SONY KDE42XBR950 - KDE50XBR950 PLASMA WEGA VOLTAGE ADJUSTMENT AND POWER SUPPLY CIRCUIT
VOLTAGE ADJUSTMENT AND SMPS POWER SUPPLY CIRCUIT
VS, VD VOLTAGE ADJUSTMENTS
(PDM-4210/5010)
• Preparation for adjustment
1. Slide the DIP switch (S3201) No. 8 of P board to on position with no silkscreen mark
2. Connect a digital voltmeter to the following terminals of G board.
VS voltage=G board TP1701 (VS)-TP1502 (GND)
VD voltage=G board TP1501 (VD)-TP1502 (GND)
3. Connect a AC cord in DISPLAY UNIT.
4. Perform the adjustment in 10 seconds after connecting the cord.
• Procedure for adjustment
1. Slide the DIP switch (S3201) No. 7 of P board to on position with no silkscreen mark
2. Confirm the lighting of SONY LOGO LED.
3. Adjust the VS voltage to the following voltage value. VS voltage of proper value for each model. Ex.) VS proper value=185V thru 185.6V at 185V. (Check the proper value with a seal on upper left of panel unit. Refer to right Fig.)
4. Adjust the VD voltage to the following voltage value. VD voltage ±0.3V of proper value for each model. Ex.) VD proper value=64.7V thru 65.3V at 65.0V.
(Check the proper value with a seal on upper left of panel unit. Refer to right Fig.)
5. Check a Fan rotation.
6. Slide the DIP Switch (S3201) No. 7 of P board to the off position with the silkscreen mark
7. Slide the DIP Switch (S3201) No. 8 of P board to the off position with the silkscreen mark
8. Disconnect an AC cord of DISPLAY UNIT.
9. Reconnect the AC cord in one second.
10. Assure that “POWER ON/STANDBY” LEDs is flashing amber.
(PDM-4210/5010)
• Preparation for adjustment
1. Slide the DIP switch (S3201) No. 8 of P board to on position with no silkscreen mark
2. Connect a digital voltmeter to the following terminals of G board.
VS voltage=G board TP1701 (VS)-TP1502 (GND)
VD voltage=G board TP1501 (VD)-TP1502 (GND)
3. Connect a AC cord in DISPLAY UNIT.
4. Perform the adjustment in 10 seconds after connecting the cord.
• Procedure for adjustment
1. Slide the DIP switch (S3201) No. 7 of P board to on position with no silkscreen mark
2. Confirm the lighting of SONY LOGO LED.
3. Adjust the VS voltage to the following voltage value. VS voltage of proper value for each model. Ex.) VS proper value=185V thru 185.6V at 185V. (Check the proper value with a seal on upper left of panel unit. Refer to right Fig.)
4. Adjust the VD voltage to the following voltage value. VD voltage ±0.3V of proper value for each model. Ex.) VD proper value=64.7V thru 65.3V at 65.0V.
(Check the proper value with a seal on upper left of panel unit. Refer to right Fig.)
5. Check a Fan rotation.
6. Slide the DIP Switch (S3201) No. 7 of P board to the off position with the silkscreen mark
7. Slide the DIP Switch (S3201) No. 8 of P board to the off position with the silkscreen mark
8. Disconnect an AC cord of DISPLAY UNIT.
9. Reconnect the AC cord in one second.
10. Assure that “POWER ON/STANDBY” LEDs is flashing amber.
WHITE BALANCE ADJUSTMENT
(PDM-4210/5010)
• Measurement equipment
1. Color analyzer (CA-100 manufactured by MINOLTA)
1. Signal generator (ASTRO DESIGN VG-828D)
• Measuring procedure
1. Dab the W/B adjustment jig (CA-100) at the glass face of the panel.
2. Connect the Signal generator (VG-828D) to the DVI terminal.
3. Input All-white signal and set the picture mode to DYNAMIC.
4. Select”PNLCTRL” in the service mode menu and set “0 WBNO” at “0”
5. Select “SCNR” “SCNB” of “PDPWB” in the service mode menu, and then adjust following W/B standardized values of 6500K, 8000K, 9300K, 10000K and 13550K to following values of X/Y.
(PDM-4210/5010)
• Measurement equipment
1. Color analyzer (CA-100 manufactured by MINOLTA)
1. Signal generator (ASTRO DESIGN VG-828D)
• Measuring procedure
1. Dab the W/B adjustment jig (CA-100) at the glass face of the panel.
2. Connect the Signal generator (VG-828D) to the DVI terminal.
3. Input All-white signal and set the picture mode to DYNAMIC.
4. Select”PNLCTRL” in the service mode menu and set “0 WBNO” at “0”
5. Select “SCNR” “SCNB” of “PDPWB” in the service mode menu, and then adjust following W/B standardized values of 6500K, 8000K, 9300K, 10000K and 13550K to following values of X/Y.
6. After adjusting the values, at the values of
the “SCNR” or “SCNB” exceeding 128 (initialize value).
1) Reset a lager value of the “SCNR” or “SCNB” at 128.
2) Set the White Balances with the last of items and “SCNG” to the X/Y values above.
7. After the above step, when these item are nonqualified following conditions, set the largest one at 128 and readjust the White Balance with the last two item.
1) No one of “SCNR”, “SCNB” and “SCNG” exceeding 128.
2) Confirm the item value 128 at least one item.
8. As a result above, input the sequential number of value to the “SCNR”, “SCNB” and “SCNG”.
9. Repeat the same step 5 thru 8 for the W/B 1 thru 4 after setting the “0 WBNO” at each W/B number.
10.Input following signals from the Signal generator (VG- 828D).
1) All-white signal (255/255) input
Y (luminance)=45cd/m2 or more
2) 1/25Window (255/255) input
Y (luminance)=45cd/m2 or more
1) Reset a lager value of the “SCNR” or “SCNB” at 128.
2) Set the White Balances with the last of items and “SCNG” to the X/Y values above.
7. After the above step, when these item are nonqualified following conditions, set the largest one at 128 and readjust the White Balance with the last two item.
1) No one of “SCNR”, “SCNB” and “SCNG” exceeding 128.
2) Confirm the item value 128 at least one item.
8. As a result above, input the sequential number of value to the “SCNR”, “SCNB” and “SCNG”.
9. Repeat the same step 5 thru 8 for the W/B 1 thru 4 after setting the “0 WBNO” at each W/B number.
10.Input following signals from the Signal generator (VG- 828D).
1) All-white signal (255/255) input
Y (luminance)=45cd/m2 or more
2) 1/25Window (255/255) input
Y (luminance)=45cd/m2 or more
POWER SUPPLY CIRCUIT
1. LINE FILTER
2. MAIN POWER
3. FAN CONTROL
