV_2
DDRV_3
DDRV_4
DDRV_5
DDRV_6
DDRV_7
DDRV_8
DDRV_9
DDRV_10
DDRV_11
DDRV_12 DDRV_37
DDRV_38
DDRV_39
DDRV_40
DDRV_41
AVDD33_CVBS_1
AVDD33_CVBS_2
AVDD33_LVDSB
VCC3IO_A_1
VCC3IO_A_2
VCC3IO_A_3
VCC3IO_A_4
VCC3IO_A_5
VCC3IO_A_6
VCC3IO_A_7
AVDD10_LDO
AVDD12_PCIE11
AVDD12_HDMI_0_RX
AVDD12_HDMI_1_RX
AVDD12_HDMI_2_RX
AVDD12_HDMI_3_RX
AVDD12_RGB
AVDD12_DEMOD
AVSS33_VGA_STB
AVSS33_VDAC_BG
AVSS33_VDAC
AVSS33_PLLGP
AVSS33_CVBS_1
AVSS33_CVBS_2
AVSS33_DEMOD
AVSS33_XTAL_STB
AVDD12_REC
AVDD12_LVDS_1
AVDD33_HDMI_2_RX
AVDD33_HDMI_3_RX
AVDD33_VGA_STB
AVDD33_VDAC_BG
AVDD33_VDAC
AVDD33_PLLGP
AVSS12_RGB
AVSS12_DEMOD
AVSS12_REC
VCC3IO_A_8
VCC3IO_B_1
VCC3IO_B_2
VCC3IO_B_3
VCC3IO_B_4
AVDD12_LVDS_2
AVDD12_VPLL
AVDD33_MEMPLL
AVDD33_PCIE11
AVDD33_USB_P0P1
AVDD33_USB_P2P3
AVDD33_HDMI_0_RX
AVDD33_HDMI_1_RX
AVSS12_LVDS_1
AVSS12_LVDS_2
AVSS12_VPLL
AVSS33_MEMPLL
AVSS33_USB_P1
AVSS33_USB_P2
AVSS33_HDMI_RX_1
AVSS33_HDMI_RX_2
AVDD33_DEMOD
AVDD33_XTAL_STB
AVDD33_AADC
AVDD33_DAC
AVDD33_DAC1
AVDD33_LD
AVDD33_COM
AVDD33_LVDSA
AVSS33_HDMI_RX_3
AVSS33_HDMI_RX_4
AVSS33_AADC
AVSS33_DAC
AVSS33_DAC1
AVSS33_LD
AVSS33_COM
AVSS33_LVDSA
AVSS33_LVDSB
AVSS12_PCIE11
DVSS_140
DVSS_4
DVSS_5
DVSS_45
DVSS_46
DVSS_47
DVSS_48
DVSS_49
DVSS_50
DVSS_51
DVSS_52
DVSS_53
DVSS_54
DVSS_55
DVSS_56
DVSS_57
DVSS_58
DVSS_59
DVSS_13
DVSS_14
DVSS_15
DVSS_16
DVSS_17
DVSS_18
DVSS_19
DVSS_20
DVSS_21
DVSS_22
DVSS_23
DVSS_24
DVSS_25
DVSS
_11
DVSS_12
DVSS_111
DVSS_112
DVSS_113
DVSS_114
DVSS_115
DVSS_116
DVSS_117
DVSS_118
DVSS_71
DVSS_72
DVSS_73
DVSS_74
DVSS_75
DVSS_76
DVSS_77
DVSS_26
DVSS_27
DVSS_28
DVSS_29
DVSS_30
DVSS_31
DVSS_32
DVSS_33
DVSS_34
DVSS_35
DVSS_36
DVSS_37
DVSS_1
DVSS_2
DVSS_3
DVSS_43
DVSS_44
DVSS_132
DVSS_133
DVSS_134
DVSS_135
DVSS_136
DVSS_137
DVSS_138
DVSS_139
DVSS_87
DVSS_88
DVSS_89
DVSS_90
DVSS_91
DVSS_92
DVSS_93
DVSS_60
DVSS_61
DVSS_62
DVSS_63
DVSS_64
DVSS_65
DVSS_66
DVSS_67
DVSS_68
DVSS_69
DVSS_6
DVSS_7
DVSS_8
DVSS_9
DVSS_10
DVSS_107
DVSS_108
DVSS_109
DVSS_110
DVSS_119
DVSS_120
DVSS_121
DVSS_122
DVSS_123
DVSS_124
DVSS_125
DVSS_126
DVSS_127
DVSS_128
DVSS_129
DVSS_130
DVSS_131
DVSS_78
DVSS_79
DVSS_8
0
DVSS_81
DVSS_82
DVSS_83
DVSS_84
DVSS_85
DVSS_86
DVSS_70
DVSS_38
DVSS_39
DVSS_40
DVSS_41
DVSS_42
DVSS_94
DVSS_95
DVSS_96
DVSS_97
DVSS_98
DVSS_99
DVSS_100
DVSS_101
DVSS_102
DVSS_103
DVSS_104
DVSS_105
DVSS_106
VCCK_24 VCCK_48
VCCK_40
VCCK_41
VCCK_42
VCCK_19
VCCK_20
VCCK_21
VCCK_22
VCCK_23
VCCK_1
VCCK_2
VCCK_3
VCCK_4
VCCK_43
VCCK_6
VCCK_7
VCCK_8
VCCK_9
VCCK_10
VCCK_11
VCCK_12
VCCK_13
VCCK_14
VCCK_15
VCCK_16
VCCK_17
VCCK_18
VCCK_44
VCCK_45
VCCK_46
VCCK_47
VCCK_25
VCCK_39
VCCK_26
VCCK_27
VCCK_28
VCCK_29
VCCK_30
VCCK_31
VCCK_32
VCCK_33
VCCK_34
VCCK_35
VCCK_36
VCCK_37
VCCK_38
VCCK_5
0
0
0
ICE MODE+27M+Serial Boot00
0
1
STRAPPING
01
1ICE MODE+54M+Serial Boot
MT5396
MT5396
MT5396
MT5396
MT5396
ASPIF(0)
ROM Boot+27M
1
0
OPCTRL4(0)OPCTRL5(0)
ROM Boot+54M
3534
10K
2595
3537
4K7
100n
RES
RES
100R3540
3503
15K
1K0
3504
4K7
3538
RES
E5
2587 100n
E24
F20
F23
F24
G20
G23
G24
C3
C4
D4
D5
AC4
AC5
AC6
A25
B25
C25
B4
D25
E20
E23
P7
T5
T6
U5
U6
V5
B3
V6
AC1
AC2
AC3
G7
G15
G18
H7
H8
H10
A4
H13
J8
J10
N7
DDR_POWER
7300-6
A3
E6
F6
F7
G6
100n2588
+3V3STBY
3520 100R
2556 1u0
2590 100n
F512
2527 100n
2563
47u 6.3V
A28
C28
D28
AP22
AR22
30R
5504
F27
E27
E28
F28
B29
F30
F29
B27
A27
B28
AM19
AN21
AR19
AP19
AN19
AM18
AP20
AN18
AM20
AT21
AR21
AJ32
AH31
AH32
AH33
AA32
AP21
AN22
AR20
AN20
AT20
AU20
AG31
AG33
AF33
AE32
AE31
AE33
AD33
AC32
AC31
AC33
AB33
7300-12
AG32
100R3536
1n025AB
+3V3STBY
100n2578
2567
10n
100n
100n
2597
100R
2515
F506
RES3539
2576 100n
10K
3526
100n25842589100n
2551 100n
100n2594
100R3523
+3V3STBY
F507
F511
+1V1_SW
2549 100n
2573 100n
2513 100n
10K
100n2514
100n2552
3518
2553 100n
100n2554
3505
1K0
3506
4K7
2507
3524 100R
100n
100n25A7
30R5502
100n25A6
I501
100R3521
2510 100n
2501 4u7
2509 100n
1
3
2
BC847BW
7503
2583 100n
3502
3K3
2511 100n
2546 100n
100n2548
100n
100n2598
30R
2599
25A2
5503
4u7
100n2505
+3V3_SW
I504
100n25A0
2528 100n
3513
1K0
1K0
3511
100R3519
2574 100n
7500
BC847BW
1
3
2
100n2580
I518
SENSE_1V1_MT5396
F510
100n2518
3525
10K
4K73528
100n
2570 100n
+1V5_SW
2596
10K3508
4K7
3509
3510
4K7
30R
5506
100n2577
100n
2525
100n
5500
30R
2521
100n2522
F33
G31
G32
H29
H30
J29
J30
AK9
AK10
AK11
AL9
AE5
N15
AM27
D34
AR13
AL24
AJ22
AK17
AH26
E34
AL25
AM26
AK30
AE30
AM28
AB30
AD30
AF31
AF32
AL16
AH5
AK18
AK27
AJ26
AG5
AJ5
W30
AL14
AJ21
AF5
AJ28
AL15AD17
AH7
AE6
N14
V24
AK23
D35
AP13
AD21
AD20
AL31
AD16
AK24
AK25
AG30
AF30
AD22
AB29
AA29
Y29
AC29
AL27
AA24
Y24
W24
AB24
AG6
AJ6
U24
AD14
AD19
AF6
AC_POWER
7300-1
AJ20
2545
4u7
2575
+3V3_SW
100n
I508
2500
2547 100n
220u 2V0
4K7
3514
3512
25A3
4K7
100n
100n
2508
25A4
100n
RES
3529 4K7
100n2541
I503
1u02542
100n2534
2506 100n
100n2502
1K0
3532
2591 100n
2557 100n
+3V3STBY
+12VS
1K0
3533
100n2529
+3V3STBY
100n2537
25A8
220n
+3V3STBY
+3V3STBY
100R3527
100n
I505
2586
2524 100n
10u
25A9
BC847BW
7501
2530100n
100n2531
2532100n
100n2533
2593 100n
1
3
2
+3V3STBY
7504
BC847BW
2560
100n
100n2571
2568
4u7
100n2559
2569
100n2512
100n
2585 100n
2540 100n
2535100n
2538 100n
OPWR2_5V
OPWR3_5V
2555 100n
2504 100n
AB6
AB15
AB16
AB17
AB18
AB19
A26
B26
C26
D26
Y19
AA5
AA7
AA15
AA16
AA17
AA18
AA19
AB5
E9
W19
Y4
Y5
Y6
Y7
Y8
Y15
Y16
Y17
E8
Y18
V18
V19
W5
W6
W7
W8
W15
W16
W17
E7
W18
U7
U15
U16
U17
U18
U19
V15
V16
D18
V17
R17
R18
R19
T7
T8
T15
T16
T17
D12
T18
T19
M7
R1
R2
R3
R4
R5
R6
R7
D11
R15
R16
H19
J4
J5
J6
J11
J12
K7
C18
L7
L8
F8
AB23
F9
F12
F19
G14
G16
B18
G17
G19
H11
F5
W22
Y20
Y21
Y22
AA20
AA21
AA22
AB20
AB21
AB22
T23
U20
U21
U22
U23
V20
V21
V22
W20
W21
N22
P21
P22
R20
R21
R22
R23
T20
T21
T22
E19
E21
E22
E25
F21
F22
F25
G22
G25
H22
J22
E12
7300-4
CORE_VSS
A18
E11
100n
+3V3_SW
2536
+1V2_SW
4u7
2543
2579 100n
2550 100n
1K0
3531
1K0
3530
3535
4K7
AC22
AC23
AC24
AD23
AD24
P18
P19
R14
T14
U14
P20
P23
R24
T24
V23
W23
P17
Y23
AA23
AC20
AC21
AN7
AN8
AP7
AP8
AR7
AR8
P16
AT7
AT8
AU7
AU8
AC14
AC15
AC16
AC17
AC18
P15
AC19
AD18
AM7
AM8
CORE_VCC
7300-3
P14
V14
W14
Y14
AA14
AB14
100n25A5
RES
BZX384-C3V3
6500
100n2520
100n2526
1u02558
I509
I510
100n2572
7502
BC847BW
25A1 100n
3507
10K
OPWR0_5V
OPWR1_5V
22u
25AA
2523 100n
I502
100n2519
2517 100n
2516 100n
100n2562
2561
4u7
RES 100R3541
I517
100n2592
F509
2582
2581
100n
100n
BZX384-C8V2
6501
6.3V47u
2565
2564 100n
47R
3500
100n2503
2544
4u7
100n2566
3501
47R
5505
30R
ENABLE_WOLAN
STBY_SDA
STBY_SCL
LED1
LED2
WOLAN_IRQ
POWER_OK
VGA_SCL
VGA_SDA
POWER_DOWN
HDMI_3_SCL
HDMI_3_SDA
HDMI_CEC
USB_OC_P2
USB_OC_P3
USB_OC_P0
USB_OC_P1
VGA_DETECT
HDMI_1_HPD
HDMI_1_SCL
HDMI_1_SDA
HDMI_2_HPD
HDMI_2_SCL
HDMI_2_SDA
HDMI_3_HPD
HDMI_0_HPD
HDMI_0_SCL
HDMI_0_SDA
MUTE
POWER_DOWN
STANDBY
RESET_AUDIO
Circuit Diagrams and PWB Layouts
EN 61L12M1.1L LA 10.
2012-Aug-17
back to
div. table
Circuit Diagrams and PWB Layouts
19300_006_120402.eps
120402
DDR3
B04B B04B
2012-01-20
1
3139 123 6539
MT5396 R2 LATAM 2K12
DDR3
7
15
8
9
10
11
12
13
14
VREFDQ
VREFCA
ZQ
BA0
BA1
BA2
RAS
DQSL
ODT
2
1
0
DMU
DML
RESET
WE
CS
6
5
NC
4
3
CK
CK
CKE
7
BC
AP
VSS
VSSQ
VDD VDDQ
0
1
2
3
4
5
6
DQSU
DQU
0
1
2
3
4
5
6
7
DQL
A
CAS
DQSU
DQSL
8
9
10
11
12
ODT
RAS
VREFDQ
VREFCA
ZQ
BA0
BA1
BA2
DQU
0
1
2
3
4
5
6
7
DQL
A
CAS
DQSU
DQSL
DQSL
2
1
0
DMU
DML
RESET
WE
CS
6
5
NC
4
3
CK
CK
CKE
7
BC
AP
VSS
VSSQ
VDD VDDQ
0
1
2
3
4
5
6
7
DQSU
8
9
10
11
12
ODT
RAS
VREFDQ
VREFCA
ZQ
BA0
BA1
BA2
DQU
0
1
2
3
4
5
6
7
DQL
A
CAS
DQSU
DQSL
DQSL
2
1
0
DMU
DML
RESET
WE
CS
6
5
NC
4
3
CK
CK
CKE
7
BC
AP
VSS
VSSQ
VDD VDDQ
0
1
2
3
4
5
6
7
DQSU
7
15
8
9
10
11
12
13
14
VREFDQ
VREFCA
ZQ
BA0
BA1
BA2
RAS
DQSL
ODT
2
1
0
DMU
DML
RESET
WE
CS
6
5
NC
4
3
CK
CK
CKE
7
BC
AP
VSS
VSSQ
VDD VDDQ
0
1
2
3
4
5
6
DQSU
DQU
0
1
2
3
4
5
6
7
DQL
A
CAS
DQSU
DQSL
RVREF_D
BRA8
BRA9
BRA10
BRA11
BRODT
BRRESET
RVREF_A
RVREF_B
BRDQS3
ARA1
ARA2
ARA3
ARA4
ARA5
ARA11
ARA12
ARA13
ARA14
ARBA0
ARBA1
ARBA2
ARCAS
ARRAS
ARCLK1
ARCLK1
ARDQ0
ARDQ1
ARDQ2
ARCKE
ARWE
ARCS
ARCSX
ARCLK0
ARDQ8
ARDQ9
ARDQ10
ARDQ11
ARDQ12
ARDQ13
ARDQ14
ARDQ15
ARDQ16
ARDQ17
ARDQ18
ARDQ19
ARDQ20
ARDQ21
ARDQ22
ARDQ23
ARDQ24
ARDQ25
ARDQ26
ARDQ27
ARDQ28
ARA0
BRDQ6
BRDQ7
BRDQ8
BRDQ9
BRDQ10
ARA6
ARA7
ARA8
ARA9
ARA10
BRA4
BRA5
BRA6
BRA7
ARDQ29
ARDQ30
ARDQ31
ARDQM0
ARDQM1
ARDQM2
ARDQM3
ARDQ
S0
ARDQS0
ARDQS1
ARDQS1
ARDQS2
ARDQS2
ARDQS3
ARDQS3
ARODT
ARRESET
ARCLK0
BRDQS1
BRDQS1
BRDQS2
BRDQS2
BRDQS3
ARDQ3
ARDQ4
ARDQ5
ARDQ6
ARDQ7
BRA12
BRA13
BRA14
BRBA0
BRBA1
BRBA2
BRCAS
BRRAS
BRCKE
BRWE
BRCS
BRCSX
BRCLK0
BRCLK0
BRCLK1
BRCLK1
BRDQ0
BRDQ1
BRDQ2
BRDQ3
BRDQ4
BRDQ5
RVREF_C
BRDQ12
BRDQ13
BRDQ14
BRDQ15
BRDQ11
BRA0
BRA1
BRA2
BRA3
BRDQ16
BRDQ17
BRDQ18
BRDQ19
BRDQ20
BRDQ21
BRDQ22
BRDQ23
BRDQ24
BRDQ25
BRDQ26
BRDQ27
BRDQ28
BRDQ29
BRDQ30
BRDQ31
BRDQM0
BRDQM1
BRDQM2
BRDQM3
BRDQS0
BRDQS0
DDR#1 Bypass Cap
DDR#3 Bypass Cap
FOR EMC
MT5396 DE-CAP
NEAR MT5396
DDR#2 Bypass Cap DDR#4 Bypass Cap
DDR3#3
DDR3#1 DDR3#2
DDR3#4
2722R3636-2
7
22R3660
3631-2 22R2
+1V5_SW
2646
10u
5
100n
2678
3617-4 22R4
+1V5_SW
1603
HOOK1
1602
HOOK1
100n
2690
10u
2616
22R1 8
22R45
3665-1
3636-4
3 622R3689-3
3677-1 22R1 8
100n
2609
22R3677-33 6
2663
100n
2606
100n
522R3691-4 4
3 6
100n
22R3636-3
2681
22R3 6
L3
L8
3631-3
M9
P1
B1
B9
D1
D8
E2
E8
F9
G1
G9
A9
P9
T1
T9
B3
E1
G8
J2
J8
M1
A8
C1C9D2E9F1
H2
H9
M8
H1
T2
B2D9G7K2K8
N1
N9R1R9
A1
A7
A2
B8
A3
J1
J9
L1
L9
K1
J3
G2
H7
F3
G3
C7
B7
D7
C3
C8
C2
K9
K7
L2
E7
D3
E3
F7
F2
F8
H3
H8
P8
P2
R8
R2
T8
R3
M2
N8
M3
K3
J7
N3
P7
L7
R7
N7
T3
T7
M7
P3
N2
H5TQ2G63BFR-H9C
7602
1%
1K0
3627
100n
2650
240R
3688
1K0
7
3625
1%
3645-2 22R2
2654
100n
22R3630
1606
HOOK1
1604
HOOK1
3652-2 2 7
10u
2682
22R
2688
100n
73665-2 22R2
100n
2677
2676
100n
3695
100R
27
L3
L8
3689-2 22R
M9
P1
B1
B9
D1
D8
E2
E8
F9
G1
G9
A9
P9
T1
T9
B3
E1
G8
J2
J8
M1
A8C1C9D2E9
F1
H2
H9
M8
H1
T2
B2
D9
G7
K2K8N1N9R1R9A1
A3
J1
J9
L1
L9
T7
M7
T3
K1
J3
F3
G3
C7
B7
D7
C3
C8
C2
A7
A2
B8
L2
E7
D3
E3
F7
F2
F8
H3
H8
G2
H7
R2
T8
R3
M2
N8
M3
K3
J7
K9
K7
N3
P7
L7
R7
N7
P3
N2
P8
P2
R8
7604
H5TQ1G63DFR-H9C
22R
3694-3
36
45
+1V5_SW
1 8
22R3647-4
3692-1 22R
3690-2 22R27
3653
-1 22R1 8
22R3653-2
2 7
100R
27
3650
3 6
3620-2 22R
8
3620-3 22R
22R3636-1 1
3698 22R
E8
F9
G1
G9
L3
L8
J2
J8
M1
M9
P1
B1
B9
D1
D8
E2
H9
M8
H1
A9
P9
T1
T9
B3
E1
G8
R1R9A1
A8
C1C9D2E9F1
H2
T3
K1
J3
T2
B2D9G7K2K8N1N9
C2
A7
A2
B8
A3
J1
J9
L1
L9
T7
M7
H8
G2
H7
F3
G3
C7
B7
D7
C3
C8
J7
K9
K7
L2
E7
D3
E3
F7
F2
F8
H3
N2
P8
P2
R8
R2
T8
R3
M2
N8
M3
K3
N3
P7
L7
R7
N7
P3
45
H5TQ1G63DFR-H9C
7603
3665-4 22R
3629 22R
+1V5_SW
3691-3 22R3 6
22R3658
3683 22R
2661
4u7
83651-1 22R1
1 8 22R3693-1
SENSE_1V5_DDR
100n
2696
100n
2643
3617-2 2 7
1 8
22R
22R3657-1
2665
100n
1K0
1%
3621
+1V5_SW
2653
100n
2683
4u7
45
27
3619-4 22R
22R3647-2
3646-4 22R45
3646-3 22R3 6
2686
100n
240R
3608
1 83655-1 22R
100n
2655
2689
100n
+1V5_SW
3659-1 1 8
6.3V47u
2671
RES
22R
100n
2602
2698
100n
100n
G1
G9
L3
L8
2675
M1
M9
P1
B1
B9
D1
D8
E2
E8
F9
H1
A9
P9
T1
T9
B3
E1
G8
J2
J8
A1A8C1C9D2E9F1H2H9
M8
J3
T2
B2D9G7K2K8N1N9R1R9
C8
C2
A7
A2
B8
A3
J1
J9
L1
L9
K1
H3
H8
G2
H7
F3
G3
C7
B7
D7
C3
K3
J7
K9
K7
L2
E7
D3
E3
F7
F2
F8
P3
N2
P8
P2
R8
R2
T8
R3
M2
N8
M3
N3
P7
L7
R7
N7
T3
T7
M7
7601
H5TQ2G63BFR-H9C
1%
3633
1K0
2679
100n
6.3V
RES
47u
2670
22R3662
453653-4 22R
3652-1 22R1 8
3693-3 22R3 6
2649
1%
100n
1K0
3628
2722R3655-2
3667
240R
4u7
2672
1K0
3623
1%
1K0
3624
1%
3618-33 6722R
22R3648-2 2
73659-2 22R2
22R3 6
3690-3 22R3 6
3659-3
+1V5_SW
2669
100n
54
2618
100n
3620-4
22R
1%
3635
1K0
2693
10u
+1V5_SW
2613
100n
22R3647-1 1 8
2615
1u02695
100n
2656
100n
1 8 22R3648-1
100n
RES
2642
6.3V47u
2635
2668
100n
1K0
3607
1%
3 622R3619-3
3632
1K0
1%
22R3651-33 6
2692
36
100n
3665-3
22R
100n
2666
3618-4 22R45
1u02673
3614
1K0
1%
100n
2651
2662 1u0
100n
2611
22R3 63652-3
1%
3622
1K0
3694-2 2 7 22R
1 8522R3691-1
3655-4 22R4
1601
HOOK1
1 83618-1 22R
273646-2 22R
26841u0
3617-3 22R3 6
1608
HOOK1
22R3693-2 2 7
L4
G21
G13
P13
V7
E4
E3
F1
F2
V2
V1
W3
W4
H6
H4
M2
C2
K1
A2
K2
J3
B1
G2
D1
Y1
U1
P1
AB2
AA3
U4
AA4
T3
Y3
U3
J2
Y2
U2
G3
C1
G4
D2
T4
AB4
P2
AB3
B2
P3
AB1
F4
F3
V4
V3
G5
K3
A1
J1
H3
D3
N6
K5
N4
L3
L6
M3
N1
P5
K4
H5
P6
D14
K6
N3
P4
M5
N5
M4
L5
M1
N2
C21
B21
B20
C20
B9
A9
C8
D8
E18
F17
B14
B10
D24
C16
C24
D15
A17
A23
C19
D21
A7
E10
A12
B5
C6
D10
D7
C11
C7
C10
C17
B7
D20
D22
D19
C22
C12
D6
B12
C5
D23
C13
A5
F10
A20
A21
D9
C9
F18
E16
C23
B17
D17
B23
E13
F16
E14
B15
D13
E15
A13
G11
D16
E17
7300-5
F15
F14
F11
C14
F13
A15
C15
A14
B13
DDR3
MT5396JDNJ
27
+1V5_SW
22R3618-2
1%
1K0
3678
3619-1 22R1 8
+1V5_SW
22R
3697
+1V5_SW
22R453652-4
3619-2 2 7 22R
8 22R3694-1 1
100n
2697
1u02637
22R3691-2 2 7
3657-2 2 7 22R
100n
2608
1%
3634
1K0
3696
240R
100R
3666
2610
100n
100n
2645
4 5 22R3689-4
100n
2644
4u7
2694
22R3663 368222R
+1V5_SW
22R3692-33 6
+1V5_SW
100n
2617
3600 1%220R220R 1%
+1V5_SW
3601
1607
HOOK1
1 8 22R3645-1
HOOK1
1605
4 5 22R3690-4
22R3694-4 4 5
3690-1 1 8 22R
2691
269A
220u 2.0V
RES
100n
3626
1%
1K0
1%
3613
1K0
3653-3 22R3 6
2612
2636
100n
4u7
3 6
+1V5_SW
3657-3 22R
45
2614
100n
3645-4 22R
100n
2638
22R1 83631-1
100n
2680
+1V5_SW
2664
22R27
100n
27
3651-2
22R3692-23620-1 1 8 22R
269M
100n
RES
3655-33 6
RES
22R
RES
100n
269J
6
100n
269H
3648-3 22R3
2667
100n
269E
100n
RES
269D
100n
273677-2 22R
+1V5_SW
2641
100n
RES
+1V5_SW
100n
269L
269K
100n
100n
2640
100n
RES
269G
22R1 8
100n
269F
3646-1
269C
100n
3 6
3617-1 22R1 8
22R3645-3
2699
100n
2639
100n
RES
100n
2634
47u 6.3V
2674
3 622R3647-3
100n
2687
2652
100n
3689-1 1 85422R
3631-4 22R
2601
RES
100n
2.0V220u
269B
HOOK1
1609
+1V5_SW
2647
330u 6.3V
3656
100R
2685
100n
100n
45
2605
22R3648-4
ARDQS1n
ARDQS1
ARDQS3n
ARDQS3
BRDQS3n
BRDQS3BRDQS1n
BRDQS1
BRA(14)
ARA(14)
BRA(14)
ARA(14)
ARA(14)
ARA(13)
ARA(12)
ARA(11)
ARA(10)
ARA(1)
ARA(0)
ARBA(2)
ARBA(1)
ARBA(0)
ARA(9)
ARA(8)
ARA(7)
ARA(6)
ARA(5)
ARA(4)
ARA(3)
ARA(2)
ARDQ(11)
ARDQ(10)
ARDQ(1)
ARDQ(0)
ARCSn
ARCLK1n
ARCLK1
ARCLK0n
ARCLK0
ARCKE
ARCASn
ARDQ(20)
ARDQ(2)
ARDQ(19)
ARDQ(18)
ARDQ(17)
ARDQ(16)
ARDQ(15)
ARDQ(14)
ARDQ(13)
ARDQ(12)
ARDQ(30)
ARDQ(3)
ARDQ(29)
ARDQ(28)
ARDQ(27)
ARDQ(26)
ARDQ(25)
ARDQ(24)
ARDQ(23)
ARDQ(22)
ARDQ(21)
ARDQM3
ARDQM2
ARDQM1
ARDQM0
ARDQ(9)
ARDQ(8)
ARDQ(7)
ARDQ(6)
ARDQ(5)
ARDQ(4)
ARDQ(31)
ARRASn
ARODT
ARDQS3n
ARDQS3
ARDQS2n
ARDQS2
ARDQS1n
ARDQS1
ARDQS0n
ARDQS0
BRA(3)
BRA(2)
BRA(14)
BRA(13)
BRA(12)
BRA(11)
BRA(10)
BRA(1)
BRA(0)
ARWEn
ARRESET
BRCKE
BRCASn
BRBA(2)
BRBA(1)
BRBA(0)
BRA(9)
BRA(8)
BRA(7)
BRA(6)
BRA(5)
BRA(4)
BRDQ(13)
BRDQ(12)
BRDQ(11)
BRDQ(10)
BRDQ(1)
BRDQ(0)
BRCSn
BRCLK1n
BRCLK1
BRCLK0n
BRCLK0
BRDQ(22)
BRDQ(21)
BRDQ(20)
BRDQ(2)
BRDQ(19)
BRDQ(18)
BRDQ(17)
BRDQ(16)
BRDQ(15)
BRDQ(14)
BRDQ(4)
BRDQ(31)
BRDQ(30)
BRDQ(3)
BRDQ(29)
BRDQ(28)
BRDQ(27)
BRDQ(26)
BRDQ(25)
BRDQ(24)
BRDQ(23)
BRDQS0n
BRDQS0
BRDQM3
BRDQM2
BRDQM1
BRDQM0
BRDQ(9)
BRDQ(8)
BRDQ(7)
BRDQ(6)
BRDQ(5)
BRWEn
BRRESET
BRRASn
BRODT
BRDQS3n
BRDQS3
BRDQS2n
BRDQS2
BRDQS1n
BRDQS1
ARBA(0)
ARA(11)
ARA(8)
ARA(6)
ARA(5)
ARA(9)
ARA(13)
ARA(7)
ARA(4)
ARA(12)
ARA(10)
ARA(3)
ARA(2)
ARA(1)
ARA(0)
ARCSn
ARCKE
ARCLK0n
ARCLK0
ARDQM1
ARDQM0
ARRESET
ARWEn
ARCASn
ARODT
ARRASn
ARBA(2)
ARBA(1)
ARDQ(15)
ARDQ(14)
ARDQ(13)
ARDQ(12)
ARDQ(11)
ARDQ(10)
ARDQ(9)
ARDQ(8)
ARDQS0n
ARDQS0
ARDQ(7)
ARDQ(6)
ARDQ(5)
ARDQ(4)
ARDQ(3)
ARDQ(2)
ARDQ(1)
ARDQ(0)
ARRESET
ARWEn
ARCASn
ARODT
ARRASn
ARBA(2)
ARBA(1)
ARBA(0)
ARA(11)
ARA(8)
ARA(6)
ARA(5)
ARA(9)
ARA(13)
ARA(7)
ARA(4)
ARA(12)
ARA(10)
ARA(3)
ARA(2)
ARA(1)
ARA(0)
ARCSn
ARCKE
ARCLK1n
ARCLK1
ARDQM3
ARDQM2
ARDQS2n
ARDQS2
ARDQ(31)
ARDQ(30)
ARDQ(29)
ARDQ(28)
ARDQ(27)
ARDQ(26)
ARDQ(25)
ARDQ(24)
ARDQ(23)
ARDQ(22)
ARDQ(21)
ARDQ(20)
ARDQ(19)
ARDQ(18)
ARDQ(17)
ARDQ(16)
BRA(1)
BRA(5)
BRDQM0
BRDQM1
BRDQ(4)
BRWEn
BRRESET
BRDQ(16)
BRDQ(17)
BRDQ(18)
BRDQ(19)
BRDQ(20)
BRDQ(21)
BRDQ(22)
BRDQ(23)
BRDQ(24)
BRDQ(25)
BRDQ(26)
BRDQ(27)
BRDQ(28)
BRDQ(29)
BRDQ(30)
BRDQ(31)
BRDQS2
BRDQS2n
BRDQM2
BRDQM3
BRCLK1
BRCLK1n
BRCKE
BRCSn
BRDQ(11)
BRDQ(12)
BRDQ(13)
BRDQ(14)
BRDQ(15)
BRDQS0
BRDQS0n
BRCLK0
BRCLK0n
BRCKE
BRCSn
BRA(0)
BRA(1)
BRA(2)
BRA(3)
BRA(10)
BRA(12)
BRA(4)
BRA(7)
BRA(13)
BRA(9)
BRA(5)
BRA(6)
BRA(8)
BRA(11)
BRBA(0)
BRBA(1)
BRBA(2)
BRRASn
BRODT
BRCASn
BRA(0)
BRA(2)
BRA(3)
BRA(10)
BRA(12)
BRA(4)
BRA(7)
BRA(13)
BRA(9)
BRA(6)
BRA(8)
BRA(11)
BRBA(0)
BRBA(1)
BRBA(2)
BRRASn
BRODT
BRCASn
BRWEn
BRRESET
BRDQ(0)
BRDQ(1)
BRDQ(2)
BRDQ(3)
BRDQ(5)
BRDQ(6)
BRDQ(7)
BRDQ(8)
BRDQ(9)
BRDQ(10)
EN 62L12M1.1L LA 10.
10-2-5 B04B, DDR3
2012-Aug-17
back to
div. table
Circuit Diagrams and PWB Layouts
19300_007_120402.eps
120402
Flash, Control & EJTAG
B04C B04C
2012-01-20
1
3139 123 6539
MT5396 R2 LATAM 2K12
Flash, Control & EJTAG
LDM_VSYNC
SD_CMD
SD_CLK
SD_D0
SD_D1
SD_D2
SD_D3
LDM_CS
LDM_DO
LDM_DI
LDM_CLK
PDD7
POCE0
POCE1
PARB
PAALE
PACLE
POWE
POOE
EMMC_CLK
PDD0
PDD1
PDD2
PDD3
PDD4
PDD5
PDD6
NC
PCIE11_RXN
LOUTP
LOUTN
PCIE11_REFCKP
PCIE11_REFCKN
PCIE11_TXP
PCIE11_TXN
PCIE11_RXP
OSCL0
U0RX
U0TX
U1RX
U1TX
XTALI
XTALO
OSDA0
OSCL1
OSDA1
OSCL2
OSDA2
OPWM0
OPWM1
OPWM2
OIRI
ORESET
FSRC_WR
MEMTN
MEMTP
JTCK
JTDO
JTRST
JTDI
JTMS
SUBERGND
VOUT
VDD
CLE
7
6
5
4
3
2
1
0
VCC
R
SE
WP
WE
RE
CE_
ALE
NC
IO
B
VSS
+T
ADIN7_SRV
GPIO12
GPIO13
GPIO14
GPIO16
GPIO17
GPIO18
GPIO19
GPIO20
GPIO21
GPIO22
GPIO23
GPIO24
GPIO25
GPIO26
GPIO38
GPIO39
GPIO40
GPIO41
GPIO42
GPIO43
GPIO44
GPIO45
GPIO46
GPIO0
ADIN2_SRV
ADIN3_SRV
ADIN4_SRV
ADIN5_SRV
ADIN6_SRV
USB_DP_P0
USB_DM_P0
USB_DP_P1
USB_DM_P1
USB_DP_P2
USB_DM_P2
GPIO1
GPIO2
GPIO3
GPIO4
GPIO5
GPIO6
GPIO7
GPIO8
GPIO9
GPIO10
GPIO11
USB_DP_P3
USB_DM_P3
ADIN0_SRV
ADIN1_SRV
GPIO47
GPIO48
GPIO49
GPIO50
GPIO51
GPIO52
GPIO53
GPIO54
GPIO55
GPIO15
GPIO27
GPIO28
GPIO29
GPIO30
GPIO31
GPIO32
GPIO33
GPIO34
GPIO35
GPIO36
GPIO37
SCL
ADR
0
1
2SDA
WC
10K
PWM DIMMING
Temperature Sensor
*
---
37AB
3DDR 4DDR
---
SDM
NEAR TO MTK IC
FOR DEBUGGING
MT5396
ONLY
PANEL
MT5396
MT5396
10K37AC
3766
F723
100R
F708
3742
4K7
37344K7
BAS316
6704
F742
RES
3727 10K
F711
2721
F721
27p
RES100R3796
B34
C33
A35
B37
B36
A37
C35
A36
B35
A34
D32
C32
A32
B32
A31
B31
D30
C30
D29
D33
SERIAL_NAND
7300-13
C29
AU11
AT11
AP10
AM9
AR10
C34
SDIO_SPI
F736
10p
2704
100R3733
RES
37AB
10K
F735
F734
3782
10K
RES
2701 10u
BC847BW
7703
+3V3STBY
RES
4u7
2717
1K0
3753
RES
RES
6703
BAS316
4K7
3715
1703
3225
27M
24
1
3
37AD
4K7
4K7
RES
+3V3_SW
RES
3783
F706
+3V3_SW
+3V3_SW
F712
100n
2718
3770
10K
100K
3762
4K7
37AE
3741
2706
22R
RES
2u2
RES
4K7 3790
3787
4K7
100R3779
F709
F707
F701
F722
2703
3792
1R0
100n
10K3758
+3V3_SW
+3V3STBY
3704 100R
4K7
3747
100n
+3V3_SW
2707
10K3729
3763
100R
+3V3_SW
F705
33R
RES
3746
3750 33R
4K7
3755
+3V3_SW
+3V3_SW
RES
37A7
100K
3784
4K7
RES
100R
3711
3712
100R
3709
100R
F739
1u0
2724
+3V3_SW
1n02711
RES
BC847BW
7702
RES
3789
4K7
RES
10u2700
F727
+5V_SW
1K0
F728
3793
RES
I741
4K73720
3768
6700
10R
100R
BZX384-C6V8
3730
+3V3_SW
4701
7
6
12
37
13
36
18
19
46
47
48
3
4
5
10
11
14
15
8
27
28
33
2
34
35
38
39
40
45
44
1
20
21
22
23
24
25
26
17
9
16
29
30
31
32
41
42
43
7700
H27U4G8F2D
4K73724
3780
10K
F740
6
F729
1T71
1
2
3
4
5
RES
502386-0470
RES
100n
2708
5
4
Φ
BD45292G
7701
1
3
2
W35
AP18
AR18
AU16
AT16
AT34
AU34
RES
AN12
AN15
V35
AP12
AP15
V34
W36
W37
Y34
Y35
W34
AR15
AN14
AP31
AN30
G9
G10
AU21
AR12
AT12
AU12
AM22
D27
AP14
AM14
AR14
10K
MISC
7300-11
18K
3738
37A3
3748
4K7
4u7
2716
RES
RES 47R3759
4K7
RES
3761
220R
5701
7
8
9
12
13
1
10
11
2
3
4
5
6
FH52-11S-0.5SH
1C20
10K
3781
100R3731
3764
3740 22R
100R
1n02710
37851R0
2720
27p
100p
2714
+3V3_SW
3771
1K0
I726
2705
10p
1711
4K73719
13
11
2
3
4
5
6
7
8
9
12
BM11B-SRSS-TBT
RES
1702
1
10
7704
BC847BW
RES
1
3
2
3714
4K7
33R
3739
RES37A4 100R
10K3736
100R
3705
3798
+3V3_SW
RES
100R
3795 820K
37354K7
3744
RES
4K7
6701
BZX384-C6V8
27
F746
10K
3772-2
F741
I744
F743
2709 1n0
3765
+3V3STBY
100R
3745 33R
RES
3723 4K7
1 8
+3V3_SW
RES
3772-1
10K
+3V3_SW
F725
F719
F724
F717
RES
100K
3769
I732
20
100n
2715
2
3
4
5
6
7
8
9
19
RES
1
10
11
12
13
14
15
16
17
18
1C21
FH52-18S-0.5SH
4K7
3788
F726
F704
4K73757
37AA
4K7
100R
3751
10K
3773
1u0
2719
3718 4K7
+3V3STBY
F744
RES
100R
3799
+3V3_SW
+3V3_SW
3752
680R
2713
1K0
100n
3794
F700
+3V3_SW
5700
30R
2723RES
100p
RES
10K3728
+3V3STBY
3743
4K7
1n02712
10K3737
3708
100R
3702
100R
RES
37A8
100R
F745
+3V3_SW
100R
3701
RES
10K
3791
F702
3
I725
1701
MSJ-035-69A-B-RF-PBT-BRF
2
1
F720
F716
37A1 0R3
BAS316
RES
6702
RES
100p
2722
33R
3774
F737
+3V3_SW
3756
1710
4K7
10K
5
84
7
37AC
EEPROM
Φ
(8K × 8)
M24C64-WDW6
1
2
3
6
+3V3_SW
7705
3716 4K7
L34
L32
C37
D37
AU13
AU14
C36
D36
AT13
AT14
E31
G35
F31
E29
AP9
AT9
AR9
AU9
G34
H34
M36
G36
M32
L33
E33
E32
F32
A29
D31
C31
E30
N33
G37
P32
M35
M37
M33
F35
E35
E37
N32
M34
F36
J36
J37
J35
J33
G33
H35
H31
F34
E36
F37
K33
K32
H33
L35
K36
J32
J34
K34
K35
K37
AN23
AN24
AP23
AR23
AU23
AT23
AM24
AM23
H32
GPIO_USB
7300-8
3778 100R
4K737A6
3749
RES
33R
100R
3710
3726 10K
RES
4K737A5
+3V3_SW
37A9 47R
100R
RES
4K7
3706
3775
3797 100R
3767
6K8
RES
100p
2725
37861R0
3772-4
45
F731
10K
1R0
3754
3 6
3772-3
10K
RES
3713
100R
1
2
3
4
5
6
7
8
+3V3_SW
RES
1C22
2041145-8
F732
F730
3D_2D_SELECT
YPBPR_DETECT
STBY_SCL
STBY_SDA
SRF_IRQ
BL_ON_OFF
VCOM-SDA
SRF_IRQ
NAND_PCLE
NAND_PALE
3D_LED
ORESET
AMBI_SPI_SDO
SDA
NAND_POWE
NAND_POOE
CVBS_DETECT
VCOM-SCL
SDA
UART_TX_1
UART_RX_1
UART_RX_1
UART_TX_1
SCL
USB_DM_P3
AMBI_TEMP
ENABLE_3V3_AMBIn
AMBI_SPI_SCKO
DEMOD_SCL
DEMOD_SDA
USB_DP_P1
USB_DM_P1
USB_DP_P2
USB_DM_P2
USB_DP_P3
JTRST
SCL
KEYBOARD
LIGHT_SENSOR
USB_DP_P0
USB_DM_P0
JTCK
JTDI
JTMS
BOOST_CONTROL
BACKLIGHT_CONTROL
RC
JTDO
UART_RX
UART_TX
PWM-DIMMING
BACKLIGHT-BOOST-A
UART_TX
UART_RX
SYS_EEPROM_WE
SYS_EEPROM_WE
LCD_PWR_ON
3D_LED
SDA
SCL
RC
LIGHT_SENSOR
LED2
LED1
KEYBOARD
NAND_PDD(3)
NAND_PDD(4)
NAND_PDD(5)
NAND_PDD(6)
NAND_PDD(7)
NAND_POWE
NAND_POCE
NAND_PARB
NAND_POOE
JTDO
JTRST
JTDI
JTMS
JTCK
NAND_PALE
NAND_PCLE
NAND_PDD(0)
NAND_PDD(1)
NAND_PDD(2)
NAND_POCE
NAND_PARB
NAND_PDD(0)
NAND_PDD(1)
NAND_PDD(2)
NAND_PDD(3)
NAND_PDD(4)
NAND_PDD(5)
NAND_PDD(6)
NAND_PDD(7)
EN 63L12M1.1L LA 10.
10-2-6 B04C, Flash, Control & EJTAG
2012-Aug-17
back to
div. table
10-2-7 B04D, LVDS Display
19300_008_120402.eps
120402
LVDS Display
B04D B04D
2012-01-20
1
3139 123 6539
MT5396 R2 LATAM 2K12
LVDS Display
-BUS
CTRL
FIL
I2C
INP
REXT_VPLL
AE4P
BE1N
BE2P
BE2N
BE3P
BE3N
BE4P
BE4N
BECKP
BECKN
BO0P
BO0N
BO1P
AO1N
AO2P
AO2N
AO3P
AO3N
AO4P
AO4N
AOCKP
AOCKN
AE0P
AE0N
AE1P
AE1N
AE2P
AE2N
AE3P
AE3N
AE4N
AECKP
AECKN
AO0P
AO0N
AO1P
BO1N
BO2P
BO2N
BO3P
BO3N
BO4P
BO4N
BOCKP
BOCKN
BE0P
BE0N
BE1P
0R
0R
MT5396
(FOR VCOM ALIGNMENT)
LVDS#1
0R
0R
(TOP side)
0R
TO DISPLAY
LVDS#2
FOR DEVELOPMENT USE
RESERVED
0R
Yes
No
3D23
0R
0R
2D202D21
YesNoYes
No
*
*
Non TM100 Panel
TM100 Panel
*
*
10K
3D05
FD44
FD37
4D05
4D04
FD27
FD16
54 55
56 57
58 59
60
5
50
51
6
7
8
9
526153
4
40
41
42
43
44
45
46
47
48
49
3
30
31
32
33
34
35
36
37
38
39
2
20
21
22
23
24
25
26
27
28
29
10
11
12
13
14
15
16
17
18
19
1G51
20519-051E
1
4D06
FD15
ID17
FD38
3D15
FD61
+12VS
2D21
100p
RES
3D16
1u0
2D11
FD46
FD13
3D02
47R
33R
5D02
45
46 47
48 49
50
FD02
41
5
6
7
8
9
425143
44
31
32
33
34
35
36
37
38
39
4
40
22
23
24
25
26
27
28
29
3
30
12
13
14
15
16
17
18
19
2
20
21
1G50
20519-041E
1
10
11
RES
+3V3_SW
3D20 4K7
4K7
3D19RES
4D30
RES
FD12
FD47
4D25
FD23
3D06
10K
6
7
8
4
1
2
3
SI4835DDY-GE3
7D00
5
FD06
68R
3D23
RES
100p
2D20
RES
FD01
FD04
ID02
FD21
FD22
100p
2D18
FD18
33R
5D01
FD62
FD49
3D11
RES 4D24
220n
2D12
10n2D17
FD07
3D18
+VDISP
6D00
BZX384-C6V8
FD25
3D22
4K7
RES
+3V3_SW
RES
4K7
3D21
FD19
RES
4D23
3D13
+3V3STBY
FD09
BC857BW
7D02
FD57
3D09
1K0
+VDISP
FD50
16V100u
2D16
ID07
3D17
FD55
BC847BS(COL)
2
6
1
3
4
7D03-1
7D03-2
BC847BS(COL)
5
6D01
SML-310
RES
FD03
FD10
3D14
FD43
100n
6
VSS
2D15
5SC0
SC1 8
4LCS1 SD0
7SD12 SDA
3
VDD
7D04
PCA9540B
RES
FD14
FD53
FD48
3D12
FD40
FD42
47K
3D03
ID03
FD51
1K0
3D08
FD24
FD66
ID05
FD41
FD54
FD56
RES
100n
2D13
AG7
FD17
AL3
AL2
AL1
AK4
AK3
AJ2
AJ1
AH4
AH3
AJ4
AJ3
AG1
AF4
AF3
AE2
AE1
AD2
AD1
AE4
AE3
AL4
AR5
AP5
AR4
AP4
AR3
AP3
AU4
AT4
AG4
AG3
AG2
AN2
AN1
AM4
AM3
AP2
AP1
AU6
AT6
AR6
AP6
AU2
AT2
AU1
AT1
AR2
AR1
2D19
100p
LVDS_EPI
7300-10
FD59
FD58
FD45
F829
FD36
24K
3D00
RES
RES 4D27
4D26
FD05
RES
1K0
3D10
3D01
47K
FD39
FD64
+3V3_SW
FD65
3D07
15K
33R
5D00
F738
FD20
FD08
FD52
2D14 10n
RES
RES 4D29
4D28RES
FD11
VCOM-SDA
VCOM-SCL
OPC_ENABLE
PWM-DIMMING
3D_2D_SELECT
PX1A+
PX1A-
PX1B+
PX1B-
PX1C+
PX1C-
PX1D+
PX1D-
PX1E+
PX1E-
PX1CLK+
PX1CLK-
VGA_SCL
PX3D-
PX3E+
PX3EPX3CLK+
PX3CLK-
PX4A+
PX4APX4B+
PX4BPX4C+
PX4CPX4D+
PX4DPX4E+
PX4EPX4CLK+
PX4CLK-
VGA_SDA
PX2D-
PX2D+
PX2C-
PX2C+
PX2B-
PX2B+
PX2A-
PX2A+
PX2CLK+
PX2CLK-
PX3A+
PX3APX3B+
PX3BPX3C+
PX3C-
PX3D+
PX1B-
PX1A+
PX1A-
PX2E-
PX2E+ PX1CLK+
PX1CLK-
PX1C+
PX1C-
PX1B+
PX1E+
PX1E-
PX1D+
PX1D-
PX2DPX2D+
PX2EPX2E+
PX2B+
PX2CPX2C+
PX2CLKPX2CLK+
PX2APX2A+
PX2B-
3D_2D_SELECT
PX3CLK+
LCD_PWR_ON
PX3B+
PX4B+
PX3A-
PX4E-
PX4D+
PX4D-
PX4CLK+
PX4CLK-
PX3D+
PX3D-
PX3CLK-
PX3C+
PX3C-
PX4E+
PX3B-
PX3A+
PX4C-
PX4B-
PX4A+
PX4A-
PX3E+
PX3E-
PX4C+
Circuit Diagrams and PWB Layouts
EN 64L12M1.1L LA 10.
2012-Aug-17
back to
div. table
10-2-8 B05A, Digital I/O - HDMI
19300_009_120402.eps
120402
Digital I/O - HDMI
B05A B05A
2012-01-20
1
3139 123 6539
MT5396 R2 LATAM 2K12
Digital I/O - HDMI
PHYLED1
HDMI_3_RX_C
HDMI_3_RX_CB
TXVP_0
TXVN_0
RXVP_1
RXVN_1
REXT
HDMI_0_RX_0
HDMI_0_RX_0B
HDMI_0_RX_1
HDMI_0_RX_1B
HDMI_0_RX_2
HDMI_0_RX_2B
HDMI_0_RX_C
HDMI_0_RX_CB
HDMI_1_RX_0
HDMI_1_RX_0B
HDMI_1_RX_1
HDMI_1_RX_1B
HDMI_1_RX_2
HDMI_1_RX_2B
HDMI_1_RX_C
HDMI_1_RX_CB
HDMI_2_RX_0
HDMI_2_RX_0B
HDMI_2_RX_1
HDMI_2_RX_1B
HDMI_2_RX_2
HDMI_2_RX_2B
HDMI_2_RX_C
PHYLED0
HDMI_2_RX_CB
HDMI_3_RX_0
HDMI_3_RX_0B
HDMI_3_RX_1
HDMI_3_RX_1B
HDMI_3_RX_2
HDMI_3_RX_2B
HDMI PORT 3
HDMI PORT 2HDMI PORT 1
HDMI PORT 4 (SIDE)
MT5396
FB11
3B52 4K7
RES
910
21
45
5.6V
RES 6B11
CDS2C05HDMI2
RES
6B05
3
8
67
RES
IP4281CZ10
FB04
4K73B53
FB24
FB25
CDS2C05HDMI2
6B12RES
5.6V
4B11RES
1K0
3B10
RES 4B31
3B03
1K0
4K7
RES
3B55
1%
24K
3B50
BC847BW
7B11
FB13
1K0
3B33
FB07
6B02
CDS2C05HDMI2
FB17
5.6V
RES
RES
4K73B54
FB15
45
FB08
RES
6B36
3
8
67 910
21
IP4281CZ10
10
21
45
FB05
IP4281CZ10
3
8
67 9
FB02
6B15
RES
OPWR1_5V
FB01
1K0
3B13
BSH111
7B00
RES
RES 4B01
5.6VCDS2C05HDMI2
6B33RES
5
6
7
8
9
2021
2223
13
14
15
16
17
18
19
2
3
4
47266-9002
1
10
11
12
+3V3_SW
1B01
47K3B02
3B05
1K2
RES
FB12
FB16
6B01RES
5.6V
FB09
CDS2C05HDMI2
OPWR2_5V
FB03
OPWR2_5V
21
45
47K3B22
IP4281CZ10
3
8
67 910
6B35
RES
OPWR0_5V
OPWR0_5V
2B01
1u0
OPWR1_5V
3B04
100K
30R5B01
3B00
1K0
OPWR3_5V
3B09
180R
3B24
100K
6B21
CDS2C05HDMI2 5.6V
RES
47K3B11
67 910
21
45
RES
IP4281CZ10
3
8
6B26
BC847BW
7B21
CDS2C05HDMI2 5.6V
RES 6B13
3B23
1K0
100K
3B14
4B21RES
1K0
3B20
3B07
100K
3B01 47K
47K3B21
3B08
82R
5.6VCDS2C05HDMI2
6B31RES
3
4
5
6
7
8
9
2021
2223
12
13
14
15
16
17
18
19
2
47266-9002
1B02
1
10
11
7
8
9
2021
2223
16
17
18
19
2
3
4
5
6
1
10
11
12
13
14
15
105156-1008
1B04
AM16
AN16
AD15
AU17
AT17
AU18
AT18
AA36
AC37
AC36
AK35
AK34
AJ35
AJ34
AJ37
AJ36
AJ33
AK33
AD34
AC35
AC34
AE35
AE34
AB35
AB34
AA35
AA34
AA37
AG35
AG34
AG37
AG36
AF35
AF34
AH35
AH34
AE37
AE36
AD35
7300-9
HDMI_ETHERNET
4B00
RES 6B23
CDS2C05HDMI2 5.6V
7B01
BC847BW
4
5
6
7
8
9
2021
2223
11
12
13
14
15
16
17
18
19
2
3
1B03
47266-9002
1
10
1
45
IP4281CZ10
3
8
67 910
2
6B06
RES
6B03RES
5.6VCDS2C05HDMI2
100K
3B34
47K3B31
FB23
OPWR3_5V
FB21
FB22FB20
FB19
7B31
BC847BW
FB18
+3V3STBY
CDS2C05HDMI2
6B22RES
5.6V
3B12 47K
CDS2C05HDMI2
45
5.6V
RES 6B32
RES
6B16
3
8
67 910
21
IP4281CZ10
3B32 47K
3B30
1K0
IB01
1
45
RES
6B25
3
8
67 910
2
IP4281CZ10
HDMI_0_ARC
HDMI_2_HPD
HDMI_0_HPDHDMI_3_HPD
RX_1_2
RX_1_C
RX_1_CB
HDMI_CEC_A
HDMI_1_SCL
HDMI_1_SDA
RX_1_2B
RX_1_1
RX_1_1B
RX_1_0
RX_1_0B
RX_0_2
RX_0_C
RX_0_CB
HDMI_CEC_A
HDMI_0_SCL
HDMI_0_SDA
RX_0_2B
RX_0_1
RX_0_1B
RX_0_0
RX_0_0B
RX_2_C
RX_2_CB
HDMI_CEC_A
HDMI_2_SCL
HDMI_2_SDA
RX_2_2B
RX_2_1
RX_2_1B
RX_2_0
RX_2_0B
RX_3_CB
HDMI_CEC_A
HDMI_3_SCL
HDMI_3_SDA
RX_3_2B
RX_3_1
RX_3_1B
RX_3_0
RX_3_0B
RX_2_2
HDMI_1_HPD
PHYLED0
PHYLED1
RXVN_1
RXVP_1
TXVN_0
TXVP_0
RX_3_2
RX_3_C
ARCHDMI_ARC
HDMI_ARC
RX_0_0
RX_0_0B
RX_0_1
RX_0_1B
RX_0_2
RX_0_2B
RX_0_C
RX_0_CB
RX_1_0
RX_1_0B
RX_1_1
RX_1_1B
RX_1_2
RX_1_2B
RX_1_C
RX_1_CB
RX_2_0
RX_2_0B
RX_2_1
RX_2_1B
RX_2_2
RX_2_2B
RX_2_C
RX_2_CB
RX_3_0
RX_3_0B
RX_3_1
RX_3_1B
RX_3_2
RX_3_2B
RX_3_C
RX_3_CB
RX_2_CB
RX_2_C
RX_3_1B
RX_3_2
RX_3_2
RX_3_2B
RX_3_1
RX_3_2B
RX_3_1B
RX_3_1
RX_3_CB
RX_3_0
RX_3_0
RX_3_0B
RX_3_C
RX_3_0B
RX_3_CB
RX_3_C
RX_1_CB
RX_1_0
RX_1_0
RX_1_0B
RX_1_1
RX_1_2B
RX_1_1B
RX_1_1
RX_1_C
RX_1_0B
RX_1_CB
RX_1_C
RX_2_1B
RX_2_2
RX_2_2
RX_2_2B
RX_2_1
RX_2_2B
RX_2_1B
RX_2_1
RX_2_CB
RX_2_0
RX_2_0
RX_2_0B
RX_2_C
RX_2_0B
RX_0_0
RX_0_0B
RX_0_CB
RX_1_1B
RX_1_2
RX_1_2
RX_1_2B
HDMI_CEC
HDMI_CEC_A
RX_0_2
RX_0_2B RX_0_1
RX_0_1B
RX_0_1RX_0_1B
RX_0_2 RX_0_2B
RX_0_0
RX_0_0B RX_0_C
RX_0_CRX_0_CB
Circuit Diagrams and PWB Layouts
EN 65L12M1.1L LA 10.
back to
div. table
2012-Aug-17
10-2-9 B05B, Digital I/O - USB
19300_010_120402.eps
120402
Digital I/O - USB
B05B B05B
2012-01-20
1
3139 123 6539
MT5396 R2 LATAM 2K12
Digital I/O - USB
+T
+T
+T
VIN
VOUT
GND
EN
FLG
EN
+T
+T
+T
USB PORT 3 (SIDE)
0R
0R
USB PORT 1 (HDD)
0R
0R
USB PORT 2 (SKYPE)
USB PORT 4 (WIFI)
3C22-1
1 8
FC46
100K
USB_PWR_P0
FC45
FC49
FC48
+5V_USB1
+5V_SW
FC35
FC34
100K
3C02-1
1 8
+5V_USB2
RES
+5V_SW
3C03
0R3
45
+5V_USB1
100K
3 6
100K
3C02-4
27
3C02-3
100K
3C02-2
3C04-4RES
45
0R3
FC37
3C01
FC39
+3V3STBY
6
+3V3_WOLAN
FC36
3C12-3
100K
3
2C02
RES
+3V3_WOLAN
10u
+5V_SW
+5V_USB2
+5V_USB3
0R3
3C21
27
FC41
5
100K
3C22-2
100K
3C22-4
4
FC42
+5V_USB3
FC43
FC51
FC44
+3V3_SW
FC32
FC47
0R3
3C06
RES
RES
2C03
1u0
2
3
4
56
FC50
USB-16-PBT-B-30-CU1-BRF
1C03
1
RES
4
3
2
5
1
RES
3 6
7C01
RT9715GGB
RES
27
3C04-3
3C04-2
RES
1 8
3
3C04-1
ACM2012
1C32
RES
14
2
3 6
FC11
100K
3C22-3
FC01
FC38
8
RES
1
2
3
4
5
6
7
RES
502386-0670
1C31
45
100K
3C05
3C12-4
100K
3C12-2
100K
27
USB_PWR_P0
3C11
0R3
FC40
+5V_SW
3C12-1
100K
1 8
RES
3C31
0R3
RES
56
100n
2C01
USB-16-PBT-B-30-CU1-BRF
1C02
1
2
3
4
FC21
3
4
56
USB-01-PBT-B-30-CU2-BRF
1C01
1
2
USB_DM_P1
FC33
USB_DM_P0
USB_DP_P1
ENABLE_WOLAN
USB_OC_P0
USB_DP_P2
USB_DM_P2
USB_OC_P1
USB_DP_P0
USB_OC_P3
USB_DP_P3
USB_DM_P3
USB_OC_P2
WOLAN_IRQ
Circuit Diagrams and PWB Layouts
EN 66L12M1.1L LA 10.
2012-Aug-17
back to
div. table
10-2-10 B06A, Analog I/O - Headphone
19300_011_120402.eps
120402
Analog I/O - Headphone
B06A B06A
2012-01-20
1
3139 123 6539
MT5396 R2 LATAM 2K12
Analog I/O - Headphone
GND
2
1
SHUTDOWN
BYPASS
2
IN-
VDD
1
VO
RIGHT
HEADPHONE
LEFT
1
I808
PUMD12
7801-1
2
6
22K
3805
10K
3813
22K
3814
1n0
2812
F810
2807
100u
4V
PESD5V0S1BA
RES
6800
F809
2801
1n0
7
I811
3
4
2
6
5
8
1
I809
7800
TS489IST
AMPLIFIER
Φ
2802
1n0
3
4
47p
2804
7801-2
PUMD12
5
27
45
3807-2
33R
3807-4
33R
4V100u
2806
2809
10u
F807
10K
3812
3
I812
1401
MSJ-035-12D-B-AG-PBT-BRF
2
1
I810
RES
PESD5V0S1BA
6801
33R
1 8
3807-1
2813
1n0
2810
1u0
2803
47p
3 6
+3V3_SW
10u
2808
3807-3
33R
3811
10K
F811
+3V3STBY
F804
RES
1801
2805
1u0
F808
3806
22K
1802
HP_ROUT
HPOUT_L
HPOUT_R
RES
RESET_AUDIO
A_STBY
A_PLOP
HP_LOUT
HP_LOUT
HP_ROUTA_PLOP
Circuit Diagrams and PWB Layouts
EN 67L12M1.1L LA 10.
2012-Aug-17
back to
div. table
Circuit Diagrams and PWB Layouts
19300_012_120402.eps
120402
Analog I/O - Component & Composite
B06B B06B
2012-01-20
1
3139 123 6539
MT5396 R2 LATAM 2K12
Analog I/O - Component &
Composite
MPXP
AOBCK
AOLRCK
AOMCLK
AOSDATA0
AOSDATA1
AOSDATA2
AL0_ADAC
AL1_ADAC
AL2_ADAC
AL3_ADAC
AR0_ADAC
AR1_ADAC
AR2_ADAC
AOSDATA3
AOSDATA4
ASPDIF0
ASPDIF1
ALIN
AIN0_L_AADC
AIN0_R_AADC
AIN1_L_AADC
AIN1_R_AADC
AIN2_L_AADC
AIN2_R_AADC
AIN3_L_AADC
AIN3_R_AADC
AIN4_L_AADC
AIN4_R_AADC
AIN5_L_AADC
AR3_ADAC
AIN5_R_AADC
AIN6_L_AADC
AIN6_R_AADC
VMID_AADC
VDACY_OUT
VDACX_OUT
PR1P
Y0P
Y1P
COM0
COM1
HSYNC
VSYNC
BP
SOG
GP
RP
COM
PB0P
PB1P
PR0P
SOY0
SOY1
SY0
SC0
CVBS_COM
CVBS0P
CVBS1P
CVBS2P
CVBS3P
CVBS
Near To SOC
PC_AUDIO
CVBS SIDE
RES
Near To Connector
MT5396
DEB
MT5396
CVI1
47n2957
F927
60R
5900
3941 100R
RES
10K
3974
I902
RES
3969 100R
F928
RES
2985
1n0
I953
RES
2986
1n0
2946 10n
1u02978
2
3
4
5
1A02
MSJ-035-75C-BL-RF-PBT-BRF
1
2900
10u
AT24
AR27
AP25
AR29
AU30
AP29
AM25
AP27
AU26
AR30
AT30
AP30
AR24
AN25
AT28
AR26
AR28
AP26
82PA52RA
7300-14
VIDEO_IO
AU24
AP24
AU28
AT26
AN29
AR31
AM37
AM36
AR16
Y32
AN28
AJ27
Y33
AR11
AP11
AM12
AN9
AN10
AN11
AM11
AM10
AN35
AM32
AT36
AP32
AR33
AP37
AR36
AP36
AR35
AN34
AM34
AM33
AM35
AU35
AU37
AT37
AT35
AP34
AU36
AR37
AUDIO_DAC_ADC
7300-2
I947
3970
30K
3936 1R0
F901
F903
3960
75R
RES
100R3950
6900
PESD5V0S1BA
RES
1n0
7
RES
2989
3961-2 10R2
2951 10n
F930
56R
3906
PESD5V0S1BA
6904
10p
2908
1905
F902
RES
2981 47n
10R3961-11 8
3946 100R
1n52945
6916
PESD5V0S1BA
RES
3965
20K
100p
2982
I952
RES
I945
6921
PESD5V0S1BA
RES
2983
100p
5902
60R
RES
PESD5V0S1BA
6903
3958
30K
F900
10p
2907
RES
1n0
2905
1u0
2962
3938 100R
1914
10u
2984
RES
PESD5V0S1BA
6915
I904
30K
3959
I946
I903
3971
1R0
1922
2904
1n0
RES
3905
18R
30K
3953
100p
2966RES
3951 100R
1%
3921
75R
18R
3904
F923
2924
47p
1921
F919
3952
30K
100R3944
2930
4n7
3949
F929
100R
2987
10u
10n2958
10u
RES
PESD5V0S1BA
6920
2929
3901
1R0
3903
56R
20K
3966
56R
3902
I912
F921
10R3961-33 6
RES
6914
PESD5V0S1BA
15p
2925
RES
1R0
3907
3923
1R03937
1R0
RES
1R0
3967
RES
6917
PESD5V0S1BA
F931
3922
1R0
1920
3972
30K
1928
2901
1n0
RES
3968
75R
RES
2944 1n5
F905
1R0
3900
2963
100p
RES
RES
PESD5V0S1BA
6913
47p
2979
PESD5V0S1BA
RES
I949
6902
I951
I910
PESD5V0S1BA
6901
3925
18R
RES
5901
60R
I948
24
3
4
5
6
7
8
9
25 26
15
16
17
18
19
2
20
21
22
23
49045-0011
1VA1
1
10
11
12
13
14
3924
1R0
10n2947
RES 2965
100p
1915
1925
10n2954
2906
10p
F924
10n2949
I950
2961
1n0
RES
1923
4
5
10n2977
MSJ-035-75C-Y-RF-PBT-BRF
1
2
3
1VA4
4n7
2928
1927
RES
1n0
2988
1R0
3973
RES
1n0
2902
3940 100R
1924
2948 10n
10u
2903
F925
3939 100R
RES
6919
PESD5V0S1BA
F904
I911
4510R3961-4
RES
100p
2964
2926
10u
1929
2955 10n
2927
RES
1n0
1916
RES
2980
15p
PB0P
Y0P
PR0P
YPBPR_DETECT
AOMCLK
HSYNC
CVBS_GND_1
AIN2_R
AIN2_L
AIN2_R
VSYNC
AIN0_R
CVBS_AV4
CVBS_DETECT
AIN2_L
HPOUT_L
HPOUT_R
CVBS_AV4
AIN0_R
AIN1_L
AIN1_R
SPDIF_OUT
ARC
AOBCK
AOLRCK
AOSDATA0
SOY0
CVBS_AV3
CVBS_GND
CVBS_GND
AIN0_L
BP
SPB0P
SPR0P
SY0P
SY0N
GP
RP
GN
SOG
AIN1_R
CVBS_AV3
SOY0
SPR0P
SY0P
SY0N
SPB0P
AIN0_L
AIN1_L
10-2-11 B06B, Analog I/O - Component & Composite
EN 68L12M1.1L LA 10.
2012-Aug-17
back to
div. table
10-2-12 B06C, Analog I/O - VGA
19300_013_120402.eps
120402
Analog I/O - VGA
B06C B06C
2012-01-20
1
3139 123 6539
MT5396 R2 LATAM 2K12
Analog I/O - VGA
H_SYNC
Y_SYNC
1A03
3A26
100R
3A27
100R
RES
6A10
CDS2C05HDMI2
FA07
2A07
10p
5A04
1A20
30R
0001
120R
3A19
5A01
60R
RES
PESD5V0S1BA
6A00
5A00
60R
IA03
IA01
IA02
6A07
BAS316
3A20
10K
PESD5V0S1BA
RES
FA03
6A05
100R
3A25
3A24
100R
RES
2A17
100p
100p
2A16
RES
FA06
1A07
5A06
60R
5p6
2A12
3A10
1R0
2A08
75R
3A15
10p
IA05
0001
1A08
IA04
FA01
BAS316
6A06
2K2
RES
3A18
5A02
60R
1A00
5A05
30R
FA14
PESD5V0S1BA
6A04
RES
2A14
2u2
10K
3A22
BC847BW
1
3
2
7A01
6A01
3A17
RES
PESD5V0S1BA
RES
2K2
3A14
75R
1A09
CDS2C05HDMI2
6A09
RES
IA07
17
FA08
15
2
3
4
5
6
7
8
9
16
1
10
11
12
13
14
IA09
1A01
MDS-15P-V-11-B-8.2-U4-ZN-PBT-BRF
5p6
2A13
RES
PESD5V0S1BA
6A03
FA13
FA02
1A10
3A16
75R
FA04
10K
3A21
2A15
1n0
2A09
10p
FA05
IA08
6A08
10K
3A23
BAS316
RES
PESD5V0S1BA
6A02
VGA_SDA
VGA_SCL
+5V_DC
+5V_DC +5V_DC
+5V_SW
VGA_DETECT
GP
SOG
HSYNC
BP
RP
GN
VSYNC
Circuit Diagrams and PWB Layouts
EN 69L12M1.1L LA 10.
2012-Aug-17
back to
div. table
10-2-13 B07, Ethernet
19300_014_120402.eps
120402
Ethernet
B07 B07
2012-01-20
1
3139 123 6539
MT5396 R2 LATAM 2K12
Ethernet
RD+
RX-
RXCT
RX+
RD-
RDTC
TCT
TD+
TX-
TXCT
TX+
TD-
For Debug Only
0R
2KV
2KV
Reserved
TX+
0R
0R
0R
RD+
RD-
RDTC
0R
RX+
TD+
RXCT+
TX-
0R
RX-
TXCT+
ETHERNET CONNECTOR
2KV
TCT
TD-
15p
2F11
RES
100n
2F08
RES
45
14
23
16V
RES
6F03-4
CDA5C16GTH
1F04
ACM2012
RES 2F16
15p
+3V3AN
RES
2F27
5p6
14
23
1
14
15
16
1F03
ACM2012
5F06-1
E2101
3
2
2F19
100n
3 6
GND_LAN
27
6F03-3
16V
RES
CDA5C16GTH
6F03-2
16V
RES
CDA5C16GTH
1n0
2F29
GND_LAN
IF05
RES
6F02
SML-310
3F06
6F01
RES
3F14RES
SML-310
FF07
FF10
100n
2F23
2775R3F18-2
9
27n
5F03
RES
1
2
3
4
5
6
7
8
1F01
3-338088-3
5F04
27n
RES
3F11RES
+3V3AN
2F28
1n0
FF12
FF11
10
11
8
7
6
GND_LAN
5F06-2
E2101
9
2F22
10n
RES
RES 2F18
15p
+3V3_SW
2F09
100n
15p
2F15
5p6
2F26
RES
1n0
2F20
RES
3F12RES
FF08
RES
15p
2F17
15p
RES
RES
2F13
2F12
15p
5F01
27n
RES
5p6
2F25
RES
RES
GND_LAN
1 8
2F24
5p6
CDA5C16GTH
6F03-1
16V
RES
3F01-4
RES
45
45
51R
3 6
75R3F18-4
3F18-3 75R
51R
RES
1 8
RES
3F01-1
5F05
30R
3F05
3F18-1 75R1 8
51R
RES
3 6
3F01-2
RES
27
3F01-3
51R
FF06
10n
2F21
15p
2F14
RES
FF09
3F13RES
RES
330R
RES
2F07
10u
3F08
330R
3F07
RES
27n
5F02
RES
GND_LAN
RXVP_1
RXVN_1
PHYLED1
PHYLED0
TXVP_0
TXVN_0
Circuit Diagrams and PWB Layouts
EN 70L12M1.1L LA 10.
2012-Aug-17
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div. table
10-2-14 B08, Ambilight
19300_015_120402.eps
120402
Ambilight
B08 B08
2012-01-20
1
3139 123 6539
MT5396 R2 LATAM 2K12
Ambilight
VIN
VOUT
GND
EN
FLG
EN
RESERVED
+3V3_AL
8
9
1920
FG80
15
16
17
18
2
3
4
5
6
7
RES
1
10
11
12
13
14
RES
1A05
FH34SRJ-18S-0.5SH(50)
RES
3G09
100K
10p2G7J
FG70
63V2.0A
1G06
+12V_AL
T
10u
2G96
30R5G57RES
RES
+3V3_AL
2G7G
1u0
3 6
100n
2G71
4G00-3
3G10
10K
FG01
FG79
IG01
100R3G7CRES
4G00-4
45
4G07
+3V3_SW
RES 2G94
100n
FG76
FG71
FG75
2G12
RES
1u0
1G07
1.0A63VT
+3V3_AL
FG74 5G55 30R
FG78
GND_AL
10u
2G13
RES
100n
2G14
RES
3G08
10K
5
1
RES
7G01
RT9715GGB
RES
4
3
2
FG77
4G08RES
RES
100R3G70
2G7K
10u
GND_AL
7
8
9
1920
+3V3_SW
14
15
16
17
18
2
3
4
5
6
FH34SRJ-18S-0.5SH(50)
1A04
1
10
11
12
13
RES
RES
4G10
RES
2G7H 10p
GND_AL
3G7D 100R
100p2G7M
+3V3_AL
100p
3G7G 100R
2G7N
4G09
FG02
+3V3_SW
RES
FG81
GND_AL
RES 2G7L
10u
100R3G7H
FG73
4G06
FG72
2G70
1u0
5G58
30R
1u0
2G7F
10u
2G95
AMBI_OUT_SPI_SDO
AMBI_OUT_SPI_SCKO
AMBI_TEMP
AMBI_SPI_SDO
ENABLE_3V3_AMBIn
AMBI_OUT_SPI_SDO
AMBI_OUT_SPI_SCKO
Circuit Diagrams and PWB Layouts
EN 71L12M1.1L LA 10.
2012-Aug-17
back to
div. table
10-2-15 Layout top
19300_016_120403.eps
120403
2012-01-20
1
3139 123 6539
MT5396 R2 LATAM 2K12
Layout top
1201
1205
1401
1402
1403
1404
1405
1406 14071408
1601
1602
1603 1604
1605
1606
16071608
1609
1701
1702
1703
1710
1711
1801
1802
1905
1914
19151916
1920
1921
1922 19231924
1925
1927
1928
1929
1A00
1A01
1A02
1A03
1A041A05
1A07 1A08
1A09 1A10
1A20
1B01 1B02 1B03
1B04
1C01
1C02 1C03
1C201C21
1C22
1C31
1C32
1D01
1D02
1D03
1F01
1F03
1F04
1G06
1G07
1G50 1G51
1M95 1M99
1T71
1VA1
1VA4
2101
2102
2104
2105
2110
2111
2112
2114
2115
2116
2117
2118
2123
2124
2125
2126
21272128
2131
2132
2133
2134
2136
2137
2143
2145
2147
2148
2154
2155
2156
2157
2168
2169
2170
2171
2176
2177
2178
2179
2180
2182
2183
2185
2187
2188
2189
2191
2192
2196
2197
2198
2199
2200 2201
2204
2205
2206
2207
2208
2209
2210
2211
2213
2215
2216
2221
2222
2225
2230
22332234
2244
2245
2246
2247
2248
2249
2400
2401
2402
2403
2404
2405
2406
2407
2408
2409
2410
2411
2412
2413
2414
2416
2417
2418
2419
2420
2421
24222423
2424
2425
2426
2427
2428
2429
2430
2431
2432
2436
2437
2442
2443
24602461
2462
2463
2464
2466
2467
2468
2469
2470
2471
2472
2473
2474
2475
2545
2556
2557
2558
2559
2561
2562
2563
2564
2565
2566
2567
2568
25A8
25A9
2605
2606
2613
2614
2634
2635
2647
2655
2656
2670
2671
2700
2701
2703
2704
2705
2706
2707
2708
2709
2710
2711
2712
2713
2714
2715
2716
2717
2719
2720
2721
272227232724
2725
28012802
2803
2804
2805
2806
2807
2808
2809
2810
2812
2813
2900
2901
2902
2903
2904
2905
2906
2907
2908
2925
2926
2927
2928
2929
2930
2944
2945
2946
2947
2948
2949
2951
2954
2955
2957
2958
2961
2962
2963
2964
2965
2966
2979
2980
2981
2984
2985
2986
2987
2988
2989
2A07
2A08
2A09
2A12
2A13
2A14
2A15
2A16
2A17
2B01
2C01
2C02
2C03
2D13
2D14
2D15
2D16
2D17
2D18
2D19
2F28
2F29
2G12
2G13
2G14
2G70
2G71
2G7F
2G7G
2G7H2G7J
2G7K
2G7L
2G7M
2G7N
2G94
2G95
2G96
3126
31273128
3129
3200
3201
3202
3203
3204
3205
3206
3207
3208
3209
3210
3211
3212
3213
3214
3217
3218
3222
3223
3224
3225
3226
3227
3228
3229
3230
3400
3401
3402
3403
3404
3405
3406
3407
3408
3409
3410
3411
3412
3417
3418
3419
3420
3421
34223423
3424 3425
3500
3501
3502
3503
3504
3505
35063507
3508
3509
3510
3511
3512
3513
3514
3518
3519
3520
3521
3523
3524
3525
3526
3530
3531
3532
3533
3534
3537
3538
35393540
3541
3613
3614
3617 3618
3619
3620
3621
3622
3625
3626
3629
3630
3631
3645
3646
3647
3648
3650
3656
3657
3662
3663
3665
3666
3677
3688
3695
3696
3701
3702
3704
3705
3706
3708
3709
3710
3711
3712
3713
3714
3715
3716
3718
3719
3720
3723
3724
3726
3727
3728
3729
3730
3731
3733
3734 3735
3736
3737
3738 3739
3740
3741
3742
3743
3744
3745
3746
3747
3748
3749
3750
3751
3752
3753
37543755
3756
3757
3758
3759
3761
3762
3763
3764
3765
3766
3767
3768
3769
3770
3771
3772
3773
3774
3775
3778
3779
3780
3781
3782
3783
3784
3785
3786
3787
3788
3789
3790
3791
3792
3793
3794
3795
37983799
37A1
37A3
37A4
37A5
37A6
37A7
37A8
37A9
37AA
37AB37AC
37AD
37AE
3805
3806
3807
3811
3812
3813
3814
3900
3901
3902
3903
3904
3905
3906
3907
3922
39233924
3925
3936
3937
3938
3939
3940
3941
3944
3946
3949
3950
3951
3952
3953
3958
3959
3960
3961
3965
3966
3967
3968
3969
3970
3971
3972
3973
3974
3A10
3A14
3A15
3A16
3A17
3A18
3A19
3A20
3A21
3A22
3A23
3A24
3A25
3A26
3A27
3B00
3B01
3B02
3B033B04
3B05
3B07
3B08
3B09
3B10
3B11
3B12
3B13
3B14
3B20
3B21
3B22
3B233B24
3B30
3B31
3B32
3B33
3B34
3B50
3B52
3B53
3B54
3B55
3C01
3C02
3C03
3C04
3C05
3C06
3C11
3C12
3C31
3D00
3D11
3D12
3D13
3D14
3D15
3D16
3D17
3D18
3F01
3G08
3G09
3G10
3G70
3G7C
3G7D
3G7G
3G7H
4201
4202
4401
4402
4403
4701
4B00
4B01
4B11
4B21
4B31
4D23
4D24
4D25
4D27
4D28
4D29
4G00
4G06
4G07
4G08
4G09
4G10
5100
5101
5102
5103
5104
5105
5106
5107
5400
5401
5402
5403
5404
5405
5406
5407
5408
5409
5410
5411
5412
5413
5414
5415
5416
5417
5500
5502
5503
5504
5505
5700
5701
5900
5901
5902
5A00
5A01
5A02
5A04
5A05
5A06
5B01
5F06
5G55
5G57
5G58
6500
6501
6700
6701
6702
6703
6704
68006801
6900
6901
6902
6903
6904
6913
69146915
6916
6917
6919
6920
6921
6A006A016A026A036A04
6A05
6A06
6A07
6A08
6A09
6A10
6B01
6B02
6B03
6B056B06
6B11
6B12
6B13
6B156B16
6B21
6B22
6B23
6B256B26
6B31
6B32
6B33
6B356B36
6F03
7110
7113
7116
7117
7118
7210
7216
7220
7300
7400
7401
7402
7500
7501
7502
7503
7504
7601
7602
7603
7604
7700
7701
7702
7703
7704
7705
7800
7801
7A01
7B00
7B01
7B11
7B21
7B31
7C01
7D04
7G01
Circuit Diagrams and PWB Layouts
EN 72L12M1.1L LA 10.
2012-Aug-17
back to
div. table
10-2-16 Layout bottom
19300_017_120403.eps
120403
2012-01-20
1
3139 123 6539
MT5396 R2 LATAM 2K12
Layout bottom
2100
2103
2106
2107
2108
2109
21132119
2120
2121
2122
2146
2164
2165
2166
2167
2172
2174
2175
2184
2193
2194
2214
2217
2218
2219
2220
2223
2224
2226
2227
2228
2229
2231
2232
2235
2236
2239
2240
2433
2434
2435
2438
2439
2440
2441
2465
2500
2501
2502
2503
2504
2505
2506
2507
2508
2509
2510
2511
2512
2513
2514
2515
2516
2517
2518
2519
2520
2521
2522
2523
2524
2525
2526
2527
2528
2529
2530
2531
2532
2533
2534
2535
2536
2537
2538
2540
2541
2542
2543
2544
2546
2547
2548
2549
2550
2551
2552
2553
2554
2555
2560
2569
2570
2571
2572
2573
2574
2575
2576
2577
2578
2579
2580
2581
2582
2583
2584
2585
2586
2587
2588
2589
2590
2591
2592
2593
2594
2595
2596
2597
2598
2599
25A0
25A1
25A2
25A3
25A4
25A5
25A6
25A7
25AA
25AB
2601
2602
2608
2609
2610
2611
2612
2615
2616
2617
2618
2636
2637
2638
2639
2640
2641
2642
2643
2644
2645
2646
2649
2650
2651
2652
2653
2654
2661
2662
2663
2664
2665
2666
2667
2668
2669
2672
2673
2674
2675
2676
2677
2678
2679
2680
2681
2682
2683
2684
2685
2686
2687
2688
2689
2690
2691
2692
2693
2694
2695
2696
2697
2698
2699
269A
269B
269C
269D
269E
269F
269G
269H
269J
269K
269L
269M
2718
2924
2977
2978
2982
2983
2D11
2D12
2D20
2D21
2F07
2F08
2F09
2F11
2F12
2F13
2F14
2F15
2F16
2F17
2F18
2F19
2F20
2F21
2F22
2F23
2F24
2F25
2F26
2F27
3100
3102
3103
3104
3105
3106
3107
3108
31093110
3111
3112
3113
3114
3115
3116
3117
3118
3119
3120
3121
3122
3123
3130
3131
3133
3137
3146
3162
3163
3167
3168
3169
3170
3231
3232
3527
3528
3529
3535
3536
3600
3601
3607
3608
3623
3624
3627
3628
3632
3633
3634
3635
3636
3651
3652
3653
3655
3658
3659
3660
3667
3678
3682
3683
3689
3690
3691
3692
3693
3694
3697
3698
3796
3797
3921
3C21
3C22
3D01
3D02
3D03
3D05
3D06
3D07
3D08
3D09
3D10
3D193D20
3D21
3D22
3D23
3F05
3F06
3F07
3F08
3F11
3F12
3F13
3F14
3F18
4D04
4D05
4D06
4D26
4D30
5200
5201
5202
5203
5204
5506
5D00
5D01
5D02
5F01
5F02
5F03
5F04
5F05
6D00
6D01
6F01
6F02
7D00
7D02
7D03
A204A205 A209A210
F101
F102 F103 F106 F107 F108F113 F114 F115 F118 F119 F120 F121 F122 F123
F126
F127
F128
F129
F130
F131F132F133 F134
F200
F202
F203
F206
F207
F208 F211
F212
F213
F401
F402
F403
F404
F405
F406
F407
F408
F409
F410
F411 F412
F413
F506
F507
F509
F510
F511
F512
F700
F701
F702
F704
F705
F706
F707
F708
F709
F711
F712
F716
F717
F719
F720
F721
F722
F723
F724
F725
F726
F727
F728
F729
F730
F731
F732
F734
F735
F736
F737
F738
F739
F740
F741
F742
F743
F744
F745
F746
F804
F807
F808
F809
F810
F811
F829
F900
F901 F902
F903
F904
F905
F919
F921
F923
F924
F925
F927
F928
F929
F930
F931
FA01 FA02
FA03
FA04
FA05
FA06
FA07
FA08
FA13FA14
FB01
FB02
FB03 FB04
FB05
FB07
FB08
FB09
FB11 FB12
FB13
FB15
FB16
FB17
FB18
FB19
FB20
FB21
FB22
FB23
FB24
FB25
FC01
FC11
FC21
FC32
FC33
FC34FC35
FC36
FC37
FC38
FC39
FC40
FC41
FC42
FC43
FC44
FC45
FC46
FC47
FC48
FC49
FC50
FC51
FD01
FD02
FD03 FD04
FD05
FD06
FD07
FD08
FD09 FD10
FD11
FD12
FD13
FD14
FD15
FD16FD17
FD18
FD19
FD20
FD21
FD22FD23
FD24
FD25
FD27
FD36FD37
FD38
FD39
FD40
FD41
FD42 FD43
FD44
FD45
FD46
FD47
FD48 FD49
FD50
FD51
FD52FD53
FD54
FD55
FD56
FD57
FD58FD59
FD61
FD62
FD64
FD65
FD66
FF06
FF07
FF08
FF09
FF10
FF11
FF12
FG01
FG02
FG70
FG71
FG72
FG73
FG74
FG75
FG76
FG77
FG78
FG79
FG80
FG81
I106
I118
I119
I120
I122
I127
I132
I134
I135
I136
I138
I139
I140
I143
I144
I145
I146
I147
I149
I150
I151
I152
I153
I154
I155
I156
I157
I158
I159
I206
I207 I208
I404
I405
I406
I407
I408
I409
I410
I411I412
I413
I414
I415
I416
I417
I418
I419
I420
I421
I422
I423
I424
I501
I502
I503
I504
I505
I508
I509
I510
I517
I518
I725
I726
I732
I741
I744
I808
I809
I810
I811
I812
I902
I903
I904
I910
I911
I912
I945 I946
I947
I948
I949
I950
I951
I952
I953
IA01
IA02
IA03 IA04
IA05
IA07
IA08
IA09
IB01
ID02
ID03
ID05
ID07
ID17
IF05
IG01
Circuit Diagrams and PWB Layouts
EN 73L12M1.1L LA 10.
2012-Aug-17
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div. table
Circuit Diagrams and PWB Layouts
19300_019_120403.eps
120403
Keyboard Control Module
E E
2012-02-06
1.1
2722 171 90554, 2722 171 90555,
2722 171 90556, 2722 171 90557,
2722 171 90561, 2722 171 90562
Keyboard Control Module
+3.3 V
R3
5.6 kΩ
V
SS
V
SS
V
SS
V
SS
V
SS
V
SS
V
SS
V
SS
RES
C1
103
R4
8.2 kΩ
R2
3.9 kΩ
R1
1.5 kΩ
R5
18 kΩ
CH+
ZD1
RES
CH- SOURCE VOL+ VOL- POWER
R6
6.8 kΩ
J1
CON3
1
2
3
10.3 E 272217190554 - 272217190562 Keyboard Control Module
10-3-1 Keyboard Control Module
EN 74L12M1.1L LA 10.
2012-Aug-17
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div. table
Circuit Diagrams and PWB Layouts
19300_020_120403.eps
120403
2012-02-06
1.1
Keyboard Control Module
layout
2722 171 90554, 2722 171 90555,
2722 171 90556, 2722 171 90557,
2722 171 90561, 2722 171 90562
Keyboard control module layout top
Keyboard control module layout bottom
10-3-2 Keyboard Control Module layout
EN 75L12M1.1L LA 10.
2012-Aug-17
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div. table
10.4 J 272217190629 Sensor board
19300_023_120404.eps
120404
Sensor Board
J J
2011-12-27
1
2722 171 90629
Sensor Board
+3.3V
R3
10k
R4
47R/100R
VSS
R2
100R
R1
10R
VSS
+3.3V
C3
10uF/6 .3V
B
2
C
3
E
1
Q1
BC857
R5
10k
VSS
+5V
R19
47k
R25
100k
R21
100k
R24
18k
G1 T EM T6200FX01
ZD1
3.3V
C12
0.1u
C110.1u C13 0.1u
R22
470R
R26
100R
3
2
1
8
4
U2A
LM358
5
6
7
U2B
LM 358
VSSVSS
+5V
R23
15k
R20
22k
VSS VSS VSSVSS
D1
B
2
C
1
E
3
Q2
BC847
GND
1
VDD
2
OUT
3
GND
4
U1
TSOP75236
ZD3
5.6V
CONNEC T OR
+5V
+3.3V
C4
10pF
C5
10pF
R9
10R
R10
10R
ZD2
5.6V
1
2
3
4
5
6
7
8
9
10
11
J1
FH52-11S-0.5SH
1
2
3
4
5
6
7
8
J12
FH52-08S-0.5SH
C1
2.2uF /16V
C2
2.2uF/16V
VSS
VSSVSS
VSS
VSS
VSS
+5V
+3.3V
SDA
SCL
SCL-SRF
SDA-SRF
SDA-SRF
SCL-SRF
VSS
+3.3V
1
2
3
J2
TYCO 2.0- 3pin
1
2
ESD
RE D LED
IR
LIGHT SENSOR
VSS
IR-IRQ-RF4CE
Keyboard-IRQ-SRF
LED2
3D-LED
LIG HT SENSOR
VSS
option
Key board-IRQ-SRF
Key board-IRQ-SRF
LIGHT SENSOR
IR-IRQ-RF4CE
LED2
RESETn
C10
100pF
VSS
+3.3V +3.3V
R14
10k
R13
10k
C14
102
C50
100pF
VSS
VSS
VSS
RES
RES
RES
RES
RES
RES
RES
RES
RES
D1*
95-21
RES
RES
RES
RES
RES
RES
10-4-1 IR/LED/a nalogue light sensor
Circuit Diagrams and PWB Layouts
EN 76L12M1.1L LA 10.
2012-Aug-17
back to
div. table
Circuit Diagrams and PWB Layouts
Sensor board layout top
Sensor board control module layout bottom
19300_025_120404.eps
120404
2011-12-27
1
2722 171 90629
Sensor Board
layout
GWA7.820.742-1
V1.0
ZD3
C3
ZD1
U2
C11
R21
R20
R23
C12
R22
C13
R24
R25
R26
R19
G1
U1
R2
C50
R1
ZD2
J12
C4
R9
C5
R10
R14
R13
J1
R4
C1
C2
C10
R3
R5
C14
Q1
Q2
D1
J2
10-4-2 IR/LED/analogue light sensor board layout
EN 77L12M1.1L LA 10.
2012-Aug-17
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div. table
Circuit Diagrams and PWB Layouts
19301_004_120704.eps
120704
12 LED single spectra
AL1 AL1
2011-11-29
4
2011-11-09
3
2011-10-06
2
2011-06-27
1
3104 313 6561
12 LED single spectra
-T
-T
R
G
B
OUT2
R
G
B
OUT3
R
G
B
OUT1
IREF
VREG
SDTI
NC
SDTO
SCKO
SCKI
OUT0
VCC
GND_HS
B
G
R
VIA
GND
+12V
+3V3AL
+3V3
3105
1%
3K3
3107
1%18K
+12V
9111
F010
10K
3106
RES
+3V3
F009
310430135421
1X02
F008
+12V
F006
F003
6
7
8
9
19
20
F004
12
13
14
15
16
17
18
2
3
4
5
FH34SRJ-18S-0.5SH(50)
1A02
1
10
11
3108
100R
6
7
8
9
19
20
100R
3109
13
14
15
16
17
18
2
3
4
5
1A05
1
10
11
12
100n
2104
FH34SRJ-18S-0.5SH(50)
+3V3+3V3
2101
100n
+3V3
9110
9107
8
9
19
20
14
15
16
17
18
2
3
4
5
6
7
FH34SRJ-18S-0.5SH(50)
1A04
1
10
11
12
13
2103
1u0
1%
1K5
3104
1%
10K
3103
10K
3102
F002
+12V
2107
100p
10p
2106 2105
10p
9104
F005
5
1
6
13
26
27
28
29
15
9
12
20
23
8
11
19
22
7
10
2
18
25
16
3
4
14
17
21
24
7101
TLC5971RGE
9106
6101
BAT54 COL
RES
+3V3
27K
3101
9109
9102
2102
100n
9103
4
52
7102
LMV321AP5X
1
3
F001
310430135421
10X100X1
310430135421
9105
220R
3110
+3V3AL
F007
+3V3
9108
+3V3
9101
PWM-R3
PWM-R4
AMBI-TEMP
PWM-B1
PWM-B2
PWM-B3
PWM-B4
PWM-G1
PWM-G2
PWM-G3
PWM-G4
PWM-R1
PWM-R2
SCKI
AMBI-TEMP
SDI
SCKI
AMBI-TEMP
SDI
SCKI
SDI SDI-BUF
SCKI-BUF
SDO
SCKI
AMBI-TEMP
SDI-BUF
SCKI-BUF SDO
10.5 AL 310431365614 12 LED AmbiLight
10-5-1 AL1, 12 LED single spectra
EN 78L12M1.1L LA 10.
2012-Aug-17
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div. table
10-5-2 AL2, 12 LED single spectra
19301_005_120704.eps
120704
12 LED single spectra
AL2 AL2
3104 313 6561
12 LED single spectra
2011-11-29
4
2011-11-09
3
2011-10-06
2
2011-06-27
1
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
560R
3213-3
3 6
560R
3207-4
45
100n
2205
5
21
43
LTW-S45T
7010
6
7011
65
21
43
1
43
LTW-S45TLTW-S45T
7012
65
2
65
21
43
3
LTW-S45T
7013
7005
65
21
4
21
43
LTW-S45TLTW-S45T
7006
6565
21
43
3 6
LTW-S45T
7007
560R
3207-3
2204
100n
2203
100n
+12V
100n
2202
100n
2201
1
43
+12V
LTW-S45T
7016
65
2
560R
3213-2
27
3213-1
1 8
27
560R
1 8
3210-2
560R
3210-1
560R
560R
45
3
+12V
3210-4
7014
65
21
4
LTW-S45T
65
21
43
LTW-S45T
7008
2207
100n
+12V
100n
22062208
100n
560R
3 6
560R
3207-1
1 8
3210-3
560R
3207-2
27
5
21
43
LTW-S45T
7015
6
7009
65
21
43
45
LTW-S45T
3 6
3216-4
560R
7
3216-3
560R
3216-2
560R
2
3216-1
560R
1 8
560R
3213-4
45
PWM-G4
PWM-R4
PWM-B2
PWM-G2
PWM-R2
PWM-B3
PWM-G3
PWM-R3
PWM-B1
PWM-G1
PWM-R1
PWM-B4
Circuit Diagrams and PWB Layouts
EN 79L12M1.1L LA 10.
2012-Aug-17
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div. table
Circuit Diagrams and PWB Layouts
19301_006_120705.eps
120705
10 LED single spectra
AL1 AL1
2011-11-25
5
2011-11-09
4
2011-11-083
2011-09-19
2
2011-07-12
1
3104 313 6563
10 LED single spectra
-T
R
G
B
OUT2
R
G
B
OUT3
R
G
B
OUT1
IREF
VREG
SDTI
NC
SDTO
SCKO
SCKI
OUT0
VCC
GND_HS
B
G
R
VIA
GND
-T
F002
2107
100p
9101
3101
4
52
27K
7102
LMV321AP5X
1
3
20
9105
17
18
2
3
4
5
6
7
8
9
19
1A04
1
10
11
12
13
14
15
16
FH34SRJ-18S-0.5SH(50)
2103
1u0
+12V
+3V3
+3V3AL
9109
310430135421
1X01
9108
1X00
310430135421
+12V
5
6
7
8
9
19
20
100R
3109
12
13
14
15
16
17
18
2
3
4
1A05
1
10
11
RES
FH34SRJ-18S-0.5SH(50)
+3V3
10K
3106
F001
3105
1%
3K3
3107
1%18K
+3V3
F006
+12V
1%
1K5
3104
+3V3AL
3108
100R
9102
2102
100n
2
5
1
6
13
26
27
28
29
15
9
12
20
23
8
11
19
22
7
10
18
25
16
3
4
14
17
21
24
7101
TLC5971RGE
9103
F003
+3V3
F007
+3V3
9107
3103
+3V3
3102
1%
10K
10K
+3V3
6101
BAT54 COL
F004
5
6
7
8
9
19
20
10
11
12
13
14
15
16
17
18
2
3
4
FH34SRJ-18S-0.5SH(50)
1A02
1
F005
+12V
F010
220R
3110
9110
+3V3
100n
2104
2101
100n
10p
2106 2105
10p
9111
9104
F009
F008
PWM1-R2
PWM1-R3
PWM1-R4
SDI-BUF
SCKI-BUF
RES
9106
AMBI-TEMP
PWM1-B1
PWM1-B2
PWM1-B3
PWM1-B4
PWM1-G1
PWM1-G2
PWM1-G3
PWM1-G4
PWM1-R1
AMBI-TEMP
SDI
SCKI
AMBI-TEMP
SDI
SCKI
SDI SDI-BUF
SCKI-BUF
SDO
SCKI
AMBI-TEMP
SDO
SCKI
10.6 AL 310431365635 10 LED AmbiLight
10-6-1 AL1, 10 LED single spectra
EN 80L12M1.1L LA 10.
2012-Aug-17
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div. table
10-6-2 AL2, 10 LED single spectra
19301_007_120705.eps
120705
10 LED single spectra
AL2 AL2
3104 313 6563
10 LED single spectra
2011-11-25
5
2011-11-09
4
2011-11-08
3
2011-09-19
2
2011-07-12
1
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
3214-2
72
2204
100n
+12V
560R
21
43
LTW-S45T
7015
65
560R
3214-1
8 1
750R
45
560R
3214-3
6 3
3216-4
3214-4
54
3 6
560R
3216-3
750R
2203
100n
220R
3215-3
3 6
220R
3215-2
27
3215-1
1 8
5
21
43
220R
8
LTW-S45T
7012
6
3216-1
750R
1
7013
65
21
43
220R
45
LTW-S45T
3
3215-4
7014
65
21
4
LTW-S45T
750R
27
100n
2202
3216-2
100n
2201
5
21
43
+12V
LTW-S45T
7016
6
PWM1-B3
PWM1-G3
PWM1-R3
PWM1-G4
PWM1-B4
PWM1-R4
Circuit Diagrams and PWB Layouts
EN 81L12M1.1L LA 10.
2012-Aug-17
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div. table
10-6-3 AL3, 10 LED single spectra
19301_008_120705.eps
120705
10 LED single spectra
AL3 AL3
3104 313 6563
10 LED single spectra
2011-11-25
5
2011-11-09
4
2011-11-08
3
2011-09-19
2
2011-07-12
1
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
3307-4
45
220R
3307-1
1 8
220R
220R
3307-2
27
3308-4
45
3308-3
3 6
560R
560R
2205
100n
5
21
43
+12V
7009
LTW-S45T
665
21
43
1
43
7010
LTW-S45TLTW-S45T
65
2
3 6
7011
560R
1 8
220R
3307-3
27
3308-1
3308-2
560R
2206
100n
5
21
43
7008
LTW-S45T
6 65
21
43
7007
LTW-S45T
+12V
100n
2308
100n
2307
3211-4
45
3211-3
3 6
560R
27
560R
1 8
560R
3211-2
560R
3211-1
PWM1-B2
PWM1-G2
PWM1-R2
PWM1-B1
PWM1-G1
PWM1-R1
Circuit Diagrams and PWB Layouts
EN 82L12M1.1L LA 10.
2012-Aug-17
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div. table
11. Styling Sheets
19300_026_120405.eps
120405
5000 styling 32"
Pos No. Description Remarks
0004 Front cabinet
0012 Back cover
0032 IR cover
0040 Mains inlet bracket
0260 Stand assembly
1004 Display panel
1005 Board PSU
1085 Remote control Not displayed
1114 Keyboard assembly
1122 IR assembly
1150 Board SSB
5214 Loudspeaker
5215 Loudspeaker tweeter
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9
1122
0004
1004
1114
0032
0012
5214
1150
0040
5215
5215
0260
11.1 5000 series 32"
Styling Sheets
EN 83L12M1.1L LA 11.
2012-Aug-17
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div. table
11.2 5000/6000 series 42"/47"
19300_028_120405.eps
120405
5000/6000 42/47"
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9
Pos No. Description Remarks
0004 Front cabinet
0012 Back cover
0032 IR cover
0040 Mains inlet bracket
0260 Stand assembly
1004 Display panel
1005 Board PSU
1085 Remote control Not displayed
1114 Keyboard assembly
1122 IR assembly
1150 Board SSB
5214 Loudspeaker
5215 Loudspeaker tweeter
1122
0004
1004
1114
5215
5214
1005
5215
1150
0260
0012
0032
Styling Sheets
EN 84L12M1.1L LA 11.
2012-Aug-17
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div. table
11.3 7000 series 42"
19300_044_120417.eps
120417
7000 Series 42"
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9
Pos No. Description Remarks
0007 Top Deco assembly
0008 Left Deco assembly
0009 Right Deco assembly
0017 Bottom Deco assembly
0020 Rear Cover
0031 Ambilight Door
0032 IR Cover
0035 Swivel Pom
0040 Main inlet bracket
0085 Left filler assembly
0086 Right filler assembly
0253 Wifi Dongle Not displayed
0259 Stand Accessory Not displayed
0260 Stand assembly
0269 3D Goggle Not displayed
1004 Panel
1005 Board PSU
1085
Remote Control Not displayed
1114 Keyboard assembly
1122 IR assembly
1150 SSB panel
1163 Ambilight
5214 Loudspeaker
5217 Left Tweeter Loudspeaker Not displayed
5218 Right Tweeter Loudspeaker Not displayed
0017
0009
1114
1004
0086
1005
0085
0008
1150
0040
1163
0260
5214
0032
0020
0031
1163
0035
1122
0017
0017
Styling Sheets
EN 85L12M1.1L LA 11.
2012-Aug-17
back to
div. table
11.4 7000 series 47"
19300_045_120417.eps
120417
7000 Series 47"
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9
Pos No. Description Remarks
0007 Top Deco assembly
0008 Left Deco assembly
0009 Right Deco assembly
0017 Bottom Deco assembly
0020 Rear Cover
0031 Ambilight Door
0032 IR Cover
0035 Swivel Pom
0040 Main inlet bracket
0085 Left filler assembly Not displayed
0086 Right filler assembly Not displayed
0253 Wifi Dongle Not displayed
0259 Stand accessory Not displayed
0260 Stand assembly
0269 3D Goggle
Not displayed
1004 Panel
1005 Board PSU
1085 Remote Control Not displayed
1114 Keyboard assembly
1122 IR assembly
1150 SSB panel
1163 Ambilight
5214 Loudspeaker
5217 Left tweeter Loudspeaker
5218 Right tweeter Loudspeaker
0017
0017
1004
0260
0008
1163
0009
5217
1150
1005
0020
1163
0032
0035
0031
5214
0040
5218
1122
1114
0007
Styling Sheets
EN 86L12M1.1L LA 11.
2012-Aug-17
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div. table
11.5 6000/7000 series 55"
19301_001_120702.eps
120702
6000/7000 series 55"
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9
Pos No. Description Remarks
0007 Top deco assembly
0008 Left deco assembly
0009 Right deco assembly
0017 Bottom deco assembly
0020 Rear cover
0031 Ambilight door
0032 IR cover
0035 Swivel pom
0040 Main inlet bracket
0085 Left filler assembly
0086 Right filler assembly
0259 Stand accessory
0260 Stand assembly
1004 Panel
1005 Board PSU
1085 Remote control Not displayed
1114 Keyboard assembly
1122 IR assembly
1150 Board SSB
1163 Ambilight
5214 Loudspeake
r
5217 Left tweeter loudspeaker
5218 Right tweeter loudspeaker
0007
0086
1114
0040
1005
0009
0260
0259
5218
5214
5217
0020
0032
0031
0035
0017
1122
0017
0017
0008
1163
1163
0085
1150
1004
Styling Sheets
EN 87L12M1.1L LA 11.
2012-Aug-17
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div. table
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