SHARP LC-26D44 & LC32D44 Training Course (English)[1]
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Short Description
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Description
Training Course
MODELS: LC-26D44 LC-32D44
Presentation By: Jan Niemi
SEES Engineering Department
Issued: Sofía García SEES Engineering Department
Training course: D44
1
May 2008
Index 1. Models introduction 2. Block Diagram 3. Software Updating 4. Service Mode 5. LCD Adjust Process 6. Electrical Diagrams / PWB
SEES Engineering Department
Training course: D44
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1. Models Introduction Sizes: 26” & 32” Type of cabinet: - Bottom speakers. - BK : Black Color. - GY: Grey Color. Models: LC-26/32D44EE-BK/GY → Continental LC-26/32D44ES-BK/GY → Sweden Market LC-26/32D44EK-BK/GY → United Kingdom LC-26/32D44RU-BK/GY → Russian Market
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Training course: D44
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1. Models Introduction (continued) LC-26D44 & LC-32D44 Models Specifications
• • • • • • •
ASV & Black TFT LCD. HD Ready Panel (1366 x 768) WXGA with 4ms response. Wide vision angle (H/V 176º). High brightness and contrast (1.500:1). Interlaced and progressive mode compatible (I/P). Built-in DVB-T Tuner. Multistandard Video and audio: - Multistandard Video & audio . - Video: PAL/SECAM & NTSC (AV only). - TV: B/G, I, D/K, L & L’. - Sound: NICAM & A2 (IGR). • OSD multilanguage. • 2 HDMI 1.2 inputs (Video Digital, Audio Digital & Analog). • Analog mode PC input. • Components Input ( 3RCA to 15pin D-sub adapter). • RGB at EXT1/EXT2 Terminal. • RS-232C. • AV-Link at EXT2. • Does not support CEC at HDMI. • Active Backlight (dynamic contrast 10.000:1) • Sleep Timer. • Does not support “RC Path Through” by Pin Nº 9 of Service Connector. SEES Engineering Department
Item
TV 26”: LC-26D44E/S/K/RU TV LCD 32”: LC-32D44E/S/K/RU 26o LCD LCD COLOUR TV, Model: LC-26D44E, LC-26D44S
LCD panel
26o Advanced Super View & BLACK TFT LCD
Resolution
1,049,088 pixels (1,366 g 768)
Video Colour System TV Function
TV-Standard Receiving Channel
PAL/SECAM/NTSC 3.58/NTSC 4.43/PAL 60 Analogue
CCIR (B/G, I, D/K, L, L’)
Digital
DVB-T (2K/8K OFDM)
VHF/UHF
E2–E69ch, F2–F10ch, I21–I69ch, IR A–IR Jch, (Digital: E5–E69ch)
CATV
Hyper-band, S1–S41ch
TV-Tuning System
Auto Preset 99 ch, Auto Label, Auto Sort
STEREO/BILINGUAL
NICAM/A2
Brightness
450 cd/m2
Backlight life
60,000 hours (at Backlight Standard position)
Viewing angles
H : 176° V : 176°
Audio amplifier
10W g 2
Speaker Terminals
Ø XX mm g 2, Ø XX mm g 2 Antenna
UHF/VHF 75q Din type (Analogue & Digital)
RS-232C
9 pin mini D-sub
EXT 1
SCART (AV input, Y/C input, RGB input, TV output)
EXT 2
SCART (AV input/output, Y/C input, RGB input, AV Link)
EXT 3
S-VIDEO (Y/C input), RCA pin (AV input)
EXT 4
Ø 3.5 mm jack (Audio input), 15 pin mini D-sub (PC)
EXT 5
Audio in, Component in
EXT 6
HDMI, Ø 3.5 mm jack (Audio input)
EXT 7
HDMI
C. I. (Common Interface)
EN50221, R206001
OUTPUT
RCA pin (Audio)
Headphones OSD language
Ø 3.5 mm jack (Audio output) English/German/French/Italian/Spanish/Dutch/Swedish/Portuguese/Finnish/Turkish/Greek/ Russian/Polish
Power Requirement
AC 220–240 V, 50 Hz
Power Consumption
95W (0,9 Method IEC60107) XXX W (0.9Standby) W Standby) (Method IEC60107)
Weight
10,5 (With Stand) XX.X Kg kg (Display only), XX.X kg (Display with stand)
Operating temperature
0°C to k40°C
120W (0,9 Standby) Method IEC60107) 13,0 Kg (With Stand)
• As a part of policy of continuous improvement, SHARP reserves the right to make design and specification changes for product improvement without prior notice. The performance specification figures indicated are nominal values of production units. There may be some deviations from these values in individual units.
Training course: D44
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2. Block Diagrams Main ICs IC207: COFDM DECODER (Coded Orthogonal Frequency Division Multiplexing) Part Number : STV0362
SHARP Code: RH-IXB964WJZZQ
The STv0362 is a single-chip demodulator using COFDM and is intended for digital terrestrial receivers using compressed video, sound and data services. It converts IF or base band differential signals to MPEG-2 transport stream format by processing OFDM carriers. The STv0362 is fully compliant with the DVB-T specification (ETS 300 744) and Nor Dig Unified specification.
IC1951: HDMI RECEIVER (High Definition Multimedia Interface) Part number : Sii9025
SHARP Code : VHISII9025+-1Q
The Sii9025 is a compliant with the latest HDMI 1.2 (High Definition Multimedia Interface) specification. Backward compatibility with DVI 1.0 allows HDMI systems to connect to existing DVI 1.0 hosts. The SiI9025 is capable of receiving and outputting two channel digital audio at up to 192 kHzan excellent solution for Digital TVs. An S/PDIF port supports up to 192 kHz audio. The SiI9025 also comes pre-programmed with HDCP keys, greatly simplifying the manufacturing process, while providing the highest level of HDCP key security. This IC includes the main features show below: 1- Dual-Input HDMI 1.2, HDCP 1.1 and DVI 1.0 compliant receiver. 2- Integrated TMDSR core. 3- Digital video interface supports video processors: • 24-bit RGB/YCbCr 4:4:4 • 16/20/24-bit YCbCr 4:2:2 • 8/10/12-bit YCbCr 4:2:2 (ITU BT.656) • 12-bit DMO (Digital Multimedia Output) RGB/YCbCr 4:4:4 (clocked with rising & falling edges) • Color Space Conversion for both RGB-to-YCbCr and YCbCr-to-RGB (both 601 and 709) • Auto video mode configuration simplifies system firmware design SEES Engineering Department
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2. Block Diagrams (continued) Main ICs 4- Digital audio interface supports high-end audio systems: • One programmable I2S output for connection to low-cost DACs at 32-192kHz. • S/PDIF output supports PCM, Dolby Digital, DTS digital audio transmission (32-192 kHz Fs) using IEC60958 and IEC61937. • Auto audio error detection with programmable soft mute. 5- Integrated HDCP decryption engine for receiving protected audio and video content. 6- HDCP Built in Self Test (BIST) lowers cost to test HDCP operation. 7- Pre-programmed HDCP keys provide highest level of key security, simplifies manufacturing.
IC1922 & IC1902: NVM OF HDMI (E-EDID) Part Number : 24LC2BIN
SHARP Code: VHI24LC2BIN-1Y
This IC is a 2-wire (I2C bus type) serial EEPROM this is electrically programmable. This EEPROM chip stores the data structure used to carry configuration information for optimal use of a display (EDID data).
IC4001: DIGITAL PROCESSOR MPEG 1/2 DECODER (Audio/Video) Part Number : STI5105ALC
SHARP Code: RH-IXC243WJZZQ
The STi5105ALC sets a new standard for set-top box decoder ICs, delivering outstanding performance, features and innovations to dramatically reduce cost compared with previous generations. The Sti5105 features an even faster ST20CPU with direct map, single cycle caches to boost performance. Graphics and display capabilities have been enhanced with the provision of a blitter engine for formatting and final display composition. Color formats (CLUT8 and true color ARGB16) and display planes (background, still picture, video and OSD graphics) are provided. Overall system performance benefits from the integration of SDRAM (DDR or SDR) external memory, that provides a unified memory system with high bandwith and low latency CPU access over a 16-bit interface. System cost reduction is further promoted by the integration of additional peripheral and system services functions, such as VCXO, an enhancer reset controller, DVB-CI support, smartcard power control and improved low power and standby functionality. SEES Engineering Department
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2. Block Diagrams (continued) Main ICs This IC includes the main features show below: 1- An enhanced ST20 32-bit VL-RISC CPU with a 200MHz clock, 4Kbytes of instruction cache, 4Kbytes of data cache and 2Kbytes of embedded SRAM. 2- A 16-bit, 166MHz Shared Memory Interface, with support for 64- and 128-bit configurations. 3- A programmable External Memory Interface supporting 4 separately configurable banks of SRAM, Flash and DRAM. 4- An MPEG-2 (MP@ML) decoder, including trick modes such as smooth fast-forward and rewind. 5- A Graphics/Display unit with 4 display planes, alpha blending, antialiasing and antiflutter filters, subpicture decoder, and blitter display compositor with separate OSD (On-Screen Display) controls for TV and VCR outputs. 6- PAL/NTSC/SECAM encoder. 7- CGMS, Teletext, WSS, VPS encoder. 8- MPEG-1 layer I/II audio subsystem with embedded DSP for all popular audio formats. 9- A full range of on-chip peripherals, including 2 UARTs, 3 parallel I/O banks, 1 smartcard interface, four PWM channels, 1 IR transmitter/receiver, etc.
IC4252: NVM 64Kb-E2PROM FOR DIGITAL PROCESSOR (IC4001). Part Number : BR24S64FVM-WTR
SHARP Code: VHIBR24S64M-1Y
The BR24S64FVM is a 2-wire (I2C bus type) serial EEPROM that is electrically programmable. This IC stores all data related to the Digital Module (Channels, User settings, etc.).
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2. Block Diagrams (continued) Main ICs IC3001: Main CPU / VIDEO PROCESSOR.
Part Number: VCT7993P-FA-A1-H000
SHARP Code: RH-IXC354WJZZQ
The VCT 77VWP (VCT-Pro) family is dedicated to high-quality FPD and double-scan TV sets. The memory and program ROM are integrated in the IC. Modular design and deep submicron technology allow the integration of audio, video, Teletext, OSD, and controller-related functionalities. They cover the whole range of flat-panel display TVs. Each member of the IC family contains the entire audio, video, up-conversion processing for 4:3 and 16:9 50/60 Hz progressive or 100/120 Hz interlaced stereo TV sets plus the control/data interface for flat-panel displays. The integrated microcontroller supports a powerful OSD and graphics generator with integrated Teletext acquisition. The VCT 77vwP family provides a front-end video-processing unit with 4 CVBS-Y/C or component inputs for HDTV, EDTV and SDTV. A VBI slicer, support of 2000 pages of Teletext, and a 3-D comb filter for PAL and NTSC (in certain versions) are also available. The front-end unit further allows processing an SD and an HD source in parallel, thus enabling PiP and PaP functionality. Motion-adaptive de-interlacing, temporal noise reduction, and film mode detection are based on a unified memory technology. Post-scaling in the display-processing block ensures the desired output format. Display processing is supported by an 8-bit 8051-compatible controller. By means of powerful alpha blending, the graphics mixer composes the output image from following image layers: the video layer, the OSD layer and the pixel graphics layer. The audio part consists of a multi-standard sound IF demodulator and a base-band processor supporting all desired sound features in this range. The VCT-Pro front-end video processing unit offers 16 analog video inputs (CVBS/Y/C, RGB/Y Cr Cb) as well as digital interfaces for SDTV and HDTV. Latest 3D+ comb filter generation provides highest performance for PAL/NTSC signals. A VBI slicer, supporting up to 2000 pages of Teletext completes the analog video front end. 3D-motion-adaptive de-interlacing, temporal noise reduction and film mode detection are based on a unified memory technology.
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Training course: D44
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2. Block Diagrams (continued) Main ICs This IC includes the main features show below: 1- Stereo Decoder Audio Processing. 2- Video Front-end 3D Comb filter, PC Connectivity. 3- Motion Adaptive Deinterlacer. 4- Scaling, Display Processing and FPD Control. 5- Unified Memory for Audio, Video and Teletext. 6- OSD and Teletext processor. 7- Main CPU (TV controller).
IC3051: NVM 64Kb-E2PROM FOR ANALOG PROCESSOR (IC3001). Part Number: BR24S64FVM-WTR
SHARP Code: VHIBR24S64M-1Y
The BR24S64FVM is a 2-wire (I2C bus type) serial EEPROM that is electrically programmable. This IC stores all data related to the Analog Module (Channels, User settings, etc.)
IC2302: SUB-CPU AND PORT EXPANSOR. Part Number: TMP86FS49AUG-6NU2
SHARP Code: RH-IXC009WJZZQ
This IC functions as ports Expansor of the main microcontroller (e.g leds, remote control, key, Power Supply supervisor, Audio mutes, LCD controller signals, temperature sensor, lamp error, etc..). This microcontroller integrates 60KB of Flash memory, 2KB of RAM. It’s including 56 I/O pins (13 high current) with 2 UARTS, 1 I2C serial link, 16 channels of 10 bits A/D converters, 2 timers 16 bits.
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Training course: D44
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2. Block Diagrams (continued) Main ICs IC1301: DIGITAL AUDIO POWER AMPLIFIER Part Number: YDA147-SZE2
SHARP Code: VHIYDA147SZ-1Y
This IC is a Stereo 20W (10W+10W) digital audio power amplifier. The IC is class D amplifier equipped with the function for the dynamic self-adjustment of the output volume in proportion to the amplitude of the input signal. The company calls the function of automatic adjustment of the installed output volume “DRC (dynamic range compression)”. The modulation method adopted PWM. An external LC filter is unnecessary. It only has to supply the output signal directly to the speaker. It has the output control function to prevent an excessive input to the speaker. The maximum output electric power can be set to an arbitrary size by external resistance. Besides this, the protection function to overheating and the overcurrent was installed. The switching operation of power MOS-FET is installed and the technology that carefully controls the slewing rate is installed. Moreover, the automatic offset calibration circuit that suppresses the pop noise when the power supply starts is built into.
IC8103: LCD CONTROLLER Part Number: T3Z18AFG-0003
SHARP Code: VHIT3Z18AFG-1Q
This IC is a custom Gate Array of Toshiba. The alias of this IC is EAGLE2 and is marked as SHARP. This IC is generating all the necessary timing signals for controlling the panel and the RSDS interface for data..
IC8101: NVM 256Kb -E2PROM FOR LCD CONTROLLER (IC8103) Part Number: M24256-BWMN6TP
SHARP Code: VHIM24256B +-1L
The BR24256B is a 2-wire (I2C bus type) serial EEPROM that is electrically programmable. This IC stores all data related to the LCD Controller (Gamma, timings, etc…).
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Training course: D44
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2. Block Diagrams (continued) Main ICs IC203: I2C BUS SELECTOR Part Number: SN74LV4053APWR
SHARP Code: VHILV4053AT-1Y
The SN74LV4053APWR is a high-speed CMOS analog multiplexer/demultiplexer backed by silicon gate CMOS technology. The multiplexer function includes the selection and mixing of analog and digital signals. The chip includes two independent 3 channels selectors. A digital signal through the control terminal turns on the switch of a corresponding channel. This IC is selecting if the Tuner is controlled from VCT-Pro (ATV mode) or from OFDM decoder (DTV mode). IC1201: NVM OF PC INPUT (EDID) Part Number: BRC21F
SHARP Code:VHIBR24C21F-1Y
This IC is a 2-wire (I2C bus type) serial EEPROM this is electrically programmable. This EEPROM chip stores the data structure used to carry configuration information for optimal use of a display (EDID data). IC1501: RS-232 TRANSCEPTOR Part Number: ISL83220
SHARP Code: VHIISL83220-1Y
This ISL83220 is a 3.0V to 5.5V powered RS-232 transceiver (emitter/receiver), +/-15kV ESD protected, with a maximum data rate of 250 kbps.
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2. Block Diagrams (continued) Overall Wiring Diagram 26”
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RUNTKA395WJQZ Power Supply & Inverter Block Diagram (26”)
Comments
Dimming Control,
STB, OFL1,OSC, REG,REG2,BRT,ADIM
Other I/O signal
ERR
Feedback, Protections
Power Block
High Current path Signal path
Signal Block
+
1ψ2 Transformer Controller IC7500 FULL Bridge MOS7500 MOS7502 MOS7501 MOS7503
ON/OFF switch
High Voltage path
1ψ2 Transformer 1ψ2 Transformer 1ψ2 Transformer
AC Input
ޓ
PFC BUCK CAP. L7103 & Q7305 DCM controller U7300
220~240Vac
+
-+ -
CCFL 10lamps 8.5mA
+
1700V Typ.
-
33.9KHz Typ.
-
OFL=150Hz 20% min
38V*1.8A
38V O/P rectifier Q7265
FLYBACK T7101
AC-DETECT
AC_DET
AC Brown out
BU5V* 1A
5V O/P rectifier Controller U7101
5V Feedback Loop U7102
ON/OFF Feedback Loop U7203 Primary Secondary Training course: D44
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S13V*2A 13V*0.5A
13V O/P rectifier
VCC C7108
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-
+
1ψ2 Transformer EMI Filter + Rectifier
Lamp Open & Shorted
Q7291
PS_ON
System Interface
2. Block Diagrams (continued) RUNTKA396WJQZ Power Supply Block Diagram (32”) PS_ON HALF BRIDGE Nº 1
CURRENT SENSOR Nº2 REG
AC DET
PS_ON
60/13V OVERVOLTAGE
13V OVERVOLT.
BU+5V REG
60V OVERVOLT.
13V SHORT DET
STBY ON/UNDERV.
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60/13V REG
2. Block Diagrams (continued) RUNTKA396WJQZ Inverter Block Diagram (32”)
SHORT CIRCUIT PROTECTION TIMER LATCH HIGH CURRENT LAMP LOW VOLT LAMP C7558=GROUND PROT DISABLED LAMP OPEN SEES Engineering Department
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3. Software Updating HOW TO UPDATE THE SOFTWARE VCTPro SOFTWARE UPDATE There are 4 methods to update software in the VCTpro: • RS-232C HyperTerminal Method • RS-232C Tera Term Method NOTE: (RS-232C method is allowed when the TV is working properly and the action should be only software upgrade) • I2C Method • PCMCIA Card Method (NEW!!)
DIGITAL SOFTWARE UPDATE There are 2 methods to update the Digital Board Software on Flash Memory (IC4203) throught the Digital Processor (IC4001): • PCMCIA CARD (Compact Flash Memory) Method NOTE: The PCMCIA method is only compatible with those PCs running XP Windows Version. • Jig RS-232 WinUpload Method (From PC through RS-232C COM port)
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4. Service Mode HOW TO ENTER TO SERVICE MODE • Press the “POWER” key on the set of running TV set to force off the power. • While holding down the “VOL (-)” and “INPUT” keys on the set at once, plug in the AC power cord to turn on the power. The letter “K”, appears on the screen. • Next, hold down the “VOL (-)” and “P (-)” keys on the set at once. Multiple lines of character string appearing on the screen indicate that the set is now in the adjustment Process mode. If you fail to enter the adjustment mode (the display is the same as normal start-up), retry the procedure. (Another procedure) • To exit of Service Mode, after the adjustment is done, unplug the AC power cord to force off the power. (When the power is turned off with the remote controller, once unplug the AC power cord and plug it in again. In this case, wait 10 seconds before plugging.)
Main Key operation in adjustment process mode Remote controller key
Main unit key
Function
P (Λ / V)
P (Λ / V)
Moving an item (line) by one (UP/DOWN)
VOL (+/-)
VOL (+/-)
Changing a selected item setting (+1/-1)
Cursor (UP / DOWN)
————
Turning a page (PREVIOUS / NEXT)
Cursor (LEFT / RIGHT)
————
Changing a selected line setting (+10/-10)
INPUT SOURCE on remote controller OK
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INPUT button
Input source switching (toggle switching) (TV→DTV→EXT1→EXT2→EXT3→EXT4→EXT5→EXT6 →EXT7)
————
Executing a function
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4. Service Mode (continued) Display Description The colors of K letter that shown on the screen when TV is at Inspection Mode are as follows: Red
K
Picture adjustment: without making adjustments. (SRC or after delete NVM )
Grey
K
Picture adjustment is doing. (SEES)
Light Blue
K
All picture adjustments have been completed. (SEES)
K The TV has been forced INSPECTION MODE from Panel Control keys (INPUT + VOL▼ + AC ON). Dark Blue In this mode, the colors classification does not work, and the state of adjustments must be checked directly in results line.
Size adjust Model adjust
T: Tuner Level adjustment 1= Adjust done 0= Adjust not done
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26D44
K T 1
W: White Balance adjustment 1= Adjust done 0= Adjust not done
W 1
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4. Service Mode (continued) Service Mode Menu The character string in brackets [ ] will appear as a page title in the adjustment process menu header. Page 1/11
Line 1 2 3 4 5 6 7
2/11 1 2 3 4 5 6 7 8 9 10 3/11 1 2 3 4 5 6 7 8 9 4/11 1 2 5/11 1 6/11 1 2 3 4 5 6 7 8 9 7/11 1 2 3 4 5 6 7 8
Item [INFO] Main Version Dev Version Dev Loader Version PIC Version TEMP SENSOR NORMAL STANDBY CAUSE ERROR STANDBY CAUSE [INIT] Factory Init Inch Setting PUBLIC MODE Center Acutime RESET Backlight Acutime RESET Picture Read Pos X Picture Read Pos Y Picture Read [PAL. SECAM. N358] RF-AGC ADJ PAL+TUNER ADJ PAL ADJ TUNER ADJ CONTRAST SD SECAM CB OFFSET SECAM CR OFFSET TUNER A DAC RF AGC [COMP 15K] COMP 15K ADJ COMP 15K CONTRAST [HDTV] HDTV CONTRAST [SMPTE] RF-AGC ADJ PAL+TUNER ADJ PAL ADJ TUNER ADJ CONTRAST SD SECAM CB OFFSET SECAM CR OFFSET TUNER A DAC RF AGC [M GAMMA INFO] MGAMMA IN 1 MGAMMA IN 2 MGAMMA IN 3 MGAMMA IN 4 MGAMMA IN 5 MGAMMA IN 6 MGAMMA WRITE MGAMMA RESET
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Description LTX7E (YYYY/MM/DD X) 1.xxxXX.XXXZ (xx/xx/xxxx) x
x.xxx x.x xx.xx xxx [X]0 xxHxxM (X5)
(--/EURO/UK/ITALY/FRANCE/RUSSIA)ENTER (--/EURO/RUSSIA/SWEDEN) ENTER
j
Remarks (Adjustment detail, etc.) Main microprocessor version (VCTPro) (VCTP) Digital Module version (STi5105) Digital Module loader version PIC version Temp inside cabinet (near panel) Last status which cause standby Error standby cause Total operating time before error
9/11
Initialization to factory settings Initialization data for different panel sizes PUBLIC MODE flag setting Main operating hours (Not Operative) Main operating hours reset Backlight operating hours Backlight operating hours reset x-axis setting of picture data y-axis setting of picture data Start/stop of picture data
(--/26/32/37/45) (26/32) OFF/ON XxH xxM OFF/ON XxH xxM OFF/ON 0 0 ON/OFF
Defined by software version
ENTER ENTER ENTER ENTER 32 1 1 32 20
RF AGC auto adjustment PALTUNER auto adjustment PAL auto adjustment TUNER auto adjustment SD contrast adjustment SECAM contrast adjustment SECAM contrast adjustment TUNER DAC adjustment RF AGC adjustment
ENTER 40 32
COMP 15K auto adjustment Contrast adjustment
40 32
Contrast adjustment
ENTER ENTER ENTER ENTER 32 1 1 32 20
RF AGC auto adjustment PALTUNER auto adjustment PAL auto adjustment TUNER auto adjustment SD contrast adjustment SECAM contrast adjustment SECAM contrast adjustment TUNER DAC adjustment RF AGC adjustment
160 320 480 640 800 960 OFF/ON OFF/ON
W/B adjustment, gradation 1 input setting W/B adjustment, gradation 2 input setting W/B adjustment, gradation 3 input setting W/B adjustment, gradation 4 input setting W/B adjustment, gradation 5 input setting W/B adjustment, gradation 6 input setting EEP writing of adjustment values Initialization of adjustment values
1 2
[M GAMMA 1-3] MGAMMA R 1 MGAMMA G 1 MGAMMA B 1 MGAMMA R 2 MGAMMA G 2 MGAMMA B 2 MGAMMA R 3 MGAMMA G 3 MGAMMA B 3 MGAMMA WRITE [M GAMMA 4-6] MGAMMA R 4 MGAMMA G 4 MGAMMA B 4 Item MGAMMA R 5 [M GAMMAG4-6] MGAMMA 5 MGAMMA B 5 MGAMMA R 6 MGAMMA G 6 MGAMMA B 6 MGAMMA WRITE [ETC] EEP CLEAR EEP CLEAR B
3 4
STAND BY CAUSE RESET AUTO INSTALLATION SW
5 6 7 8 9 10
OPTION COUNTRY L ERR RESET L ERR STOP DTV CLR I2C-OFF LCD [COM-BIAS] VOSC COMFREQ ADJ 50 TEST OSCPATTERN FREQ 60 PWM FREQ 50
8/11
Page 9/11 (Continued)
1 2 3 4 5 6 7 8 9 10 1 2 3 Line 4 5 6 7 8 9 10
10/11
11/11 1 2 3
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0 0 0 0 0 0 0 0 0 OFF/ON
W/B adjustment, gradation 1R adjustment value W/B adjustment, gradation 1G adjustment value W/B adjustment, gradation 1B adjustment value W/B adjustment, gradation 2R adjustment value W/B adjustment, gradation 2G adjustment value W/B adjustment, gradation 2B adjustment value W/B adjustment, gradation 3R adjustment value W/B adjustment, gradation 3G adjustment value W/B adjustment, gradation 3B adjustment value EEP writing of adjustment values
0 0 0 Description 0 0 0 0 0 0 OFF/ON
W/B adjustment, gradation 4R adjustment value W/B adjustment, gradation 4G adjustment value W/B adjustment, gradation 4B adjustment value Remarks (Adjustment detail, gradation 5Retc.) adjustment value W/B adjustment, W/B adjustment, gradation 5G adjustment value W/B adjustment, gradation 5B adjustment value W/B adjustment, gradation 6R adjustment value W/B adjustment, gradation 6G adjustment value W/B adjustment, gradation 6B adjustment value EEP writing of adjustment values
OFF/ON OFF/ON
Restore NVM data to default values Restore NVM data to default values except adjustment data Clearing of standby cause error list 0: unfinished 1:finish (The setting takes effect the next time the power is turned on.)
OFF/ON 0/1 0
(--/EURO/RUSSIA/SWEDEN) (--/EURO/UK/ITALY/FRANCE/RUSSIA)
0 0/1 0/1 ENTER 63 [0....127] 144 0 [0, 1....24]
144 1
Selected country Lamp error counter Stops Lamp Error feature Restore Digital Module NVM to default values BUS STOP 0...127 COMBIAS ADJUSTMENT TEST PATTERN 0 - OFF 1 - 24 PATTERNS
5. LCD Adjustment Process TUNER LEVEL ADJUSTMENT
1
Adjustment Point Settings
Adjustment Conditions [Signal] RF Signal
Adjustment Point Feed the PAL color bar signal (E-12CH) to TUNER. Signal level: 55 ± 1dB μV (75Ω LOAD) [TUNER]
↑ 100% white 2
Auto adjustment performance
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Adjustment Process (See Bring the cursor on [TUNER ADJ] and press [OK]. Service Manual) [TUNER ADJ OK] appears when finished.
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5. LCD Adjustment Process W/B ADJUSTMENT FROM PC 1- Get ready the PC with COM port (RS-232C) running on Windows 95/98/ ME/2000/XP operating system, as well as the RS-232C cross cable. 2- Start the unit with the RS-232C cable connected. 3- Start the terminal software. (The freeware readily available on the Internet will do.) 4- Make the following settings: Baud rate 9.600 bps Data LENGTH 8 bit Parity bit None Stop bit 1 bit Flow control None 5- If the settings are correct, the terminal software indicates “ERR” against pressing of the “ENTER” key. 6- After the setting are done correctly, it is possible to make an adjustment by typing in the command shown in the table below and pressing the “ENTER” key on the keyboard. 7- Command entry is successful if the terminal software indicates “OK” when the “ENTER” is pressed. If “ERR” is shown, retry to enter the command.
(continued)
Lista de comandos RS-232C Command KYOF0000 OSDS0001 SBSL0016 MSET0001 MSET0004 LEV60928 MG6G **** MG6R **** MG6B **** LEV50800 MG5G **** MG5R **** MG5B **** LEV40656 MG4G **** MG4R **** MG4B **** LEV30528 MG3G **** MG3R **** MG3B **** LEV20352 MG2G **** MG2R **** MG2B **** LEV10184 MG1G **** MG1R **** MG1B **** MSET0003
Function Remote control disabled OSD display inhibited Light control level MAX Background adjustment start Initialization of adjustment value Graduation 6 (928-graduation adjustment) Adjustment of G of graduation 6 Adjustment of R of graduation 6 Adjustment of B of graduation 6 Graduation 5 (800-graduation adjustment) Adjustment of G of graduation 5 Adjustment of R of graduation 5 Adjustment of B of graduation 5 Graduation 4 (656-graduation adjustment) Adjustment of G of graduation 4 Adjustment of R of graduation 4 Adjustment of B of graduation 4 Graduation 3 (528-graduation adjustment) Adjustment of G of graduation 3 Adjustment of R of graduation 3 Adjustment of B of graduation 3 Graduation 2 (352-graduation adjustment) Adjustment of G of graduation 2 Adjustment of R of graduation 2 Adjustment of B of graduation 2 Graduation 1 (176-graduation adjustment) Adjustment of G of graduation 1 Adjustment of R of graduation 1 Adjustment of B of graduation 1 Writing of adjustment value
Remarks
0000 ~ 4095 0000 ~ 4095 0000 ~ 4095 Calculated value 0000 ~ 4095 0000 ~ 4095 Calculated value 0000 ~ 4095 0000 ~ 4095 Calculated value 0000 ~ 4095 0000 ~ 4095 Calculated value 0000 ~ 4095 0000 ~ 4095 Calculated value 0000 ~ 4095 0000 ~ 4095
8- Send the process mode switching command to switch from the RS232C operation mode to the process mode: KRSW0001: “ERR” is returned. KKT10037 : When “OK” is returned, the process mode becomes NOTE: To ensure that TVs are not red, have changed the W/B active. When “ERR”, start over from KRSW0001. coordinates adjustment: x: 270 y: 286 9- Send each adjustment command. SEES Engineering Department
Training course: D44
59
5. LCD Adjustment Process
(continued)
HOTEL MODE How to Enter in the Public Mode (Hotel Mode)
Public Mode
There are three following ways to display the Public Mode setting screen. 1- On the process adjustment mode screen (2/33), set the “HOTEL MODE” Flag to ON. Turn off the power, and turn it on again, pressing the CH▲ and Vol▲ keys of the main unit at the same time. 2- Enter the Pass Word, and start the unit. a) Turn on the power, pressing the INPUT and Vol▲ keys of the main unit at the same time. b) Display the Pass Word input screen. c) Check the Pass Word by inputting three digits. If the Pass Word is ���, it shifts to the Public Mode setting screen. In another case, the screen is erased, and it operates in the ordinary mode. 3- By special R/C code: RC table LCD, SYS CORD: 0x78, RC DATA: (HEX) 0xC7, (DEC) 199.
After one of sequence before mentioned, the TV will turn on showing the Public Mode setting screen.
Exiting the Public Mode screen There are two following ways to exit the Public Mode setting screen. 1- Turn off the power. 2- Select “Execute” in the Public Mode to execute it. SEES Engineering Department
Training course: D44
60
POWER ON FIXED MAXIMUM VOLUME VOLUME FIXED VOLUME FIXED LEVEL RC BUTTON PANEL BUTTON MENU BUTTON ON SCREEN DISPLAY INPUT MODE START INPUT MODE FIXED RESET EXECUTE
[VARIABLE] [60] [VARIABLE] [0] [RESPOND] [RESPOND] [RESPOND] [YES] [NORMAL] [VARIABLE]
5. LCD Adjustment Process Public Mode Settings 1. POWER ON FIXED [VARIABLE �FIXED] When it is set to “FIXED” the TV is impossible to be switch off by Main Switch or Remote Control. 2. MAXIMUM VOLUME [0 � 60] Is possible to set the maximum volume at limited level. 3. VOLUME FIXED [VARIABLE � FIXED] Is possible to fix the sound volume at limited level. When “FIXED” is selected the sound volume before limited is fixed. 4.VOLUME FIXED LEVEL [0 � 60] If “FIXED” has been selected, is possible to set a fixed volume at the level that is choosen. 5. RC BUTTON [RESPOND � NO RESPOND] If “NO RESPOND” is selected, the remote control keys are inoperative. 6. PANEL BUTTON [RESPOND � NO RESPOND] If “NO RESPOND” has been selected, the set´s keys remain deactivated (Except POWER key). 7. MENU BUTTON [RESPOND � NO RESPOND] If “NO RESPOND” has been selected, “MENU” keys on the remote control, is inoperative. 8. ON SCREEN DISPLAY [YES � NO] If “NO” has been selected, the On Screen Display does not appear. 9. INPUT MODE START [ NORMAL�TV (X)�DTV�INPUT1 �INPUT2�INPUT3 � INPUT4 � INPUT5� INPUT6 � INPUT7�] When any other item than “NORMAL” has been selected, the sets will start in a selected input mode at the next power-on. 10. INPUT MODE FIXED [VARIABLE �FIXED] If “FIXED” has been selected, any channels and input modes other than those selected at the start mode cannot be picked up. 11. RESET Cancel all Public Mode settings. (It returns to the factory settings) 12. EXECUTE Select this item, and press cursor RIGHT/LEFT keys on the remote control or VOL(+)/(-) keys on the LCD TV for confirmation the functions settings. SEES Engineering Department
Training course: D44
61
(continued)
6. Electrical Diagrams Main 1/13 (TUNER.OFDM) Schematic Diagram 10
TL231
11
NC
GND
12
13
14
IF-AGC
IF(D2)
15
16
(0) 5.18
5.18
5.18
6
5
4
D
D
S
(0) (0)
(0) 5.18
5.12 3
FB1031 A188WJ
(0) 5.18
2
Q262 RN4904 D
D
G
1
2
3
C1032 10P (CH)
5.18
5.18
0
(0)
(5.1)
5
5.12 (0)
0 (0)
D9Mj
C209 0.01u 25V
TUNER ATV/DTV
C271
C269 0.1u 25V
100u 16V ASX
TL1003
160
TL1004
F
8
7
GND
47P (CH)
6
C1006 0.1u CYB
5
TL1005
OUT
Vcc
TL1006
IN3
S_Y
13
GND
12
S_C
11
GND
10
CVBS
9
GND
8
IN3L
7
GND
6
IN3R
5
HP_PLG
4
GND
3
HP_L
2
GND
R1011
1
HP_R
100
VD
TL1007
IC1001
0.1u
IN1
SW1
IN2
SW2
1
2
3
4
(SW1.SW2)= 00: 1 CVBS 10: 2 S-VIDEO *1: 3 DTV CVBS
TL1008 TL1012
VIDEO SELECTOR CVBS EXT3/ SVIDEO EXT3/CVBS DTV
C1008 10u 16V KZA510WJPZ
R1017 100
C1011 10u
HP_PLG EXT_DTV
TL1009
16V KZA510WJPZ
TL1010
SV1JSW
2
C213 0.01u
S_PLG
14
VIN7
Z
TL1011
TO MiniAV
K
1
R206 22
15
VIN8 C1018 10u 16V
R1036
C256
C207 470u 16V ASX
4
Q1031 2SC3928AR
NJM2234V
C210 0.01u 25V
3
R1034 10K
C1033
47P (CH)
R283 3.3K
SSM6J51TU
TL1002
C1017 0.1u CYB
Z
KZA510WJPZ C1031
IC261
C1007 0.1u 25V
1.79
10u 16V ASX
0 (5.1)
C1005 0.01u 25V
R1035 33 F
2.5
R1032 330 F
10uH
R1031 F 330
6
P1001 MA012WJ
TL1001
R1006 6.8K
5.18
C1034
L1031 4
(0)
ASX
R1033 10K
)
R1010 3.9K
1
17
C201 33u 10V
R204 0
C1035 10u 16V KZA510WJPZ
IF(D1)
TL210
9
L263 12uH CNN
NC
TL209
8
7
MB(5V)
TL208
AGC
TL217
SDA
TL203
SCL
TL207
6
TL205
5
AS
TL206
4
VIDEO-OUT
TL219
TL211
3
AFT
TL220
2
SIF
MB(IF5V)
TL204
1
TL201
RF-AGC
DTV_CVBS
VIN1
(0)
!*
TU201 AA019WJQZ DC-POW
SIF
(
TL212 TL202
R214
R1015 82 1/2W
C215 10u
330 R213 10K
16V KZA510WJPZ C217 0.1u
C1009 22u
R1012
0.1u
2.3
Q203 2SC3928AR
HEADPHONES AMPLIFIER
2
C1016 33P (CH)
(CH)
4
1
4.2 7
2
4.0 6
5
1 2
1
IC1002
1 3
NJM4558M R1014 1.8K 5
2
1
4
3
2
4
3
4
3
HPOUTR
4.2 8
3
R1022 10K
R1020 1.2K
C1014 47P
ASY
8.0
R212 150
1.6
R211 3.9K
C1012 47u 16V
35V ASX
56 1/4W
Q1001 IMH23T110
4.8
C216
R1018 10K
1
2
4.2
6
3
4.2
4.0
R1021 10K
4
0
4 R1023 10K
FB201 0210TA
HPOUTL C1013 47P (CH) R1013 56
C1019 22u 16V ASX
R1019 1.2K
R1016 10K
C1010 22u 35V
1/4W
C1015 33P (CH)
TO MAIN2(TERMINAL) IN3R IN3L
HP_MUTE
ASX
ATV/DTV TUNER SELECTOR
TO MAIN4(DTV STI5105)
R234 10K DTV_CVBS
DTV_CVBS FEERROR
TL213
TL215 FERESET
(0.9) 0
0 63
64
(0.4) 0 62
(1.76) 0
0
61
60
(1.7) 0
0 59
58
(1.74) 0 57
0 56
0 55
0 54
(3.35) 0
0 53
(3.3) 0
52
51
(1.2) 0
(1.6) 0
50
FERESET
FE_SCL
FE_SCL
49 FE_SDA
SCANMODE SDA3
(3.3) 0
(0) 3.3
(0) 3.3
(5.09) 0
(5.09) 0
14
13
12
11
10
9
XC
1X
0X
A
B
C
IC203
2
3.3
(3.3)
(0)
0Z
ZC
3
0
4
0
5
INH
VEE
G
6
7
8
0
0
0
0
(0)
5.12
5.12
5.18
3
2
Z
C236 0.1u 25V
Vo
0
0 (3.3)
C243 0.1u 25V
Z
R227 560
K 3
VIN
IC202
6
0 (5.09)
5
Z
Z
Vo
GND
1
BH25FB1G
0
1
2
Vin
3
GND
4
OM
VDD1V
1
2
3
2
5
VDDA2V5_ISO
(3.35) 0
OFDM DECODER
C214 0.01u 25V
C222 0.1u
6
VDDA2V5
D7
43
7
REFF
D6
42
8
REFM
0
FESTROUT
(1.7)
IXB964WJ
5
D5
40
IM
D4
39
(1.74) 0
0
Z C239 1000P
0.1u 25V
IP
VDD1V
D3
(1.7) 0 13
VDDA2V5
D2
36
14
XTAL0
D1
35
(0.8)
(CH)
(3.35) 0
0
X201 SCA039WJ
0.1u
1000P
15
XTAL1
16
VDDA2V5
VDD3V3
B+5V
5
4
3
2
1
FED0
TO MAIN7(VCT-PRO) HPOUTL
HPOUTL HPOUTR HP_PLG
25V
Z
AGCRF
VDD1V
SCLT
SDAT
VDD0V0
10u KZA510WJPZ
16V
33
VIN7
VIN8
VIN8
17
18
19
20
21
22
23
0
0
0
0
0
0
(3.3)
(3.3)
(3.3)
(3.3)
(3.35)
(0.1)
VDD3V3 VDD1V
CS0
24
25
0
CS1
D RCLK
26
SDA
27
28
SCL
29
VDD1V
30
0
0
0
0
0
(1.5)
(1.5)
(1.5)
(0.74)
(1.5)
RESET
31
0
SIF
SIF
VIN1
32
0
0
(1.5)
(1.5)
VIN1
SDA3
SDA3
SCL3
C237 0.1u 25V
Z
C244 1000P
R228 10K
R230 10K
C254 0.1u 25V
R229 180
SDA3
R232 10K R233 22
Z
IFAGCI
TO MAIN8(UCON/PANEL_IF)
C255 0.01u K
HP_MUTE
HP_MUTE
EXT_DTV
EXT_DTV
SV1JSW FE_SDA
C253 0.1u 25V
R231 10K
SCL3
IFAGCI
TL214
C234
VIN7
0 D0
AGCBB
IFAGC
SCL3
FED1 7
6
HP_PLG
(1.5)
C252 1000P
3 L205 2.2uH CNN
34
0 AUX_CLK
C247 0.1u 25V
0
KZA510WJPZ
FED2
8
C241 Z
TSDA
Z
FED4
C251 10P (CH) C235
CE
C224 0.1u 25V
C223 10u 16V
FED5
1
0
1
2
3
2
HPOUTR
(1.5)
TSCL
1
FED6
4
FED3
37
0
C232 10u 16V KZA510WJPZ
NC
5
38
0 VDDA1V
MM3271AN GND
FED7
6
47
(1.74) 0
C227 10u 16V KZA510WJPZ
IC205
7
C233
L203 2.2uH CNN
Z
FECLK
8
0
12
4
VOUT
VDD
0
INCM
0 10
47
41
(1.7) Z
FEVALID
R239
0 VDD3V3
IC207
R240
Z
TL224
DTI2CSEL
(3.3) 0
11
25V C226 0.1u 25V
R238 47
44
TO MAIN6(DTV CI)
C250 10P
DUNTKE449WE01
CLK_OUT
(0.7)
L204 2.2uH CNN
4
FESTROUT
45
(3.29) 0
R222 4.7K
Vc
R237 47
0
(3.3)
R223 22
3
FEVALID
47
0
Nr
IC204
Vc
2
47
46
0
C231 1000P
4
KZA510WJPZ
R209 1K
D8
STR_OUT
Z
C246 0.1u 25V
4
1
C218 16V 10u
PQ1M335M Nr
OP
9 C225
5
VDDA2V5
3
C249 1000P
R226 560
1
R236
0
(3.3)
C245 0.1u 25V
C230 1000P
0.01u
4
48
(1.6) 2
FE_SDA
TL216
(1.6) 0
0
4
GPIO1
0
TL223
5
VDD3V3
(1.75) 0
TL222
C220 0.1u 25V
VDD1V
(3.36) 0
C221 10u 16V KZA510WJPZ
Q202 RN4904
GPIO8
ERROR
(0.83) 0
0.1u 25V
(0.02)
C248 1000P
Z
Z
C229
GPIO7
RF_LEVEL
25V
R218 150
(0.02)
C242 0.1u 25V
KZA510WJPZ C228 0.1u
0
GPIO6
Z
FERESET
1Z
0Y
1
VDD1V
3
1Y
VDD3V3
0
C240 10u 16V
LV4053FT
GPIO5
(1.77)
C238 10u 16V KZA510WJPZ L206 2.2uH CNN
(5.09) 0
15 Y1
GPIO4
4
(0) 3.3
16 VDD
GPIO3
2
(0) 5.16 Z
GPIO2
FE_SCL
B+ANT5V
C219 0.1u 25V
1
2.2uH CNN
GPIO0
VDD3V3
0
L207
3.3V
VDD1V
TL232 DTI2CSEL
SV1JSW DTI2CSEL
TO MAIN10(POWER SUPPLY) B+5V B+ANT5V S+8V S+8V
SEES Engineering Department
Training course: D44
62
6. Electrical Diagrams
(continued)
Main 2/13 (TERMINAL) Schematic Diagram TO MAIN1(TUNER,OFDM)
MONI AUDIO_OUT
COMP AUDIO_IN IN3R
IN3R
DUNTKE449WE01
PC_IN (BLACK)
FA061WJ
6
5
8
7
C1309 1u CH TVB
R1310 1K
1
FB1305 0077TA
R1305 100K
C1317 56P
R1205 220
EXA523WJ 5.6V
R1208 100
1
7 VCLK
VCC
HDMI AUDIO_IN
4.2
6
5
SCL
SDA
EDID NVM PC PLUG&PLAY
D1206 1SS226
2
0
3
0
FB1103 0077TA
FB1104 0077TA
100 1/4W
C1133
14
FL1103 N0017TA
BLUE2
C1105 0.1u 16V
TL1104
21
19
17
15
13
CYB
TL1128
TL1120 8
10
6
9
11
7
4
5
2
3
1
2
0 6
5
Q1108 2SA1530AR
4
2
3
14
12
TL1129
TL1126
TL1121
TL1123 8
10
6
4
R1145 1K
FB1111 0077TA
C1141 100P
2 SC1102 ZA161WJ
19
17
15
13
9
11
7
5
3
C1148
R1148
1000P
100K
(CH)
1
1/4W
1/4W
VIN5 D1106 EXA512WJ 4V
N0017TA
D1107 EXA512WJ 4V
3
R1131 220 1/10W FB1106 0077TA
C1139 470P
C1131 330P
1
FB1105 0077TA
RED/C1
0.1u 16V
TL1405
TL1404
TL1402
TL1401
TL1403 IB2B
IN2A
5
4
NC
ISET
R1134 100K
15
Q1105 2SA1530AR
11
OUT_A
VCC
IN3A
Vref
OUT_B
CNT1
IN2A
CNT2
IN4A
IN1B
2
3
0
16
VCC 17
OUT2
GND
18
OUT1
VCC
REF2
REF1
ADS
20
21
22
23
24
19
4
FB1402 A188WJ
R1127 75 1/4W
VIN12 VIN13
C1406 0.1u 25V CZF
FB1401 A188WJ
10u
C1411 16V
KZA510WJPZ
C1417 0.1u 16V CYB
C1413
VIN19_PCR VIN20_PCG
10u
16V KZA510WJPZ
VIN21_PCB
AOUT1R
AIN2L
AIN4R 10
9
AOUT1L
IN3B
NC
4
5
4.4
IN2B
AOUT1R
6
7
0
0
AOUT2R
IN4B 8
4.4
CVO1 CVO2
VIN2 SW(L=IN1,H=IN2) VIN3
K
2-IN,1-OUT,SWITCH
16V CYB
IC1502
VIN5
MM1507XN
VIN6
11 2 4
2
1
5
4
3 R1156 2.7K
330
0
C1502 0.1u 25V
8
TL1502 TL1508
1
IN1
SW
6
1.4
VIN_1
R1504
1.4
10K
TL1506
4 R1152
C1501 10u 16V KZA510WJPZ
TL1507 9
IC1501
OUT
GND
5
3
VCC
IN2
4
0
VIN9
ISL83220
FB1501 0061TA
2
VIN_2
4.8
1.5 VIN15
3 TL1503
4.4
3.8
7
5
R1502 100 1/10W
TL1509
AOUT1L
VIN16
2 TL1504
6
VIN21_PCB
SCL3
0
C1158 10u 16V KZA510WJPZ
VIN20_PCG
SDA3
C1507 0.1u
C1157 10u 16V KZA510WJPZ
3
VIN19_PCR
SLOWSW_2I
6
4
Q1106 2SA1530AR
TL1505
FB1502 0061TA
R1503 100 1/10W
1 10
TL1501
1
2
1
C1508 0.1u CZF 25V
16
15
14
SHDN
Vcc
GND
13 T1_out
12 NC
11
10
T1_in NC
2
9 R1_out
VIN17
R1506 10K
SM3K7002F Q1501
VIN18 AVLINK_1 AVLINK_2
R1507 22K
R1508 100
TO MAIN8(UCON/PANEL_IF)
RS232C 2
SC1501 NA769WJ
3 S_MUTE
R1124 75
TO MAIN7(VCT-PRO) VIN11
C1416 0.1u 16V CYB
3 D1501 MA3120WA
3 D1503 MA3120WA
EN
C1+
V+
C1-
1
2
3
4
C2+ 5
C26
V7
R1_in
SCART12
8
S_MUTE
BLUE1
1/4W
C1415 0.1u 16V CYB
AIN2R
C1333 1u 16V TVB
TVB
3.8
1
R1123 75
VIDEO SELECTOR COMP/DTV RGB
SLOWSW_1I
AIN3R
Q1101 IMH23T110
GREEN1
1/4W
1 IN1A
AOUT2L
IN1A
4.4
R1149 100K
2
C1140 470P
12
1u 16V
0
R1135 100K
OUT3
R1116
R1114 0
2 IN1B
AIN3R
13
C1332
R1154 560K
C1132 330P 0
3 GND
MUXSEL= L: A COMPONENT H: B DTV_RGB
4.4
14
4.4
4
R1132 220 1/10W
4.4
15
1
D1119 EXA535WJ 8.2V R1115 0
VCC
(CNT2,CNT1)= 00: EXT3 01: HDMI 10: COMP 11: PC
1
C1152 R1144 10u 100 16V KZA510WJPZ
NJM2750M STEREO AUDIO SELECTOR
AIN3L
D1118 EXA535WJ 8.2V C1151 10u 16V KZA510WJPZ
OUTTNL
FL1106
6
AIN3L
8.9
C1113
CYB
VIN9
TL1130
FL1110 N0017TA
FL1109 N0017TA
R1108 68 1/4W
C1112 0.1u 16V CYB
TL1127
TL1124
TL1122
TL1117 FL1108 N0017TA
OUTTNV
D1105 EXA512WJ 4V
C1149 1000P
(CH)
FL1105 N0017TA
C1115 10u 16V KZA510WJPZ
VIN6
C1142 100P
R1133 0
GND
IC1301
TL1110
VIN_1
C1111 0.1u 16V CYB
1K
OUTTNR
R1118 75
TL1115
R1122 75
TL1112
C1161 100P (CH)
C1110 100P (CH)
D1109 EXA520WJ 5.1V
R1146
FB1112 0077TA
TL1108
100 1/4W
7
AIN4L
4.4
16
C1156 1u 10V TVB
IN1FSW R1109
0
IN3L
16
8
C1331 1u CH TVB
Z
25V
C1155 1u 10V TVB
C1327 10u 16V KZA510WJPZ
R1151 560K
INPUT1
FB1309 A188WJ C1330 1u CH TVB
C1326 0.1u 1
IN1_R
TL1119 18
20
TL1106
21 VIN3
C1325 10u 16V ASX
Q1102 IMH23T110
IN1_L
TL1103 R1121 0
RS_RXD
3.8 AOUT2L
TL1132
FB1101 0077TA D1112 EXA512WJ 4V
TL1311
2
S2_MUTE
SLOWSW1
GND
14
R1401 22
4.4
TL1105
EXA554WJ 15V
RS_TXD
R1157 2.7K
330
SC1101 ZA161WJ
1
VDD
1 R1153
D1120 EXA535WJ 8.2V
TL1133
TL1107
IN3A
13
4
560K
OUT2R
D1110
IN3B
SDA
2 3
4
1 10u 16V KZA510WJPZ
R1155
OOUT2L
FB1102 0077TA
9
C1402 0.1u 25V CZF
C1160
C1154 10u 16V KZA510WJPZ
C1145 470P
220 1/10W
1/4W
R1102 F 39K
10
C1401 10u 16V KZA510WJPZ
3
INPUT2
SLOWSW_1I
RS_RXD
AOUT2R
KZA510WJPZ
2
C1136
FB1110 0077TA
R1112 75
R1101 15K F
11
0
C1159 10u 16V
4
330P
12
RS_TXD
0
D
VIN17
3
R1136 16
EXA535WJ 8.2V
C1153 10u 16V KZA510WJPZ
1
1/4W R1106 0
3.8
R1147 100
R1128 0
18
DTV_R
C1412 1u 10V TVB
4.4
C1144 470P
C1135 330P
TL1102 20
TO MAIN4(DTV STI5105)
R1411 160 F
3
IN2_L IN2_R
GREEN2
R1410 160 F
DTV_G
C1414 1u 10V TVB
Q1302 2SA1530AR
AIN2R
Q1107 2SA1530AR
C1146 1u 10V TVB
TL1101
FL1102 N0017TA
C1408 1u 10V TVB
IC1401
R1143 100K
R1139 220 1/10W
TL1131
R1110 75
C1104 0.1u 16V CYB
D1103 EXA512WJ 4V
FL1101 N0017TA
C1409 1u 10V TVB
R1505 100
D1102 EXA512WJ 4V
RED/C2 R1107 75
VIN16
3.9
C1404 1u 10V TVB
R1142
1000P
FB1109 0077TA
1/4W R1105 0
C1405 1u 10V TVB
4.5
3.9
PC_V
DTV_B
R1327 1K
100K
C1138
R1129 0
TL1125
R1104 0 C1103 0.1u 16V CYB
R1409 160 F
R1330 1K
12
D1121
ASY D1113 EXA520WJ 5.1V
VIN15 D1101 EXA512WJ 4V
220
C1122 220u 16V
1
1K
PC_H
3
560K
AIN2L
R1138 1K
C1134 100P (CH)
R1130
2
TL1118
SW
TL1116
OUT
TL1113
IN1
R1322
COMP_AL
2
R1328
SM5309AV
N0017TA
TL1111
GND
6
FL1104 OUTV
TL1109
5
COMP_AR
1
EXT_DTV
1/4W
C1101 10u 16V KZA510WJPZ
R1325 560
EXT_DTV
Z
CVO2
R1321 560
PC_V
HDMI_PC
R1113 68
TO MAIN3(HDMI)
1/4W
COMP_AL
C1121 220u 16V ASY
SLOWSW2
K
C1137 1000P
100P (CH)
FB1108 0077TA
IN2FSW
C1114 0.01u
3
R1404 75
MUXSEL
D1116 EXA550WJ 13V
C1162 100P (CH)
R1117 75 1/4W
TL1114
VCC
IN2
C1147 1u 10V TVB
R1137 1K
FB1107 0077TA
FL1107 N0017TA
MM1506XN 4
R1403 75 1/4W
R1405 F 1.8K
R1126 75
IC1101 0.1u 25V
4
SCL
C1120 10u 16V KZA510WJPZ
B+5V
C1102
C1323 10u 16V KZA510WJPZ
0
1/4W
D1104 EXA520WJ 5.1V
5
C1127 220P
R1125
D1114 EXA512WJ 4V
C1109 100P (CH)
R1317 1K C1316 1u 10V TVB
PC_V
D1115 EXA554WJ 15V
VIN18
VIN_2
R1315 1K C1315 1u 10V TVB
C1306 1000P CH
Q1301 2SA1530AR
F
R1103 15K F
C1304 220P
C1302 220P
6
PC_H
C1320 10u 16V KZA510WJPZ
4.5 PC_H
VIN19_PCR R1111 39K
SLOWSW_2I
R1313 100K
1u CH TVB
0
R1408 0
R1402 75 1/4W
R1326 560K
C1318 1000P
R1318 100K
C1312 R1306 100K
TL1302
4
0
IC1201 BR24C21F
R1203 75 1/4W
R1202 75 1/4W
3 1
GND 1
K
VIN21_PCB
R1201
HDMI_AR
R1407 0
S2_MUTE
IC1102
R1150 560K
MM1506XN C1128 220u 16V ASY
1
SW
IN1
6
2
OUT
GND
5
0.01u D1117 EXA520WJ 5.1V
3
VCC
IN2
4
K
C1503
CVO1
0.1u 25V
C1130 C1129 220u 16V ASY
IR_RS
C1150 10u 16V KZA510WJPZ
C1143 1u 10V
C1504 0.1u 25V
C1505 0.1u 25V
C1506 0.1u 25V
RS232 TRANSCEIVER
EXT1 CVBS OUTPUT DRIVER
HDMI_PC EXT_DTV AVLINK
3
D1202 1SS226
2
R1312 1K
CH
1K
C1311 1u CH TVB
COMP_AR
C1203 0.1u
FL1201 N0003TA
75 1/4W
3
D1201 1SS226
FB1304 0077TA
TL1306
C1322 10u 16V KZA510WJPZ
C1319 10u 16V KZA510WJPZ
C1313 1000P
HDMI_AL R1311 1K
R1308 100K
R1406 0
C1329 100P (CH)
PC_AR
3
K
K
VIN20_PCG
C1202 0.1u
R1303 1K R1304
AVLINK
C1201 0.1u
FL1203 N0003TA
FB1302 0077TA
J1302 J0008GE
R1209 1K
FL1202 N0003TA
C1308 1000P
TL1304
R1329 1K
Q1303 IMH23T110
C1328 100P (CH)
RS_TXD
2
7
C1324 100P (CH)
HDMI_AR
1
R1323 100K
AIN4R
2
C1321 100P (CH) R1324 220
R1320 220
6
R1332 1K
1
4.4
0
4.4 8
2
R1316 1K
C1305 1000P CH
TL1210
R1319 100K
BU+5V
D1207
C1303 220P
C1301 220P
(CH)
RS_RXD
D1205 EXA523WJ 5.6V
R1314 1K
C1314 56P (CH)
AIN4L
FB1205 0061TA
FB1306 0077TA
PC_AR C1310 1u CH TVB
5
DTV_G
3
R1309 1K
R1307 100K
R1302 1K
3
4
IN_Y
4
C1204 0.1u CZF
3
S
1
2
G
2
1
IN_Pb
R1301 1K FB1303 0077TA
TL1305 2
47K
TL1301
FB1201 A188WJ
EXT2 CVBS OUTPUT DRIVER
FB1301 0077TA
J1301 J0008GE
TL1211
R1207 D1208 KDS184
15 17
1
DTV_B
1
EXA523WJ 5.6V
TL1207
5
2
IN3R
14 10
R1210 1K
3
D1204
PC_AL
TL1209
3
TL1312
TL1308
R1331 1K
D1203 EXA523WJ 5.6V FB1204 0061TA
13 9
4
4
1
PC_AL
DTV_R
2
12 8
3
D1209 EXA523WJ 5.6V
TL1307
C1307 1000P CH
TL1303
R1206 47K
TL1310
PC AUDIO_IN
FB1203 0061TA
TL1208
7 2
2
TL1309
R1204 220
TL1206 11
HDMI_AL
TL1202
3
FB1202 0061TA
TL1205
6
IN_Pr
4 16
1
TL1203
J1401 GA131WJ
J1304
J1303 FA061WJ
TL1204
SC1201 NA770WJ
TL1201
COMP_IN
IN3L
IN3L
TO MAIN10(POWER SUPPLY)
BU+3.3V
B+3.3V
B+3.3V BU+5V B+5V S+8V
SEES Engineering Department
Training course: D44
63
6. Electrical Diagramas (continued) Main 3/13 (HDMI) Schematic Diagram B+5V
DUNTKE449WE01 D1905 KDS184 B+5V
FB1901 A192WJ
2 TL1907
SC1901 ZA171WJ
TL1908
3 1
21
20 2 1
4 3
6 5
10
8
12 11
9
7
14 13
16 15
D1907 KDS4148
18 17
19
23
TL1905
22
6
5
4
1
2
3
H1_SCL
HDMI_SDO
D1909 RB520S30
H1_SDA
HDMI_SCK
TL1906
TL1902
R1903 1K
HDMI_WS
TL1901
TL1919
Q1905 RN4904
R1911 27K
TO MAIN7(VCT-PRO) DHSYNC DVSYNC
X1951 SCA146WJ
DHSYNC DVSYNC
DINR[7]
28.322MHz DINR[6] HOTP_CONT_1 DINR[5] CEC R1965 1M
0.1u
+3.3V(D)_XTAL
DING[7] +3.3V_IOVCC
1
3
RR1X0-
R1909 47K
H1_SDA
RR1X0+
DING[6]
2
4 D
S
C1961 10u 16V KZA510WJPZ
G
1
2
3
4
C1962 10u
HDMI_INT_I
TL1913
R1962 4.7K
B+1.8V
C1996 0.1u Z 25V
R1961 22K
C1965 1000P
16V KZA510WJPZ
FB1955 0210TA
C2000 1000P
C1986 1000P
C1979 1000P
FB1952 A192WJ
Q1904 SM3K7002F
RR1X1-
R1966 1K
+3.3V(D)_REG
TL1903
RR1XC-
DSCL1
DINR[1] DINR[0]
FB1953 A192WJ
R1915 47K
DSDA1
RR1XC+
DINR[2]
Z
HDMI_RSTO
Q1902 RDTC144EE
0
DINR[3]
R1970 22
22
+3.3V_IOVCC
G
0
R1PWR5V
DINR[4] R1969
25V
HDMI_RSTO
Z
1
0
3
2.4
Q1901 RDTC144EE
C1906 0.1u 25V
R1907 470K
R1904 10K
0
C1969
2
4
R1905 10K
D1904 KDS4148
R1968 22
C1977 15P (CH)
C1972 12P (CH)
R1967 33
DING[3] DING[2]
R1973 33
DING[1]
5
A0
A1
A2
VSS
1
2
3
4
0
0
3
2
1
1.8 HDMI_WPO R1953 47
0 C1954 1000P
DINR[3]
3.3 6
5
4
3
2
1
3.3
DINR[1]
TL1912
3.3
DINR[0]
Q1925 RN4904
21
2
0
3 HOTP_CONT_0
R1954 47
TL1920
RR0X1-
7
6
5
4
3
3.3
TL1910
3.3 2
1
1.8 0 5
0 3.3
DING[1] 3
0
4
R1956
3.3
47
0
DINB[7] 8
7
DINB[6] 6
3
2
4
R1957
3.3
1.8
0
3.3
0
0
1.8
0
0 DGND
DVCC
OGND
OVCC
MUTEOUT
SPDIF
0 NC
NC
GND
NC
VCC
0
0
0
0
0
0
3.3
0 SD0
WS
SCK
MCLKIN
0
1.8
0
1.8
0
1.75
1.67
3.3
3.3
0
OVCC
MCLKOUT
OGND
GND
VCC
NC
DVCC2
DGND2
XTALIN
0
3.3
0 NC
0
1.8
0
0
0 INT
XTALOUT
70
63 62
121
ODCK OVCC Q15
124
Q14
125
Q13
AVCC
61
AGND
60
R1XC+
59
R1XC-
58
ANTSTO
56
PVCC1
55
IC1951 SII9025
127
GND
128
VCC
129
Q11
130
Q10
HDMI 1.2 DECODER
Q9 Q8
52 51
R0X1+
48
R0X1-
47
OGND
136
Q6
137
Q5
R0X0+
44
138
GND
R0X0-
43
139
VCC Q4 Q3
R0XC+
40
Q2
R0XC-
39
HDMI_PC
FB1951 A192WJ
C1952 10u 16V KZA510WJPZ
18
19
20
21
22
23
24
25
28
29
30
31
32
33
34
35
DGND
DVCC
R0PWR5V
R1PWR5V
DSCL0
DSDA0
DSCL1
DSDA1
CSCL
CSDA 27
RR1X2+
3.3
RR1X2-
3.3
+3.3VSIIAVCC
DINB[3]
DINB[1]
C2006 1000P
3.3
DINB[4]
DINB[2]
0 RR1X1+
3.3
RR1X1-
3.3
DINB[0] DINCK DINEN
0
HDMI_SCK
C2008 1000P
3.3
RR1X0+
3.3
RR1X0-
3.3
HDMI_WS HDMI_SDO HDMI_INT_I
0
HDMI_RSTO
C2009 1000P
3.3
RR1XC+
3.3
HDMI_WPO
RR1XCHOTP_CONT_0
3.3 HOTP_CONT_1
C2010
0
1000P
SDA3
TL1918
3.3
SCL3
0
TO MAIN8(UCON/PANEL_IF)
0 C2012 1000P
3.3 3.3
RR0X2+
HDMI_PC
RR0X2-
CEC
3.3 0 3.3
RR0X1+ C2014 1000P
3.3 3.3
RR0X1-
+3.3VSIIAVCC C2015 1000P
0 3.3
RR0X0+
3.3
FB1957
RR0X0-
A192WJ
3.3 C2016
0
1000P
3.3 RR0XC+
3.3
RR0XC-
3.3 C2004
3.3
1000P
FB1956 A192WJ
C2002 0.1u 25V CZF
36
Z
TL1916 C1990 0.1u
+3.3V_IOVCC
DHSYNC
26
37
DINB[5]
3.3
0
17
TL1915
0
16
PVCC0
0
1.8
15
0
14
TL1914
3.3
13
3.3
12
3.3
11
3.3
10
3.3
9
OVCC
8
OGND
7
GND
6
VCC
5
DACDVCC
4
DACDGND
3
0
C1908 0.1u 25V
3.3
0
3.3
C1907 0.1u 25V
4
0
0
VSS
3
0
1.8
2
1.8
A2
A1
0
AnBPb
2
EEPROM
1
0
1
24LC2BIN A0
38
AVCC
0
Q0
DACVCCB
Q1
144
3.3
143
DACGNDB
142
0
IC1922
141
3.3
3.3
41
AGND
DACGNDG
0 3.3
42
AVCC
0
1
45
AGND
AnRPr
3
2
46
AVCC
0
5
4 DINB[0]
49
AGND
Q7
DACVCCR
7
6 DINB[1]
50
AVCC
OVCC
COMP
8 DINB[2]
53
135
DACGNDR
5.0 5 SDA
54
AGND
R0X2-
134
RSET
5.0 6 SCL
PGND
R0X2+
133
0
5.0 7 WP
57
AVCC
HDMI RECEIVER
Q12
140
0
68
64
0
5.0 8 VCC
69
AGND
3.3
EDID HDMI NVM PLUG&PLAY
71
R1X0+
3.3
R1930 10
Q1923 SM3K7002F
RR0X2+
DINB[6]
R1X2+ R1X2-
2 DINB[3]
RR0X1+ RR0X2-
DINB[7]
72
AGND
R1X0-
VREF
D
S
1
DING[0] 73
OGND
0
DSCL0
0
1
1.8 3
47
RR0X1-
3.3
1000P
DINB[4]
TL1923
4
2 G
RR0X0+
3.3
C1958 4
R1928 47K
RR0X0-
C1957 1000P
5
DINB[5]
Q1924 SM3K7002F
RR0XCRR0XC+
74
Q16
DACAGND
D
S
R1933 47K
3
1
DSDA0
75
Q17
DACAVCC
2
Q1922 RDTC144EE
76
Q18
132
1
Z
R0PWR5V
G
0
77
120
0
0 2.4 R1921 10K
78
119
131
3.3 2
C1922 0.1u 25V
79
118
3
1
4
2.4 0
7
6
DING[0]
0
Q1921 RDTC144EE
8 DING[2]
2.9
80
117
3.3
RR0XC-
DING[3]
R1924 10K
81
65
AnGY
TL1909
R1955 47
H0_SCL H0_SDA
3.3
82
66
126
0 TL1922
D1923 KDS4148
83
AVCC
123
3.3
TL1921
R1926 470K
84
R1X1-
122
3.3 8
DING[5] DING[4]
RR0X0-
RR0X2-
3.3
DING[6] TL1924
0
HDMI_CLK
DING[7]
TL1911
RR0X2+
47
R1951
DINCK
R1923 1K
85
Q19
DACVCCG
1
23
86
GND
DACOVCC
19
87
116
3.3
17
88
115
OVCC
15
18
89
67
3.3
13
16
90
R1X1+
OGND
11
9
14
91
VCC
DE
7
12
92
114
HSYNC
5
10
8
93
AGND
VSYNC
3
6
94
Q20
0
1
22
4
95
113
0
2
96
AVCC
0
20
97
Q21
0
SC1921 ZA171WJ
3.3
7
DINR[2]
4
98
0
8 5
99
Q22
112
DINR[4]
0
100
3.3
5.0
R1901 0 6
111
0
0
Q23
101
3.3
4
Q1906 RDTC144EE
110
3.3
DINR[5]
EEPROM
0
7
6
DINR[6]
24LC2BIN
D1908 KDS4148
8
102
REGVCC
DINR[7]
SDA
OVCC
103
TEST
SCL
109
104
RESET#
WP
47
5
3.3
105
SCDT
6
R1952
IC1902
3 1
7
5.0
106
XTALVCC
VCC
5.0
107
0
FB1902 A192WJ
2
8
EDID HDMI NVM PLUG&PLAY
D1906 KDS184
5.0
108
VCC
5.0
+3.3V_IOVCC
C1960 1000P
R1959 10K
GND
TL1904
OGND
Q1903 SM3K7002F
CLK48B
D
S
10 R1912
RR1X2RR1X2+
R1958 4.7K
0
H1_SCL RR1X1+
DING[5] DING[4]
TL1917
Z
R0PWR5V
25V
FB1954
R1PWR5V
A192WJ
+1.8V_SIICVCC
DVSYNC FB1941 A192WJ C1941 Z
16V
25V
KZA510WJPZ
TO MAIN10(POWER SUPPLY)
A
2C3
11
2C2
10
2C1
1C0
1C2
1C1
1C0
1Y
GND
3
4
5
6
7
8
0
0
C1989 1000P
C1998 1000P
C1991 1000P
16V KZA510WJPZ
SEES Engineering Department
BU+3.3V B+1.8V B+3.3V
6
4
2
TVHC153T
B+5V
0
DSDA1
0
C1978 10u
IC1941
1C3
2
0
C1970 1000P
R1971 22 8
B
0
1
HDMI-HS
1
0
3
47
2Y
/1G
0
5
R1960
(B,A)= 00:C0 HDMI 01:C1 PC 10:C2 * 11:C3 *
SYNC SELECT
7
9
Training course: D44
64
DSCL0
/2G
12
0
DSDA0
VCC
13
0
DSCL1
14
0
1
15
0
3
16
0
SCL3
0
DINEN
0
HDMI-VS
3.3
2
C1966 1000P
PC_V
4
PC_H
SDA3
0.1u
TO MAIN2(TERMINAL)
C1984 1000P
C1959 10u
6. Electrical Diagrams (continued) Main 4/13 (DTV STi5105) Schematic Diagram (
) P4001 N0463TA
C4026 0.1u 25V
R4010 1K
TL4003
DUNTKE449WE01 3
RESET DTV CPU
2
ST_NOTJRST
Q4004 2SC3928AR
(CH)
DTM_IRQI
CARDVCCOC
FERESET
FB4003 0210TA 0
0
R4004
C4031 0.1u
LMIABE7
25V
0.1u 25V
LMIABE8
C4049 0.1u
C4033 0.1u
FB4004
LMIABE5
A192WJ
LMIABE4
162
161
160
159
158
157
156
155
154
153
152
151
150
149
148
147
146
145
144
143
142
141
140
139
138
137
136
135
134
133
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
C4050 0.1u 25V
LMIABE3 LMIABE2 NLMIRASBE NLMICASBE
C4011 0.1u 25V
LMIRDNWRBE
163
108
164
107
165
106
166
105
167
104
168
103
169
102
170
101
B+3.3V
C4059 47u 6.3V
C4054 1u 6.3V
Z
B+3.3V
BU+3.3V
BU+3.3V S+8V
ASY
TO MAIN1(TUNER,OFDM)
LMIBABE1 LMIBABE0
B+1.2V
ASY
TL4005 TL4006
TP4001
TL4001
TO MAIN10(POWER SUPPLY) B+1.2V
C4058 100u 6.3V
C4053 1u 6.3V
Z
25V
25V
LMIABE6
FMIDATABE0
FERESET
FMIDATABE1
DTV_CVBS FE_SCL
FMIDATABE2
LMIDBE15
FE_SDA LMIDBE0
LMIDBE14 LMIDBE13 LMIDBE12
GND
IR
VCCEN
S_TXD
FLASHWP
NOTREADY
TSSWITCH
ST_TDO
NOTRESETCI
C4022 0.01u 25V
ST_TMS
SCA039WJ
C4019 0.1u 25V
C4018
ST_TDI
ST_TCK
X4001
C4017 0.1u 25V
S_RXD
LMIABE3
LMIABE2
LMIABE1
LMIABE0
LMIABE10
LMIBABE1
LMIBABE0
C4008 47u 6.3V ASY
C4002 1u 6.3V
R4012 10K
Z
NRESETOUT
0.1u 25V
ST_NOTTRST
C4001
LMIABE9
LMIABE0
RXD1
4
A192WJ
LMIABE10
LMIABE1
TXD1
3 TL4026
DTM_RESET
Q4003 2SC3928AR
5
C4025 10P
R4005
LMIABE11
B+3.3VDC
2 TL4025
100
C4032 0.1u 25V
R4015 10K
1 TL4024
100
R4046
R4048 560
PST8428N
FB4001 B+2.5V_ST
LMIABE12
TL4023
R4047
IC4003
C4023 10P (CH) NLMICSBE
B+2.5V_ST
RS
R4014 10K
Q4002 2SC3928AR
C4028 0.1u 25V
1
4
TO MAIN5(DTV MEMORY)
R4013 10K
Q4001 2SC3928AR
FMIDATABE3 FEERROR
LMIDBE1 LMIDBE2
FMIDATABE4 R4032 10K
C4037 0.1u
TL4027 IR
25V 4
2
98
6
99
173
8
100
172
1
171
3
LMIDBE3
5
LMIDBE10
7
LMIDBE11 P4002
FMIDATABE5
NA343WJ
LMIDBE9 LMIDBE8
C4012 0.1u 25V
LMIDBE7 LMIDBE6
LMIDBE4
LMIDBE5
LMIDBE5
FMIDATABE6
C4038 0.1u
96
175
25V
LMIDBE4 LMIDBE3 LMIDBE2 LMIDBE1
LMIDBE6
LMIDBE0 LMIDQSBE0
LMIDBE7
LMIRDNWRBE
LMIDQSBE0
NLMICASBE
C4006 0.1u 25V
177
94
178
93
179
92
180
91
R4038 100
TL4016
ST_TDI
R4039 100
TL4017
ST_TDO
TL4018
ST_NOTJRST
R4040 100
ST_NOTTRST
R4041 100
FMIDATABE11 FMIDATABE12 FMIDATABE13
TO MAIN2(TERMINAL)
TO J-TAG
DTV_R
1
TRIOUT_3
2
TRIGIN_5
3
ST_TMS_9
4
ST_TCK_11
5
ST_TDI_13
DTV_G
6
DTV_B RS_TXD RS_RXD
TO MAIN6(DTV CI) TSSWITCH
ST_TDO_15
NOTREADY
7
ST_NOTJRST_17
8
ST_NOTTRST_19
TL4019
NOTRESETCI
TL4022
FMIDATABE14 R4025 10K
FMIDATABE15
89
182
R4037 100
TL4015
ST_TCK FMIDATABE10
90
181
LMIDQMBE0
TL4014
ST_TMS
R4036 100
FMIDATABE9
95
176
TL4013
TRIGIN
R4035 100
FMIDATABE8
97
174
JT R4034 100
TL4012
TRIGOUT
FMIDATABE7
VCCEN
9
R4027 10K
GND CARDVCCOC
NLMIRASBE
C4003 0.1u 25V
C4004 0.01u 25V
LMINCLKBE
IXC243WJ
186
LMIDQSBE1 LMIDQMBE0
FMIADDBE21
C4007 0.1u 25V
LMIDBE9
85
DTV DECODER/CPU
187
FMIADDBE22
NFMILBA FMIADDBE1
LMIDQMBE1
LMIDQSBE1
LMIDBE8
NOTBE1
86
185
LMIDQMBE1
LMIVREF
NOTBE1
87
FMIADDBE2 84
188
83
189
82
190
81
191
80
192
79
193
78
194
77
195
76
196
75
FMIRDNWR
C4041 0.1u 25V
FMIADDBE3 FMIADDBE4
FMIWAIT
FMIADDBE5
FMIADDBE1
FMIADDBE6 C4044 0.1u 25V
FMIADDBE2 S_TXD
LMIDBE10
R4044
FMIADDBE19 FMIADDBE18
LMIDBE11
C4005 0.1u 25V
FMIADDBE4
8.1 FMIADDBE17
FMIADDBE6
FMIADDBE16 FMIADDBE15
LMIDBE12
FMIADDBE7
74
197
FMIADDBE12
LMIDBE14
FMIADDBE11 FMIADDBE10 FMIADDBE9
LMIDBE15 LMINCLKBE
199
72
200
71
201
70
202
69
LMICLKBE
FMIADDBE6 FMIADDBE5 FMIADDBE4
LMICLKENBE
C4010 0.1u 25V
203
68
204
67
205
66
FMIADDBE1 LMIABE11 FMIDATABE15
LMIABE9
FMIDATABE14
LMIABE8
FMIDATABE13 FMIDATABE12 LMIABE7 FMIDATABE11
8.1 9
2
1
X
0
3
A
B
FMIADDBE12 FMIADDBE13 FMIADDBE14
LV4052FT
FMIADDBE16
0
2
1
2
Y
3
1
INH
VEE
6
7
VSS FMIADDBE18
FMIADDBE10 FMIADDBE11
C4040 0.1u 25V
3
3.3
0
S_RXD
4
0.2
5
0
C4036 0.1u
0
0
8
0
FMIDATABE0
0
FMIDATABE1 C4051 0.1u 25V
FMIADDBE12 C4046 0.1u 25V
FMIDATABE2
RS_RXD
FMIDATABE3 V_RXD FMIDATABE4
25V FMIDATABE5 FB4002
FMIADDBE13
A192WJ FMIDATABE6
LEFTP 206
65
207
64
208
63
FMIDATABE7
FMIADDBE14
CARDDET
FMIADDBE15
LMIABE6 LMIABE5 LMIABE4
C4009 0.1u 25V
209
62
210
61
211
60
212
59
213
58
FMIADDBE16
(CH)
C4042 0.1u 25V
FMIADDBE22 R4020 10K
FMIADDBE23
FMIDATABE6 FMIDATABE5 1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
FMIDATABE4 FMIDATABE3
0 R4008
C4024 1u
FMIDATABE2
C4035 0.1u 25V
TL4002
C4043 470u 16V ASY
0.1u C4048
25V
100P (CH)
R4019 10K
3
4
TSOUTD4 TSOUTD5 TSOUTD6 TSOUTD7 TSOUTCLK
1
2
2.4
2.4
5.18
TSOUTSTRT
5.18
TSOUTVAL
TO MAIN7(VCT-PRO) R4042
R4022 150
ST_RS
IC4005
R4023 150
LM833D
V_TXD V_RXD AIN1L
R4017 10K
R4029 0
R4018 0
AIN1R C4060 16V 10u ASX
AIN1R SCL3 SDA3
CIEN
NFMICSA
FEERROR
TSOUTD6
TSOUTD5
TSOUTD4
TSOUTD3
TSOUTD2
TSOUTD1
TSOUTD0
TSOUTD7
TSOUTD3
470
R4016 10K TSOUTCLK
TSOUTSTRT
TSOUTVAL
C4029 0.1u 25V
R4007 200
DTV_CVBS
C4021 0.01u 25V R4003 0
DTV_B
DTV_G
DTV_R
NOTIORD
NOTIOWR
CARDDET
4 SCL3
F
C4020 0.1u 25V
FE_SDA
R4009 0
DTM_IRQI
DTM_IRQI
DTM_RESET
RIGHTP
RIGHTM
LEFTP
LEFTM
TRIGOUT
TO MAIN8(UCON/PANEL_IF) TRIGIN
FLASHWP
R4031 3.9K
C4056 6800P 25V
+ -
3
1 2 FE_SCL
FE_SDA
SDA3
R4049 22
R4002 10K
TSOUTD1
0.5 5
RIGHTM
TL4010
25V
C4030 0.01u 25V C4015 0.1u 25V
NFMICSA NRESETOUT
0.5 6
C4034 0.1u
C4014 0.1u 25V
NRESETOUT
FE_SCL
2.04 7
R4028 560
TL4008
FMIRDNWR
FLASHWP
2.04 8
-
RIGHTP TL4007
6.3V
NFMIOE
TSOUTD0
TSOUTD2
0.1u 25V
+
FMIDATABE1 FMIDATABE0
CIEN C4063 10u 16V ASX
R4045 470
C4055
FMIADDBE21
C4039
NOTIOWR
6800P 25V
R4043 3.9K
C4052 100u 16V ASY
55
216
C4061
R4030 390
FMIADDBE20
56
215
C4047 100P
FMIADDBE19
Training course: D44
65
SERIAL BUS SELECTOR VCTPro↔STi VCTPro↔EXT. RS232 (SERV.)
NOTIORD R4033 560
FMIADDBE18
57
214
R4024 150
R4026 150
FMIADDBE17
FMIDATABE7
SEES Engineering Department
8.1 10
LEFTM
LMIABE12
FMIDATABE8
0 11
FMIADDBE2
FMIDATABE9
0 12
FMIADDBE17
FMIADDBE3
FMIDATABE10
0 13
IC4004
FMIADDBE8 FMIADDBE7
FMIADDBE11
3.3 14
FMIADDBE9
73
198
FMIADDBE13
FMIADDBE10
15
VDD
FMIADDBE8
FMIADDBE14 LMIDBE13
FMIADDBE9 V_TXD
3.3
16
FMIADDBE8
ST_RS
C4045 0.1u 25V
FMIADDBE5
FMIADDBE7
10K
C4057 0.1u 25V
FMIADDBE3
FMIADDBE20
AIN1L
LMICLKBE
FMIWAIT
NFMIOE TL4011
IC4001
184
RS_TXD
LMICLKENBE
88
183
NLMICSBE
DTM_RESET
AUDIO PREAMP.
6. Electrical Diagrams (continued) Main 5/13 (DTV MEMORY) Schematic Diagram TO MAIN4(DTV STI5105) NFMIOE
NFMICSA
FMIDATA0
FMIDATA8
FMIDATA1
FMIDATA9
FMIDATA2
FMIDATA3
FMIDATA10
FMIDATA4
FMIDATA11
FMIDATA5
FMIDATA12
FMIDATA6
FMIDATA13
NFMIOE
NFMIOE
FMIDATA14
FMIDATA15
FE_SDA
FE_SDA
FMIDATA7
FE_SCL
FE_SCL
FMIRDNWR
FMIRDNWR
NFMICSA
NFMICSA
NRESETOUT
NRESETOUT
FLASHWP
FLASHWP FMIDATABE15 R4259
FMIDATABE14
DUNTKE449WE01
7
8
5
6
3
4
1
2
FMIDATA15 R4272
FMIDATA14
47
47 FMIDATABE13 FMIDATABE12 FMIDATABE11 FMIDATABE10
R4251
7
8
5
6
3
4
1
2
FMIDATA13 FMIDATA12 FMIDATA11
FMIDATABE8
3.39
@volta 48
FMIDATA10
47 FMIDATABE9
47
0 46
1.5 45
0.3
1.5
44
0.3
43
42
0.3 41
1.0 40
0.3 39
0.5
3.29
38
37
DTV SOFTWARE FLASH
FMIDATA9 FMIDATA8 TL4253
FMIDATABE7
7
8
5
6
3
4
0.4
0.4
36
0.3
35
0.4
34
0.4
33
32
0.4
0.3
31
0.9
30
3.24
29
0
28
27
3.24 26
1.5 25
IC4251 IXC361WJ
FMIDATA7 TL4254
R4260
FMIDATABE6
47
FMIDATA6 TL4255
FMIDATABE5
FMIDATA5 TL4256
FMIDATABE4
R4262 10K
FMIDATA4
2
1
TL4257 FMIDATABE3
7
8
5
6
1
2
1.5
3
1.5
4
1.5
5
1.5
6
7
1.5
1.5
10
9
8
1.5
1.5
13
12
11
1.5
1.5
3.29
3.27
14
0.02
R4252
19
18
1.5
21
20
1.5
1.5
22
24
23
1.5
1.5
1.5
1.5
1.5
Z
TL4259
3
4
FMIADDBE17
1
2
FMIADD19
47 FMIADD18
7
8
5
6
FMIADDBE14
3
4
FMIADDBE13
1
2
R4257
FMIADDBE15
R4254
7
8
5
6
3
4
1
2
FMIADD1
FMIADD2
FMIADD3
FMIADD4
FMIADD5
FMIADD6
FMIADD7
FMIADD8
FMIADD18
FMIADD19
0
R4265
FMIADD22
47
R4264
FMIADD21
FMIADD16 FMIADD15
47
FMIADDBE12
FMIADD20
FMIADD17
FMIADDBE16
C4252 0.01u 25V
C4251
FMIADD14
10u 16V KZA510WJPZ
FMIADD13
C4253 0.1u 25V
K
R4263
R4266
4.7K
0
FE_SCL
FMIADDBE18
FMIADD9
FMIRDNWR
FMIADD20
FE_SDA
6
FMIADD10
NFMIOE
FMIADD21
NRESETOUT
5
R4253
FMIADD11
FMIADD22
47
FMIRDNWR
8
TO MAIN6(DTV CI)
R4261
FMIADDBE21 7
FMIADD12
FMIDATA0
FMIADDBE22
FMIADDBE20
FMIADD17
TL4260 2
FMIADD13
4
R4256 47
FMIADD14
1
FMIADD15
3
FMIDATABE0
FMIDATA1 FMIADD16
FMIDATABE1
FMIADDBE11
17
1.5
0
C4255 0.1u 25V
FMIDATA2
47
FMIADDBE19
16
15
3.29
FMIDATA3 TL4258
FMIDATABE2
Z FB4251 A192WJ
FMIADD12 FMIADD11
47 FMIADD10 FMIADD9
6
3
4
FMIADDBE5
1
2
FMIADD8 FMIADD7
C4256 0.1u 25V
47
FMIADDBE4 FMIADDBE3
R4255
7
8
5
6
FMIADDBE2
3
4
FMIADDBE1
1
2
FMIADD6
Z
R4268 4.7K
FMIADD5
2
5
FMIADDBE6
4
8
1
R4258
FMIADDBE7
7
3
FMIADDBE8
2
FMIADDBE9
4
FMIADDBE10
FMIADD4 FMIADD3 R4243
TL4251
47
FMIADD2
1K
F
TL4252 FMIADD1
8
5
6
LMIABE9
3
4
LMIABE8
1
2
LMIA12 LMIA11
82
LMIABE7 LMIABE6
R4201
7
8
5
6
3
4
1
2
C4233 0.01u 25V
LMIA9 LMIA8 LMIA7 C4231 0.01u 25V K
LMIA6
82 LMIABE5 LMIABE4
LMIA5
C4232 220u 6.3V AAPE
R4206
7
8
5
6
3
4
1
2
R4244 1K F
R4231 100
LMIA4
LMIABE3 LMIABE2
R4269 22 K 1
R4205
LMIABE11
7
3
LMIABE12
3.29
0
LMIA3
8
7
LMIA2
VCC
WP
A0 1
2.1
2.1
6
5
SCL
SDA
A1
A2
GND
2
3
4
82
R4202
C4206 0.01u
47
0
0
2
3
4
5
6
LMIA4
LMIA5
LMIA6
LMIA7
LMIA8
LMIA9
LMIA11
LMIA12
LMICLK
LMID8
LMID9
LMID15
66
65
64
63
62
61
60
59
58
57
56
55
54
53
LMID14
VSS
DQ15
VSSQ
DQ14
DQ13
VDDQ
DQ12
DQ11
VSSQ
DQ10
DQ9
VDDQ
DQ8
NC
52 VSSQ
51 UDQS
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
NC
VREF
VSS
UDM
CKN
CK
CKE
NC
A12
A11
A9
A8
A7
A6
A5
A4
VSS
A0
A1
A2
A3
VDD
29
30
31
32
33
LMID13
7
IXB765WJQZ
IC4201
LMID12
LMIDBE12
8 LMID11
LMIDBE11
1
2
3
4
5
6
A10/AP
R4203 47
LMID10
VDD 1
LMID9
LMIDBE9 LMIDBE8
7
DQ0 2
VDDQ 3
DQ1
DQ2
4
5
VSSQ 6
DQ3 7
DQ4 8
VDDQ 9
DQ5
DQ6
10
11
DQ7
VSSQ 12
13
NC
VDDQ
LDQS
15
16
14
NC
VDD
NC
LDM
WE
CAS
RAS
CS
NC
BA0
BA1
17
18
19
20
21
22
23
24
25
26
27
28
LMID8 8 1
2
R4208
R4204
K
IC4202 FB4201 A192WJ
0.1u
1u 4V KZA578WJQZ
25V
PQ070XNA
LMIA3
LMIA2
LMIA1
LMIA0
LMIA10
LMIBA0
LMIBA1
NLMICS
NLMIRAS
NLMICAS
LMIDQM0
C4223 10u
10u
16V KZA510WJPZ
KZA510WJPZ
16V
FB4202 A192WJ
C4225 10u
TO MAIN4(DTV STI5105)
B+2.5V
TL4203 Z C4224
LMIRDNWR
LMIDQS0
C4236
B+2.5V_ST
B+2.5V_ST
2.6
C4226 0.1u
3
25V
VO
16V KZA510WJPZ
LMID2 3
4
LMIDBE1
5
6
LMIDBE0
7
8
47
LMID0
2
C4235 1u 4V KZA578WJQZ
C4237 1u 4V KZA578WJQZ
8 LMID3
1
C4204 Z 1000P
LMID7
0.1u 25V
LMID4 7
LMIDBE3
0.01u 25V
C4221 C4203
LMID6
6
LMID4
4
5
LMID5
LMIDBE4
Z
25V
LMID3
3
LMID2
47 LMIDBE5
C4218 0.01u 25V K
C4214
LMID6
LMID1
LMIDBE6
C4210 0.1u
C4207 Z 0.1u 25V
C4205 1000P
LMID7
LMIDBE7
LMIDBE2
0
1u 6.3V
K
1 R4207
LMIDBE13
LMIDBE10
0
C4219
25V
LMIDBE15 LMIDBE14
BR24S64M
1000P
0.1u Z 25V
LMIBA0
LMICLKEN
2
82 LMIBABE0
LMIDQM1
1
C4211 C4208
LMINCLK
4
C4234 1u 4V KZA578WJQZ
LMIDQS1
3
LMIBA1
IC4252
DTV NVM
LMIA0 LMIA10
LMID10
6
LMID12
8
5
LMID11
7
LMID5
LMIBABE1
LMID14
LMIABE10
LMID13
LMIABE0
LMIA1
LMID15
LMIABE1
VIN
R4220
LMID1
47
LMIDQS0
LMID0 LMIDQSBE0
TL4201
LMIDQSBE0 LMIRDNWRBE
NLMICASBE NLMIRASBE NLMICSBE LMICLKENBE LMINCLKBE LMICLKBE
LMIDQMBE1 LMIDQSBE1 LMIDQMBE0
R4219 47
LMIRDNWRBE
R4209 47
NLMICASBE NLMIRASBE
R4211 47
LMICLKBE
LMICLKEN LMINCLK LMICLK
LMIDQSBE1 LMIDQMBE0
R4216 47 R4217 47
LMIDQM1 LMIDQS1 LMIDQM0
R4218 LMIVREF
LMIVREF
0 C4201 10P (CH)
SEES Engineering Department
C4202 10P (CH)
Training course: D44
66
R4242 1K
TO MAIN10(POWER SUPPLY) B+3.3V
TVB
47
R4215 47
0
D4201 KDS4148
C4228 1u
47
GND 5
1.2
AAPE
NLMICS
R4214
3.1
C4227 220u 6.3V
NLMIRAS
47 R4213
VREF 4
2
3.3
3.3
R4212
LMICLKENBE
LMIDQMBE1
SW
1 R4240 1K F
2.5
NLMICAS
R4210 47
TL4202
NLMICSBE
LMINCLKBE
LMIRDNWR
256Mb SDRAM DTV MEMORY
C4229 0.1u 25V
C4230 0.1u 25V
R4241 1K F
B+3.3V
6. Electrical Diagrams (continued) Main 6/13 (DTV CI) Schematic Diagram DUNTKE449WE01
C.I. CONNECTOR
TSOUTD2
FED0
FED1
FED2
FED3
FED4
FED5
FED7
FEVALID
FESTROUT
NFMILBA
TSSWITCH
TSOUTD1
FECLK
TSOUTD0
FED6
TO MAIN4(DTV STI5105)
R4417 10K
R4405 10K
R4448 47
TSOUTD3 TSOUTD4 TSOUTD5
CID4 TSOUTSTRT CID5
R4458 10K
TSOUTD6
R4452 47
R4561 47
C4412 0.1u
R4451 10K
TSOUTCLK
R4450 10K
CID6 R4449 10K
TSOUTD7
25V
SC4401 JA002WJ
R4430 10K
TL4431
R4414 47
TSOUTD7
CID7
7
8
5
6
3
4
1
2
TL4432 TL4418 TL4419 TL4416
TSOUTSTRT TL4420
CIOE
TSOUTVAL
CIWE TSSWITCH
C4406
NFMILBA
0.1u 25V
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
14
13
12
11
9
10
TL4421
8
TL4422
R4410 47
TL4423 CIA11
FMIADDBE2
IC4404
LCX16244
IC4402
FMIADDBE3
7
8
5
6
3
4
TL4424
LCX126FT
CIA10
TL4425 CIA9
FMIADDBE4 1
FMIADDBE5
3
4
5
6
7
10
9
8
13
12
11
14
15
16
17
19
18
20
21
22
24
23
1
2
3
4
5
6
TL4426
7
CIA8
2
1
TL4427 R4455 47
FMIADDBE6 FMIADDBE7
7
8
5
6
3
4
1
2
TL4433
CIA12
47
R4454
TL4428 TL4429
CIA13
TSOUTVAL
FEDB0
FEDB1
FEDB2
FEDB3
FEDB4
FEDB5
FEDB6
FECLKB
FEVALIDB
CIOE
FEDB7
FESTROUTB
FMIADDBE9 FMIADDBE10
R4413 47
CIA14 TSOUTCLK
FMIADDBE8
CIWE
CI DATA/ADD BUFFERS
2
R4423 10K
TL4430 TL4417
FMIADDBE11 FECLKB CIA14
FMIADDBE14 C4407 0.1u 25V
FMIADDBE16 FMIADDBE17
FEVALIDB
CIREG
CIA13
CIA12
CIA11
CIA10
CIA9
CIA6
CIA8
CIA7
CIA5
CIA4
CIA3
CIA2
FMIADDBE13
CIA1
CIA0
FMIADDBE12
R4411 100
7
8
5
6
3
4
TL4401 TL4402 TL4403 TL4404
2
1
TL4405
R4415 23
24
22
20
21
18
19
17
15
16
14
13
11
12
8
9
10
7
6
5
4
3
2
47
CIA7
1
FMIADDBE18 CIA6
7
8
TL4406
5
6
TL4407
3
4
TL4408
1
2
TL4409
FMIDATABE0
IC4405
CIA5
LCX16244
FMIDATABE1 CIA4 C4404 0.1u
FMIDATABE2 25
FMIDATABE3
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
47
CIA3
FMIDATABE4
CIA2
FMIDATABE5
CIA1
3.29
FMIDATABE6
3.29
5
TL4410
R4412
25V
CIA0
4
7
8
TL4411
5
6
TL4412
3
4
TL4413
1
2
TL4414
FMIDATABE7 TL4415 8
6
4
2
8
6
4
2
8
6
4
2
8
6
4
2
C4417 0.1u 25V
IC4409
CARDDET
AHC1G04W R4416 47
7
5
3
1
7
5
R4408 47 3
R4407 47
7
5
1
7
5
3
1
R4404 47 3
R4402 47
NOTRESETCI
1
NOTREADY
VCCEN
1
2
3.29
GND
35
CD1
36
MOD3
37
GND
TL4446
2
D3
3
D4
4
D5
MOD4
38
5
D6
MOD5
39
6
TSOUTD4
MOD6
CE1
MOD7
41
A10
CE2
42
9
OE
0
1
2
3
4
5
6
7
8
TSOUTD7
TL4453
43
NOTIORD
TL4454 A11
6
R4426 10K
TL4452
A9
4
5
40 TL4451
VTGSENB
2
3
TSOUTD6
TL4450 D7
1
TSOUTD5
TL4449
8
11
47
TL4466
7
10
R4429 TL4447
IORD
44
IOWR
45
R4437
TL4455
10K
R4431
10K
46
12
A8
13
A13
14
A14
MD11
48
15
WE/PGM
MD12
49
16
IREQ
MD13
50
17
VCC
MISTRT
FESTROUTB TL4435
MD10
R4406
47 TL4436
7
8
5
6
3
4
1
2
R4432 10K
FEDB0
100 FEDB1
TL4437 FEDB2
TL4438 FEDB3 R4422 100
TL4439 VCC
51 TL4440
52
18
VPP1
19
MIVALK
MD14
53
20
MICLK
MD15
54
21
A12
MD16
55
22
A7
MD17
56
23
A6
24
A5
VPP1
R4428 100
TL4441 7
8
5
6
3
4
1
2
FEDB4
TL4442 FEDB5
TL4443 FEDB6
TL4444 FEDB7
TL4461 MOCLK
57 TL4462
RESET
58 TL4463
WAIT
59
25
A4
26
A3
27
A2
28
A1
29
A0
30
D0
MOD0
64
31
D1
MOD1
65
32
D2
MOD2
66
33
IOCS16
CD2
67
34
GND
GND
68
TL4464 INP_ACK
R4436
10K
60 TL4445
REG MOVAL MOSTRT
61 TL4460
7
8
TL4456
5
6
TL4465
3
4
TL4457
1
2
7
8
5
6
3
4
1
2
62 63
TSOUTCLK TSOUTSTRT TSOUTVAL R4427 47
TL4458 TL4459
TSOUTD3 TSOUTD2 TSOUTD1 TSOUTD0
CID1
CIEN
NOTIOWR
TL4448
CID0
3
3.29
1
R4421 47
FMIADDBE18
FMIADDBE17
FMIADDBE16
FMIADDBE14
FMIADDBE13
FMIADDBE12
FMIADDBE11
FMIADDBE10
FMIADDBE8
FMIADDBE7
FMIADDBE6
FMIADDBE9
FMIADDBE5
NOTBE1
FMIADDBE4
FMIADDBE2
FMIADDBE1
FMIADDBE3
CID2 CID3 7
P4401 MA313WJSA
TL4434
8
FMIWAIT CARDVCCOC CID3
CID2
CID1
CID0
CID7
CID6
NOTIORD
CID5
CID4
R4435 10K
NOTIOWR P3V3CI
TO MAIN5(DTV MEMORY) C4403 0.1u 25V
NFMIOE
3.29 20
3.29
0
19
0
18
0
17
16
0
0
15
0
14
0
13
12
0 R4409 10K
11
FMIRDNWR
IC4401 LCX245FT
TO MAIN1(TUNER,OFDM)
1
2
3.29
FECLK
3
0.5
4
0.7
5
1.0
6
0.3
7
0.7
9
8
0.4
R4424 10K
R4438 10K
10
0.4
0.4
CI DATA TRANSCEIVER C4410
0
0.1u 25V P5VPCMCIA
FESTROUT
VPPPCMCIA R4459 0
8
6
4
2
8
6
4
2
FEVALID FED0
R4441 10K
7
5
3
7
5
3
1
R4403 47 1
R4401 47
FED1 FED2
CIDDIR
FED3 FED4 FED5
IC4407 TC7SH32U1E
3.29
5
6
4
R4419 10K
5
4
IN
GND
NC
OUT
GND
EN
1
2
3
Q4403 2SC3928AR
R4425 10K
4
25V
IC4403
2
5.18
3
5.18
R4453 100
0 R4433 47
R4443 33K
AHC1G04W
1
2
0.3
C4420 68u 10V AAPD
R4445 33K
0
CIEN
0.3
R4447 22K
R4434 47
3
Training course: D44
67
NOTRESETCI
C4405 0.1u 25V
1
FMIWAIT
5
0.1u
C4409 0.1u 25V
VCCEN
C4401 10u
0
CARDVCCOC
3.29
C4402
16V KZA510WJPZ
SEES Engineering Department
C4421 10u 16V KZA510WJPZ
R4420 10K
FB4401 A192WJ
B+5V
CICD1
B+5V
NOTREADY
B+3.3V
B+3.3V
CARDDET
TO MAIN10(POWER SUPPLY)
AOZ1320C
A192WJ
R4418 47
3.29
R4446 10K
IC4410 FB4402
FMIDATABE3
FMIDATABE2
FMIDATABE1
FMIDATABE0
FMIDATABE7
FMIDATABE6
FED7
FMIDATABE5
FMIDATABE4
FED6
6. Electrical Diagrams (continued) Main 7/13 (VCT-PRO) Schematic Diagram TO MAIN3(HDMI)
DUNTKE449WE01
HDMI_WPO HDMI_WPO HOTP_CONT_0 HOTP_CONT_0 HOTP_CONT_1 HOTP_CONT_1 HDMI_SCK HDMI_SCK HDMI_SDO HDMI_SDO HDMI_WS
R3071 33K
HDMI_WS HDMI_INT_I HDMI_INT_I
R3072 33K
R3073 10K
P3071 NA324WJ
HDMI_RSTO HDMI_RSTO
KM DINEN LVDS4P
LVDS4N
LVDS3P
LVDS3N
LVDSCP
LVDSCN
LVDS2P
LVDS2N
LVDS1P
DINR[7] DINR[7]
LVDS1N
DINCK
LVDS0P
LVDS0N
DINCK
FB3072 0061TA
DINR[6] DINR[6] DINR[5]
TL3002
FB3071 0061TA
RDA3001
TL3003
RA577WJFW
DINR[5]
TL3004
DINR[4] DINR[4]
TP3032 TP3034 TP3033
DINR[3] DINR[3] DINR[2]
R3077 0
DINR[0]
C3017 1000P
K
DING[7] DING[7]
25V
DING[6]
C3022 0.1u 25V
VCT_VO
C3021 0.01u
DINR[0]
C3018 10u KZA510WJPZ
Z
VCT_ENO
DINR[1] DINR[1]
VCT_HO
R3004 6.2K
DINR[2]
C3024 0.1u 25V
C3025 10u 16V KZA510WJPZ
Z
FB3021 A188WJ
C3074 470P (CH)
C3075 470P
R3074 1K
R3075 1K
(CH) BU+1.8V
TO KEY
TL3001
FB3073 0061TA
DINEN
1
KEY1
2
KEY2
3
STBY_POW
4
GND
TO LOCAL KEYBOARD
C3073 470P (CH)
DING[6] C3023 0.1u 25V Z
C3013 10u
FB3006 A192WJ
DING[4] DING[4]
C3014
DING[3]
TP3024
TP3023
TP3013 TP3012
Z 0.1u 25V
16V
DING[3]
TP3026 TP3025
C3047 1000P
DING[5] DING[5]
TP3028
TP3027
KZA510WJPZ
DING[2]
VSUP3.3IO1 TP3045 TP3044 TP3043
TP3031 TP3022
C3026
TP3016
TP3014
R3076 1K
10u
TP3017
TP3015
DING[2]
FB3022 A192WJ
DING[1]
16V KZA510WJPZ
DING[1] DING[0]
156
DING[0]
155
154
153
152
151
150
149
148
147
146
145
144
143
142
141
140
139
138
137
136
135
134
133
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
DINB[7] DINB[7]
DINB[1]
OSD_G1
OSD_G3/P3_3
OSD_G2/P3_2
OSDR1
OSD_G0
OSDR0
OSD_R3/P3_1
OSD_R2/P3_0
PCS4
PCS5
GND3.3IO1
VSUP3.3IO1
PCS3
PCS1
PCS2
PCS0
PCLK2
PCLK1
GND1.8DIG
VSUP1.8DIG
LVDSA_4P
LVDSA_4N
LVDSA_3P
VSUP3.3LVDS
LVDSA_3N
GND3.3LVDS
LVDSA_CLKP
LVDSA_CLKN
VSUP3.3LVDS
LVDSA_2P
LVDSA_2N
GND3.3LVDS
LVDSA_1P
LVDSA_1N
LVDSA_0P
VSUP3.3LVDS
REXT
LVDSA_0N
LVDSB_3P
LVDSB_3N
GND1.8LVDS
GND3.3LVDS
LVDSB_2P
VSUP1.8LVDS
TP3011 IFAGCI
DINB[1]
LVDSB_CLKP
DINB[2] DINB[2]
LVDSB_2N
157
LVDSB_0P
158
LVDSB_0N
159
CADC4
160
CADC3
161
CADC2
OSD_HCS0/P3_7
162
CADC1
OSD_HCS1/P3_6
99
163
GND3.3DAC
OSD_FSW
98
164
VSUP3.3DAC(ADC)
OSD_CLK
97
TP3010
DINB[3]
LVDSB_CLKN
DINB[3]
LVDSB_1N
DINB[4] DINB[4]
VSUP3.3LVDS
DINB[5] DINB[5]
GND3.3LVDS
DINB[6]
LVDSB_1P
VSUP3.3LVDS
DINB[6]
OSDB0
104
OSDB1
103
C3019 1000P
OSD_B2/P3_4
102
TP3018
OSD_B3/P3_5
101
TP3019
100
TP3020
SLOWSW_1I
DVSYNC
TL3019
FB3054 A192WJ
DINB[0] DINB[0] DVSYNC
SCL3
FB3001 A188WJ
SCL3
TL3018
TP3021
TP3009
SDA3 SDA3
FB3005
C3034
A192WJ
10u 16V
C3060 0.1u 25V
STBY_POW
1000P
C3010
VSUP1.8FE
3.3
0
8
165
PWM3
166
PWM2
167
PWM1
VSUP3.3IO1
3.3
7
VCC
ST_RS
WP
TL3016
SLOWSW_2I
TL3017
DHSYNC
DHSYNC
3.3
6
5
SCL
SDA
ATV NVM
96
KZA510WJPZ C3011 0.1u 25V
Z
C3003 10u 16V KZA510WJPZ
HPOUTR SIF
16V
SIF
C3033 1000P
C3009 0.1u 25V
94
TP3041
OSD_V
93
TP3042
168
REV
169
VSUP1.8FE
RXD(P4_5)
92
170
VSUP3.3FE
TXD(P2_4)
91
171
VIN22/DHS
P2_3
90
172
VIN21
P2_2
89
CACD6
88
CACD5
87
IC3051
C3051 Z 0.1u 25V
BR24S64M A0
TP3005
VSUP3.3FE
C3005 10u
HPOUTR
R3003 0
95
OSD_H
V_RXD
A1
1
A2
2
0
V_TXD
GND
3
0
4
0
0
Z VIN21_PCB
KZA510WJPZ
TO MAIN8(UCON/PANEL_IF) LVDS0P
KEY_1
VIN20_PCG
173
VIN20
VIN8
174
VIN19
VIN7
175
VIN5
VIN1
176
VIN17
IFAGCI
2
FB3002 A192WJ
HPOUTL HPOUTL
GND3.3IO1
C3020 1000P
85
GND3.3FL
C3052 0.1u
FB3053 A192WJ
Z
177
HP_PLG
TO MAIN2(TERMINAL) SCL3
SDA
VIN16
84
178
VIN15
SCL
83
179
VIN13
HSO
82
TP3058
180
VIN12
VSO
81
TP3059
181
VIN11
LVDS0N
LVDS1P
LVDS1P
LVDS1N
C3057 10u 16V KZA510WJPZ
25V
HP_PLG
R3054 22
VSUP3.3FL
86
VSUP3.3FL
LVDS0P
LVDS0N
KEY_2
VIN19_PCR
1
SDA3
PWM1
4
SCL3
OFL1
3
C3006 0.1u 25V
TO MAIN1(TUNER,OFDM)
BL_ON
LVDS1N
LVDS2P
LVDS2P
LVDS2N
LVDS2N
LVDSCP
LVDSCP
SDA3 SLOWSW_1I SLOWSW_2I
IC3001
VIN18
CLKOUT
80
LVDSCN
182
VIN17 VIN16
183
VIN9
XTALOUT
VCT-Pro VCT7793P
VIN8
XTALIN
X3051 SC0012CE
79 78
C3032
184
VIN7
185
VSUP1.8FE
186
GNDA
187
VIN6
VSUP3.3COM
77
C3016 10u 16V KZA510WJPZ
VIN11 VIN9 VIN6
GND3.3COM
VIN3
AIN2L AIN2L
188
VIN18
189
VIN3
190
VIN2
191
VIN1
AIN2R AIN2R FB3003 A192WJ
AIN3L AIN3L AIN3R
VSUP3.3VO
AIN3R AIN4L
C3012 C3007 0.1u 10u 25V 16V KZA510WJPZ
AIN4L AIN4R AIN4R AOUT1L
Z
TP3002
Z
FB3051
DBI0
73
DBI1
72
DBI2
71
DBI3
70
192
VSUP3.3VO
DBI4
69
193
VOUT3
DBI5
68
194
VOUT2
DBI6
67
LVDS4N IRIN
FB3052 A192WJ
C3053 1000P
74
LVDS4P
LVDS4N
S C3054 15P (CH)
C3059 0.1u 25V
DINB[0]
C3055 18P (CH)
DINB[1]
IRIN
PCON1
75
GND3.3DRI
LVDS3N
LVDS4P
A192WJ
VSUP3.3DRI
VSUP3.3DRI
MAIN ATV CPU VIDEO/AUDIO PROCESSOR (1MB ATV SOFTWARE FLASH INCLUDED)
VIN5
VIN2
C3027
76
LVDS3P
G
25V
1000P
1000P VIN12
LVDSCN
LVDS3P D LVDS3N
C3056 0.1u
20.25MHz
VIN15 VIN13
Q3052 SM3K7002F
TP3062
MCLKOUT
IXC354WJ
PCON1
FB3055 Z
A192WJ
D
C3058 10u
G
MIC_IREQ
16V KZA510WJPZ
MIC_IREQ
BL_ON
BL_ON
S
DINB[2]
Q3051 SM3K7002F
DINB[3]
OFL1
OFL1
BU_SDA3
BU_SDA3
DINB[4] BU_SCL3
DINB[6] SCL3
AOUT1R FB3004 AOUT2L
195
A192WJ
AOUT2L
196
C3008 10u
CVO2 CVO2
C3015 0.1u 25V
16V KZA510WJPZ
CVO1 AVLINK_1
HDMI_INT_I HOTP_CONT_0
SDA3 DTM_IRQI
VSUP3.3IO3
DGI1
64
198
P3_0/656I0
DGI2
63
199
P3_1/656I1
DGI3
62
200
P3_2/656I2
DGI4
61
201
P3_3/656I3
DGI5
60
202
P3_4/656I4
DGI6
59
203
P3_5/656I5
DGI7
58
204
P3_6/656I6
DRI0
57
205
P3_7/656I7
DRI1
56
206
15
16
17
18
20
21
22
23
24
25
27
28
32
33
34
36
37
38
39
40
42
43
44
45
46
47
48
49
DRI7
DCLK
DEN
DVS
GND3.3RAM
VSUP3.3RAM
I2S_DEL_WS
I2S_DEL_IN
I2S_DEL_OUT 41
I2S_DEL_CL
I2S_WS
I2S_CL
SPDIF_OUT
VSUP3.3DIG
GND3.3DIG 35
I2S_DA_IN
31
GNDA
30
SIFIN-
29
VSUP5.0SIF
SPEAKERL
HEADPHONEL 26
SPEAKERR
HEADPHONER
AOUT1L
AOUT1R
AOUT2L
AOUT2R
SGND
GNDA 19
50
DRI6
14
DRI4
DRI5
13
SIFIN+
12
VREFSIF
11
DRI3
SUBWOOFER TEST
10
VSUP8.0AU
9
VREFAU
8
AIN4L
7
AIN4R
6
AIN3L
5
AIN3R
4
AIN1R
3
TDI
TDO
2
RESETQ
TCLK
1
TMS
P4_4
R3007 4.7K
4
P4_5
@volta
5 V_RXD
P4_6
0.94
V_TXD
P4_7
AIN2L
208
AIN2R
HP_PLG
656CLKO
AIN1L
207
V_RXD
DRI2
656CLKI
DING[1]
2
DING[2]
4
51
52
NA472WJ DING[5]
JT
DING[6]
DINR[1]
DINR[4] TMS
TDO
TO JTAG PWB For Debug Only
C3028 1000P
DINR[5]
DINR[6]
DINR[7]
DINCK
DINEN
TP3040
TP3039
VSUP3.3RAM
C3044 0.1u Z 25V DVSYNC
C3029 1000P
HDMI_WS
Z
HDMI_SCK
C3043 0.1u 25V
TP3038
TP3037
TP3036
Z
25V
C3030 1000P
HDMI_SDO
SIF
TP3001 SPKOUTL
SPKOUTR
HPOUTL
HPOUTR
C3041 0.1u
C3040 56P (CH) C3039 0.1u 10V
4.7K
10V C3031 1000P
ATV RESET
C3035 0.1u 10V
C3037 0.1u 25V
Z
16V KZA510WJPZ VSUP5.0SIF
C3036 0.1u
R3001
VIN20_PCG
NC
VIN21_PCB
VIN19_PCR VIN20_PCG VIN21_PCB
TL3010
7
TMS
8
GND
9
TGO
TDI
P3081 N0567FJ
TL3011
2
1
4
3
TL3012
11
TL3005
R3081 22
TL3006
10
TCLK
C3046 10u 16V KZA510WJPZ
TDI
TL3013
SCL
2
SDA
3
GND
RESET_S
13
TCK
14
A192WJ *TL3014 RESET_N
4
RESET_S
5
GND
15 16
*R3091 0 TL3015 C3045 10u 16V KZA510WJPZ
C3042 10u 16V KZA510WJPZ
1 TL3007
FB3038
VSUP3.3DIG
C3038 10u
TP3006 SPKOUTR
SPKOUTR
VIN19_PCR
BU+3.3V
4
12
TP3035 SPKOUTL
SPKOUTL
RESET_N
AOUT1L
AOUT1R
AOUT2L
AOUT2R
AIN4L
AIN4R
AIN3L
VSUP8.0AU
TO MAIN9(AUDIO AMP)
AIN3R
HDMI_WPO
C3004 0.1u 25V
AIN2L
TL3021
0
AIN2R
3
1.7
AIN1L
2
3.2
AIN1R
1
HDMI_RSTO
TL3020
TP3008
C3002 0.01u 25V
BU+3.3V
3
6
AIN1L AIN1R
2
5
DINR[3]
53
BU+3.3V
TL3009
DINR[2]
54
1
TO MAIN2(TERMINAL)
DINR[0]
55
*P3091
TL3008
DING[7]
PST8415N
AIN1L
3
DING[4]
IC3002
AIN1R
1
4.7K R3056
DING[3]
ST_RS
ST_RS
RESET_S
DING[0]
65
197
MIC_IREQ HOTP_CONT_1
V_TXD
DGI0
GND3.3IO3
SCL3
AVLINK_2 AVLINK_2
TO MAIN4(DTV STI5105)
DTM_IRQI
66
VSUP3.3IO3
Z
CVO1
SCL3
DBI7
VOUT1
DINB[7] RESET_S
AOUT2R AOUT2R
AVLINK_1
BU_SCL3
DINB[5] SDA3
AOUT1L AOUT1R
RESET
17 18
FB3037 A192WJ
GND
TO MAIN10(POWER SUPPLY)
19 20 BU+1.8V
BU+3.3V B+3.3V
SEES Engineering Department
B+5V B+5V S+8V S+8V
TMS
TDI
TDO
FB3035 A192WJ TCLK
RESET_N
FB3036 A188WJ
Training course: D44
68
ATV I2C SOFT UPDATE
6. Electrical Diagrams (continued) Main 8/13 (UCON/PANEL-IF) Schematic Diagram TO MAIN1(TUNER,OFDM) SV1JSW DTI2CSEL HP_MUTE
DUNTKE449WE01
EXT_DTV
TO MAIN3(HDMI) HDMI_PC
TO MAIN2(TERMINAL) HDMI_PC EXT_DTV SCART12
L2601 FA279WJ
S_MUTE
S_MUTE
TO MAIN11(EAGLE)
S2_MUTE
S2_MUTE
LVDS0N
U/D_OUT
LVDS0P
BANK_SEL
TO MAIN4(DTV STI5105)
R/L
PE TL2327
ANT+5V_SW
MUTE_SP
MUTE_SP
TL2326
TCON_WP
TL2328
PS_ON
PCON1
IR_RS
IR_RS
TO MAIN9(AUDIO AMP)
L2602 FA279WJ
LVDS1N
4
3
1
2
4
3
A0-
1
2
A0+
A1-
12V_DET
PCON1
IRIN
IRIN
BL_ON
BL_ON
OFL1
OFL1
3
4
1
2 R2317 22
37
36
LCD_POW
EXT_DTV
SCART12
HP_MUTE
PE
38
35
33
34
LVDS1P
BANKSEL
39
R/L
40
U/D
41
ANT+5V_SW
50
SDA3
42
DTN-Bus-SEL
TL2322 SCL3
43
DTM-RST
TEST
SCL3
SDA3
44
TCON_WP
49
PS_ON
BU_SDA3
45
PCON1
TL2321
BU_SCL3
46
HDMI_PC
TO MAIN7(VCT-PRO)
47
LVDS_EN
48
CONT_DET
DTM_RESET
TEMP3
32
T3
LVDS2N LVDS2P
TEMP2
31
T2
T1
51
12V_DET
52
SCL
FRAME
29
53
SDA
QS EN
28
FRAME
QS_EN
MIC_IREQ I-REQ
SV1JSW
27
55
SCL_F
BL_ERR
26
A1+
FA279WJ
4
3
A2-
1
2
A2+
TEMP1
30
54
L2603
LVDSCN
SUBMICRO PORT EXPANSOR
LVDSCP
4
3
1
2
LVDS3N
ACKL2605
L2604 FA279WJ
LVDS3P
ACK+
FA279WJ
4
3
A3-
1
2
A3+
MIC_IREQ LVDS0N
LVDS0N
LVDS0P
LVDS0P
LVDS1N
8
6
4
R2312
2
LVDS1N
LVDS1P
SDA_F
57
LEDPOW_R
58
ANT_ERR
25
AC_DET
24
LEDPOW_G
AIN3
23
59
LEDSLP
AIN2
22
60
ADIM(LEDOPC)
61
MUTE_SP
IXC009WJ
4
LVDS4P
ANT_ERR
1
3
A4-
2
A4+
AC_DET_S L2606
R2336 10K
7
1
5
4.7K
LVDS2P
LVDS2P
56
LVDS4N
FA279WJ LEDPOWG
R2303
LVDS2N
LVDS2N
3
LVDS1P
LEDPOWR
4.7K
IC2302
BL_ERR
LVDSCN
LVDSCN
ADIM
R/L
21
AIN1
LVDSCP
LVDSCP
U/D_OUT MUTE_SP LVDS3N
LVDS3N
12V_DET
62
S_MUTE
63
S2_MUTE
AVDD
19
C2320 0.1u 25V
LVDS4N
LVDS4N
S2_MUTE
VAREF
18
Z
0.01u 25V
FRAME BANK_SEL
7
8
9
TEMP3
TH2301 M1103J03
17
CEC-IN2
P20
6
CEC-OUT
RESET
5
P05
32kHz out
4
P04
FRC_BUS_SW
3
CEC-IN
3.3V
2
UART-TXD1
TEST
R2304
UART-RXD1
8MHz out
1
IREM_SW
P00
8MHz in
64
8
6
2
RESET_S
4
IREM_SW
GND
LVDS4P
LVDS4P
TEMP2
TL2338
TEMP1
4.7K 10
11
12
13
14
15
16
R/L TL2615 U/D_OUT TL2619 12V_DET TL2625 FRAME TL2627 BANK_SEL TL2628 TEMP3 TL2629 TEMP2 TL2630 TEMP1 TL2631 PE
7
TL2329
TL2335
TL2334
QS_EN
TL2330
TL2337
TL2336
TL2632 QS_EN
R2324 330
X2301 CA011WJ
1
4
3
2
5
3
PE
1
TL2614
C2322
S_MUTE
LVDS3P
LVDS3P
20
AIN0
1
3
R2328 10K
2
R2325 100K
C2316 0.1u 25V
Z
R2327 4.7K
4.8
C2319
Q2305 RTQ035P02
0
5
4
0.01u 25V
6
5
4
1
2
3
IC2303 PST8428N R2329 100
BL_ON P2302 NA329WJ
TL2331
1
S_GND
0.1u 25V
1 R2302 100
2 3 TL2305
TO INVERTER
OSC
4
ERR
5
REG
6
0
Z
SUBMICRO RESET
TL2304 OFL1
3
5.0
C2318
R2301 0
TL2303 STB
2
3.8
OFL1 TL2302
AC_DET_S
RESET_S
C2305 100P
FB2310
1K
BL_ERR R2313
R2307
BRT
VCOM_SCL VCOM_SDA TCON_WP
R2612
4.8 C2602 0.047u 25V
8 TL2310 ADIM
9
TO MAIN12(OUTPUT)
1M 1K
7 TL2309
ADIM
R2615 22
AC_DET RESET IC
A192WJ
TL2307 TL2308
R2614 22
SDA3 TCON_WP
R2306
TL2306
REG2
SCL3
R2305 100
0
5
10K
4
IC2601
TL2601
LEDPOWR
LEDPOWG
PST8428N
P2301 NA325WJ
BU+3.3V
1
GND
2 3 4
POWR_LED
5
0
FB2302 A192WJ BU+3.3V C2301
B+3.3V
100P TL2313
POWG_LED
3
5.0
TO MAIN10(POWER SUPPLY) TL2311
TL2301
R/C
2
Z
R2603 470K
IRIN
RA
TO R/C LED
TO LED, IR
1
3.8 C2601 0.1u 25V
B+3.3V
(CH) FB2301 0061TA
TL2314
FB2304 0061TA FB2305 0061TA
TL2315 C2303
ANT_ERR
100P
ANT_ERR
(CH) PS_ON
PCON1
D2301
C2311
EXA547WJ
100P (CH)
AC_DET
C2312 100P (CH) ANT+5V_SW
SEES Engineering Department
PS_ON
PCON1
Training course: D44
69
ANT+5V_SW
6. Electrical Diagram (continued) Main 9/13 (AUDIO AMP) Schematic Diagram (
)
DUNTKE449WE01
TO MAIN10(POWER SUPPLY) AC_DET
AC_DET
Q2701 DTC614TK
AMP+13V
L2701
C2721 0.47u
C2720
22uH
0.47u 25V TVB
PA899WJ
L2704 22uH PA899WJ
25V TVB
C2724 1u 25V KZA114WJ
C2718 1u 25V
C2716 100u 25V ASY
C2710 100u 25V ASY
KZA114WJ
R2726 0
48
47
46
45
44
43
42
41
40
39
38
37
R2723 220K
PVDDML
PVDDML
OUTML
OUTML
OUTML
PVSSL
PVSSL
OUTPL
OUTPL
NC
OUTPL
1
2
PVDDPL
PVDDPL
POW_PAD
C2714 1u 10V CYB
NC
NC
36
NC
35
3
PVDDREG
GAIN1
4
AVDD
GAIN0
R2719 0 34
1
2
3
4
5
6
7
8
30
CKOUT
29
9
INRP
10
AVSS
11
PLIMIT
R2725
SLEEPN
26
PVDDMR
PVDDMR
OUTMR
OUTMR
F
NC
OUTMR
4
2
100K
12
MUTE_SP (INPUT+12V-8
28
27
0
F
R2716
10W
MUTEN
PROTN
10V CYB R2715 270K
25
R2731 5.6K NC
&8) 13
14
15
16
17
19
18
20
21
22
23
R2718 0
24
C2725 1u 25V KZA114WJ
C2717 1u 25V KZA114WJ
R2701 0
L2702 22uH PA899WJ
L2703 22uH PA899WJ
R2702 0
R2703 0
R2704 0
C2719 0.47u
C2722 0.47u
25V TVB
25V TVB
AUDIO POWER AMPLIFIER
SEES Engineering Department
LCH(+)
3
LCH(-)
2
RCH(-)
1
RCH(+)
Training course: D44
70
R2720 0
R2722 0
TL2706
SP
R2730 10K
PVSSR
TO MAIN9(UCON/PANEL_IF) MUTE_SP
R2728 220K
25V
PVSSR
C2706 1u 10V CYB
R2711 10K
CKIN
INRM
YDA147SZ
C2712 1u
OUTPR
2
VREF
8
31
NCDRC0
C2715 0.1u
C2709 1000P
OUTPR
1
7
32 R2724 0
IC2701
OUTPR
C2702 2.2u 10V KZA030WJ
4
INLM
CYB
C2708 1000P
R2706 1.8K 3
INLP
6
NCDRC1
PVDDPR
SPKOUTR
5
PVDDPR
SPKOUTR
C2701 2.2u 10V KZA030WJ SPKOUTL
3
SPKOUTL
1
TO MAIN7(VCT-PRO)
4 TL2705
1u 10V
NA160WJ TL2703 TL2704
C2711 C2705 1u 10V CYB
P2701
R2727 0
33
R2729 470K
C2730 1000P
TO SPEAKERS
6. Electrical Diagrams (continued) Main 10/13 (POWER) Schematic Diagram BU+5V→BV+1.8V BU+5V
DUNTKE449WE01
TL1702 BU+1.8V
TO MAIN1(TUNER,OFDM) R1701 15K F
UR13V→5+8V
D1702 SMAB33L
L1701 10u PA964WJ
R1702 82K F
B+ANT5V
C1706 10u 16V KZA510WJPZ
R1703 10K F
S+8V
IC1726 TO MAIN2(TERMINAL)
C1707 10u 16V KZA510WJPZ
C1712 0.01u 25V
R1714 100
TL1718
0
B+5V
3
5.0
4
3
GND
SW
LV5805M
2
1
IN
BS
COMP
FB
C1720 1u 10V C1719 10u 16V KZA510WJPZ
EN
SS
TVB Vin
Vc
1
Vo
2
13.1
Vadj
3
3.3
DC-DC 1.8V
GND
4
8.0
5
0
6
0.8
5
2.6
7
1.5
C1718
8
3.3
0.1u
0
4.8
D1701
TL1701
TL1716
5+8V→B+ANT5V
B+5V S+8V
D1725 1SS390
Z
0.1u
Z
R1730 2K
D1726
C1729 22u 16V
C1727
KDS4148
ASX
B+ANT5V
BU+3.3V
C1732 0.1u 25V
C1725 10u 16V
B+3.3V
6
KZA510WJPZ B+5V
5
Vin
GND
4
5
Z
CONT
GND
Nr
1
2
3
PQ1M335M Nr
GND
1
Vc
2
TL1706
1/2W
TL1714 1
2
3.8
R1709 100
4700P
TL1705
S13V
AMP+13V TL1703
C1711
3
3
5.0
R1711 1 1/2W
0
0207TA
TL1707
TL1709 AC_DET TL1710 PS_ON
POW_BU+5V
TL1711
D1F60
C1721
ANT+5V_SW
100P (CH)
C1726 0.01u 25V
TO MAIN4(DTV STI5105) BU+3.3V
C1736 10u 16V KZA510WJPZ
BU+3.3V
L1735 15uH 2.6A PA085WJ
TL1735
R1743 100 D1735
B+3.3V
R1735 150K F
D1802 EXA526WJ 6.2V
B+1.2V S+8V
0
100 R1802
TO MAIN5(DTV MEMORY)
1SS355 D1803
B+3.3V
C1735
R1737 10K F
10u 16V KZA510WJPZ
Q1802 DTA124EKA
COMP
FB 5
1 BS
EN
6
0.8
1.5
GND
6
GND
C1722
GND
8
GND
9
AC_DET
10
PS_ON
11
BU5V
TL1712
12
GND
100P (CH)
1/2W
A303WJ R1742 1 1/2W
C1741 100u 25V ASY
25V KZA383WJ
C1744 1u
SS
7
8
3.3
UR13V→B+5V
0
R1738 100
C1740 2200P
OVERVOLTAGE PROTECTOR
Q1801 RDTC144EE
R1740 10K
C1738 2200P
PS_ON R1801 4.7K
D1801 1SS355
TO MAIN7(VCT-PRO)
6.3 2 IN
UR13V
5
25V
LV5805M
DC-DC 5V
B+3.3V C1801 2200P
15.0 3
SW
FB1735
C1743 10u
IC1735
13V_ERR
TO MAIN6(DTV CI)
B+5V
3 4
GND
UR13V
4
R1741 1
C1739 0.01u 25V
TL1719
SMAB33L
R1736 82K F
UR13V
3
7
R1719 1K
D1705
UR13V
2
TL1715
R1705 100
R1706 1 1/2W
TO POWER
1
TL1708
FB1801
R1710 10K
C1705 0.01u 25V
R1727 3.3 1/2W
BU+5V
PD
TL1713
FB1702 0207TA
PST8444N
C1702 1u 10V TVB
TL1717
1/2W
P1701 NA168WJ TL1704 FB1703 0207TA
IC1703
R1707 47K
Z
R1726 3.3
PQ1R50
R1708 3.9K
VIN
IC1701
Vo
IC1725
BU+5V RESET IC
4
R1712 1
4
Vo
BU5V→ BU+3.3V
TO MAIN3(HDMI) B+1.8V
C1703 0.1u 25V
C1701 10u 16V KZA510WJPZ
F
R1729 100
25V
0
5
2200P
R1728 2K F
R1725 2.2K F
Z
C1714
KDS4148 C1730 0.1u 25V
13V_ERR
LCD13V
PQ20WZ51
TL1725 S+8V
BU+5V
13V_ERR
C1715 150u 10V ASY
IC1702
BU+3.3V B+3.3V
TO MAIN13(T-CON POW)
FB1701 A303WJ
LCD13V
6.3
25V
B+3.3V B+3.3V
D1804 1SS355
BU+1.8V BU+3.3V
C1802 1u
B+3.3V
TO MAIN12(OUTPUT)
R1803 100
B+3.3V
25V KZA114WJ
B+5V
D1805 EXA514WJ 4.3V
R1751 C1746 10u 16V KZA510WJPZ
S+8V
B+3.3V TL1756
D1756 KDS4148
5
4
Vo
Vin
TL1755 B+1.2V
C1764 0.1u Z 16V
R1745 150K F
IC1756 Nr
16V 10u KZA510WJPZ
IC1755
1
GND
2
4
5
R1756 2.2
R1757 2.2
1/2W
1/2W
2
3 4
R1747 10K F
C1745
C1749 0.01u 25V
6.3
SW
2
1
IN
BS
EN
SS
R1752 FB1745 A303WJ
C1751 100u 25V ASY
IC1745 LV5805M
DC-DC 3.3V
Vc
15.0 3
GND
10u 16V KZA510WJPZ
COMP
FB 5
0.8
3
6
1.5
7
3.3
R1748 100
1K
1 D1755 KDS4148
R1754 100 D1745 SMAB33L
R1758
PQ012GN1
L1745 10u PA964WJ
0
PQ1LA185
3 C1760
TL1745
R1746 39K F
B+1.8V
C1755 10u 16V KZA510WJPZ
1 1/2W
8
0
C1750 2200P
C1762 0.01u 25V
R1750 5.6K
2.5
3.3 R1755 1K
C1757 0.1u 25V
C1748 4700P
B+3.3V→B+1.8V
Z
UR13V→B+3.3V
B+3.3V→B+1.2V TO MAIN8(UCON/PANEL_IF) BU+3.3V
LUG1701
LUG1702
LUG1703
LUG1704
HA006WJ
HA006WJ
HA006WJ
HA006WJ
B+3.3V BU+5V ANT_ERR ANT_ERR AC_DET AC_DET PS_ON PS_ON
ANT+5V_SW ANT+5V_SW PCON1
TO MAIN9(AUDIO AMP) AMP+13V AC_DET
SEES Engineering Department
Training course: D44
71
LUG1705 HA006WJ
LUG1706 HA006WJ
1 1/2W
C1753
R1753 1
10u 25V
1/2W
KZA383WJ
C1754 1u 25V
6. Electrical Diagrams (continued) Main 11/13 (EAGLE) Schematic Diagram (
A0
A1
A2
Vss
1
2
3
4
65
64 63
67
66
68
vgnd2
vext13
69
EX_DT[0]
70
EX_DT[1]
71
vext21
72
77
73
78
vgnd3
79
EX_DT[3]
74
80
EX_DT[4]
vgnd37
81
EX_DT[5]
vext147
82
EX_DT[6]
75
83
EX_DT[7]
vext22
84
EX_DT[8]
76
85
EX_DT[9]
EX_DT[2]
86
EX_DT[10]
VDDS
87
EX_DT[11]
VSS
88
89
EX_DT[12]
90
EX_DT[13]
91
VDDS
EX_DT[14]
92
VSS
93
EX_DT[15]
94
EX_SPIO
95
97
96
98
VDDC
99
EX_DT[16]
VSS2
100
EX_CLK1
101
EX_DT[17]
EX_CLK0
102
EX_DT[18]
103
105
EX_DT[19]
106
EX_DT[20]
107
EX_DT[22]
104
108
EX_DT[23]
EX_DT[21]
109
EX_DT[24]
VSS
110
EX_DT[25]
VDDS
111
112
EX_DT[26]
113
EX_DT[27]
114
VDDC
EX_DT[28]
115
VSS2
116
EX_DT[29]
117
118
vext158
119
VDDS
120
vgnd50
VSS
vext26
122
61 60 59 57 56 55 52 51
VSSAGND45R
BANK_SEL
VSSLCDVSS2
vgnd0
48
RB3+ RB3-
150
VDDCLCDVDDC
TEMP[2]
151
VSS2
152
TEMP[1]
153
TEMP[0]
154
REV_MODE
155
HSCAN
156
VSCAN
157
vext1105
158
vgnd87
159
SELLVDS SSCLK
BB3_P BB3_M BB2_P
4
8
3
7
2
6
BB2_M
39
BB1_P
38
BB1_M
37
BB0_P
SELLVDS
6
161
EXCLK
162
VDDC
163
5
VSSAGND1L
164
GND
RA_M
165
RA_P RB_M RB_P
36
VDDCDVCC1 VSSDGND1
RR0+ RR0-
C8129 470P
RR1+
173
L_VDDPLL2
174
L_VSSPLL2
175
L_VDDD L_VSSD VDD VDD2 VDDS_L VSS2_L VSS_L VDDC_L VDDAVDD2 VSSAGND2 VDDAVDD1R RCLKM RCLKP RD_M RD_P
VDDSAVCC4
4
RE_M
VSSAGND45L
3
R8137
1K
U/D-IN
150P
L/R-IN
R8142 ACK-
24 23 22
VDDCDVCC1
LS
20
LR0+
18
3
1
2
BCLK_P
LR1LR1+
BCLK_M
LR2-
16
VDDSAVCC4
BR3_P BR3_M
LR2+
BR2_P BR2_M BR1_P BR1_M
4
8
3
7
2
6
1
5
4
8
BR0_P
LR3LR3+ L8108 FA122WJ
BR0_M VDDSAVCC5 VSSAGND45C
LCKLCK+ LG0-
RR1+
LG0+
RR13
7 RR0+
LG1L8107 FA122WJ
LG1+
6
2
RR0-
LG2-
5
1
FB8104 A188WJ
VCC_2.5V_A
LG2+ LG3-
191
LG3+
RE_P VSSAGND1R
PLLAVS
LB1C8134 68P
C8141 10u 16V KZA510WJPZ
C8124 68P
256
255
254
253
252
251
250
249
248
LB0+
1
VSSAGND45R
VDDSAVCC5
VSSAGND45C
R_VSS15
R_VDD15
R_VSSPLL2
R_VSSPLL1
R_VDDPLL2
R_VDDPLL1
VDDSAVCC4 247
246
245
244
243
242
241
240
239
238
237
236
235
234
233
232
231
230
229
228
227
226
225
224
223
222
221
220
219
218
217
216
215
214
213
212
211
210
209
208
207
206
205
FB8101 A188WJ VCC_1.5V_B
ACK204
LB0-
C8131 150P
PLLAVD VSSLCDVSS2
VDDCLCDVDDC
FB3_P
FB3_M
FB2_P
FB2_M
FB1_P
FB1_M
FB0_P
FB0_M
VDDSAVCC5
VSSAGND45C
VDDCDVV1
VSSDGND1
VDDSAVDD4
FG3_P
FG3_M
FG2_P
FG2_M
FG1_P
FG1_M
FG0_P
FG0_M
VDDSAVCC5
VSSAGND45C
VDDCDVCC1
VSSDGND1
VDDSAVCC4
FCLK_P
FCLK_M
FR3_P
FR3_M
FR2_P
SPA1 203
FR2_M
SPA2 202
FR1_P
VSS 201
FR1_M
VCSV_Z 200
FR0_P
VCSV4 199
FR0_M
VCSV3 198
VSSLCDVSS2
VCSV2 197
VDDCLCDVDDC
VCSV1 196
VSSAGND45L
VDDS 195
VDDS
CLKOUT 194
LS_A
VDDC 193
R8149
LB1+ LB2LB2+
ACK+
A2-
SPA1
RG0-
LR0-
4
17
VSSDGND1
192
A4+
A3+
RG0+
RR2-
R8143 D 100
D
5
RR2+
A3+
100
6
L8114 FA275WJ
RR3-
A3-
A3-
7
1
19
VSSAGND45C
3 2
L8109 FA122WJ
21
BG0_M
SPA2
RR3+
ACK+
A4-
BG0_P
VDDSAVCC5
RG1-
RCK-
D
100
SPB2
8
RCK+
C8106 68P
SELLVDS
4
14
1K
BG1_M
13
R8136
C8105
RR3-
RG1+
15
BANKSEL 50Hz/60Hz
U/D_OUT
29
172
L_VSSPLL1
176
1K
28
171
S_VDDPLL1
177
R8135
BANK_SEL
27
170
VDDAVVD1L
178
1K
VCC_2.5V_B
R8134
VCC_2.5V_A
TEMP3
C8107 0.1u 25V KZA620WJ
26
169
RC_P
BG1_P
25
168
RC_M
179
TEMP_3
RR3+
SPB1
180
470
RR2+ RR2-
RG2-
181
R8133
TEMP2
5
182
TEMP_2
6
1
183
470
2
184
R8132
BG2_M
185
TEMP_1
BG2_P
186
C8108 0.1u 25V KZA620WJ
LCD CONTROLLER
187
VCC_1.5V_A
VCC_3.3V_A
R8131 470
TEMP1
7
188
D
OS/ON-OFF
PE
8
189
100
R8130 100
R8103 0
4 3
RG2+
C8104 470P
QS_EN
BG3_M
RG3-
A2+
TO MAIN8(UCON/PANEL_IF)
BG3_P
190
A2-
L8110 FA122WJ RG3+
R8146 D 100
R8147 R8129 10K
VDDSAVCC4
30
R8145 D 100
12
A1-
C8130 68P
11
A0+
0.1u 25V
A1+
C8109 820P
C8113 68P
C8119 0.1u 25V KZA620WJ
C8116 68P
A2+
C8121 68P
LB3-
C8123 680P
LB3+ VCC_3.3V_A
C8115 820P
C8132 150P
A1-
C8135 10u 16V KZA510WJPZ
A1+
A0VCC_1.5V_A
A0+
RG3RB0-
5
RR1-
10
A0C8102
KZA620WJ
A0-
RB0+ 6
L8111 FA122WJ
9
T7WU04FK
A1+
RG3+
7
1
T3Z18AFG
IC8102
R8102 10K
IC8103
3 2
8
4
166
FL8101 ZA007WJ
167
2Y
BB0_M VDDSAVCC5 VSSAGND45C
RG2RB1-
35
8 7
3
RG1-
RB1+
34
3A
33
1Y
2A
32
3Y 2
8
7
3 P_ENAB
Vcc
1 R8121 330 F
5
4
6
OUTPUT
31
1A
INPUT
2
1
5
GND
2
1 READY
A1-
RG1+
RG2+
U/D-IN
RESET
A2+
RG0+ RG0-
RB2+
L/R-IN
R8141 0
FB8106 A188WJ
R8115 1M F
ROM_VCC
A2-
RCK-
RB2-
U/D
ACK+
L8112 FA122WJ
RB3-
TEMP_2
TO MAIN13(T-CON POW)
ACK-
RB1-
RB2-
RB3+
TEMP_1
A3+
RB1+
RCK+
1K
U/D
A3-
RB0-
47
LS_B
R8104
160
L/R U/D_INV
A4+
REV
REV
470P
50
OS_ON
SPB1
vext10
TL8108
A4-
R8148 100
49
OS_SEL
OS/ON-OFF TL8107
R/L
GAGCE
RB0+
CMOS_IN
BANKSEL TEMP_3
FRAME
GSP2 GAGCK
GAGCE
RB2+
TL8109
12V_DET
GSP1
GSP1 GAGCK
SPB1
RESET
50Hz/60Hz
M24256B DAC_CLK DAC_LATCH
SPB2
45
IC8101
C8127 1000P
TO MAIN12(OUTPUT)
SPB2
VDDC
RESET
1u 6.3V
DAC_DATA
vgnd84
VDDS
vext1103
44
C8101
TO MAIN12(OUTPUT)
123
VSS
SDT
144
SDA
124
REV
SCLK
145
SCL
EX_DT[30]
SREADY
146
WP
125
139
FS
147
Vcc
vext12
GSLOP
GSP2
C8128 C8103 68P
3 1
8
GOE
148
5
7
G_LBR_INV
149
6
6
5
SDA 7
4
3
GCK
SREADY
2 8
2
GSP1
140
8
1
VDDS
141
7
2.2K
D8101 KDS184
C8126 1000P
VSS
142
6
GAGCK
143
5
EX_DIR
GSP2
U/D_INV
R8118
126
G_LBR
46
4
GSP2
GSLOP
43
2
TEST_C
GSLOP
6
3
GSP1
54
TL8101
TEST_L[3]
S_LBR
U/D
1
127
VPOL
53
8
READY
42
7
TL8102
VDDC
58
131
L/R
TO MAIN13(T-CON POW) C8125
68P
132
6
VSS2
133
5
ROM256
DAC_LATCH
134
READY
41
5
TL8106
4
40
GND 3.3V
3 4
SREADY
TL8105
3
MASTER
135
WP
TL8104
DAC_DATA DAC_CLK
136
2
DAC_LATCH
137
SDA
DAC_CLK 2
C8122 0.1u 25V KZA620WJ
62
130
22 1
C8118 470P
C8114 820P
C8112 68P
138
1
TEST_L[2]
TEST_L[0]
DAC_DATA R8114 TL8103 SCL
vgnd85
128 129
vext1102
P8101 N0663TA
LCD CONTROLLER NVM DATA UPDATE CONECTOR
TEST_L[1]
LCD CONTROLLER NVM DATA
121
C8110 0.1u 25V KZA620WJ
DUNTKE449WE01
)
FB8103 A188WJ
TO MAIN13(T-CON POW)
FB8105 A188WJ VCC_1.5V
A0+ C8142 10u 16V KZA510WJPZ
4
2
3
1
4
3
2
1
4
3
2
1
3
4
2
1
4
2
3
1
4
3
2
1
1
4
VCC_2.5V_B
VCC_2.5V FB8102 A188WJ
SEES Engineering Department
L8102 FA122WJ
Training course: D44
72
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5 L8113 FA275WJ
L8103 FA122WJ
L8104 FA122WJ
L8105 FA122WJ
L8106 FA122WJ
LB3+
LB3-
LB2+
LB2-
LB1+
LB1-
LB0+
LB0-
LG3+
LG3-
LG2+
LG2-
LG1+
LG1-
LG0+
LG0-
LCK+
LCK-
LR3+
LR3-
LR2+
LR2-
LR1+
LR1-
LR0+
LR0-
LS
SPA1
SPA2
2
3
8
7
6
5
8
7
6
5
VCC_3.3V
L8101 FA122WJ
6. Electrical Diagrams (continued) VH247
VH159
VH63
VH0
VL0
VL63
VL159
VL255
VL247
Main 12/13 (OUTPUT) Schematic Diagram 0
0 SC8202 W2367WJ
TL8201
TL8254
80
GND
79
VGL
78
VGH
77
GSP2
TL8202
GAGCK
TL8206
GAGCE
TL8207
U/D_INV
TL8208
75
CS3
TL8334
CS4
TL8335
CS5
TL8336
CS6
TL8337
CS7
TL8338
CS8
TL8339
CS9
TL8340
CS10
TL8341
U/D CS11
TL8342
CS12
TL8343
GSP1 VCOM
GAGCK GAGCE
RB3+
TL8258
GAGCK
TL8259
GAGCE
TL8260
GOE
73
U/D L
U/D
TL8261
72
CS1
71
CS2
TL8345 TL8346
VL63
TL8347
RB3-
CS3
TL8264
CS4
TL8265
CS3
69
CS4
68
CS5
67
CS6
66
CS7
65
CS8
RB2+
64
CS9
63
CS10
62
CS11
61
CS12
60
VCOM
59
VL0
58
VL31
CS6
TL8267
CS7
TL8268
CS8
TL8269
CS9
TL8270
CS10
TL8271
CS11
TL8272
CS12
TL8273
VCOM
RB1+ RB1-
VL159
TL8327
VL191
TL8328
VL247
TL8329
57
VL63
56
VL95
55
VL127
54
VL159
RG3+ RG3-
VL255
RG2+
RG1-
52
VL247
51
VL255
50
GND
49
RB3+
48
RB3-
47
RB2+
46
RB2-
45
RB1+
44
RB1-
43
RB0+
VL255
RG0-
LB2-
LB0+ LB0-
LG1+ LG1-
RG3-
39
RG2+
38
RG2-
37
RG1+
RG0C8224 1u 25V KZA114WJ
RG0-
33
GND
32
VCC_3.3V
31
VCC_3.3V
C8227 1u CKZ
L/R
29 28
LSPIO
27
LSPOI
SPA2
26
LS
25
GND
24
RCK+
LS
RR2RR1+ RR1RR0+ RR0LCK+ LCKLR3+ LR3LR2+ LR2LR1+ LR1LR0+ LR0-
TL8234
TL8236
RR2-
TL8237
RR1+
TL8238
RR1-
TL8239
C8230 10u 25V KZA110WJ
LCK+ LCK-
22
GND
21
RR3+
20
RR3-
19
RR2+
18
RR2-
17
RR1+
16
RR1-
LR3+ LR3LR2+
15
RR0+
14
RR0-
13
GND
VLS
10
VH255
9
VH247
8
VH191
TL8245
VH191
TL8246
VH159
TL8247
TL8311
LR2-
TL8312
LR1+
TL8313
LR1-
TL8314
VH63
TL8250
VH31
TL8251
VH0
CS9
63
CS10
15
27
OUT11
OUT0
62
CS11
61
CS12
14
28
VCC
VCC
13
60
VCOM
59
VL0
58
VL31
57
VL63
56
VL95
55
VL127
54
VL159
53
VL191
52
VL247
51
VL255
50
GND
49
LB3+
48
LB3-
47
LB2+
46
LB2-
45
LB1+
44
LB1-
43
LB0+
42
LB0-
41
LG3+
40
LG3-
39
LG2+
38
LG2-
37
LG1+
36
LG1-
35
LG0+
34
LG0-
33
GND
32
VCC_3.3V
31
VCC_3.3V
30
LBR
29
REV
28
LSPIO
27
LSPOI
26
LS
25
GND
24
LCK+
23
LCK-
22
GND
21
LR3+
20
LR3-
VLS15.6V
GRADATION CORRECTION IC GAMMA CURVE
IC8201 BD8143MU C8201 1u 25V KZA114WJ
C8206 10u 16V KZA510WJPZ
NC
29
REFIN
30
VDAC
31
DACGND
32
NC
12 R8231
C8203 10u 25V KZA110WJ
LATCH
SDIN
CLK
SDOUT
DVCC
CT
GND
NC
1
2
3
4
5
6
7
8
0
CTL
11
NC
10
OSC
9
C8222 1000P
C8223 1u 25V KZA114WJ
TO MAIN11(EAGLE) DAC_CLK DAC_DATA DAC_LATCH
TO MAIN10(POWER SUPPLY) B+3.3V
C8226 1u 25V KZA114WJ
TO MAIN8(UCON/PANEL_IF)
22 R8227 0
3
4
1
2
VCOM_SCL VCOM_SDA TCON_WP
C8213
VH159 VH159 VH127
5
VH95
4
VH63
3
VH31
2
VH0
R8210 7.5K
7
6
5
SET
SCL
SDA
VDD
OUT
AVDD
WP
GND
1
2
3
4
25V KZA620WJ
IC8202
D
BU55041
19
LR2+
18
LR2-
17
LR1+
16
LR1-
15
LR0+
14
LR0-
13
GND
12
VLS
11
VLS
10
VH255
9
VH247
8
VH191
7
VH159
6
VH127
5
VH95
4
VH63
3
VH31
2
VH0
1
GND
R8215 R8211 0
TL8317
24K
D
TL8353
C8208 1u
TL8354
VH191
6
TCON_WP
VCOM IC WITH NVM (VCOM ADJ. IS STORED IN)
0.1u 8
TL8318
VH247
7
B+3.3V
R8209
TL8316
25V
R8217 100
C8212 0.1u 25V KZA620WJ
R8213 24K D
KZA114WJ
TL8355 TL8356 TL8357 TL8324 TL8325
TL8249
LR0+
16
OUT1
TL8315
C8231 10u 25V KZA110WJ
TL8248
LR1-
LR0-
VLS
TL8244 VH247
TL8310
LR0-
11
KZA114WJ
TL8309
LR2+
LR0+
TL8243
LR1+
OUT2
OUT10
TL8307
LR3-
TL8283
LR2-
64
TL8305
LR3+
TL8242
12
C8225 1u 25V
OUT9
26
TL8352
TL8241
RR0-
25
0
TL8308
RCK-
TL8240
RR0+
OUT3
TL8306 LCK+ LCK-
23
TL8235
OUT4
TL8304
TL8320
RR2+
OUT5
TL8300
TL8303
TL8232
RR3-
AGND
TL8350
TL8302
SPA1
TL8233
RR3+
AGND
17
TL8301
TL8231
RR3-
OUT6
18
R8203
TL8348
REV
TL8230
RR2+
CS8
TL8282
REV
TL8229
RR3+
TL8281
LBR
TL8228
RCK-
CS7
65
OUT7
19
TL8351
30
RCK-
CS6
66
OUT8
20
TL8299
LG0-
34
TL8227
RCK+
TL8280
VL191
RG0+
TL8226
SPB1
CS5
67
21
TL8298
LG0+
TL8321
SPB2
VL159
RG1-
TL8225
LS
68
CS11 CS12 22
TL8297
TL8326
REV
CS4
23
TL8296
LG1-
TL8224
L/R
69
CS10
24
TL8295
LG1+
35
SPA1
CS3
TL8294
LG2-
36 SPA2
70
TL8293
LG2+
TL8223
RG0+
71
CS2
CS6
TL8292
LG3+
TL8222
RG1-
CS1
CS5
TL8291
LG3-
TL8221
RG1+
LG0-
RG3+
40 TL8220
RG2-
LG0+
RB0-
41 TL8219
RG2+
LG2-
42 TL8218
RG3-
LG2+
CS9
72
CS4
TL8290
LB0-
TL8217
RG3+
LG3+ LG3-
CS8
U/D L
CS3
C8217 0.1u 25V KZA620WJ
TL8289
LB0+
TL8216
RB0-
GOE
73
TL8287
LB1-
TL8215
RB0+
LB1-
CS7
74
C8216 0.1u 25V KZA620WJ
TL8288
LB1+
TL8214
RB1-
LB1+
GCK
C8214 0.1u 25V KZA620WJ
TL8286
LB2+ LB2-
TL8213
RB1+
LB2+
75
C8211 0.1u 25V KZA620WJ
C8209 0.1u 25V KZA620WJ
TL8285
LB3-
TL8212
RB2-
LB3-
GSP1
TL8349
TL8211
RB2+
LB3+
76
C8207 0.1u 25V KZA620WJ
TL8284
LB3+
TL8210
RB3-
GSP2
TL8276
VL247
TL8331
RG0+
RCK+
TL8275
TL8277
VL191
TL8209
RB3+
77
C8219 0.1u 25V KZA620WJ
C8204 0.1u 25V KZA620WJ
TL8279
TL8330
RG2RG1+
VGH
TL8278
53
RB0-
CS2
VGL
78
TL8274 VL0
VL63
VL31
TL8323
RB2-
CS1
79
TL8266
CS5
TL8322
RB0+
VCOM
R8233 47
TL8263
CS2
TL8344
VL0 VL31
R8228 47
TL8262
CS1
TL8333
TO MAIN11(EAGLE)
GSP2
GSP1
GCK
74
70
U/D_INV
GSP1
C8229 0.1u CYB
TL8332
CS2
R8226 47
GND
TL8257
GSP2
76
CS1
R8221 47
VH255
TL8205
R8204 47
R8219 47
R8212 47
80
TL8256
TL8204
GSP1
R8208 47
TL8255
TL8203 GSP2
TO MAIN13(T-CON POW)
R8234
R8202 SC8201 W2367WJ C8218 0.1u CYB
TL8252
VH63
TL8358
VH31
TL8359
VH0
TL8360
DUNTKE449WE01
TL8319
TL8253
1
GND
TO MAIN13(T-CON POW) VCIN VH255 VLS15.6V VCC_3.3V VGL-6V VGH35V
SEES Engineering Department
Training course: D44
73
6. Electrical Diagrams (continued) Main 13/13 (T-CON) POW Schematic Diagram TO MAIN10(POWER SUPPLY) 13V_ERR LCD13V
LCD13V
C8461 0.1u 25V KZA620WJ
DUNTKE449WE01
R8504 3.3 1/2W
D8410 D1F60
VCC13V
R8408 0.33 1/2W
Q8404 2SA1530AR C8464 10u 25V KZA110WJ
R8420 91K D
R8505 3.3 1/10W
D8411 1SS355 13V_ERR
Q8402 DTC114EE
TO MAIN11(EAGLE)
R8409 10K
GSLOP R8417 100
R8421 13K D
TO MAIN11(EAGLE) P_ENAB ROM_VCC RESET
VCC_3.3V VCC_2.5V VCC_2.5V
C8428 10u 16V KZA510WJPZ
VCC_1.5V
C8417 33P (CH)
KZA510WJPZ
R8410 15K D
R8506 100
TL8405
TL8401
C8458 2.2u 25V KZA211WJ
C8411 4700P
D8409 RB160M30
R8499 0 1/10W
TL8404 R8427 68K F R8428 11K F
C8419 0.1u
D8407 RB160M30
1/10W
R8411 D 15K
D
L8402 10u PA964WJ
PA964WJ L8403
TL8402
10u
R8406 51K D8406 RB160M30
MVLS
"+%U%#!
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