Xoceco LC-42T17, LC-47T17 Schematic

LCD TELEVISION
LC-42T17 LC-47T17
CONTENTS
Safety precautions………………………………………………………………………..… Alignment instructions …………………………….…….…………………………….… Working principle analysis of the unit……………………………….………….…………. Block diagram…………………………………..……………………….………… IC block diagram………………………………………………………………………..…… Wiring diagram …………………………………………………………………………….. Troubleshooting………………………………………………………………..…… Schematic diagram …………………………………………………………………….….. APPENDIX: Main assembly list
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Attention: This service manual is only for service personnel to take reference with. Before
servicing please read the following points carefully.
Safety precautions
1. Instructions
Be sure to switch off the power supply before replacing or welding any components or inserting/plugging in connection wire Anti static measures to be taken (throughout the entire production process!): a) Do not touch here and there by hand at will; b) Be sure to use anti static electric iron; c) It’s a must for the welder to wear anti static gloves. Please refer to the detailed list before replacing components that have special safety requirements. Do not change the specs and type at will.
2. Points for attention in servicing of LCD
2.1 Screens are different from one model to another and therefore not interchangeable. Be sure to use the screen of the original model for replacement.
2.2 The operation voltage of LCD screen is 700-825V. Be sure to take proper measures in protecting yourself and the machine when testing the system in the course of normal operation or right after the power is switched off. Please do not touch the circuit or the metal part of the module that is in operation mode. Relevant operation is possible only one minute after the power is switched off.
2.3 Do not use any adapter that is not identical with the TV set. Otherwise it will cause fire or damage to the set.
2.4 Never operate the set or do any installation work in bad environment such as wet bathroom, laundry, kitchen, or nearby fire source, heating equipment and devices or exposure to sunlight etc. Otherwise bad effect will result.
2.5 If any foreign substance such as water, liquid, metal slices or other matters happens to fall into the module, be sure to cut the power off immediately and do not move anything on the module lest it should cause fire or electric shock due to contact with the high voltage or short circuit.
2.6 Should there be smoke, abnormal smell or sound from the module, please shut the power off at once. Likewise, if the screen is not working after the power is on or in the course of operation, the power must be cut off immediately and no more operation is allowed under the same condition.
2.7 Do not pull out or plug in the connection wire when the module is in operation or just after the power is off because in this case relatively high voltage still remains in the capacitor of the driving circuit. Please wait at least one minute before the pulling out or plugging in the connection wire.
2.8 When operating or installing LCD please don’t subject the LCD components to bending, twisting or extrusion, collision lest mishap should result.
2.9 As most of the circuitry in LCD TV set is composed of CMOS integrated circuits, it’s necessary to pay attention to anti statics. Before servicing LCD TV make sure to take anti static measure and ensure full grounding for all the parts that have to be grounded.
2.10 There are lots of connection wires between parts behind the LCD screen. When servicing or moving the set please take care not to touch or scratch them. Once they are damaged the screen
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would be unable to work and no way to get it repaired.
2.11 Special care must be taken in transporting or handling it. Exquisite shock vibration may lead to breakage of screen glass or damage to driving circuit. Therefore it must be packed in a strong case before the transportation or handling.
2.12 For the storage make sure to put it in a place where the environment can be controlled so as to prevent the temperature and humidity from exceeding the limits as specified in the manual. For prolonged storage, it is necessary to house it in an anti-moisture bag and put them altogether in one place. The ambient conditions are tabulated as follows:
Temperature Scope for operation 0 ~ +50 oC
Scope for storage -20 ~ +60 oC
Humidity Scope for operation 20% ~ 85%
Scope for storage 10% ~ 90%
2.13 Display of a fixed picture for a long time may result in appearance of picture residue on the screen, as commonly called “ghost shadow”. The extent of the residual picture varies with the maker of LCD screen. This phenomenon doesn’t represent failure. This “ghost shadow” may remain in the picture for a period of time (several minutes). But when operating it please avoid displaying still picture in high brightness for a long time.
3. Points for attention during installation
3.1 The front panel of LCD screen is of glass. When installing it please make sure to put it in place.
3.2 For service or installation it’s necessary to use specified screw lest it should damage the screen.
3.3 Be sure to take anti dust measures. Any foreign substance that happens to fall down between the screen and the glass will affect the receiving and viewing effect
3.4 When dismantling or mounting the protective partition plate that is used for anti vibration and insulation please take care to keep it in intactness so as to avoid hidden trouble.
3.5 Be sure to protect the cabinet from damage or scratch during service, dismantling or mounting.
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Alignment instructions (LC-37T25& LC-42T17&LC-47T17)
f
p
g
t
g
d
y
r
1. Test equipment
Digital multimeter, signal generator (54200) VG849 (HDMI signal generator) CA210 (White balancer)
2. The alignment flow chart (see below Fig.1)
Write N105, N403, N607, N70, N606
To produce main board, TV board and other board
Check the TV board
Check accessories and then packing
Check the MAIN board
Input VGA signal source, check is the display is normal in PC state and various function (analo control) H-V center etc. The AV-out output soun
Check the buttons board and IR receive board
is originally signal
Combined test for general assembly
Aging
ADC correction and white balance adjustment
Input the center signal source, check if various functions of TV (search channel, system iden tif and analog control etc.), earphone out put, speake output and the picture and sound of AV-out is
Input HDMI and DV I signal source, check if the HDCP K EY is no rmal. The AV-out outpu
sound is originally signal
Input YpbPr/YcbCr 1/2 signal sou rce; check if the
icture and sound analog control is normal in the COMPONENT state. The AV-out output sound is ori
inally signal
Input AV1/S/AV2 signal source, check if the various terminal functions (system identify and analog control etc.) and the picture and sound o AV-out is normal.
Fig.1 Flow process of alignment
3. Alignment instructions
3.1 the main board adjustment a. Connect the X602 of main board to the infrared receive board, the supply power plug to X1, then
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the indicator of the infrared receive board is red light.
b. Press the POWER button; the indicator change to blue light, the LED1 of main board is flicker of
slow. c. Write program to N102 d. Check if various channels are normal.
3.2 The TV board adjustment a. Connect the high frequency board to main board, and connect the X501 and X502 to the supply
power. b. Press the POWER button, the indicator change to blue light. c. Check if the picture and sound of TV/AV1/AV2/S/YPBPR1/TPBPR2 and sound of HDMI/VGA
channels are normal. Check the STEREO and SAP. Check the picture and sound of the
TV/AV1/S/AV2.
3.3 the unit adjustment After install the unit, check it is normal working.
3.4 Aging a. Select the TV channel, the screen is noise wave of no signal TV b. Aging an hour.
3.5 ADC correction and white balance adjustment (use white balancer CA210 and signal generator VG849) Enter the factory menu method: press “1” “9” “7” “9” button in the window menu state. Note: warm color temperature coordinate (285, 294); warm color temperature coordinate (284, 299). LC-42T17, LC-47T17 and LC37T25/T7 cool color temperature coordinate (270, 283).
3.5.1 HDMI channel a. Input 8 level gray signal 720p/60Hz. b. Brightness to 50, contrast to 50. c. Color temperature to warm. d. Enter color temperature setup menu. e. Adjust RED GAIN, GREEN GAIN, BLUE GAIN, until the fifth level color coordinate (270, 283).
3.5.2 D-SUB channel a. Input the 16 level gray signal 1027 x 768 @ 60(TIMING: 889, PATTERN: 921) b. Brightness to 50, contrast to 50. c. Enter the ADC auto correction d. Color temperature to warm. e. Enter the color temperature setup menu. f. Input the 8 level gray signal 1027 x 768 @ 60(TIMING: 889, PATTERN: 920) g. Adjust the RED OFFSET, GREEN OFFSET, BLUE OFFSET, until the third level color coordinate
(284, 299). h. Adjust the RED GAIN, GREEN GAIN, BLUE GAIN, until the seventh level color coordinate (284,
299). i. Repeat the g and h step, until the third and the seventh level color coordinate (284, 299). j. Color temperature to cool. k. Enter the color temperature setup menu. l. Adjust the RED OFFSET, GREEN OFFSET, BLUE OFFSET, until the third level color coordinate
(270, 283).
m. Adjust the RED GAIN, GREEN GAIN, BLUE GAIN, until the seventh level color coordinate (270,
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283). n. Repeat the L and M step, until the third and the seventh level color coordinate (270, 283).
3.5.3 high definition channel a. Input the 720P SMPTE COLOR BAR signal (TIMING: 976, PATTERN: 984). b. Brightness to 50, contrast to 50. c. Enter the ADC auto correction. d. Color temperature to warm. e. Enter the color temperature setup menu. f. Input the 8 level gray signal 720b/60Hz(TIMING: 976, PATTERN: 920). g. Adjust the RED OFFSET, GREEN OFFSET, BLUE OFFSET, until the fourth level color
coordinate (284, 299).
h. Adjust the RED GAIN, GREEN GAIN, BLUE GAIN, until the seventh level color coordinate (284,
299). i. Repeat the g and h step, until the fourth and the seventh level color coordinate (284, 299). j. Color temperature to cool. k. Enter the color temperature setup menu. l. Adjust the RED OFFSET, GREEN OFFSET, BLUE OFFSET, until the fourth level color
coordinate (270, 283).
m. Adjust the RED GAIN, GREEN GAIN, BLUE GAIN, until the seventh level color coordinate (270,
283). n. Repeat the l and m step, until the fourth and the seventh level color coordinate (270, 283). o. Holding the pattern signal, change the timing signal, repeat the G to the M step for 480i, 480p,
and 1080i signal.
3.5.4 the VIDEO channel a. Input the eight level gray signal of PAL b. Brightness to 50, contrast to 50. c. Enter the factory menu. d. Color temperature to warm. e. Enter the color temperature setup menu. f. Adjust the RED OFFSET, GREEN OFFSET, BLUE OFFSET, until the fourth level color
coordinate (284, 299).
g. Adjust the RED GAIN, GREEN GAIN, BLUE GAIN, until the seventh level color coordinate (284,
299). h. Repeat the f and g step, until the fourth and the seventh level color coordinate (284, 299). i. Color temperature to cool. j. Adjust the RED OFFSET, GREEN OFFSET, BLUE OFFSET, until the fourth level color
coordinate (270, 283).
k. Adjust the RED GAIN, GREEN GAIN, BLUE GAIN, until the seventh level color coordinate (270,
283). l. Repeat the j and k step, until the fourth and the seventh level color coordinate (270, 283).
3.5.5 the RF channel a. Input the center signal source, set to D-8 channel b. Brightness to 50, contrast to 50. c. Enter the factory menu. d. Color temperature to warm.
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e. Enter the color temperature setup menu. f. Adjust the RED OFFSET, GREEN OFFSET, BLUE OFFSET, until the third level color coordinate
(284, 299).
g. Adjust the RED GAIN, GREEN GAIN, BLUE GAIN, until the seventh level color coordinate (284,
299). h. Repeat the f and g step, until the third and the seventh level color coordinate (284, 299). i. Color temperature to cool. j. Adjust the RED OFFSET, GREEN OFFSET, BLUE OFFSET, until the third level color coordinate
(270, 283).
k. Adjust the RED GAIN, GREEN GAIN, BLUE GAIN, until the seventh level color coordinate (270,
283). l. Repeat the j and k step, until the third and the seventh level color coordinate (270, 283).
4 Performance check
4.1 TV terminal Input the center signal source to RF terminal, enter searching menu auto search, check if the leak channel, half-auto search channel, fine tune, earphone and speaker are normal. Check the AV OUT.
4.2 AV1/S/AV2 input terminals Input AV1/S/AV2 signal source, check the picture and sound.
4.3 VGA terminal Input the VGA signal (K7253 signal generator), separate input VGA format signal of table 1, check the picture and sound
Table1 PC display format signal
No. Resolution H-frequency(kHz) V-frequency(Hz)
1 720 x 400 31.47 70.08 25.17 DOS
2 640 x 480 31.50 60.00 25.18 DOS
3 640 x 480 37.90 72.00 31.50 Mac.(SOG)
4 640 x 480 37.50 75.00 31.50 VESA
5 640 x 480 43.30 85.00 36.00 VESA
6 800 x 600 35.16 56.25 36.00 VESA
7 800 x 600 37.90 60.00 40.00 VESA
8 800 x 600 46.90 75.00 49.50 VESA
9 800 x 600 48.08 72.19 50.00 VESA
10 832 x 624 49.00 74.00 57.27 Mac.(H+V)
11 1024 x 768 48.40 60.00 65.00 VESA
12 1024 x 768 56.50 70.00 75.00 VESA
13 1024 x 768 60.00 75.00 78.75 VESA
14 1280 x 1024 64.00 60 108.00 SXGA
15 1280 x 1024 80.00 75 135.00 SXGA
16 1600 x 1200 75.00 60 162.00 UXGA
pixel clock pulse
frequency(MHz)
4.4 YPbPr terminal Input the YPbPr signal source (K7253 signal generator), separate input format signal in table of
remark
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table 2, check the picture and sound.
Table 2 Component format signal
No. H-frequency(kHz) V-frequency(Hz) signal
1 15.735 60 SDTV 480i
2 15.625 50 SDTV 576i
3 31.47 60 SDTV 483p
4 45.00 60 HDTV 720p
5 33.75 60 HDTV 1080i
6 28.13 50 HDTV 1080i
7 67.50 60 HDTV 1080p
8 56.25 50 HDTV 1080p
4.5 HDMI terminal Input the DHMI signal source (VG849 signal generator), separate input format signal in table of table 3, check the picture and sound.
Table 3 HDMI format signal
No. H-frequency(kHz) V-frequency(Hz) signal
1 15.735 60 SDTV 480i
2 15.625 50 SDTV 576i
3 31.47 60 SDTV 483p
4 45.00 60 HDTV 720p
5 33.75 60 HDTV 1080i
6 28.13 50 HDTV 1080i
HDMI format signal of audio
channel 2
sampling rate support 32Kbit/s 44.1Kbit/s 48Kbit/s
bit wide support 16bit,20bit,24bit
Working principle analysis of the unit
The unit has two MCU, the main MCU is PW218 (N601): it is used to control all the chips’ working status on the main board (including image processing, channel switch, sound processing, image display etc.), sub CPU, OSD, searching channels, image effect adjustment, buttons control, infrared remote control etc.; the sub CPU is ATMEGA8L (N606): it is used to control power supply, including standby and turning on the unit by using remote control etc.. The two MCU correlates with each other through pin 14 INT (interruption) of ATMEGA8L, pin 28 and 29 SDA, SCL. The unit has one integrative tuner (including HF and IF amp. circuits). The signal received by antenna is sent to tuner, under the control of MCU PW218 (N601) SDA and SCL, proper channel selection and right system switching will be done by the tuner, then video signal and audio signal will be output by the tuner through decoding and by high and intermediate amplification. Video signal of the tuner will then be sent to Decoder PW2300 (N201). Audio signal of the tuner will then be sent to AV switch box M52797 (N400), the audio signal of AV1, AV2 and HD2 of the main board will also be sent to M52797 (N400) at the same time. The selected audio signal after switching will be sent to R2S15900 (N301), and then switching selection will be done towards the above audio signal together with the audio signal of VGA, HDMI and HD1. The two chips are controlled by
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PW218 (N601), after the above process the finally selected way will be set to X300 earphone socket after under the control of volume, treble and bass which is finished by R2S15900 (N301), the earphone socket has the switching function, when earphone is plugged, sound will be sent to earphone amplifier NJW1109 (N302), then sent back to earphone socket after power amplification. If earphone is unplugged, sound will be sent to sound amplifier TPA3008 to do amplification and then sent to speaker. Image parts: Video signal of the tuner will be sent to AV switch box M52797 (N400), video signal of AV1 and AV2 will also be sent to M52797 (N400) at the same time, two groups of video output will be obtained after switching, one group of video output together with its audio output will be sent to AV_OUT terminal to treat as AV OUT. The other group of video output together with other video signals such as S-VIDEO, YpbPr1, YpbPr2 and VGA will be sent to PW2300 to do video decoding or AD transformation, then output 24bit digital RGB signal and some corresponding synchronous signals. Items such as 3D comb filter, channel switching, 5 lines Y/C separation and color decoding etc. are primarily done by PW2300. 24bit digital RGB signal and some corresponding synchronous signals outputted by PW2300 will then be sent to PW218 (N601). HDMI signal will also be sent to AD9398 (N101) to de decoding and output 24bit digital RGB signal as well as some corresponding synchronous signal, which will be sent to PW218 (N601). PW218 is a new generation chip of Pixelworks, which has ability to deal with images, 24bit digital RGB signal and some corresponding synchronous signals outputted by AD9398 and PW2300 will be sent to this chip to deal with images. The chip has functions such as converting from interleaved into line-by-line and image enhancement etc.. PW218 has SCALER function which can do format conversion towards different input formats so as to meet the format needs of the screen and finally output 24bit RGB signal. The interface standard of PDP screen is generally LVDS (low voltage differential signal), so the digital RGB signal outputted from PW218 is needed to send to converting interface chip N6 DS90C387 of LVDS to obtain LVDS signal, then it will be sent to the screen. PW218 is also the main CPU, its programs are stored in periphery device flash N701, and software upgrade through RS-232 interface is virtually upgrading the stored programs through PW218 towards N701. Chief functions: High definition 1080P LCD 16:9 wide screen Support several kinds of HDTV wide voltage range, low standby power consumption (less than 1W) One group of D-SUB, S-VSH (Y/C), RS232, AVOUT, HEADPHONE, HDMI, two groups of YPbPr/YCbCr, AV.
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Block diagram
I2C1
PC Audio HDMI Audio
RF V ideo
YPbPr1 YPbPr2
RF Audio
LA72700V
STERO/SAP decoder
N400
M52797SP
Audio and video
switch
SRS processor
M62494
R2S15900
PW2300
PW2300
TPA3008D2
NJW1109
AV Audio Out
V port
Flash
Earphone
socket of
with switch
MEGAL8
DS90C387 LCD panel
IR
KEY
MAX3232C
KEY
EEPROM
AD9880
Or
AD9398
memory
PCM1742
I2S D/A
G port
PW218
DDR 256M
SDRAM
I2C2
EEPROM
24LC32
IC block diagram
1. AD9880 and AD9398
AD9880 have HDMI digital and analog terminal of working frequency 165Hz, it support 1080P (non-interlaced scanning) and UXGA (1600 x 1200/60Hz) video format, also it support eight audio channel of 192KHz. AD9398 without analog terminal. Internal Block Diagram
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PIN configuration
AD9880 (AD9398) PINS FUNCTIONS Pin Name Function Pin Name Function 2-9 GGE(0-7) Converter output 44 RXC+ DVI input
12-19 GBE(0-7) Converter output 49 DDC_CLK HDCP Slave Serial Port
Data Clock
92-99 GRE(0-7) Converter output 50 DDC_DATA HDCP Slave Serial Port
Data I/O
20, 21 MCLK Control clock output 51 MCL HDCP Master Serial Port
Data Clock
22 I2S_SCK Audio serial clock output 52 MDA HDCP Master Serial Port
Data I/O
23 I2S_WS Bus clock data output 82 SCL-1 Serial Port Data Clock
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27 I2S_SD Bus audio data output 83 SDA_1 Serial Port Data I/O 34 RX0- DVI input 84 G_FIEL0 Odd/Even Field Output
35 RX0+ DVI input 85 G_VS VSYNC Output Clock 37 RX1- DVI input 86 G_VHS Sync on Green Slicer
Output 38 RX1+ DVI input 87 G_HS HSYNC Output Clock 40 RX2- DVI input 88 G_DE Data Enable 41 RX2+ DVI input 89 G_CLK Data Output Clock 43 RXC- DVI input
2. PW2300
PW2300 is front processing signal of integration highly performance, multi-system, 3D video decoder and three highly velocity AD converter chip. It supports HDTV, NTSC, PAL and SECAM. Its analog port support 1080P(150MHz). Internal Block Diagram
PW2300 PINS FUNCTION
Pin Name Function Pin Name Function
A4 XIN Resonator input P1 R_2 AV2 red input
A5 XOUT Resonator input P2 B_2 AV2 greed input
B2 SDA I2C bus data P3 SOG_2 AV2 greed sync input
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