Ilo Dtv2794

Transcript

SERVICE MODE LIST This unit is provided with the following SERVICE MODES so you can repair, examine and adjust easily. To enter to the SERVICE MODE function, press and hold both buttons simultaneously on the main unit or on the main unit and on the remote control for more than a standard time in the appropriate condition. (See below chart.) In case of the main unit and remote control, press the remote control buttons first, then press the main unit buttons. Set Condition Set Key Remocon Key Standard Time POWER ON VOL. DOWN (Minimum) 0 2 sec. Releasing of V-CHIP PASSWORD. POWER ON VOL. DOWN (Minimum) 1 2 sec. Initialization of factory TV data. NOTE: If you set factory initialization, the memories are reset such as the channel setting, and the POWER ON total hours. POWER ON VOL. DOWN (Minimum) 6 2 sec. Can be checked of the INITIAL DATA of MEMORY IC. Refer to the "WHEN REPLACING EEPROM (MEMORY) IC". POWER ON VOL. DOWN (Minimum) 8 2 sec. Check of the SUM DATA, MICON VERSION, POWER ON total hours and Digital TV MICON Firmware on the screen. Refer to the "WHEN REPLACING EEPROM (MEMORY) IC". POWER ON VOL. DOWN (Minimum) 9 2 sec. Display of the Adjustment MENU on the screen. Refer to the "ELECTRICAL ADJUSTMENT" (On-Screen Display Adjustment). Operations WHEN REPLACING EEPROM (MEMORY) IC CONFIRMATION OF CHECK SUM, POWER ON TOTAL HOURS, MICON VERSION AND DIGITAL TV MICON FIRMWARE VERSION Initial total of MEMORY IC, POWER ON total hours, MICON VERSION and Digital TV MICON Firmware VERSION can be checked on the screen. Total hours are displayed in 16 system of notation. NOTE: If you set a factory initialization, the total hours is reset to "0". Please refer to "CONFIRMATION OF INITIAL DATA" when SUM DATA is not corresponding. 1. 2. 3. 4. Turn on the POWER, and set to the TV mode. Set the VOLUME to minimum. Press both VOL. DOWN button on the set and Channel button (8) on the remote control for more than 2 seconds. After the confirmation of each check sum, POWER ON total hours, Digital TV MICON Firmware and MICON VERSION, turn off the power. NOTE: The each item value might be different according to each set. ADDRESS DATA CRT ON 0000 MICON Version Digital TV MICON Firmware Initial setting data check sum. Rom correction data check sum. OEC7174A_23 DTV CTT71222 INIT 26B2 ROM: 43EB FIG. 1 C-1 POWER ON total hours. = (16 x 16 x 16 x thousands digit value) + (16 x 16 x hundreds digit value) + (16 x tens digit value) + (ones digit value) WHEN REPLACING EEPROM (MEMORY) IC If a service repair is undertaken where it has been required to change the MEMORY IC, the following steps should be taken to ensure correct data settings while making reference to TABLE 1. IN IT +0 +1 +2 +3 +4 +5 00 43 00 00 10 00 00 00 20 09 B3 65 4E 34 20 00 00 30 88 00 00 00 00 00 00 00 00 09 40 02 33 00 00 04 50 60 00 64 00 00 00 88 00 00 70 00 00 00 80 00 00 00 +6 +7 +8 24 0D 4B 10 A1 00 00 00 00 72 05 05 23 2D 20 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 +9 +A +B +C +D +E +F 80 00 A0 FA 00 00 00 00 00 00 60 00 10 8C 00 00 00 00 00 00 08 00 00 00 87 03 C8 22 40 20 40 40 40 00 00 0A 45 A0 00 FF 01 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 03 00 00 00 00 00 00 90 00 00 00 00 00 00 00 00 00 00 00 05 9D 01 00 84 A0 04 11 00 00 00 05 00 01 00 00 00 05 12 13 05 82 B0 01 00 00 00 00 04 00 04 00 02 00 00 00 00 00 00 C0 08 24 2F 33 37 38 39 3A 3B 3C 3C 3D 3F 40 40 41 D0 42 44 45 46 47 48 49 4A 4B 4C 4C 4D 4E 4F 50 50 E0 51 52 53 53 54 54 55 55 57 58 5A 5B 5C 5D 5E 5F F0 61 62 64 66 68 6E 73 78 7D 82 86 8A 8E 8E 8F 8F Table 1 CONFIRMATION OF INITIAL DATA 1. Enter DATA SET mode by setting VOLUME to minimum. 2. Press both VOL. DOWN button on the set and Channel button (6) on the remote control for more than 2 seconds. ADDRESS and DATA should appear as FIG 2. 3. ADDRESS is now selected and should "blink". Using the CH. UP/DOWN button on the remote, step through the ADDRESS until required ADDRESS to be changed is reached. 4. Press VOL. UP/DOWN button to select DATA. When DATA is selected, it will "blink". 5. Again, step through the DATA using CH. UP/DOWN button until required DATA value has been selected. 6. Pressing VOL. UP/DOWN button will take you back to ADDRESS for further selection if necessary. 7. Repeat steps 3 to 6 until all data has been checked. 8. When satisfied correct DATA has been entered, turn POWER off (return to STANDBY MODE) to finish DATA input. After the data input, set to the initializing of shipping. 9. Turn on the Power. 10. Set the VOLUME to minimum. 11. Press both VOL. DOWN button on the set and Channel button (1) on the remote control for more than 2 seconds. 12. After the finishing of the initializing of shipping, the unit will turn off automatically. The unit will now have the correct DATA for the new MEMORY IC. ADDRESS INIT 00 DATA 43 CRT ON 0000 OEC7174A_23 DTV CTT71222 INIT 26B2 ROM: 43EB FIG. 2 C-2 SERVICING FIXTURES AND TOOLS JG206 Flash UP-Date Soft Disc JG176 2007 SD DTV Rom Disc JG205 Serial Communication Change JIG Ref. No. Part No. Remarks Parts Name JG205 APJG205000 Serial Communication Change JIG JG206 APJG206000 Flash UP-Date Soft Disc Up-Date of the Firmware JG176 APJG176125 2007 SD DTV Rom Disc Up-Date of the DIGITAL Firmware Connect the set to personal computer RE-WRITE FOR DIGITAL SOFT FIRMWARE 1. Confirm that the AC cord is plugged out. 2. Using the Serial Communication Change JIG (JG205), connect the set to personal computer. (Refer to Fig. 1) NOTE: It is possible to write only with the personal computer of WINDOWS. Fig. 1 3. Using the Flash UP-Date Soft Disc (JG206) and USA SD DTV ROM DISC (JG176), please Re-write the DIGITAL SOFT FIRMWARE. The operating manual for Re-writing is included in Flash UP-Date Soft Disc (JG206). C-3 ELECTRICAL ADJUSTMENTS 1. ADJUSTMENT PROCEDURE NO. 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 29 30 31 Read and perform these adjustments when repairing the circuits or replacing electrical parts or PCB assemblies. CAUTION • Use an isolation transformer when performing any service on this chassis. • Before removing the anode cap, discharge electricity because it contains high voltage. • When removing a PCB or related component, after unfastening or changing a wire, be sure to put the wire back in its original position. • When you exchange IC and Transistor with a heat sink, apply silicon grease on the contact section of the heat sink. Before applying new silicon grease, remove all the old silicon grease. (Old grease may cause damages to the IC and Transistor.) FUNCTION OSD H OSD C CUT OFF H.POSI H BLK L H BLK R V. SIZE V. POSI V. LIN VS CORR V COMP R.BIAS G.BIAS B.BIAS R.DRV G.DRV B.DRV BRI.CENT BRI.MAX BRI.MIN NO. 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 FUNCTION CONT.CENT CONT.MAX CONT.MIN COL.CENT COL.MAX COL.MIN TINT CENT SHARP.CENT SHARP.MAX SHARP.MIN SUB BIAS H.SIZE PARABOLA TRAPEZIUM COR TOP COR BTM TEST STEREO X-RAY Fig. 1-2 2. BASIC ADJUSTMENTS Prepare the following measurement tools for electrical adjustments. 2-1: CONSTANT VOLTAGE 1. Oscilloscope 2. Digital Voltmeter 3. Multi-sound Generator 4. Pattern Generator 1. Place the set in AV MODE without signal. 2. Connect the digital voltmeter to the TP003. 3. Adjust the VR502 until the digital voltmeter is 130 ± 0.5V. On-Screen Display Adjustment 2-2: CUT OFF 1. In the condition of NO indication on the screen. Press the VOL. DOWN button on the set and the Channel button (9) on the remote control for more than 2 seconds to appear the adjustment mode on the screen as shown in Fig. 1-1. 1. Place the set in Aging Test for more than 15 minutes. 2. Place the set in AV MODE without signal. 3. Using the remote control, set the brightness and contrast to normal position. 4. Activate the adjustment mode display of Fig. 1-1 and press the channel button (02) on the remote control to select “CUT OFF”. 5. Adjust the Screen Volume until a dim raster is obtained. TV-A 4:3 2-3: WHITE BALANCE NOTE: Adjust after performing CUT OFF adjustment. 00 OSD H 1. Place the set in Aging Test for more than 15 minutes. 2. Receive the white 100% signal from the Pattern Generator. 3. Using the adjustment control, set the brightness and contrast to normal position. 4. Activate the adjustment mode display of Fig. 1-1 and press the channel button (11) on the remote control to select "R.BIAS". 5. Using the VOL. UP/DOWN button on the remote control, adjust the R.BIAS. 6. Press the CH. UP/DOWN button on the remote control to select the "R.DRIVE", "B.DRIVE", "G.BIAS" or "B.BIAS". 7. Using the VOL. UP/DOWN button on the remote control, adjust the R.DRIVE, B.DRIVE, G.BIAS or B.BIAS. 8. Perform the above adjustments 6 and 7 until the white color is achieved. 20 Fig. 1-1 2. Use the Channel UP/DOWN button or Channel button (0-9) on the remote control to select the options shown in Fig. 1-2. 3. Press the MENU button on the remote control to end the adjustments. 4. To display the adjustment screen for TV-A, TV-D, AV and YUV mode, press the INPUT button on the remote control. Press the VOL.DOWN button on the set and the channel (9) on the remote control for more than 2 seconds. 2-4: FOCUS 1. Receive the monoscope pattern. 2. Turn the Focus Volume fully counterclockwise once. 3. Adjust the Focus Volume until picture is distinct. D-1 ELECTRICAL ADJUSTMENTS 2-5: BRIGHT CENT 1. Receive the monoscope pattern. (RF Input) 2. Set the screen mode to FULL. 3. Using the remote control, set the brightness and contrast to normal position. 4. Activate the adjustment mode display of Fig. 1-1 and press the channel button (29) on the remote control to select "BRI. CENT". 5. Press the VOL. UP/DOWN button on the remote control until the white 10% is starting to be visible. 6. Receive the monoscope pattern. (Audio Video Input) 7. Press the INPUT button on the remote control to set to the AV mode. Then perform the above adjustments 2~5. 8. Receive the monoscope pattern. 9. Press the INPUT button on the remote control to set to the YUV mode.Then perform the above adjustments 2~5. A Fig. 2-1 2-8: COLOR CENT 1. Receive the color bar pattern. (RF Input) 2. Using the remote control, set the brightness, contrast, color and tint to normal position. 3. Connect the oscilloscope to TP022. 4. Activate the adjustment mode display of Fig. 1-1 and press the channel button (35) on the remote control to select "COL.CENT". 5. Adjust the VOLTS RANGE VARIABLE knob of the oscilloscope until the range between white 100% and 0% is set to 4 scales on the screen of the oscilloscope. 6. Press the VOL. UP/DOWN button on the remote control until the red color level is adjusted to 110 ± 10% of the white level. (Refer to Fig. 2-2) 7. Receive the video color bar pattern. (Audio Video Input) 8. Press the INPUT button on the remote control to set to the AV mode. Then perform the above adjustments 2~6. 9. Receive the video color bar pattern. 10. Press the INPUT button on the remote control to set to the YUV mode.Then perform the above adjustments 2~6. 11. Receive the video color bar pattern. 12. Press the INPUT button on the remote control to set to the DIGITAL mode.Then perform the above adjustments 2~6. 2-6: CONTRAST MAX 1. Receive an over 70dB color bar pattern. (RF Input) 2. Using the remote control, set the brightness and contrast to normal position. 3. Activate the adjustment mode display of Fig. 1-1 and press the channel button (33) on the remote control to select "CONT.MAX". 4. Press the VOL. UP/DOWN button on the remote control until the contrast step No. becomes "70". 5. Receive a broadcast and check if the picture is normal. 6. Receive the color bar pattern. (Audio Video Input) 7. Press the INPUT button on the remote control to set to the AV mode. Then perform the above adjustments 2~5. 8. Receive the monoscope pattern. 9. Press the INPUT button on the remote control to set to the YUV mode.Then perform the above adjustments 2~5. 2-7: TINT 1. Receive the color bar pattern. (RF Input) 2. Using the remote control, set the brightness, contrast and tint to normal position. 3. Connect the oscilloscope to TP024. 4. Activate the adjustment mode display of Fig. 1-1 and press the channel button (38) on the remote control to select "TINT". 5. Press the VOL. UP/DOWN button on the remote control until the section A becomes as straight line. (Refer to Fig. 2-1) 6. Receive the monoscope pattern. (Audio Video Input) 7. Press the INPUT button on the remote control to set to the AV mode. Then perform the above adjustments 2~5. 8. Receive the monoscope pattern. 9. Press the INPUT button on the remote control to set to the YUV mode.Then perform the above adjustments 2~5. 10. Receive the monoscope pattern. 11. Press the INPUT button on the remote control to set to the DIGITAL mode.Then perform the above adjustments 2~5. 110% white 100% Fig. 2-2 2-9: HORIZONTAL POSITION 1. Receive the monoscope pattern. 2. Using the remote control, set the brightness and contrast to normal position. 3. Activate the adjustment mode display of Fig. 1-1 and press the channel button (03) on the remote control to select “H.POSI”. 4. Press the VOL. UP/DOWN button on the remote control until the SHIFT quantity of the OVER SCAN on right and left becomes minimum. D-2 ELECTRICAL ADJUSTMENTS 2-10: HORIZONTAL SIZE 2-14: TRAPEZIUM 1. Receive the monoscope pattern. 2. Using the remote control, set the brightness and contrast to normal position. 3. Activate the adjustment mode display of Fig. 1-1 and press the channel button (43) on the remote control to select "H.SIZE". 4. Press the VOL. UP/DOWN button on the remote control until the SHIFT quantity of the OVER SCAN on the right and left becomes 10± 3%. 1. Receive the crosshatch signal from the Pattern Generator. 2. Using the remote control, set the brightness and contrast to normal position. 3. Activate the adjustment mode display of Fig. 1-1 and press the channel button (45) on the remote control to select “TRAPEZIUM”. 4. Press the VOL. UP/DOWN button on the remote control until the both ends right and left vertical lines of the 1th length lines screen become parallel. 2-11: VERTICAL LINEARITY 2-15: PALABOLA CORR 1. Receive the monoscope pattern. 2. Using the remote control, set the brightness, contrast, to normal position. 3. Activate the adjustment mode display of Fig. 1-1 and press the channel button (08) on the remote control to select "V.LIN". 4. Press the VOL. UP/DOWN button on the remote control until the SHIFT quantity of the OVER SCAN on upside and downside becomes minimum. 1. Receive the chosshatch pattern. 2. Using the remote control, set the brightness and contrast to normal position. 3. Activate the adjustment mode display of Fig. 1-1 and press the channel button (44) on the remote control to select “PALABOLA”. 4. Press the VOL. UP/DOWN button on the remote control, so that the line becomes straight from the outside of the right and left. 2-16: COR TOP/BTM 2-12: VERTICAL POSITION 1. Receive the crosshatch signal from the Pattern Generator. 2. Set the screen mode to FULL. 3. Using the remote control, set the brightness and contrast to normal position. 4. Activate the adjustment mode display of Fig. 1-1 and press the channel button (46) on the remote control to select “COR. TOP”. 5. Press the VOL. UP/DOWN button on the remote control until the both ends vertical lines become straight. 6. Activate the adjustment mode display of Fig. 1-1 and press the channel button (47) on the remote control to select “COR. BTM”. 7. Press the VOL. UP/DOWN button on the remote control until the both ends vertical lines of the screen become parallel. 1. Receive the monoscope pattern. 2. Using the remote control, set the brightness and contrast to normal position. 3. Adjust the VR401 until the horizontal line becomes fit to the notch of the shadow mask. (Refer to Fig. 2-3) horizontal line ,, ,, ,, , ,, ,, ,, ,, Notch Shadow mask Fig. 2-3 2-13: VERTICAL SIZE 1. the monoscope pattern. 1 Receive 2 2. Using the remote control, set the brightness and contrast to normal position. 3. Activate the adjustment mode display of Fig. 1-1 and press the channel button (06) on the remote control to select “V. SIZE”. 4. Press the VOL. UP/DOWN button on the remote control until the SHIFT quantity of the OVER SCAN on upside and downside becomes 9 ± 2%. D-3 ELECTRICAL ADJUSTMENTS 2-17: OSD POSITION 2-18: Confirmation of Fixed Value (Step No.) 1. Receive the monoscope pattern from the Pattern Generator. 2. Using the remote control, set the brightness and contrast to normal position. 3. Activate the adjustment mode display of Fig. 1-1 and press the channel button (00) on the remote control to select "OSD H". 4. Press the VOL. UP/DOWN button on the remote control until the difference of A and B becomes minimum. (Refer to Fig. 2-4) Please check if the fixed values of each of the adjustment item is set correctly referring below. TV-A 4:3 00 OSD H A ANALOG DIGITAL VIDEO1, VIDEO2 Colorstream YUV TV-A TV-D AV 02 02 02 02 OSD C 05 05 05 05 H BLK L 02 02 02 02 H BLK R 01 01 01 01 V.POSI 11 11 11 11 VS CORR 00 00 00 00 V COMP 90 90 90 90 BRI.MAX 50 50 50 50 BRI.MIN 50 55 50 50 CONT.CENT 50 30 30 30 CONT.MIN 120 120 120 120 COL.MAX 20 20 20 20 COL.MIN 25 27 25 25 SHARP.CENT 63 63 63 63 SHARP.MAX 00 00 00 00 SHARP.MIN 00 00 00 00 SUB BIAS 00 00 00 TEST STEREO 00 NO. FUNCTION 01 04 05 07 09 10 30 31 32 33 36 37 39 40 41 42 48 20 B Fig. 2-4 D-4 ELECTRICAL ADJUSTMENTS 3-3: STATIC CONVERGENCE 3. PURITY AND CONVERGENCE ADJUSTMENTS NOTE Adjust after performing adjustments in section 3-2. NOTE 1. Receive the crosshatch pattern from the color bar generator. 2. Combine red and blue of the 3 color crosshatch pattern on the center of the screen by adjusting the pair of 4 pole magnets. 3. Combine red/blue (magenta) and green by adjusting the pair of 6 pole magnets. 1. Turn the unit on and let it warm up for at least 30 minutes before performing the following adjustments. 2. Place the CRT surface facing east or west to reduce the terrestrial magnetism. 3. Turn ON the unit and demagnetize with a Degauss Coil. 3-1: STATIC CONVERGENCE (ROUGH ADJUSTMENT) 1. Tighten the screw for the magnet. Refer to the adjusted CRT for the position. (Refer to Fig. 3-1) If the deflection yoke and magnet are in one body, untighten the screw for the body. 2. Receive the green raster pattern from the color bar generator. 3. Slide the deflection yoke until it touches the funnel side of the CRT. 4. Adjust center of screen to green, with red and blue on the sides, using the pair of purity magnets. 5. Switch the color bar generator from the green raster pattern to the crosshatch pattern. 6. Combine red and blue of the 3 color crosshatch pattern on the center of the screen by adjusting the pair of 4 pole magnets. 7. Combine red/blue (magenta) and green by adjusting the pair of 6 pole magnets. 8. Adjust the crosshatch pattern to change to white by repeating steps 6 and 7. 3-4: DYNAMIC CONVERGENCE NOTE Adjust after performing adjustments in section 3-3. 1. Adjust the differences around the screen by moving the deflection yoke upward/downward and right/left. (Refer to Fig. 3-2-a) 2. Insert three wedges between the deflection yoke and CRT funnel to fix the deflection yoke. (Refer to Fig. 3-2-b) RGB RGB R G B R G B UPWARD/DOWNWARD SLANT RIGHT/LEFT SLANT 3-2: PURITY Fig. 3-2-a NOTE Adjust after performing adjustments in section 3-1. 1. Receive the green raster pattern from color bar generator. 2. Adjust the pair of purity magnets to center the color on the screen. Adjust the pair of purity magnets so the color at the ends are equally wide. 3. Move the deflection yoke backward (to neck side) slowly, and stop it at the position when the whole screen is green. 4. Confirm red and blue color. 5. Adjust the slant of the deflection yoke while watching the screen, then tighten the fixing screw. WEDGE WEDGE WEDGE WEDGE POSITION DEFLECTION YOKE DEFLECTION YOKE SCREW MAGNET SCREW Fig. 3-2-b PURITY MAGNETS 6 POLE MAGNETS 4 POLE MAGNETS Fig. 3-1 D-5 ELECTRICAL ADJUSTMENTS 4. ELECTRICAL ADJUSTMENT PARTS LOCATION GUIDE (WIRING CONNECTION) CR T CRT PCB TP024 R805 CP 80 7 TP022 R803 J801 CP806 CP802B CP803 CP801B CD803 CRT CD802 CD801 CP101 J703 J704 J701 J702 CP401 TP003 SPEAKER W002 CD1001 VR401 VR502 CRT CP1001 CP802A DEGAUSS COIL L503 CP502 S501 S502 AC IN CD501 J709 J710 J711 OS101 TV MT PCB D-6 TU001 FB401 DIGITAL PCB CP801A A B C D E F G MICON SCHEMATIC DIAGRAM 0.1 B 1K 100 1K R116 R017 R129 R176 3 4 DTV_RX DTV_RX 5 DTV_TX 6 +3.3V_D +3.3V 7 RESET RESET 8 TO AV SW/SOUND AMP/TONE CTL 1M C122 S_IN 7 VOLUME 390P CH C103 1 2 SDA DTV_TX 330 R144 B 0.1 C127 C129 220P CH C121 0.001 B 1K C111 220P CH C108 C124 4.7K C116 100P R128 R126 220P CH CH 10 10 10 R115 R121 220P CH C107 3.9K HD OSD_BLK R178 OSD_B OSD_G OSD_R VD R175 R124 C126 150P R119 560 C150 100P CH 1K SCL1 4.7K SDA1 CH CNT2 B CNT1 C102_3 NC AUDIO_MUTE X-RAY NC R159 51 50 49 NC NC CTL- 99 ANALOG VCC CTL+ 100 E0 REAK 46 45 42 33K 1/4W NC SPDIF SW 41 NC VSS VCC 21 22 23 24 25 26 27 28 29 30 X101 1K 100GT01215 18P CH C134 18P CH OSD_R OSD_G SDA1 C132 C138 X102 100DA32R01 22P CH 20P 32.768KHz 5 OSD_B 12MHz SCL1 0.01 B TV_POWER_H C137 OSD_BLK CNT3 CH RESET H.CTL NC NC PROTECT VIDEO_OUT W812 DTV_RESET P.CON+5V AT+5V C143 NC 4 FROM/TO POWER 100P CH 100 NC NC NC NC NC NC C133 34 20 VD R136 31 19 TV-POWER 18 AUDIO CNT2 17 AUDIO CNT1 16 DTV_P.ON_H 15 DIGITAL-H 14 PROTECT 13 H_CONTROL 12 STANDBY-L 11 NC NC NC DEGAUSS_H 10 TUNER DIGITAL-L 9 LDM CTL 8 HI-FI-H.SW 7 VIDEO-H.SW 6 ENV-CMP-IN 5 HEAD.AMP.SW 4 RESET-L COLOR ROTARY VIDEO-ENV 3 REMOCON-IN HI-FI-ENV 2 DUMMY-V.SYNC BOT 1 CAP-LIMIT XC_IN(32KHz) NC NC NC NC NC NC HD 35 CTL AMP-OUT XC_OUT(32KHz) 31 DTV RESET FROM/TO CHROMA/IF 37 33 Y/U/V SW 32 CHROMA P.-H DIGITAL_SLECT_H +3.3V_D REC MUTE-H X-IN(12MHz) DEGI_ST_L C131 18P CH R130 38 98 AMP-VCC R131 2.7K 40 CLKSEL X-OUT(12MHz) C AMP C 44 OSC-IN2 48 DVD RESET AFT_MAIN C130 20P CH L101 2.2uH 43 49 OSD-VSS 6 DTV_RX DTV_TX 39 82 TV_A_MUTE NUB OSC-OUT2 DTV_RESET S829X 36 AMP-VREFIN 50 S IN S_IN DTV_POWER_ON-H 33 AMP-VREFOUT 81 EXT_MUTE FROM/TO TUNER 10K 48 52 47 53 SERVICE 54 OSD-VCC 55 SD-IN(MONI) 56 HLF 57 VHOLD 58 NUA 59 CVIN 60 H/C-SYNC 61 V-SYNC 62 OSD OUT1 63 OSD_BLK_L NC 64 B 65 G 66 R DVD CLK SDATA 67 DVD DATA IN 68 DVD DATA OUT 69 CENTER LED 70 SCLK IIC-DATA1 71 32 DRUM FG/PG EOT TIMER SYSCON MICON IC IC101 OEC7174A VOL PWM CAP-PWM DRUM-PWM REEL-S 85 MESSERGE_REQ_IN MSSEN-B 10K 4 72 83 SPDIF MUTE-H 98 0.0022 B AMP-VSS 100 99 EO_LEAK R109 0.1 B 73 CAP-FWD C136 0.1 B CAP FULL 81 C135 REEL-T 82 100 86 83 100 R114 87 84 R113 88 KA CAP-FG 89 50V 4.7 POWER_FAIL_L IIC OFF 90 C106 74 93 KA R117 SCL IIC_OFF 6.3V 1000 YK NC NC NC NC NC NC NC NC 75 94 16V 22 76 95 KA C105 C146 100 77 MSSEN-A 5 16V 47 390 R140 DVD POWER ON-H 96 DEGI_ST_L C101 B 390K FF/REW-L 97 100 78 91 NC NC 79 92 R106 3.3K R138 R118 7 AUDIO_MUTE R107 1 1 IIC_OFF 3.2 80 IIC_OFF VIDEO_OUT 1.8 VIDEO_AMP Q108 KTC3875S Y_RTK R142 1.2 C109 SDA1 4.2 1.9 8 GND FROM DEFLECTION KEY 2(KEY B) SDA 34 SCL1 4.2 BUFFER Q104 KTA1504S_Y_RTK 33 KEY 1(KEY A) A0 SCL 3.2 CS A1 TEST 6 2 A2 NC NC NC NC NC POWERFAIL R122 R123 8 3.2 DVD RDY 0 VCC 5 0 VSS AT24C08AN-10SU-2.7 0 3 C148 56P CH C147 56P CH 0 4 7 1 IC199 0 6 100 1/4W EEP ROM IC 8K IC 100 1/4W 4.7K YK AFT(MONI) 10V 100 IIC-CLK1 C104 X-RAY B SDA1 1 SCL1 C139 VOLUME 4.8 CP101 A2001WR2-8P 330 R143 R141 10 1/2W P.CON+5V (TV MT PCB) 8 H 10K 1/4W 1 F R111 4.7K TV_POWER_H R186 DEGAUSS_H GND TV_POWER_H 3 KEY_B REMOCON CNT1 P.FAIL CNT2 R108 C120 DTV_POWER_ON-H R189 4.7K EO_LEAK PROTECT 10K 1/4W R110 H.CTL STAND_BY_L REMOCON RESET POWERFAIL DEGAUSS_H DIGITAL_SLECT_H 4.7K R132 R104 R102 KEY_B KEY_A X-RAY AFT_MAIN 3 1/4W 2.2K 2.2K B 1 C142 STAND_BY_L R162 TV_POWER_H 10K 5.0 0 B+ 3 GND 2 Vout 47 1/4W 2 KA C118 4.2 3.2 LED_SW Q105 KRC103SRTK OS101 ROM-V338SY R120 R134 270 1/4W POWER ON D109 SLR-342VCT32 KEY_A SW104 EVQ21505R POWER VOL DOWN 560 SW102 EVQ21505R 2.7K CH DOWN 560 SW103 EVQ21505R R133 VOL UP R127 SW101 EVQ21505R R125 W874 CH UP P.FAIL P.FAIL_SW Q106 KTA1504S_Y_RTK SW105 EVQ21505R YK 10V 100 10K C115 50V 0.47 KA C119 C140 50V 1 C123 KA GND 0 W821 NC 3 4 0 NC 2 3.2 IN 0.1 B D104 1SS133 W845 R101 RESET IC IC102 PST3245NR 3.2 NC OUT 1 0 NC 5 2 10K R135 W857 4.9 25V 10 4.2 1 PCB070 CMF094 ACCESSORY 1 BT001 MNAAA(R03) BT002 MNAAA(R03) A G-1 NOTE:THIS SCHEMATIC DIAGRAM IS THE LATEST AT THE TIME OF PRINTING AND SUBJECT TO CHANGE WITHOUT NOTICE CAUTION: DIGITAL TRANSISTOR NOTE:THE DC VOLTAGE AT EACH PART WAS MEASURED WITH THE DIGITAL TESTER WHEN THE COLOR BROADCAST WAS RECEIVED IN GOOD CONDITION AND PICTURE IS NORMAL. 1 TM101 076N0NH010 B C D E F G H G-2 A B C D E F G H CHROMA/IF SCHEMATIC DIAGRAM (TV MT PCB) TUNER_P.CON+5V P.CON+5V 0607 22uH L602 W886 20 P.CON+5V_SW Q609 KTD1691Y UN_REG.12V P.CON+5V_SW Q608 KTC3209_Y VIDEO_IN1 AT+5V_D 100DT3R531 3.579545MHz X601 12K R626 5.6K 0.33 5 5.84 6 8.6 7 3.4 8 0 9 2.5 10 4.3 11 8.5 NC 12 2.6 14 3.4 15 3.4 KA 75 R653 B YK 16 3.5 C612 16V 330 MMTS 0 13 7.8 SW Q605 KRA102SRTK 5.0 5.0 2.1 PIN PROTECT Q610 0 KTC3875S Y_RTK 0.2 R635 R656 1 B 12K 0.3 PIN PROTECT 2.6 Q612 0 KTC3875S_Y_RTK VIDEO_IN2 16V 4.7 AT+5V R654 KANP 23 22 75 EW_OUT D_Y_OUT 25 24 V.OUT R608 OSD_BLK 1/4W B 27K D612 ACL 1/4W UN_REG.12V 1SS133 1SS133 TO CRT/SVM W818 100 R611 100 R610 100 YK C609 10K R607 B C606 1 YK C603 4.7K R638 KA 100 1/4W 16V 100 HD R612 25V 10 VD 47 11.1 C635 KA C632 PROTECT 25V 10 AT+5V 2W 12 D611 R609 56 P.CON+5V 12 0.1 10 R603 22uH R605 16V 100 100 1/4W AT+5V_SW Q607 KTC3209_Y 5.2 5.2 C604 R604 3 L601 4.7K 10V REG SW Q603 KTA1266 R645 12.3 7.7 +8V_SW 8.3 Q602 KTC3209_Y FROM/TO MICON 4 B C613 D_Y_OUT 3 H.CTL PIN_PROTECT D_C_OUT D_C_OUT YK PROTECT 4.7K C636 1 50V 1 0.2 W881 0.47 5.2 C651 BUFFER 0 Q601 KRC102SRTK 0.8 5.0 100 1/2W B C614 3.1 C611 4 3 0 R613 C617 3.1 E/W AMP 2 26 R648 B 2.4 5V/8V-REG 0 R627 R615 2.2 330 1/4W 0.015 B C619 H.OUT 1K 1/4W HOR OUT VER D/A RST 1 R617 330 1/4W 5.2 ABL/ACL REG-SW 0 W814 C618 R616 15K NC 5 AFC 1/4W W838 PHASE SHIFTER HOR VCC 27 R618 220 C647 CVBS CP802A (CP802B) B2013H02-6P 1 CUT_OFF C634 1 B OSD_B OSD_G OSD_R SDA1 C608 47P SCL1 GND 2 R.OUT 3 G.OUT 4 B.OUT 5 CLAMP_OFF 6 2 CH C654 H.CTL TV_POWER_H 47P CH C657 VIDEO_OUT 47P NOTE:THIS SCHEMATIC DIAGRAM IS THE LATEST AT THE TIME OF PRINTING AND SUBJECT TO CHANGE WITHOUT NOTICE A G-3 C649 KA C648 5.1 2.6 A_TUNER_CVBS 1 25V 10 C629 8P CH 1 32 30 29 28 R619 4.7K 1/4W +-1% U_IN 26 1.7 1.5 AFC2 VER C/D CLMP CLMP B 0 25 FBP AFC1 VER SEP VER RAMP 0.1 V_IN 0.1 B 0.33 62 61 LPF SW Y_IN 1/4W 0 TUNER_P.CON+5V 2 B 270K C626 R624 HOR C/D CONTRAST SYNC BRIGHT SEP DRIVE/CUT-OFF CLMP C601 18 NC 0 NC 1/4W R652 FROM/TO TUNER 25V 10 KA C650 100 6.3V 31 57 58 59 60 R606 4 X-RAY 63 56 1/2W 5.8 RGB COLOR MATRIX CLAMP OSD SW OSD CONTRAST 64 AT+5V Q611 KTC3209_Y R640 9.6 HOR VCO YSW BUS 75 5.2 AT+5V_D 0 NC 2.53 NC 3.3 BMO DC REST 28 R622 C621 390 0 1/256 5.0 VD ACC BS Y PIN DL V/Y TRAP SW SHARP SG SW 5.0 HD AF/D1 SW C PIN SW VM 0 NC 2.5 CLMP 55 56 YC SW C622 50V 1 KA 27 BPF 3.3 OSD_R CLMP TINT CLMP 6 2.7 FSC APC1 MIX 3.3 OSD_G 8P CH B 49 50 51 VXD COMB SW 1M 2.2 NC 0 24 5 6DB AMP COMB SW REG SW CLMP 3.3 OSD_B B 23 R630 1K P.CON+5V_A VIDEO SW 54 OSD_BLK C628 1 22 PIN_PROTECT 7 R623 21 5.0 NC 5.0 3W R632 20 AFC UN_REG.12V 15 100 1/4W NC 2.5 4.3 3.9 2.6 NC3.7 5.0 3.1 3.5 2.7 42 41 40 39 38 37 36 35 34 33 52 0 NC ACL H.OUT CLMP 53 R629 100 1/4W EW_OUT 0 5.0 SDA1 V.OUT NC 2.4 4.97 0 4.8 47 46 45 44 43 5.0 100 1/4W R650 7.1 21 12K 17 R601 SCL1 FROM/TO DEFLECTION 2.4 48 0 NC 7.1 5.6 100 1/4W 19 2.4 10V 100 YK 6 5.0 R660 LA76327M-B-MPB-E C653 10V 10 C656 0.1 C645 CHROMA_IC IC601 5.0 5.6 R625 Q604 R641 KTC3875S_ Y_RTK 1K 0.1 S_VIDEO_IN[Y] S_VIDEO_IN[C] VIDEO_IN3 P.CON+5V AT+5V C646 VIDEO_IN2 0.1 C644 VIDEO_IN1 B 5.6K R636 Y_IN U_IN V_IN B 1/4W FROM/TO AV SW/SOUND AMP/TONE CTL C624 KANP 7 220 YK 1M C638 25V 10 KA C630 R659 B C627 W817 0.047 GND 25V 10 P.CON+5V_A VIDEO_OUT S_VIDEO_IN[C] 8 CVBS TV_POWER_H FROM POWER A_TUNER_CVBS P.CON+5V S_VIDEO_IN[Y] 8 NOTE:THE DC VOLTAGE EACH PART WAS MEASURED WITH THE DIGITAL TESTER DURING PLAYBACK. B C PIECES REPAREES PAR UN ETANT ATTENTION:LES DANGEREUSES AN POINT DE VUE SECURITE THESE PARTS MARKED BY CAUTION:SINCE CRITICAL FOR SAFETY,USE ONES CAUTION: DIGITAL TRANSISTOR CAUTION: DIGITAL TRANSISTOR 1 DESCRIBED IN PARTS LIST ONLY N’UTILISER QUE CELLS DECRITES DANS LA NOMENCLATURE DES PIECES D ARE PCB070 CMF094 CH E F G H G-4 A B C D E F G H DEFLECTION SCHEMATIC DIAGRAM (TV MT PCB) 8 LA7847-E FROM/TO DY R442 IC401 1K V.DRIVE IC 8 Pump up 7 2.6 9 2.6 10 15.7 2.6 2W C422_3 8 100V 0.22 MKT 7 180 6 25.3 R412 5 2.5 1.2K R421 4 2.6 C416 3 25.9 100P CH YK 0 R407_1 5.6K 2 14 35V 100 1 C436 AMP + CP401 A1561WV2-A6P 18 L402_1 311015027 1K 5 4 4 3 3 2 2 1 1 9 10 8 6 11 R G B 5 7 1 7 1W R427 680 1/2W YK C407 35V 100 D402 11E1-EIC 1 3 1 2 TO CRT/SVM CD807 CH823004 (CP807) 2.2K R418 820 1/2W VR401 680 1/2W C417 MTZJ33B R422 V.POSI ADJ 6 250V 0.43 PMS C418_1 02DK000058 L403 1.25KV 0.018 MPP C420_2 630V 0.022 PP C421 RS-4FS RU-4AM 5 TP004 PROTECTOR TEST TP003 ANORD FORCUS R443 R434 FROM/TO CRT 100K 1/2W +B 8.2 2 CD803 CH823004 (CP803) 1 1/2W 100V 0.22 MKT R437 MTZJ33B D410 D403 25V 2200 MHE 3.3 1/2W R420 D408 D409 CMPP 0 1.25KV 0.0015 R428 R W823 W822 R416 B402 0.1 YK 50V 22 C403 +B_GND W4BRH3.5X6X1.0 220P B W4BRH3.5X6X1.0 C412_2 0.1 30 2KV 0.0012 35 H.OUT Q405 2SD2499(LBOEC1) 115 B405 100 1/4W 5 1 2 0 26.3 T401 ETH19Y206AY 0 4 MMTS 0 R406 17.3 0.4 100V 0.01 C402 H.DRIVE Q402 KTC3227_Y 470 1/2W C405 KANP 500V 27P SL 25V 4.7 17.3 3 19 C401 C410 B401 W842 W4BRH3.5X6X1.0 W862 5 C408 R415 YK 820 C406 50V 1 R413 18K 1/4W +-1% B C404 0.0022 C437 BXA 250V 10 C442 R401 1.2K 1/2W KA C423 50V 4.7 4.7K W863 HS402 763WAA0348 27K 3.3 1/2W D416 2.2 1/2W B 330K C424 27K 1/4W +-1% 0.033 D401 11E1-EIC R459 100P CH R425 11E1-EIC R404 6.8K W880 W884 R431 4.7K R444 P.CON+5V_A H.OUT AFC ACL FROM POWER 6 5 R417 R414 22K PIN_PROTECT V.OUT EW_OUT 6 C425 R405 FROM/TO CHROMA IF NC R439 1/4W +-1% P.CON+5V_B 6 NC V801 M68LWF088X50 SCREEN 10W GND 4 R452 D414 R410 D415 R411_1 D405 H+B 2W AU02A-EIC 1/2W 6 108.0 B 2 1/2W 8.2K 500V 0.0022 105.0 0 R430 100K 8 5 2.0 4 3 HV E200 B+ AFC HEA TER F GND S GND 0 11 E9 E15 ABL E25 3 8.1 7 0.1 YK D407 MHE CP801A (CP801B) B2013H02-5P 250V 22 C413 0 4 C427_1 100V 0.1 MKT TO CRT/SVM C426 C430 100V 22 YK W890 B C439 0.001 1/4W +-1% R426 2.7K MTZJ3.3B D406 C433 50V 4.7 KA 2 D411 AU02A-EIC 35V 1000 W889 P=5MM R441 33K 1/4W +-1% 0.22 1W R438_1 1N4005-EIC AU02A-EIC D412 X-RAY 9 10 3 TO MICON 1 FB401_1 FJN27A003_M COL 180 R408 MTZJ5.6B D404 R432 1.2 1W C419 1 47 1/2W 1N4002-F BXA 1N4002-F 160V 47 2W C432 100 115 180V 1 NC NC 2 NC NC 3 GND 4 HEATER 5 2 PCB070 CMF094 1 NOTE:THIS SCHEMATIC DIAGRAM IS THE LATEST AT THE TIME OF PRINTING AND SUBJECT TO CHANGE WITHOUT NOTICE A G-5 B NOTE: THE RESISTOR MARKED F IS FUSE RESISTOR. THE ALUMI ELECTROLYTIC CAPACITOR MARKED NP IS NON POLAR ONE. C PIECES REPAREES PAR UN ETANT ATTENTION:LES DANGEREUSES AN POINT DE VUE SECURITE D THESE PARTS MARKED BY CAUTION:SINCE CRITICAL FOR SAFETY,USE ONES ARE CAUTION: DIGITAL TRANSISTOR 1 DESCRIBED IN PARTS LIST ONLY N’UTILISER QUE CELLS DECRITES DANS LA NOMENCLATURE DES PIECES E F G H G-6 A B C D E F G H POWER SCHEMATIC DIAGRAM (TV MT PCB) 8 8 CP501 003P-2100 1 D516 CP509 003P-2100 1 R515 RELAY DRIVE Q504 KTC3198 10.9 1SS133 4.7K 1/4W 0 0 C516 250V 0.001 KY C512 D513 MTZJ3.3B D521 MTZJ33B 10K 1/4W D531 R507 82K 1/2W UN_REG.12V GND R508 D539 D517 1N4937-F 1/2W 1K C520 500V 0.001 B D512 L502 SR290-F 22uHTSL0808 1K 1/4W 12.9 1SS133 YK 16V 100 EO_LEAK P.FAIL D532 MTZJ11B DEGAUSS_H TV_POWER_H 12.8 P.CON+12V SW. Q508 KTA1271_Y 3 R519 0.7 D520 4 STAND_BY_L 1K 1/4W R512 1SS133 0.8 D515 YK C527 1SS133 16V 2200 1/4W R547 1K 220P B D514 C518 MTZJ5.6B C508 KY IS THE LIVE CONNECTION 22K FROM/TO MICON GND 12.9 R511 CAUTION: W856 W853 R524 1/4W 25V 10 1SS133 KAC522 R546 100 10.2 MTZJ10B C515 D533 D511 1N4937-F D506 9V REG Q501 KTC3203_Y 1/4W 1N4937-F R543 25V 47 YK C509 B 100 TO CHROMA/IF 0 STAND BY SW. Q509 KTC3198 10K 1/4W 10K D509 9.6 12.0 1/2W 15 S826X 0.01 B D525 0 22K 1/4W R503 10K 1/4W R505 R535 3.9K 1/4W R522 C514 1SS133 250V 0.0022 STANDBY Q506 KRC104SRTK STANDBY 3.8 Q510 3.8 KRC104SRTK 0 0 3.8 MTZJ5.6B 150 1/4W 5 P.CON+9V D529 3 C541 R533 270 D508 1/2W VR502 22K D528 R548 100 47K 1/4W D535 68K 1/2W UN_REG.6V GND 16 R518 +B D530 1 GND1 100 1/4W MTZJ4.7B +B ADJ FEED BACK IC504 PS2561AL1-1-V(W) R532 1.5K R510 C510 1K 1/4W MTZJ15B 1.5 R549 R554 82K 1/2W 6.8K 1/4W R506 3 FEED BACK SWITCHING Q507 KTC3198 39K R553 5.7 9.7 MTZJ3.9B W826 6.3 R529 0.056 9.7 0.001 B D524 16.3 R504 330 1/4W R526 UN_REG.12V 4 10K 1/4W B C554 TUNER+30V 15 0 1SS133 10.7 68K 1/2W 100 1/4W 2 R528 NC R545 10 1/4W 1SS133 2 0.047 R552 10K 14 +3.5V +B GND YK HS501 763WAAA074 R521 D507 1 C549 0 R525 13 SR290-F 4 TO TUNER R516 138.9 50V 22 MMTS 3 2.2K 1/4W C524 0 +5V 100V 0.047 16V 680 FM 330 2W 1.5 270 1/4W 1W STAND BY SW. Q505 2SC2909 0 2W C504 R502 5.3 R544 0.18 GND 114.7 159.4 SWITCHING Q514 KTC3203_Y R542 +B_GND 115.1 R513 GND 0 12 5 SWITCHING Q502 159.4 D STF10NK50Z G 5.3 0S 2KV 0.0022 R P2 0.68 W5RH3.5X5X1.0 11 115.5 115.2 YXF +12V 4.7K R527 C521 40.0 B504 6 +B +B SW. Q503 2SA1371 R536 D510 RU-4AM TO DEFLECTION H+B 47K 1/4W 10 SOUND+B 0 6.3A 125V GND 1/4W R509 1SS133 2KV 0.0027 R P1 6 C535 D519 81350994 7 W4BRH3.5X6X1.0X2 P.CON+9V C539 SOUND GND 0 9 8 100K 50V 10 YK C511 141.6 BLACK 5 115.4 220P CH B501_1 S502 SOUND+B 1SS133 C501_1 38 CURRENT DET. Q512 2SA1624 115.7 200V 220 FH501 FH502 EYF-52BCY EYF-52BCY 6.3A125Vor51MS063L S501 7 SOUND_GND C517 COIL,LINE FILTER L501 2R0A902F28YNP 16V 2200 MHE 1/2W R539 R540 0.0022 B D523 C534_1 D503 RM11C-EIC RM11C-EIC 1.2M 1/2W 1.2M 200V 820 C503 W855 R537 MTZJ18B UQ 0.22 1W C507_2 D502 RM11C-EIC D501 D504 C506 275V0.22 2 7W 2KV 2KV 0.001 R 0.001 R ECQUL ECQUL 1 275V 0.33 C505 ENE241D-10A-Q6 4 1 R541 T501 6.3A125V WHITE BLACK R501 0.0027 B R530 CD501 07415919 BLADE WIDE F501 3 W836 SR290-F C502 1 CP508 003P-2100 W849 AC120V_60Hz TO AV SW/SOUND AMP/TONE CTL CP507 ZPB45BL3R0A 003P-2100 1 R520 D522 6 WHITE R500 TH501 D526 2 DSS-272M ENE271D-10A 1 1 2 CP502 A1561WV2-2P 1.5M 1/2W D527 DEGAUSS COIL L503 T028R27021 4 C513 3 B D505 RM11C-EIC 1 C519 RY501 2 ALKS321_M60 2.7M 1/2W +-10% W848 7 250V 0.001 KY 0.001 2 PCB070 CMF094 2 6.3A 125V CAUTION:FOR CONTINUED PROTECTION AGAINST FIRE HAZARD, 1 REPLACE ONLY WITH THE SAME TYPE FUSE 6.3A 125V(F501) UNE PROTECTION CONTINUE LES RISQUES D’INCEIE ATTENTION:POUR N’UTILISER QUE DES FUSIBLE DE MEME TYPE 6.3A 125V(F501) PIECES REPAREES PAR UN ETANT ATTENTION:LES DANGEREUSES AN POINT DE VUE SECURITE NOTE:THIS SCHEMATIC DIAGRAM IS THE LATEST AT THE TIME OF PRINTING AND SUBJECT TO CHANGE WITHOUT NOTICE N’UTILISER QUE CELLS DECRITES DANS LA NOMENCLATURE DES PIECES NOTE:THE DC VOLTAGE AT EACH PART WAS MEASURED WITH THE DIGITAL TESTER WHEN THE COLOR BROADCAST WAS RECEIVED IN GOOD CONDITION AND PICTURE IS NORMAL. A B C ARE CAUTION: DIGITAL TRANSISTOR DESCRIBED IN PARTS LIST ONLY 1 NOTE: THE RESISTOR MARKED F IS FUSE RESISTOR. THE ALUMI ELECTROLYTIC CAPACITOR MARKED NP IS NON POLAR ONE. CAUTION:F502 AND F503 ARE MANUFACTURED BY SKYGETE CO.,LTD TYPE 20N G-7 THESE PARTS MARKED BY CAUTION:SINCE CRITICAL FOR SAFETY,USE ONES D E F G H G-8 A B C D E F G H TUNER SCHEMATIC DIAGRAM (TV MT PCB) 8 6 5.0 0 3.3 NC 0 0 C050 22PCH C040 0.1 B 1.7 22P CH 1.0 C049 2.4 FCM1608KF-102T02 3.1 FCM1608KF-102T02 3.1 7 TO CHROMA/IF W850 A_TUNER_CVBS 100 100 R016 22uH 0607 L004 0607 R015 YK L001 22uH 31.4 B004 0.001 B B001 C022 FCM1608KF-102T02 C038 6.3V 220 YK C017 C002 6.3V 220 NC2.5 NC1.8 4.8 NC0 10V 100 YK W841 7 W839 W870 W829 NC 0 NC 0 B002 24 21 IF OUT 20 IF AGC 25 19 IFD_OUT2 18 IFD_OUT1 17 +5V 16 V_OUT 15 SIF 14 AFT 13 SCL 12 SDA 11 +30V 10 NC 9 +5V(BV) 8 TU 7 AGC NC 2 22 23 ENG36E03KF 1 +5V(ANT) TU001 8 6 DTV_DATA 2.2 3.2 S W824 LEVEL CONVERT Q006 2SK393800L LEVEL CONVERT Q005 2SK393800L 3.4 3.4 SIF_OUT SCL1 SDA1 AFT_MAIN DTV_TX IF_OUT_1 FRON/TO MICON 5 5 IF_AGC 2.2 G SCL1 3.2 D DTV_CLOCK IF_OUT_2 G S D SDA1 DTV_RX DEGI_ST_L 4.8 22K 5.0 4.2 220P B B D001 33uH7313N SK34A 4 C034 6.3V 1000 ZL R038 R039 33 +-1% 27.1 0.6 HS001 763WAAA115 3.5 SW ON/OFF Q007 KTC3875S_Y_RTK 3 10K FROM CHROMA/IF L006 +-1% 1/4W L007 1K 3 10V 1000 YK 220P R007 W803 0.0022 B C033 R018 TUNER_AUDIO[R] 0 C051 16V 1000 ZL C052 C026 TUNER_AUDIO[L] 5 1.3 1.2K +-1% B 4 1.3 R040 0.1 1N4005-EIC +3.3V_D FB ON/OFF 2.2K YK 10V 470 2.6 W5RH3.5X5X1.0 C025 3 C012 25V47 YK 10K (W068) B005 B 2 2.6 R030 D003 1K +-1% 10V 100 YK C021 0.33 1.2 C054 0.1 B C015 4.2 0 2.6 C023 V_OUT GND 1 5 22uH TSL0808 C011 4 820 +-1% B 6 100 3.1 2.2K +-1% 0.33 1/4W TO AV SW/SOUND AMP/TONE CTL SOUND_GND 0.2 C006 R005 1K 5 3.3 V_IN GND V_OUT V_ADJ R026 10V 100 YK 2 68 DTV_POWER_ON-H 4 V_IN 1 R027 0 6 5.0 0 C010 V_C R028 2 3.2 +-1% 1 DTV.P.ON_SW Q002 KRC102SRTK GND V_OUT V_ADJ 3.9K V_IN R012 4.2 DTV_POWER_ON-H 3.2 V_C R011 180 1/4W +3.3V_D 4 BA00BC0WFP-E2 KTA1271_Y R006 R003 SCL1 SDA1 IC003 BA00BC0WFP-E2 R013 DTV_POWER_ON-H DTV_RESET IC002 REG. 1.8V IC IC004 LA5779-5 REG. +2.6V IC REG.+3.3V IC DTV.P.ON_SW Q003 DIGITAL_SLECT_H FROM/TO CHROMA/IF TUNER_P.CON+5V R041_1 AT+5V_D A G-9 B C D IF_OUT_2 R021 1/4W 16V 4.7 KANP 4.7K DIGITAL_SLECT_H 1/4W 2 THESE PARTS MARKED BY CAUTION:SINCE CRITICAL FOR SAFETY,USE ONES ARE DESCRIBED IN PARTS LIST ONLY 28 CVBS IN 27 SD-H 26 GND 24 IF OUT1 25 IF OUT2 D_C_OUT W835 CH 10P C020 IF_OUT_1 CH 23 GND D_Y_OUT D_C_OUT C053 PIECES REPAREES PAR UN ETANT ATTENTION:LES DANGEREUSES AN POINT DE VUE SECURITE 22 IF AGC 21 AFT(1) D_Y_OUT CVBS 33 47P C046 (W121) N’UTILISER QUE CELLS DECRITES DANS LA NOMENCLATURE DES PIECES 20 SPDIF OUT 19 D_P.CON+9V 18 AUDIO OUT R 17 AUDIO OUT L 16 SIF OUT(2nd CVBS) 15 U OUT 14 Y OUT 13 V OUT 12 DTV_RESET 11 TU I2C CLK 9 TX (DTV_MAIN) 10 TU I2C DATA 8 RX (DTV_MAIN) FCM1608KF-102T02 IF_AGC TUNER_AUDIO[R] SIF_OUT TUNER_AUDIO[L] D_C_OUT B003 C029 CH 47P CH D_Y_OUT DTV_RESET DTV_CLOCK DTV_DATA C018 10P CH 10P 7 D_P.CON+3.3V 5 ACIC+1.8V 4 GND NOTE:THE DC VOLTAGE AT EACH PART WAS MEASURED WITH THE DIGITAL TESTER WHEN THE COLOR BROADCAST WAS RECEIVED IN GOOD CONDITION AND PICTURE IS NORMAL. 3 GND 1 2 D_P.CON+5V NOTE:THIS SCHEMATIC DIAGRAM IS THE LATEST AT THE TIME OF PRINTING AND SUBJECT TO CHANGE WITHOUT NOTICE CP2403B (CP2403) 0 1 D_P.CON+2.6V YK 1/4W R036 NC NC NC FROM/TO AV OUT 10V 2200 C041 10P 0.22 3W 100 1 3W C005 GND 6 AFT(0)/MESSAGE_REQ TUNER+30V R009 R004 C009 10P CH C016 10P CH 100 R010 R002 UN_REG.6V C043 0.01 B UN_REG.12V C042 8.0 R020 AFT 3.4 2.2K Q001 2SA1530A 3.9 B P.CON+9V 0.01 2 C008 FROM POWER CH S826Y DTV_TX DTV_RX R019 4.7K 1/4W 0.1 B W878 C003 DEGI_ST_L 18 PCB070 CMF094 CAUTION: DIGITAL TRANSISTOR 1 E F G H G-10 E F (TV MT PCB) 8 YUV_IN(REAR) J704 MSP-213V1-652_NI_LF R1014 5.6K IC1001 AN17822A E 29 1 AT+5V 6.3 2 8.5 3 0 4 8.6 5 6 3.9 - R 7 2.4 0 V_IN U_IN 8 2.5 9 + 10 2.1 8.5 11 0 R736 L 220 - R730 + 5 Y_IN VIDEO_IN2 S_VIDEO_IN[Y] S_VIDEO_IN[C] 12 8.5 7 C1003 Y_IN 1 B YK C1001 50V 10 YK AV1_IN J701 MSP-213V2-432_NI_LF B FROM POWER R726 1K B 1K E 6 470P CH C736 C716 470P CH R717 82K SOUND+B 82K R714 VIDEO_IN1 P.CON+9V 1 C722 0.1 E 0.1 AUDIO_IN1[L] 47K 6 5 R1002 AUDIO_MUTE R733 2 C725 AUDIO_IN1[R] 68K 4 MUTE SW. Q1001 KTC3875S_ Y_RTK 0 R1001 P.CON+5V CNT2 1K C1005_1 C1004 0.027 B R1010 2.9 3 1/4W 0 H1 NC H1 H2 56K 0.027 B C1002 33K R1016 390P CH S_IN VOLUME C1007 1K R1017 1K R1008 P.CON+5V CNT1 B YK R1006 C1006 FROM/TO MICON 50V 22 R1003 TUNER_AUDIO[L] 1 270K C1011 TUNER_AUDIO[R] 16V 2200 FROM TUNER 6 U_IN 3 P.CON+5V VIDEO_IN1 SOUND AMP IC H2 VIDEO_IN3 7 H1 36 V_IN R1015 E FROM/TO CHROMA/IF 5.6K H 1 AV SW/SOUND AMP/TONE CTL SCHEMATIC DIAGRAM 8 G 4 D 2 C H1 B 220 A SOUND_GND IN3 9.4 4.9 1 5.1 9.4 4.9 5 1 3 6 4 75 R735 0 4.2 5 B NJM2534V(TE2) GND 2 75 R739 SW2 4.2 IN1 8 VCC 5.1 CNT1 4 IN2 OUT 5.0 7 4.9 AUDIO_IN2[L] SW1 IC703 0 6 CNT2 GND 5 5.1 IN1 S829Y 4.9 5.1 2 5.0 AUDIO_IN1[L] SW1 3 SP OUT R+ AV_SW IC IC702 NJM2534V(TE2) IN2 VCC 4 1 0.1 AV_SW IC 16V 100 YK SP OUT R- C717 SP OUT L- 2 1 8 3 2 S-JACK J702 S4-25SZ C734 S_IN AUDIO_IN2[R] SP OUT L+ 7 4 3 6 4 5 SPEAKER SP1002 S0509F75 R 8 OHM 1 KA S_VIDEO_IN[C] AUDIO_IN1[R] 1 L CP1001 A2502WV2-4P 2 SP1001 S0509F75 8 OHM 50V AUDIO_L CD1001 CH148003 3 SPEAKER 4 5 C733 S_VIDEO_IN[Y] W810 GND SW2 IN3 OUT 4 AUDIO_R L AUDIO OUT J703 MSP-382V-12_NI_FE_LF AUDIO_R C714 AUDIO_L 25V 10 KA FRONT-VIDEO J705 MTJ-032-03A-30FE AUDIO_R NC 3 820 3 H 2 VIDEO_IN2 E R711 820 1 R710 W882 1 2 1K 0.1 B E 3 R745 NC C719 AUDIO_IN2[L] AUDIO_L H C715 1/4W CH FRONT-AUDIO.R J707 MTJ-032-03A-31FE 1/4W C742 1K B E 1 H 2 NC R746 470P CH W873 0.1 2 3 470P C741 C720 AUDIO_IN2[R] 82K 10P CH C709_1 R743 W883 82K 25V 10 KA TUNER_AUDIO[L] 2 FRONT-AUDIO.L J706 MTJ-032-03A-32FE 10P CH C708_1 TUNER_AUDIO[R] R744 2 R 3 E 1 3 H2 H1 W808 PCB070 CMF094 1 NOTE:THIS SCHEMATIC DIAGRAM IS THE LATEST AT THE TIME OF PRINTING AND SUBJECT TO CHANGE WITHOUT NOTICE A G-11 PIECES REPAREES PAR UN ETANT ATTENTION:LES DANGEREUSES AN POINT DE VUE SECURITE NOTE:THE DC VOLTAGE AT EACH PART WAS MEASURED WITH THE DIGITAL TESTER WHEN THE COLOR BROADCAST WAS RECEIVED IN GOOD CONDITION AND PICTURE IS NORMAL. B C N’UTILISER QUE CELLS DECRITES DANS LA NOMENCLATURE DES PIECES D E THESE PARTS MARKED BY CAUTION:SINCE CRITICAL FOR SAFETY,USE ONES CAUTION: DIGITAL TRANSISTOR ARE 1 DESCRIBED IN PARTS LIST ONLY F G H G-12 A B C D E F G H CRT / SVM SCHEMATIC DIAGRAM 8 8 (CRT PCB) CRT BLOCK L801 7 150uH FROM DEFLECTION 4 GND 5 HEATER C811 R817 R.OUT 4 G.OUT 5 B.OUT 123.0 1SS133 270P CH 68 7.4 1.2K 180 R820 GREEN OUT Q803 KTC3199_Y 100 3.2 D811 R806 GREEN OUT Q805 125.0 KTC4217 7.4 98.4 2.7 D802 C810 2KV 0.001 B TP022 2.7K 1/4W 220 R813 6.9 37 FOCUS 15K 2W TP023 7.0 GREEN OUT R804 1SS133 R818 2.7K 1/4W R821 R816 1.2K 180 BLUE OUT Q802 KTC3199_Y 95.4 3.2 100 BLUE OUT Q806 KTC4217 2.7 D812 7.4 D803 C809 0 R805 15K 220 R814 39 R810 5 68 270P CH 6 R807 CLAMP_OFF 1SS133 S801 RED OUT 1SS133 R808 C806 R809 FROM DEFLECTION C802 15K 2W 2.7 D810 CUT_OFF GND 3 6 0.001 B CP802B (CP802A) B2013H02-6P 2 3.2 100 D801 FROM CHROMA 1 R812 2.7K 1/4W 96.4 NC R803 96.4 NC NC 38 RED OUT Q804 KTC4217 99.6 NC 3 100.6 220 2 RED OUT Q801 KTC3199_Y R801 R802 CP801B B2013H02-5P 1 180V 6 7 0607 0 2W 9 6.4 10 6 96.4 11 5 4 12 1 128.0 0 8 7 FROM BRAIDED WIRE NC 1 F TP024 2 0 BLUE OUT 5 CP803 A2361WV2-2P CRT SOCKET J801 ISHD62S 7.0 R819 1SS133 1SS133 R811 330P CH 68 R815 1.2K R824 180 56 1/2W 2 1 CP807 A2361WV2-2P PCB110 CCF076 4 4 3 3 2 2 1 NOTE:THIS SCHEMATIC DIAGRAM IS THE LATEST AT THE TIME OF PRINTING AND SUBJECT TO CHANGE WITHOUT NOTICE A G-13 B THESE PARTS MARKED BY CAUTION:SINCE CRITICAL FOR SAFETY,USE ONES NOTE:THE DC VOLTAGE AT EACH PART WAS MEASURED WITH THE DIGITAL TESTER WHEN THE COLOR BROADCAST WAS RECEIVED IN GOOD CONDITION AND PICTURE IS NORMAL. C ARE DESCRIBED IN PARTS LIST ONLY D PIECES REPAREES PAR UN ETANT ATTENTION:LES DANGEREUSES AN POINT DE VUE SECURITE 1 N’UTILISER QUE CELLS DECRITES DANS LA NOMENCLATURE DES PIECES E F G H G-14 A B C D E F G H POWER & GROUND SCHEMATIC DIAGRAM FROM/TO SDRAM 8 8 (DIGITAL PCB) FROM/TO FLASH/GPIO FROM/TO VIF/SIF DTV_ASIC IC DTV_ASIC IC IC2401 ZR39740HGCF-B0 (1/6 POWER) IC2401 ZR39740HGCF-B0 (2/6 GND) FROM/TO AV IN/OUT G6 GND GND J9 H6 GND GND K9 J6 GND GND L9 K6 GND GND M9 L6 GND GNDF10 F7 GND GNDG10 G7 GND GNDH10 H7 GND GNDJ10 J7 GND GNDK10 K7 GND GNDL10 L7 GND GNDM10 M7 GND GNDG11 F8 GND GNDH11 G8 GND GNDJ11 C2430 H8 GND GNDK11 0.1 B J8 GND GNDL11 C2431 K8 GND GNDM11 0.1 B L8 GND GNDG12 C2432 M8 GND GNDH12 0.1 B F9 GND GNDJ12 C2433 G9 GND GNDK12 VDD Bypass Cap Place cap near pin 7 C2424 R5 ADAC_VDD MVDDF12 R4 ADAC_VSS MVDDE13 VDD Bulk Bypass cap Place 1 cap per side of ZR740 0.1 B 0.1 B C2412 1 B C2406 3V3_D C2425 C2441 MVDDF13 0.1 B VDD Bypass Cap Place cap near pin 3V3_D MVDDG13 6.3V 220 TZV C2426 MVDDH13 R9 VDD_DAC MVDDJ13 2V6_D C2427 0.1 B C 10 B C2407 FCM1608KF-151T06 1 C2401 3V3_D C2442 0.1 B 3V3_VDAC C2413 B2401 U7 VDD_DAC1 6.3V 220 TZV MVDDK13 0.1 B T10 GNDDAC_P C2443 MVDDL13 1V8_D C2428 6 R10 GNDDAC_BS 6.3V 220 TZV 0.1 B C7 PLL_VDD33 C2414 1 B C2408 1 B C2402 C2444 C2429 3V3_PLL FCM1608KF-151T06 6 1V8_D 0.1 B 0.1 B B2402 3V3_D 7 6.3V 220 TZV B8 PLL_GND IVDD G5 IVDD L5 0.1 B C9 PLL_VDD18 C2415 C2409 5 1V8_PLL FCM1608KF-151T06 1 B C2403 1V8_D 1 B B2403 IVDD E7 C8 PLL_DGND IVDD N7 5 IVDD E9 IVDD N9 0.1 B VDD Bypass Cap Place cap near pin IVDD N10 C2434 F2 VFE_VDD IVDD E11 H2 VFE_VDD1 IVDD M13 0.1 B 0.1 B C2410 C2416 3V3_VFE FCM1608KF-151T06 1 B C2404 3V3_D 10 C B2404 GNDL12 E5 CVDD CVDD N8 F5 CVDD CVDDE10 H5 CVDD CVDDF11 J5 CVDD CVDDN11 C2445 IVDD R12 1 B 1 0.1 B J1 VFE_GND1 C2446 K5 CVDD CVDDE12 M5 CVDD CVDDM12 1 B A2 IFE_VDD33 C2447 D1 IFE_GND N5 CVDD CVDDN12 E6 CVDD CVDDN13 1 B 1 0.1 B C2448 F6 CVDD CVDDN15 M6 CVDD CVDDP15 1 B D2 NC B 4 C2453 1 C2449 NC B C2452 C2437 0.1 B C2417 1 B C2411 FCM1608KF-151T06 1 B C2405 4 1 0.1 B 3V3_IFE B C2451 C2436 B2405 3V3_D VDD Bypass Cap Place cap near pin C2450 C2435 E2 VFE_GND H9 GND B C2457 N6 CVDD CVDDR11 E8 CVDD CVDDT11 1 B 1 B A1 IFE_GND1 GND Maximam current:1200mA C2440 10 C C2439 10 C C2438 10 C C2423 1V8_D 10 C C2420 10 C C2419 2 10 C C2418 2V6_D 10 C 3V3_D C2422 1V8_D Maximam current:60mA 10 C 2V6_D 3 Maximam current:270mA C2421 3V3_D 10 C 3 2 GND VDD Bulk Bypass cap Place 1 cap per side of ZR740 NOTE:THIS SCHEMATIC DIAGRAM IS THE LATEST AT THE TIME OF PRINTING AND SUBJECT TO CHANGE WITHOUT NOTICE 1 A G-15 B C PCBDH0 CEF242 NOTE:THE DC VOLTAGE AT EACH PART WAS MEASURED WITH THE DIGITAL TESTER WHEN THE COLOR BROADCAST WAS RECEIVED IN GOOD CONDITION AND PICTURE IS NORMAL. D E F 1 G H G-16 A B C D FROM/TO POWER & GROUND 8 E F G H SDRAM SCHEMATIC DIAGRAM 8 (DIGITAL PCB) FROM/TO FLASH/GPIO FROM/TO VIF/SIF FROM/TO AV IN/OUT 7 7 DTV_ASIC IC IC2401 ZR39740HGCF-B0 (3/6 DDR) NR2404 4D02WGJ0150TCE SDATA5 B15 C14 SBS1 SDATA7 A15 SDATA7 DDRDQ13 A13 SADR0 SDATA1 D15 SDATA1 DDRDQ12 SDATA0 A16 SDATA0 SADR7 DDRA5 DDRA9 8 7 6 5 SDATA2 B16 SDATA2 4 3 2 1 DDRCKE M15 SADR7 SADR5 L15 SADR5 SADR9 L16 SADR9 SCKE K15 SCKE SDATA6 A17 SDATA6 SDQS0C16 SDQS0 SADR4 DDRA12 5 DDRA8 8 7 6 5 4 3 2 1 DDRA6 J17 SADR4 DDRA2 DDRA3 DDRA10 DDRA11 4 DDRBS0 DDRDQM0 DDRDQM1 DDRCASN 15 R2402 15 R2403 15 R2404 15 R2405 15 R2406 15 R2407 15 R2408 15 R2409 15 SDATA9 H15 SADR12 SDATA13 D17 SDATA13 SADR8 H16 SADR8 SDATA11 E16 SDATA11 H17 SADR6 SDATA12 E17 SDATA12 NC R2401 SDATA9 C17 SADR12 SADR6 DDRA1 7 8 1 2 3 4 5 6 7 8 DDRCK DDRCKN 15 R2411 15 DDRDQ14 6 DDR Bypass Cap Place cap near pin 1 B C2461 DDRDQ9 DDRDQ0 B 0.1 DDRDQ1 DDRDQS0 SADR1 DDRDQ2 SADR2 SADR3 SDATA10 F17 SDATA10 SDATA15 G15 SDATA15 B13 SADR2 SDATA8 G16 SDATA8 J16 SADR3 SDQS1F15 SDQS1 SADR10 K16 SADR10 SADR11 G17 SADR11 SBS0 L17 SBS0 SDQM0 B17 SDQM0 SDQM1 D16 SDQM1 SCASN M16 SCASN 1 4 3 6 5 8 7 SCLK SCLKN DDRDQ3 DDRDQ0 DDRDQ4 C2462 DDRDQ1 0.1 B C2463 DDRDQ2 DDRDQ3 DDRDQ5 DDRDQ6 10 C NR2407 4D02WGJ0150TCE C13 SADR13 K17 SADR1 2 2 1 4 3 6 5 8 7 DDRDQ7 DDRDQ5 C2464 DDRDQ6 0.1 NC B DDRDQS1 DDRDQ7 NC C2465 DDRDQS1 0.1 B NC DDRDQM1 SDATA4 E15 SDATA4 SDATA14 F16 SDATA14 R2412 R2413 15 DDRDQ11 15 DDRWEN DDRCASN DDRDQ4 DDRRASN NC DDRBS0 DDRBS1 VREF DDRA10 DDRA0 N17 SCLK DDRA1 M17 SCLKN C2458 0.1 DDRA2 B DDRA3 C2466 1 C2459 3 0.1 B DDR Bypass Cap Place cap near pin 256Mbit DDR SDRAM IC IC2402 HY5DU561622ETP-D43 C2460 DDRDQ10 DDRDQ8 SVREF J15 R2410 DDRDQ15 NR2406 4D02WGJ0150TCE NR2403 4D02WGJ0150TCE DDRA4 6 NR2405 4D02WGJ0150TCE NR2402 4D02WGJ0150TCE DDRA7 4 5 VDD VSS DQ0 DQ15 VDDQ VSSQ DQ1 DQ14 DQ2 DQ13 VSSQ VDDQ DQ3 DQ12 DQ4 DQ11 VDDQ VSSQ DQ5 DQ10 DQ6 VSSQ DQ7 NC DQ9 VDDQ DQ8 NC VDDQ VSSQ LDQS UDQS NC NC VDD VREF NC VSS LDM UDM WE CK CAS CK RAS CKE CS NC NC A12 BA0 A11 BA1 A9 AP/A10 A8 A0 A7 A1 A6 A2 A5 A3 A4 VDD VSS 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 SADR0 B14 SRASN 2 3 1 DDRA0 SBS1 1 2 1 SDATA5 3 3 2 SDATA3 C15 A14 SWEN 4 4 SRASN 5 5 6 7 6 7 DDRBS1 6 8 SDATA3 8 DDRRASN SWEN 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 NR2401 4D02WGJ0150TCE DDRWEN DDRDQ15 DDRDQ14 DDRDQ13 C2468 DDRDQ12 10 C DDRDQ11 5 DDRDQ10 DDRDQ9 C2469 DDRDQ8 1 B NC DDRDQS0 NC VREF DDRDQM0 DDRCKN DDRCK R2414 R2415 100 100 4 DDRCKE C2470 NC DDRA12 DDRA11 DDRA9 0.1 C2471 B 0.1 B Place parts near DDR DDRA8 Place parts near DDR DDRA7 DDRA6 DDRA5 R2416 DDRCKN 100 DDRA4 DDRCK B 3 C2467 10 C GND 2V6_D 2 2 PCBDH0 CEF242 1 NOTE:THIS SCHEMATIC DIAGRAM IS THE LATEST AT THE TIME OF PRINTING AND SUBJECT TO CHANGE WITHOUT NOTICE A G-17 B C D 1 NOTE:THE DC VOLTAGE AT EACH PART WAS MEASURED WITH THE DIGITAL TESTER WHEN THE COLOR BROADCAST WAS RECEIVED IN GOOD CONDITION AND PICTURE IS NORMAL. E F G H G-18 A B C D E F G H FROM/TO POWER & GROUND FLASH/GPIO SCHEMATIC DIAGRAM 8 8 (DIGITAL PCB) FROM/TO SDRAM FROM/TO VIF/SIF DTV_ASIC IC2401 ZR39740HGCF-B0 (4/6 FLASH/GPIO) 10K 10K 10K 10K R2497 R2499 7 R2498 GND R2496 FROM/TO AV IN/OUT 7 JG2425 (SPI_HOLD) GPIO_03 C6 NR2408 4D02WGJ0470TCE SPI_SO A4 SPI_CLK C4 SPI_CSN C5 7 8 5 6 3 4 1 2 SD card update JG2445 C2472 R2417 GND SPI_FLASH IC IC2405 EN25P16-50HCP JG2441 A9 CLKOUT S VCC HOLD 7 Q 3V3_D R2420 3V3_D A11 NC K1 TDO UART0RXA12 A12 NC K2 TMS NC L1 TCLK 4.7K J3 TAPSEL 5 R2491 UART1TXA10 A10 UART1RXB10 B10 R2515 47 R2516 10 UART1TX_MB SDA VSS R2422 47 I2C1C R2423 47 I2C1D R2424 47 I2C0D C12 I2C0C SCN_MODE M2 C11 I2C0D TST_MODE M1 I2C0D B11 I2C1C 10 B 47 R2430 6 SCL I2C0C R2421 I2C1C B12 I2C1D GND 5 4 3 0.1 A2 JG2443 JG2444 D GND I2C0C 7 2 WP SD_WR Pull up resistor C2582 A1 JG2412 5 8 1 VCC VSS 6 JG2411 SD_CLK UART1RX_MB EEPROM IC IC2403 AT24C04N-10SU-2.7 A0 C 6 UART0TXA11 W/VPP 5 K3 TDI 3 NC IRR IRR C10 4 L2 TRSTN JG2410 SD_CS JG2440 4.7K NC JG2409 3V3_D SD_DET SD_RD 100 2 18P CH 0.1 B 1M SPI_WEN A3 4.7K C2474 R2490 B4 8 C2473 SPI_SI 1 6 R2429 X2401 18P CH 100GA02502 25.000MHz B9 CLKIN 4 NC A7 I2CTRNC NC B7 I2CTRND (CSEL) GPIO_06 L3 (CB_UP) GPIO_07 M3 NC (TSOCLK) GPIO_08 N1 NC LED_RED JG2401 GPIO_09 JG2402 GPIO_11 JG2403 I2C1D R2434 2.2K R2435 2.2K R2436 2.2K R2437 2.2K 3V3_D 4 GND (TSODATA) GPIO_09 N2 (TSOFAIL) R2425 GPIO_10 N3 R2460 RESETN A8 RESETN 22 (TSOFRM) GPIO_11 P1 22 GPIO_12 1K A12 C2454 3V3_D GND SD_CS B10 (SPARE) GPIO_18 R6 NC (RF_SWITCH) GPIO_17 T6 NC CH_DN JG2407 (SPARE) GPIO_22 R8 LED_GRN JG2408 (STATUS2) GPIO_14 U5 SD_H/SEL_SW (TSIOCLK) AFT1 (TSIOFAIL) GPIO_23 T12 2.2K R2504 2.2K R2505 2.2K R2506 2.2K AFT1 R2517 4.7K R2519 4.7K R2512 2.2K MSG_REQ AFT0 GPIO_24 U12 (TSIOFRM) GPIO_26 T13 GPIO_26 JG2413 (TSIOVAL) GPIO_25 JG2414 GPIO_25 R13 (STATUS0) GPIO_19 T7 R2503 3 (SPARE) GPIO_20 R7 (TSIODATA) GPIO_27 U13 2 A10 JG2404 (SPARE) GPIO_15 T5 0.001 B R2426 (TSOVAL) GPIO_12 P2 3 A11 NC AFT0 SD_DET NC 2 SD_DET GPIO_16 U6 GPIO_21 T8 VID_DET JG2415 GPIO_41 P16 VID_IN_DEL JG2416 GPIO_42 N16 REOUT_SEL JG2417 PCBDH0 CEF242 NOTE:THIS SCHEMATIC DIAGRAM IS THE LATEST AT THE TIME OF PRINTING AND SUBJECT TO CHANGE WITHOUT NOTICE 1 A G-19 B C D 1 NOTE:THE DC VOLTAGE AT EACH PART WAS MEASURED WITH THE DIGITAL TESTER WHEN THE COLOR BROADCAST WAS RECEIVED IN GOOD CONDITION AND PICTURE IS NORMAL. E F G H G-20 A B C D FROM/TO POWER & GROUND 8 E F G H VIF/SIF SCHEMATIC DIAGRAM 8 (DIGITAL PCB) FROM/TO SDRAM FROM/TO FLASH/GPIO FROM/TO AV IN/OUT 7 7 DTV_ASIC IC IC2401 ZR39740HGCF-B0 (5/6 VIF/SIF) R2445 C2476 100 0.01 B IF_P R2446 C2477 100 0.01 B C2480 56P CH L2401 6 0.22uH B1 IFE_AIN_P IF_N 6 C1 IFE_AIN_N R2448 IF_AGC 0.1 B C2478 A5 IF_AGC GND CH 47P C2530 75 R2462 C2529 47P CH 75 R2461 220 R2468 R2467 6.8K 560 R2469 R2470 +5V 6.8K 2K +-1% JG2418 B5 RF_AGC JG2419 A6 AGC_SENSE JG2420 B6 PWM_OUT C2533 5 C2536 AMP Q2420 KTC4075E-Y-RTK/P SIF/2ND_CVBS 0.1 B C2537 H1 VFE_CIN JG2423 0.1 B R2447 B 47 F3 VFE_CVBS3/SIF IN 750 R2466 R2465 6.8K C2532 680P CH 100 R2464 R2463 1.8K 1 B 0.1 G2 VFE_YIN JG2422 AMP Q2421 KTC4075E-Y-RTK/P C2475 C2531 5 P17 SADATA JG2421 0.1 B C2479 GND 47P CH 4 4 C2550 10 C C2538 E3 VFE_CVBS2 IFE_VCM C3 JG2431 F1 VFE_CVBS1 IFE_VREFP B2 JG2432 JG2426 J2 VFE_VCM IFE_VREFN B3 JG2433 JG2427 G3 VFE_VREFP IFE_VBIAS D3 JG2434 JG2428 G1 VFE_REFN IFE_RBIAS C2 JG2435 JG2429 H3 VFE_IBEXT JG2430 E1 VFE_VBG JG2424 6.2K R2473 0.1 B C2554 0.1 B C2553 0.1 B C2552 0.1 B C2551 C2535 B 47P CH R2472 B C2549 0.1 C C2548 10 B 0.1 C C2547 C2546 10 B 0.1 C C2545 C2544 10 B 0.1 C C2543 10 C2542 B 0.1 C C2541 10 C2540 C2539 47P CH 3 75 0.1 W801 CVBS_IN/740_INIT GND 3 GND 2 2 PCBDH0 CEF242 NOTE:THIS SCHEMATIC DIAGRAM IS THE LATEST AT THE TIME OF PRINTING AND SUBJECT TO CHANGE WITHOUT NOTICE 1 A G-21 B C D 1 NOTE:THE DC VOLTAGE AT EACH PART WAS MEASURED WITH THE DIGITAL TESTER WHEN THE COLOR BROADCAST WAS RECEIVED IN GOOD CONDITION AND PICTURE IS NORMAL. E F G H G-22 A B C D FROM/TO POWER & GROUND 8 E F G H AV IN/OUT SCHEMATIC DIAGRAM 8 (DIGITAL PCB) FROM/TO SDRAM Spurious filter Place circuit near CP2403 FROM/TO FLASH/GPIO DTV_ASIC IC2401 B2407 C2499 FCM1608KF-102T02 R2453_1 C2498 FCM1608KF-102T02 0.001 B C2481 0.001 B IF_AGC 75 U8 VDAC_COMP B2406 7 L2421_1 PB_OUT Pb OUT PB_OUT 14 Y OUT Y_OUT 13 Pr OUT PR_OUT I2C_DATA R2454 75 +-1% C2561 47P CH C2556 R2455 C2560 C2557 75 R2456_1 C2500 0.001 B CH NC T4 DDXRA NC U2 DDXRB NC U3 DDXLA R2451 DDXRA NC PIXOUT0 U17 NC PIXEN U14 NC VSYNCT14 NC HSYNCR14 NC PIXCLK R17 NC 6 5 10 C 33P CH JG2439 T1 DDXSB 6 5 NR2409 4D02WGJ0150TCE BCLK GND LRCK AOUTL ACLK FILT+ 2 10 C VA T3 DDXLB 1 10 SDIN 8 7 6 5 4 3 2 1 R2 BCLK R3 LRCLK R1 ACLK 3 C2518 10 C C C2521 22K 10 R2484 VQ NC U1 IEC958 10 C 7 AOUTR C2522 8 R2485 470 C2524 4 4 + - 10K C2568 T2 DDXSA 3 4 + DDXLA DDXLB C2567 10 C C2514 C2511 0.001 B 0.001 B C2497 10 C 2V6_D C2494 3 R2486 R2487 JG2438 5 2 ADUIO_L B2419 HCB3216KF-601T20 C2520 1 VCC OPE AMP IC IC2420 NJM4580V(TE1) B C2572 0.1 C2565 10K 0.0027 10 C C2513 C2510 HCB3216KF-301T25 0.001 B 0.001 B C2496 10 C C2493 1V8_D 33P CH C2517 C2569 B2418 U4 ADATAI[1] C2525 AUDIO_DAC IC IC2406 CS4345-CZZ 22K R2489 B 10 C C2512 C2509 HCB3216KF-601T20 0.001 B 0.001 B 10 C C2492 C2495 3V3_D 3 16V 100 TZV B2417 P3 ADATAI[0] JG2437 R2452 B C2570 0.0027 B C2507 0.001 C2490 GND 0.001 B MSG_REQ FCM1608KF-102T02 9 10 C B2415 JG2436 33P CH 8 470 DDXRB 33P CH C2526 7 C2571 C2527 6 R2488 AUDIO_R Please refer the pin assignment table on page 6. 0.1 B +2.6V 10 C C2519 +5V 2V6_D 100K 5V_D 1 100K 2 CP2403 Pin assignment: 2 NC PIXOUT1 R15 UART1RX_MB 1K R2478 GND NC PIXOUT2 T15 B2414 FCM1608KF-102T02 R2479 3 +1.8V 1K R2481 GND R2480 1V8_D 4 GND 100P CH 5 +3.3V 100P CH AFT0/MSG_REQ A_GND 3V3_D 6 FCM1608KF-102T02 UART1TX_MB C2515 7 C2488 RX(DM_MAIN) 47P 8 R2459 18 +-1% B2413 CH TX(DM_MAIN) C2489 9 47P 10 12K I2C_CLK NC PIXOUT3 U15 I2C0D 2.2 B C2566 11 PIXOUT4 R16 7 B2410 FCM1608KF-102T02 2.2 B C2516 DTV_RESET NC T9 REFSET I2C0C 12K 12 47P CH 15 ADUIO_L SIF/2ND_CVBS C2501 SIF/2ND_CVBS 47P CH AUDIO_L 16 FCM1608KF-102T02 C2502 17 AUDIO_R R2457 330 +-1% GND CH AUDIO_R NC PIXOUT5 T16 U11 VDAC_V B2409 +9V C2505 +9V NC PIXOUT6 U16 47P SPDIF FCM1608KF-102T02 CH 20 19 NC NC C2506 AFT1 47P IF_AGC 21 PIXOUT7 T17 RESETN C2483 22 B2408 0.001 B GND NLV25 75 +-1% IF_P 0.47uH 47P CH IF_P 47P CH 24 47P CH R2475 IF_N 18 4 R2476 IF_N 23 U10 VDAC_Y 75 +-1% 25 47P CH GND C2484 SD_H/SEL_SW 26 NLV25 Y_OUT 47P CH 27 0.47uH L2422_1 CVBS_IN/740_INIT C2485 28 CVBS_IN/740_INIT 75 +-1% U9 VDAC_U CP2403 IMSA-6029B-1-28Z136-PT1 5 (6/6 AV I/O) 0.001 B C2482 0.001 B FROM/TO VIF/SIF 6 ZR39740HGCF-B0 SD_H/SEL_SW B2421 +5V FCM1608KF-102T02 2 +9V Spurious filter Place circuit near connector PCBDH0 CEF242 A G-23 NOTE:THE DC VOLTAGE AT EACH PART WAS MEASURED WITH THE DIGITAL TESTER WHEN THE COLOR BROADCAST WAS RECEIVED IN GOOD CONDITION AND PICTURE IS NORMAL. NOTE:THIS SCHEMATIC DIAGRAM IS THE LATEST AT THE TIME OF PRINTING AND SUBJECT TO CHANGE WITHOUT NOTICE 1 B C D E F 1 G H G-24