SONY KDL-40W2000
LCD TV
LED BLINKING ERROR CODES SERVICE MODE AND POWER SUPPLY CIRCUIT
ERROR IDENTIFICATION
The identification of errors within the WAX2F
chassis is triggered in one of two ways :- 1: Busy or 2: Device failure to
respond to IIC. In the event of one of these situations arising the software
will first try to release the bus if busy (Failure to do so will report with a
continuous flashing LED) and then communicate with each device in turn to
establish if a device is faulty. If a device is found to be faulty the relevant
device number will be displayed through the LED (Series of flashes which must
be counted).
LED BLINKING CODES
LED ERROR CODE
|
ERROR
DESCRIPTION
|
1
|
UNREG33V Supply Voltage Trouble (DCALERT3)
|
2
|
VD1.8, DE5V/6V Voltage Trouble (DCALERT2)
|
3
|
UNREG10.5V, PANEL5V Voltage Trouble (DCALERT1)
|
4
|
Backlight Trouble
|
5
|
Main Supply Voltage Trouble
|
6
|
Speaker Applied Voltage Trouble
|
7
|
Monitor an Increase in Inside-Temperature (esp.
on the panel side)
|
8
|
Trident IC Trouble
|
9
|
DTT Trouble (Communications / BS_CS_PROT)
|
How to enter Service Mode
Service adjustments to this model can be
performed using the supplied remote Commander RM-ED008.
1. Turn on the power to the TV set and enter into the stand-by mode.
2. Press the following sequence of buttons on the Remote Commander.
1. Turn on the power to the TV set and enter into the stand-by mode.
2. Press the following sequence of buttons on the Remote Commander.
(ON SCREEN DISPLAY)
> (DIGIT 5) > (VOLUME +) > (TV)
4. Move to the relevant command using the up
or down arrow buttons on the remote commander.
5. Press the right arrow button to enter into the required menu item.
6. Press the ‘Menu’ button on the remote commander to quit the Service Mode when all adjustments have been completed.
5. Press the right arrow button to enter into the required menu item.
6. Press the ‘Menu’ button on the remote commander to quit the Service Mode when all adjustments have been completed.
Note :
# After carrying out the service adjustments, to prevent the customer accessing the ‘Service Menu’ switch the TV set OFF and then ON.
Set up of AD calibration1 adjustment for terrestrial analog.
# After carrying out the service adjustments, to prevent the customer accessing the ‘Service Menu’ switch the TV set OFF and then ON.
Set up of AD calibration1 adjustment for terrestrial analog.
1. Send ECS_ADJUST_LEVEL_SETTING_INIT command.
2. Ensure noise reduction NR=3 (High), GAMMA_EN=0, P4_CVD2_85=0.
3. Set the following registration items.
2. Ensure noise reduction NR=3 (High), GAMMA_EN=0, P4_CVD2_85=0.
3. Set the following registration items.
Screen
Size
|
40"
|
46"
|
TARGET_Y_RF(PAL)
|
165
|
165
|
ADJ_COLOR_Y_ATT(PAL)
|
128
|
128
|
ADJ_COLOR_PAL(PAL) |
3
|
3
|
Set up Trident internal SG and
brightness measurement
1. Ensure TEST_PATTEN_ON=1.
2. Ensure TEST_G_LEVEL=204.
3. Measure brightness A.
4. Ensure TEST_G_LEVEL=102.
5. Measure brightness B.
6. Set up G_GAMMA_OFST_01=brightness B/brightness
A#10000. The result is written to G_GAMMA_OFST_01.
7. Send Gamma_Tbl_Search_1 command.
8. Ensure TEST_G_LEVEL=153.
9. Measure brightness C.
10. Set up G_GAMMA_OFST_02=brightness C/brightness
A#10000. The result is written to G_GAMMA_OFST_02.
11. Send Gamma_Tbl_Search_2 command.
12. Save set up value in NVM in register G_GAM_IDX_OFST.
2. Ensure TEST_G_LEVEL=204.
3. Measure brightness A.
4. Ensure TEST_G_LEVEL=102.
5. Measure brightness B.
6. Set up G_GAMMA_OFST_01=brightness B/brightness
A#10000. The result is written to G_GAMMA_OFST_01.
7. Send Gamma_Tbl_Search_1 command.
8. Ensure TEST_G_LEVEL=153.
9. Measure brightness C.
10. Set up G_GAMMA_OFST_02=brightness C/brightness
A#10000. The result is written to G_GAMMA_OFST_02.
11. Send Gamma_Tbl_Search_2 command.
12. Save set up value in NVM in register G_GAM_IDX_OFST.
White Balance Adjustment
Set up mode for White Balance
Adjustment
1. Send ECS_ADJUST_LEVEL_SETTING_INIT command.
2. Ensure COL_MATRIX_INDEX=3.
3. Ensure DYNAMIC_EN=0.
4. Ensure U_BRT_OFFSET=128.
2. Ensure COL_MATRIX_INDEX=3.
3. Ensure DYNAMIC_EN=0.
4. Ensure U_BRT_OFFSET=128.
White Balance of Colour
Temperature “Cool”
1. Set up COLOR_TEMP=0.
2. Set up R_GAMMA_OFST_01=128.
3. R_GAMMA_OFST_02=128
R_GAMMA_OFST_03=128
R_GAMMA_OFST_04=128
R_GAMMA_OFST_05=128
R_GAMMA_OFST_06=128
R_GAMMA_OFST_07=128
B_GAMMA_OFST_01=128
B_GAMMA_OFST_02=128
B_GAMMA_OFST_03=128
B_GAMMA_OFST_04=128
B_GAMMA_OFST_05=128
B_GAMMA_OFST_06=128
B_GAMMA_OFST_07=128
4. Set up “Wait”.
5. Set up TEST_G_LEVEL=204.
6. Adjust R_GAMMA_OFST_05 and B_GAMMA_OFST_05
7. Set up TEST_G_LEVEL=153.
8. Adjust R_GAMMA_OFST_04 and B_GAMMA_OFST_04
2. Set up R_GAMMA_OFST_01=128.
3. R_GAMMA_OFST_02=128
R_GAMMA_OFST_03=128
R_GAMMA_OFST_04=128
R_GAMMA_OFST_05=128
R_GAMMA_OFST_06=128
R_GAMMA_OFST_07=128
B_GAMMA_OFST_01=128
B_GAMMA_OFST_02=128
B_GAMMA_OFST_03=128
B_GAMMA_OFST_04=128
B_GAMMA_OFST_05=128
B_GAMMA_OFST_06=128
B_GAMMA_OFST_07=128
4. Set up “Wait”.
5. Set up TEST_G_LEVEL=204.
6. Adjust R_GAMMA_OFST_05 and B_GAMMA_OFST_05
7. Set up TEST_G_LEVEL=153.
8. Adjust R_GAMMA_OFST_04 and B_GAMMA_OFST_04
9. Set up TEST_G_LEVEL=102.
10. Adjust R_GAMMA_OFST_03 and B_GAMMA_OFST_03
10. Adjust R_GAMMA_OFST_03 and B_GAMMA_OFST_03
11. Set up TEST_G_LEVEL=76.
12. Adjust R_GAMMA_OFST_02 and B_GAMMA_OFST_02
12. Adjust R_GAMMA_OFST_02 and B_GAMMA_OFST_02
13. Set up TEST_G_LEVEL=51.
14. Adjust R_GAMMA_OFST_01 and B_GAMMA_OFST_01
14. Adjust R_GAMMA_OFST_01 and B_GAMMA_OFST_01
15. The values of R_GAMMA_OFST_06 and 07 and
B_GAMMA_OFST_06, and 07 are determined by the following conditions.
a). Adjustment value of B_GAMMA_OFST_05>180 and
Adjustment value of R_GAMMA_OFST_05>128.
# B(R)_GAMMA_OFST_06 = B(R)_GAMMA_OFST_05 -
{B(R)_GAMMA_OFST_05 - B(R)_GAMMA_OFST_04} / 2.
# B(R)_GAMMA_OFST_07 = 128
B_GAMMA_OFST_06, and 07 are determined by the following conditions.
a). Adjustment value of B_GAMMA_OFST_05>180 and
Adjustment value of R_GAMMA_OFST_05>128.
# B(R)_GAMMA_OFST_06 = B(R)_GAMMA_OFST_05 -
{B(R)_GAMMA_OFST_05 - B(R)_GAMMA_OFST_04} / 2.
# B(R)_GAMMA_OFST_07 = 128
b). Adjustment value of
R_GAMMA_OFST_05=<128.
# R_GAMMA_OFST_06 = R_GAMMA_OFST_07 =R_GAMMA_OFST_04.
c). Adjustment value of B_GAMMA_OFST_05=<180.
# B(R)_GAMMA_OFST_06 = B(R)_GAMMA_OFST_07
# R_GAMMA_OFST_06 = R_GAMMA_OFST_07 =R_GAMMA_OFST_04.
c). Adjustment value of B_GAMMA_OFST_05=<180.
# B(R)_GAMMA_OFST_06 = B(R)_GAMMA_OFST_07
16. Send WB_SAVE command .
POWER SUPPLY CIRCUIT
CLICK ON THE IMAGE TO ZOOM IN