KLVS26A10, KLVS32A10 – Sony LCD TV SMPS board schematic, LED blinking codes – WAX chassis

November 1, 2017, 12:14 am

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Television system: American TV Standard

Channel coverage: VHF: 2-13/UHF: 14-69/ Cable TV: 1-125

Panel System: LCD (Liquid Crystal Display) Panel

KLV-S26A10T - RM-YA001 - BRAZIL

KLV-S26A10T - RM-YA001 - ARGENTINA

KLV-S32A10T - RM-YA001 -BRAZIL

KLV-S32A10T - RM-YA001 - ARGENTINA

WAX CHASSIS

The circuit boards used in these models have been processed using Lead Free Solder. The boards are identified by the LF logo located close to the board designation.. The servicing of these boards requires special precautions to be taken.

It is strongly recommended to use Lead Free Solder material in order to guarantee optimal quality of new solder joints.

Due to the higher melting point of Lead Free Solder the soldering iron tip temperature needs to be set to 370 degrees centigrade.This requires soldering equipment capable of accurate temperature control coupled with a good heat recovery characteristics.

SMPS [Power board] circuit diagram and PWB component and foil side

How to Find a Good Earth Ground
A cold-water pipe is a guaranteed earth ground; the cover-plate retaining screw on most AC outlet boxes is also at earth ground. If the retaining screw is to be used as your earth ground, verify that it is at ground by measuring the resistance between it and a cold-water pipe with an ohmmeter. The reading should be zero ohms.

The unit contains a self-diagnostic function. If an error occurs, the POWER LED will automatically begin to fl ash. The number of times the LED fl ashes translates to a probable source of the problem. A definition of the POWER LED flash indicators is listed in the instruction manual for the user’s knowledge and reference. If an error symptom is difficult to reproduced use the Remote Commander to display the record that is stored at the internal NVM to specify the cause of the failure.

Diagnostic Test Indicators

When an error occurs, the POWER LED will fl ash a set number of times to indicate the possible cause of the problem. If there is more than one error, the LED will identify the first of the problem areas. If the errors occur simultaneously, the one that corresponds to the fewest flashes is identified first. Results for all of the following diagnostic items are displayed on screen. No error has occurred if the screen displays a “0”.

Electro help - Service Modes, Circuit Diagrams, Firmware Update procedure, Disassemble procedure, Universal remote control set-up codes, Troubleshooting and more....

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KDL40R420, KDL32R420 – Sony LCD TV – repair procedure, software update, disassemble procedure

November 1, 2017, 1:42 am

≫ Next: Philips AZ385/05/12/96 – CD/MP3/FM/USB – Schematic – exploded view

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KDL-32R420B RM-YD092 US/CND 

KDL-40R470B RM-YD092 US/CND - ITC3 Chassis

TROUBLESHOOTING

DIAGNOSING THE ERROR

Before servicing the Television

1. Verify the TV has the symptom the customer indicated.

2. Check to see if the latest Software is installed.

a. If not, install the latest version.

3. Determine the replacement part required.

VIEWING THE SELF CHECK DIAGNOSIS HISTORY

When an error is detected, the Self Check screen records the number of times the error occurred. This is helpful in confirming past occurrences of an error and for determining if an error is intermittent when the customer is not sure what is causing the television to shut down. If the screen displays a “0”, no error has occurred.

Press the Power  to turn on the TV and then turn it off again.

2. Press the following buttons on the Remote Commander within 1 second of each other:

Info(i+) > Channel (5) > Volume (--) > Power

NOTE: This differs from accessing Service Adjustments Mode (Volume +)

Click on the pictures to magnify

TRIAGE CHART

Use this general Triage Chart to determine what may possibly be causing the error before going out to the customers location.

Confirm the symptom from the customer. Red Dot: (Primary) Most likely defective part.
2. Select that symptom from the chart. Blue Triangle: (Secondary) Possible defective part.
3. Bring the primary component listed for that symptom.
5. Chart Color Code.
4. Follow the  flowchart to isolate the board  .

Chart Color Code

REPAIRING THE TV
If the latest Software does not correct the issue, complete the following:
1. Verify the television has the symptom the customer indicated.
2. Replace part causing the symptom.
3. Install the latest version of Software (Required for ALL repairs).
4. Perform the required service adjustments and checks.
5. Verify the repair resolved the issue.

REMOVING THE TABLE TOP STAND
1. Place TV face down on a flat and steady surface.

2. Remove all screws and grasp as shown to detach the Table Top Stand.

REMOVING THE LOWER COVER
1. Locate and remove all screws from the Lower Cover.

2. Locate the areas shown in the illustration and detach the Lower Cover from the TV.

REPLACING THE MAIN BOARD
The Main Board used in these models is available for repair.

1. Slide the Side Bracket and Under Bracket to detach from Main Board.

2. Locate and disconnect the connectors. Then remove all screws from the Main Board and lift to detach.

3. Install the new Main Board, connectors and screws.
4. Update the Software.
After ALL repairs UPDATE the SOFTWARE to the latest version.

Software update procedure

a. Insert the USB device with the latest Software into one of the TVs’ USB ports.
b. Connect TV to AC power.
c. Wait at least 20 seconds.
d. Press the Power on the remote to turn ON the TV.
e. Wait until the Software update is completed.

5. To access Service Mode, turn TV ON and OFF again then press the following buttons within 1 second of each other:

Info (i+) > Channel (5) > Volume (+) > Power

6. Press the DN until Panel Selection is selected.

7. Press Left or Right to select the correct Panel Code for the TV model.  (Use the table below for reference)

8. Locate the Serial Number for the TV on the side of the Rear Cover.

9. Press DN until SERIAL NUMBER EDIT is selected.

10. Press RIGHT to be able to select the first digit.

11. Press UP or DOWN to select numbers and then RIGHT to move to the next digit until Serial Number is complete.

CAUTION: The Serial Number can only be selected once. Be sure to verify the information is correct before saving the changes.
12. When the complete Serial Number displays, press (+)

13. On the confirmation screen, press LEFT to select YES and then (+)

14. Press DN until MODEL NAME EDIT is selected.

15. Press RIGHT to be able to select the frst character.

16. Press UP or DN to select characters and then to move to the next space until Model Name is complete.

NOTE: Make sure to include dash in Model Name.

CAUTION: The Model Name can only be selected once. Be sure to verify the information is correct before saving the changes.

17. When the complete Model Name displays, press (+)

18. On the confirmation screen, press LEFT to select YES and then (+)

19. Press POWER  to exit Service Mode

How to remove the speakers, replacing the switch unit

Disconnect the connector from Speakers and lift as shown to detach.

REPLACING THE SWITCH UNIT

1. Disconnect the connector from the Switch Unit and lift as shown to remove.

2. Install the new Switch Unit and its connector.

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Philips AZ385/05/12/96 – CD/MP3/FM/USB – Schematic – exploded view

November 13, 2017, 7:55 pm

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Used Ics: S14831-SSOP, D8277 - Philips AZ385 – power adapter, main board circuit diagram, exploded view, PWB layout

Power adapter schematic

Main board - schematic and PWB bottom view

Exploded view

Click on the pictures to zoom in

Electro help - Service Modes, Circuit Diagrams, Firmware Update procedure, Disassemble procedure, Universal remote control set-up codes, Troubleshooting and more....

Philips AZ380/55/96/93/94, AZ380S(X)/78 - CD Soundmachine – circuit diagram – exploded view

November 13, 2017, 8:42 pm

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Used Ics: S14831, D8227, AZ380 M5673/AZ380 M5676, SCA4720, ET8861E

All ICs and many other semi-conductors are susceptible to electrostatic discharges (ESD). Careless handling during repair can reduce life drastically.
When repairing, make sure that you are connected with the same potential as the mass of the set via a wrist wrap with resistance.Keep components and tools also at this potential.

Circuit diagram - (Schematic) - main

Keyboard and control - schematic

PWB

Wiring diagram

Exploded view

Click on the pictures to magnify

Electro help - Service Modes, Circuit Diagrams, Firmware Update procedure, Disassemble procedure, Universal remote control set-up codes, Troubleshooting and more....

Sharp LC-39LE650E , LC-50LE650E - LED LCD COLOUR TELEVISION – how to enter service mode, white balance adjustment, initialization, software update and more

November 19, 2017, 3:44 am

≫ Next: RCA L15D20, AOC 1255A LD7552BiCOMS SMPS CIRCUIT DIAGRA - 15 inch LCD TV – How to enter the service mode,Service mode, white balance adjustments and more Remote control part number: R130D1

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Wi-Fi & 3D Ready / DVB-T / T2 / C / S / S2 PAL B/G / SECAM B/G, D/K, L/L’ SYSTEM COLOUR TELEVISION, LC-39LE650E/RU/V, LC-39LE651E/K/RU/V, LC-39LE652E/RU/V, LC-50LE650E/RU/V, LC-50LE651E/K/RU/V, LC-50LE652E/RU/V

When fxing the PWB soldered with the lead-free solder, apply lead-free wire solder. Repairing with conventional lead wire solder may cause damage or accident due to cracks. As the melting point of lead-free solder (Sn-Ag-Cu) is higher than the lead wire solder by 40°C, we recommend you to use a dedicated soldering bit.

As the melting point of lead-free solder (Sn-Ag-Cu) is about 220°C which is higher than the conventional lead solder by 40°C, and as it has poor solder wettability, you may be apt to keep the soldering bit in contact with the PWB for extended period of time. However, Since the land may be peeled off or the maximum heat-resistance temperature of parts may be
exceeded, remove the bit from the PWB as soon as you confrm the steady soldering condition.
Lead-free solder contains more tin, and the end of the soldering bit may be easily corroded. Make sure to turn on and off the power of the bit as required.
If a different type of solder stays on the tip of the soldering bit, it is alloyed with lead-free solder. Clean the bit after every use of it.
When the tip of the soldering bit is blackened during use, fle it with steel wool or fne sandpaper.
Be careful when replacing parts with polarity indication on the PWB silk.

Adjustment method after PWB and/or IC replacement due to repair

The unit is set to the optimum performance at the time of shipment from the factory.
If any value should become improper or any adjustment is necessary due to the part replacement, make an adjustment according to the following procedure,

MAIN UNIT DUNTKG135FNxx
NOTE: [Caution when replacing ICs in the main unit (IC0503, IC1507, IC1508, IC1509, IC1510)]

Entering and exiting the adjustment process mode. Standard method.
1. By key-unit.
1. Unplug the AC power cord, plug the AC power cord and wait until pyramid led blue is iluminated and then:
2. Press and hold “V-” and “CH-” keys, simultaneously.
3. “SHARP FACTORY MENU” appears.
4. Unplug the AC power cord to exit of adjustments process.

By own R/C
1. Turn on the TV set.
2. Press “MENU”.
3. Press “9”, ”9”, ”9”, “2”, “2”, “2” (to enter this code the time is limited to 5 sec. approx.)
4. “SERVICE MENU” appears.
5. Press ◄/► cursor to select the desired function.
6. Press “OK on boxes to go to submenu.
7. Press “6” to return to “SHARP FACTORY” Main Menu.
8. Press”END” or “MENU” to exit of adjustments mode.

[CAUTION: Use due care in handling the information described here lest the users should know how to enter the adjustment process mode. If the settings are tampered with in this mode, unrecoverable system damage may result.]

White Balance Adjustment
Condition:
* AV MODE= Dynamic (backlight at max.).
* Select correct Inch setting (39”,50” or 60”) in “Inch setting” menu.
* Adjustments reference device: Minolta CA-210
* Adjustments target: x=0.274, y=0.284
High: adjustments spec ±0.001, inspection spec: ±0.002
Low: adjustments spec ±0.002, inspection spec: ±0.004

Press “◄ / ►” until selecting “White Balance” option.
2. Press “OK”.
3. “GAMMA” menu appears.
4. Press “◄ / ►” until selecting “MGAMMA RESET”.
5. Press “OK”, to restore default values.
6. Hold the default value for “MGAMMA G1”. (Note: next, try to get the (x, y) adjustments target, changing “MGAMMA R1” and “MGAMMA B1” as follow).
7. Press “◄ / ►” until selecting “MGAMMA R1”.
8. Press “OK” to enter “Internal Adjustments Pattern 1”.
9. Press “◄ / ►” until you obtain the desired value.
10. Press “6” to return to previous menu.
11. Press “◄ / ►” until selecting “MGAMMA B1”.
12. Press “OK” to enter “Internal Adjustments Pattern 1”.
13. Press “◄ / ►” until you obtain the desired value.
14. Press “6” to return to previous menu.
(Note: In case of not being possible to achieve the desired (x, y) target, try to get it by changing also the “MGAMMA G1”)
15. Press “◄ / ►” until selecting “MGAMMA R2”.
16. Press “OK” to enter “Internal Adjustments Pattern 2”.
17. Repeat from step 6 to 14 for the “MGAMMA R2” and “MGAMMA B2”.
18. Press “◄ / ►” until selecting “MGAMMA R3”.
19. Press “OK” to enter “Internal Adjustments Pattern 3”.
20. Repeat from step 6 to 14 for the “MGAMMA R3” and “MGAMMA B3”.
21. Press “◄ / ►” until selecting “MGAMMA R4”.
22. Press “OK” to enter “Internal Adjustments Pattern 4”.
23. Repeat from step 6 to 14 for the “MGAMMA R4” and “MGAMMA B4”.
24. Press “◄ / ►” until selecting “MGAMMA R5”.
25. Press “OK” to enter “Internal Adjustments Pattern 5”.
26. Repeat from step 6 to 14 for the “MGAMMA R5” and “MGAMMA B5”.
27. Press “◄ / ►” until selecting “MGAMMA R6”.
28. Press “OK” to enter “Internal Adjustments Pattern 6”.
29. Repeat from step 6 to 14 for the “MGAMMA R6” and “MGAMMA B6”.
30. Press “◄ / ►” until selecting “MGAMMACommit”.
31. NOTE:
For activating the W/B flag, only is necessary to send the order “Commit”. After this action, the “W” W/B flag will change to “1”. Press “OK”, to save the new values.

Initialization to factory setting
Caution: When the factory settings have been ade, all user setting data, including the channel settings, are initialized.
The adjustments done in the adjustment process mode are not initialized. Keep this in mind when initializing these settings.
1. Enter in Service mode.
2. Press “◄” or “►” key until selecting “Factory Init”.
3. Press OK key twice.
4. Turn off the TV set.
5. When turns on again, the TV restarts in “Initial Installation” menu.
The following settings will be back to their factory ones:
* User settings
* Channel data (e.g. broadcast frequencies)
* Maker option setting
* Password data.

Public Mode (Hotel mode)

How to Enter in the Public Mode (Hotel Mode).
There are two following ways to display the Public Mode setting screen.
Method 1:
Turn on the power and enter in the Service mode as usual and select [PUBLIC MODE].
Method 2:
Unplug the AC power cord.
Plug the AC power cord. When the LED light blue, press “VOL+” and “INPUT” keys at the same time.
Then, when you are asked for the password, enter “0027”.
After this sequence the TV will turn on showing the Public Mode setting screen. In another case, the screen is erased, and it operates in the ordinary mode.

How to Enter in the Public Mode (Hotel Mode).
There are two following ways to display the Public Mode setting screen.
Method 1:
Turn on the power and enter in the Service mode as usual and select [PUBLIC MODE].
Method 2:
Unplug the AC power cord.
Plug the AC power cord. When the LED light blue, press “VOL+” and “INPUT” keys at the same time.
Then, when you are asked for the password, enter “0027”.
After this sequence the TV will turn on showing the Public Mode setting screen. In another case, the screen is erased, and it operates in the ordinary mode.

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 ↔ 100]
Is possible to set the maximum volume at limited level
3. VOLUME FIXED [VARIABLE ↔ FIXED]
Is possible to fx the sound volume at limited level.
When “FIXED” is selected the sound volume before limited is fxed.

4. VOLUME FIXED LEVEL [0 ↔ 100]
If “FIXED” has been selected, is possible to set a fxed volume at the level that is chosen.
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” key, of remote control, is inoperative.
8. ON SCREEN DISPLAY [Yes ↔ No]
If “OFF” has been selected, the On Screen Display does not appear.
9. INPUT MODE START [ NORMAL → ATV → DTV→ HDMI1 → HDMI2 → HDMI3 → HDMI4 → SCART-AV → VIDEO → PC IN → COMPONENTS ]
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 TV MODE PROGRAM NUMBER [1-999]
If value is “0”, TV should start in the last program number selected by user if in the previous control ATV / DTV is selected, this is the normal user TV behavior. If value is different from “0”, TV should starts in the specifed program number when it is switched on.
11. INPUT MODE FIXED [VARIABLE↔ FIXED]
“FIXED” has been selected, any channels and input modes other than those selected at the start mode cannot be picked up.

12. RC PATH THROUGH [ON ↔ OFF] (Need additional Hardware)
When ON and RS-232 circuitry is really assembled , in pin #9 of RS-232 socket appears a feedback of the remote signal (3.3v logic type).
13. HOTEL MODE [ON ↔ OFF]
If ON has been selected the HOTEL MODE is activated.
14. RS-232C POWER ON [ENABLE ↔ DISABLE] (Need additional Hardware)
When this option is set to “ENABLE” it means that TV should be able to be switched on from standby mode through a RS232 command.
15. HDMI LEVEL POWER ON [ENABLE ↔ DISABLE] (Need additional Hardware)
Enabling this option, the polling of HDMI signal presence in a given HDMI input is being monitored.
[TV in ON mode] If there isn’t HDMI signal present, after some seconds TV should go to standby
[TV in standby mode] If there is HDMI signal present, TV should switch on.
16. COMMIT
Select Commit and press OK to apply the change.
17. RESET
Cancel all Public Mode settings. (It returns to the factory settings)

SMART LOADER
Description.
The Smartloader is a function implemented in the service software of SEE designed LE750 series intended to easily
replicate the user settings of one TV into another. These settings include (but not restricted to): picture and audio, tuning set-up, language and country selection, PIN, child locked programs… Factory adjustments are not copied as they are different for every TV.
The Smartloader makes possible the user data to be stored in a memory device connected to the USB terminal of the TV that is used as reference and later load those data into other TVs by using their respective USB terminal.
How it works.
In reference TV:
1. Insert a memory device in the USB slot.
2. Enter in service mode, select SmartLoader (Clone TV) menu.
3. Press “OK”.
4. Select “Save data” and press OK in the remote control.
5. Wait until “OK:0” is displayed, the fle has been successfully created in the root directory of the memory device.
In case of error, an explanation message is shown.
In TV to be cloned:
1. Insert a memory device with a fle in it obtained following the above procedure.
2. Enter in service mode, select SmartLoader menu.
3. Select “Load data” and press OK button in the remote control.
4. After some seconds, “OK: 0” is displayed. In case of error, an explanation message is shown.
5. Reboot the TV to load the new settings.
Very important: All the TVs must have the same software version and hardware.

SOFTWARE UPGRADING

Software update via USB

It is possible to update the software on your SHARP TV.
1 Add the binary file to USB memory root.
2 Insert the memory in any USB side TV set socket.
3 Press Mwnu button.
4 With ◄/► select Setup and press OK.
5 Select Control → Software → Software Update → Via USB

The software version that is currently installed is displayed.
6 Press >> button to proceed. The TV searches for a new software file on the USB stick.
If a new software version is available after the search, a message appears:
New software Vx.xx
7 Press >> button to start loading the new software.
Or press END to end the wizard (the software will not be updated).
•The updated percentage appears.*
8 To make your TV completely ready for use again, switch it off and on with the mains switch.

Software update via Internet

1 Press Menu button.

2. with </> select Setup and press OK.

Select Control > Software > Software upgrade > Via Internet.  A message regarding data protection will be displayed.

If you do not agree with data protection message, press << to exit.  If you agree, press >> to continue.  The version of the software now installed will be displayed.

By pressing >> the TV connects to the internet and scans the update server for new software.  If a new version is available a message appears.

Press >> to start loading the new software.  If you want to end the wizard, press END. to make the TV completely ready for use again, switch it OFF and ON with the mains switch.

[DO NOT switch OFF the TV by mains switch during software upgrading.

The total programming process can take up to 50 minutes in total (will depend upon the data transfer speed of your broadband connection, this time might differ)

Electro help - Service Modes, Circuit Diagrams, Firmware Update procedure, Disassemble procedure, Universal remote control set-up codes, Troubleshooting and more....

RCA L15D20, AOC 1255A LD7552BiCOMS SMPS CIRCUIT DIAGRA - 15 inch LCD TV – How to enter the service mode,Service mode, white balance adjustments and more Remote control part number: R130D1

November 25, 2017, 1:58 am

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How to enter service mode, white balance adjustment, LVDS, SMPS and inverter board schematic - RCA L15D20 - 15 inch LCD TV [Universal remote control set-up codes for RCA TVs]

Remote control part number: R130D1

White Balance, Luminance Adjustment 
Approximately 30 minutes should be allowed for warm up before proceeding white balance adjustment.
First adjust PC mode and then adjust AV mode, HDMI mode, component 480i mode, component 480p mode. Before started adjust white balance, please set the Chroma-7120 MEM. Channel 01 to Cold color MEM. and channel 03 to Normal color, MEM. and channel 04 to warm color, MEM.(cold parameter is x = 289, y =304; normal parameter is x =299, y =315; warm parameter is x =313, y =329 )
Note: The tolerance of the color coordinates should be less than ± 20.
How to setting MEM. channel you can reference to Chroma-7120 user guide or simple use “ SC” key and “ NEXT” key to modify x, y , Y value and use “ID” key to modify the TEXT description
Following is the procedure to do white-balance adjust.
Note: Step of AV, HDMI, COMPONENT480i, COMPONENT480p mode adjustment is the same as PC mode,
PC mode:
Ⅰ. In the TV mode adjust volume to zero and press number key 9> 8> 7> 6.
It will achieve the factory mode [Service Mode].
Select the item of White Balance and press right key to enter it.
In the White Balance you can adjust 8 items.
1-3 items is RO, GO, BO  R, G, B Bias adjust.
4-6 items is RG, GG, BG  R, G, B Gain adjust.
7 item needn’t adjust
8 items is color temperature select: Cool, Normal, and Warm.

Bias (Low luminance) adjustment
1. Set the raster pattern (Black pattern with 1024×768) Input.
2. Adjust the brightness on OSD until chroma 7120 measurement reach the lowest value.
Gain adjustment
A. Adjust Cold color-temperature:
1. Set the Contrast of OSD function to 80 and Adjust Brightness to chroma-7120 Y>180 cd/m2
2. Switch the chroma-7120 to RGB-mode (with press “MODE” button)
3. Switch the MEM. channel to Channel 01 (with up or down arrow on chroma-7120)
4. The LCD-indicator on chroma-7120 will show x =289, y =304, Y>180cd/m2
5. Adjust the 4 item: RG, until chroma 7120 indicator reached the value R=100
6. Adjust the 5 item: GG, until chroma-7120 indicator reached the value G=100
7. Adjust the 6 item: BG, until chroma-7120 indicator reached the value B=100
8. Repeat above procedure until chroma-7120 RGB value meet the tolerance =100±2
9. Switch the chroma-7120 to x, y, Y mode with press “MODE” button to check the color temp is in SPEC. or not.
10. Enter the 8 item to select another color temperature to adjust.
LVDS  schematic

Adjust Normal color-temperature
1. Set the Contrast of OSD function to 80 and Adjust Brightness to chroma-7120 Y>180cd/m2
2. Switch the chroma-7120 to RGB-mode (with press “MODE” button)
3. Switch the MEM. channel to Channel 03 (with up or down arrow on chroma-7120)
4. The LCD-indicator on chroma-7120 will show x =299, y =315, Y>180cd/m2
5. Adjust the 4 item: RG, until chroma 7120 indicator reached the value R=100
6. Adjust the 5 item: GG, until chroma-7120 indicator reached the value G=100
7. Adjust the 6 item: BG, until chroma-7120 indicator reached the value B=100
8. Repeat above procedure until chroma-7120 RGB value meet the tolerance =100±2
9. Switch the chroma-7120 to x, y, Y mode with press “MODE” button to check the color temp is in SPEC. or not.
10. Enter the 8 item to select another color temperature to adjust.

Adjust Warm color-temperature
1. Set the Contrast of OSD function to 80 and Adjust Brightness to chroma-7120 Y>180cd/m2
2. Switch the chroma-7120 to RGB-mode (with press “MODE” button)
3. Switch the MEM. channel to Channel 04 (with up or down arrow on chroma-7120)
4. The LCD-indicator on chroma-7120 will show x =313, y =324, Y>180cd/m2
5. Adjust the 4 item: RG, until chroma 7120 indicator reached the value R=100
6. Adjust the 5 item: GG, until chroma-7120 indicator reached the value G=100
7. Adjust the 6 item: BG, until chroma-7120 indicator reached the value B=100
8. Repeat above procedure until chroma-7120 RGB value meet the tolerance =100±2
9. Switch the chroma-7120 to x, y, Y mode With press “MODE” button to check the color temp is in SPEC. or not.
10. Enter the 8 item to select another color temperature to adjust.

Switch different source
Press the source key on the remote control to switch different source to adjust the AV, HDMI, CONPONENT 480i
and COMPONENT 480p mode.
Press “Exit” button on remote control to quit from factory mode

SMPS and back-light inverter schematic

Click on the pictures to magnify

Universal remote control set-up codes to check with RCA brand televisions (Four digit)

0154 0190 0196 0218 0233 0237 0436 0673 0827

Electro help - Service Modes, Circuit Diagrams, Firmware Update procedure, Disassemble procedure, Universal remote control set-up codes, Troubleshooting and more....

AOC 2251 TFT color LCD monitor – How to enter5 service mode – white balance adjustments

November 26, 2017, 12:51 am

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Main board part number: 715G4810M01BRA004L

Take care during handling the LCD module with back-light unit
-Must mount the module using mounting holes arranged in four corners.
-Do not press on the panel, edge of the frame strongly or electric shock as this will result in damage to the screen.
-Do not scratch or press on the panel with any sharp objects, such as pencil or pen as this may result in damage to the panel.
-Protect the module from the ESD as it may damage the electronic circuit (C-MOS).
-Make certain that treatment person’s body is grounded through wristband.
-Do not leave the module in high temperature and in areas of high humidity for a long time.
-Avoid contact with water as it may a short circuit within the module.
-If the surface of panel becomes dirty, please wipe it off with a soft material. (Cleaning with a dirty or rough cloth may damage the panel.)

BM215WF4-TJC1 is a Color Active Matrix Liquid Crystal Display with an integral Light Emitting Diode (LED) backlight system. The matrix employs a-Si Thin Film Transistor as the active element. It is a transmissive type display operating in the normally white mode. It has a 21.5 inch diagonally measured active display area with Full HD resolution (1080 vertical by 1920 horizontal pixel array) Each pixel is divided into Red, Green and Blue sub-pixels or dots which are arranged in vertical stripes. Gray scale or the brightness of the sub-pixel color is determined with a 8-bit gray scale signal for each dot, thus, presenting a palette of more than 16,7M colors with Advanced-FRC(Frame Rate Control). It has been designed to apply the interface method that enables low power, high speed, low EMI. FPD Link or compatible must be used as a LVDS(Low Voltage Differential Signaling) chip. It is intended to support applications where thin thickness, wide viewing angle, low power are critical factors and graphic
displays are important. In combination with the vertical arrangement of the sub-pixels, the BM215WF4-TJC1 characteristics provide an excellent flat panel display for office automation products such as monitors

Take care during handling the LCD module with backlight unit

-Must mount the module using mounting holes arranged in four corners.
-Do not press on the panel, edge of the frame strongly or electric shock as this will result in damage to the screen.
-Do not scratch or press on the panel with any sharp objects, such as pencil or pen as this may result in damage to the panel.
-Protect the module from the ESD as it may damage the electronic circuit (C-MOS).
-Make certain that treatment person’s body is grounded through wristband.
-Do not leave the module in high temperature and in areas of high humidity for a long time.
-Avoid contact with water as it may a short circuit within the module.
-If the surface of panel becomes dirty, please wipe it off with a soft material. (Cleaning with a dirty or rough cloth may damage the panel.)

White- Balance, Luminance Adjustment

Approximately 30 minutes should be allowed for warm up before proceeding white balance adjustment.

How to setting MEM channel you can reference to chroma 7120 user guide or simpl use “SC” key and “NEXT” Key to modify xyY value and use “ID” key to modify the TEXT description Following is the procedure to do white-balance adjust .

2. Setting the color temp you want

A. MEM.CHANNEL 3 Warm (6500K): Warm color temp. Parameter is x = 313 ±30, y = 329 ±30

B. MEM.CHANNEL 4 Normal (7300K): Normal color temp. Parameter is x = 301 ±30, y = 317 ±30

C. MEM.CHANNEL 9 Cool (9300K): Cool color temp. Parameter is x = 283 ±30, y = 297 ±30

D. MEM.CHANNEL 10 (sRGB color): sRGB color temp. Parameter is x = 313 ±30, y = 329 ±30

Enter into the factory mode (Service mode]

Turn off the power, press two direction keys and turn the power on. Then press the “MENU” button. The factory OSD will appear.[Service mode]

4. Gain adjustment:

Move cursor to “-F-” and press MENU key

A. Adjust Warm (6500K) color-temperature

1. Switch the chroma-7120 to RGB-Mode (with press “MODE” button)

2. Switch the MEM.channel to Channel 3 (with up or down arrow on chroma 7120)

3. The LCD-indicator on chroma 7120 will show x = 313 ±30, y = 329 ±30

4. Adjust the RED on factory window until chroma 7120 indicator reached the value R=100

5. Adjust the GREEN on factory window until chroma 7120 indicator reachedthe value G=100

6. Adjust the BLUE on factory window until chroma 7120 indicator reached the value B=100

7. Repeat above procedure (item 4, 5, 6) until chroma 7120 RGB value meet the tolerance =100±2

Adjust Normal (7300K) color-temperature

1. Switch the chroma-7120 to RGB-Mode (with press “MODE” button)

2. Switch the MEM.channel to Channel 4 (with up or down arrow on chroma 7120)

3. The LCD-indicator on chroma 7120 will show x = 301 ±30, y = 317 ±30

4. Adjust the RED on factory window until chroma 7120 indicator reached the value R=100

5. Adjust the GREEN on factory window until chroma 7120 indicator reachedthe value G=100

6. Adjust the BLUE on factory window until chroma 7120 indicator reached the value B=100

7. Repeat above procedure (item 4, 5, 6) until chroma 7120 RGB value meet the tolerance =100±2

Adjust Cool (9300K) color-temperature

1. Switch the Chroma-7120 to RGB-Mode (with press “MODE” button)

2. Switch the MEM. Channel to Channel 9 (with up or down arrow on chroma 7120)

3. The LCD-indicator on chroma 7120 will show x = 283 ±30, y = 297 ±30

4. Adjust the RED on factory window until chroma 7120 indicator reached the value R=100

5. Adjust the GREEN on factory window until chroma 7120 indicator reached the value G=100

6. Adjust the BLUE on factory window until chroma 7120 indicator reached the value B=100

7. Repeat above procedure (item 4, 5, 6) until chroma 7120 RGB value meet the tolerance =100±2

Adjust sRGB color-temperature

1. Switch the chroma-7120 to RGB-Mode (with press “MODE” button)

2. Switch the MEM.channel to Channel 10 (with up or down arrow on chroma 7120)

3. The LCD-indicator on chroma 7120 will show x = 313 ±30, y = 329 ±30

4. Adjust the RED on factory window until chroma 7120 indicator reached the value R=100

5. Adjust the GREEN on factory window until chroma 7120 indicator reachedthe value G=100

6. Adjust the BLUE on factory window until chroma 7120 indicator reached the value B=100

7. Repeat above procedure (item 4, 5, 6) until chroma 7120 RGB value meet the tolerance =100±2

E. Turn the Power-button off to quit from factory mode.

Electro help - Service Modes, Circuit Diagrams, Firmware Update procedure, Disassemble procedure, Universal remote control set-up codes, Troubleshooting and more....

Toshiba 50L4333D – How to enter service mode, hotel mode, How to update the software, power board schematic and more …

November 26, 2017, 6:06 am

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Toshiba 50L4333D(G), (F),50L4331D(G),50L4337D(G), (F)

Many electrical and mechanical parts in this chassis have special safety-related characteristics.
These characteristics are often passed unnoticed by a visual inspection and the protection afforded by them cannot necessarily be obtained by using replacement components rated for higher voltage, wattage, etc. Replacement parts which have these special safety characteristics are identified in this manual and its supplements; electrical components having such features are identified by the international hazard symbols on the schematic diagram and the parts list.
Before replacing any of these components, read the parts list in this manual carefully. The use of substitute replacement parts which do not have the same safety characteristics as specified
in the parts list may create electrical shock, fire, or other hazards.

ENTERING SERVICE MODE

Press the MUTE button once on Remote Control.

TV mode changes as follows. Un-Mute => Mute

Press button again and keep pressing, ((Sound Mute is canceled): While pressing the button, press “P”/ “->” button on TV control panel. (Enter Service Mode)

The following key entry during display of adjustment menu provides special functions.

TEST SIGNAL SELECTION

While displaying the adjustment menu, every pressing of “” button on the Remote Control changes the built-in test patterns on screen as described below.  When a pattern is changed at the time of an ATV display, it can display only for a moment.

While displaying the adjustment menu, press the “P-UP” button to cycle through the adjustment items.

ADJUSTING THE DATA

While displaying the adjustment menu, press the VOLUME +/– button to change the value of data in the range from 00H to FFH. The variable range depends on the adjusting item.

Press the [Exit] button on Remote.

ENTERING HOTEL MODE MENU

Hotel Mode Menu should be shown by the following operation.
Press any button on TV to activate Touch Sensor. White LED will light up.

DISPLAY OF HOTEL MODE MENU

- The Graphic Design and color of Hotel Mode Menu is the same as the User menu.  (Small differences which do not affect to operation will be acceptable)
- The language will follow the “Menu Language” setting in the menu.

OPERATING HOTEL MODE MENU

- To enable Hotel Mode, use the ◄/► arrow keys while “Hotel Mode” item is highlighted to select “On”.
Once Hotel Mode is on, the Hotel Mode settings will be enabled for adjusting.

- Use ▲ and ▼ buttons to access the hotel mode settings.
Use ◄/► buttons to change the settings.
- Press Exit when finished adjusting the settings.

Power board circuit diagram [Schematic]

MAIN BOARD EXCHANGE

When Main board is exchanged, the Application SW (Firrmware) and Model Setting need to be updated.

Updating of Software and Model Setting

1. Copy the Application SW (Firmware) file and the Model Setting file to the root of the USB mass storage device.

2. Unplug TV, and then Insert the USB mass storage device to the USB slot of the TV.

3. Plug TV. [Software updating starts].  (If Software updating does not start and the front LED lights red, then press [Power] key on Remote Control to start Software updating)

4. After updating complete, unplug TV and remove the USB mass storage device

5. Plug TV, then check the updating by using self check screen.

6. Update to the newest SW. [This model can be updated from aerial or network to the newest Software.]

Confirmation of Software updating

Check the TV Model and Model Info by using self check screen.

1. Press SETUP on Remote Control.

2. Select “Get Help” >> “System Information”

3. Press “3” “5” “7” “4”

Self check screen is displayed.

Electro help - Service Modes, Circuit Diagrams, Firmware Update procedure, Disassemble procedure, Universal remote control set-up codes, Troubleshooting and more....

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Samsung HTZ210 – Initialization, update, full schematic with waveform display – Connector pin voltages - Digital Home Theater System

November 26, 2017, 8:13 am

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Samsung HT-Z210 DIGITAL HOME THEATER SYSTEM- Full circuit diagram, Initialization procedure, connector pin voltages
Used ICs: KA5Q1265RF (power control), ES7108S (HDMI), CS5345, LA73054, LC87F5CC8A, ES8391SCC, PS9829B, TAS5152 (power amp IC), BTEM39B2SB 9 (Bluetooth)  

 Always unplug the unit’s AC power cord from the AC power source before attempting to: (a) Remove or reinstall any component or assembly, (b) Disconnect an electrical plug or connector, (c) Connect a test component in parallel with an electrolytic capacitor.
 Some components are raised above the printed circuit board for safety. An insulation tube or tape is sometimes used. The internal wiring may be clamped to prevent contact with thermally hot components. Reinstall all such elements to their original position.
 After servicing, always check that the screws, components and wiring have been correctly reinstalled.  Make sure that the portion around the serviced part has not been damaged.
 Check the insulation between the blades of the AC plug and accessible conductive parts (examples: metal panels, input terminals and earphone jacks).
 Insulation Checking Procedure 
Disconnect the power cord from the AC source and turn the power switch ON.
Connect an insulation resistance meter (500V) to the blades of the AC plug.
The insulation resistance between each blade of the AC plug and accessible conductive parts (see above) should be greater than 1 megohm.
 Never defeat any of the B+ voltage interlocks. Do not apply AC power to the unit (or any of its assemblies) unless all solid-state heat sinks are correctly installed.
 Always connect a test instrument’s ground lead to the instrument chassis ground before connecting the positive lead; always remove the instrument’s ground lead last.
Operation of Power Block Protection Circuit.  The Condition of Power Protection Active.
1. Voltage of SMPS’s PVDD (+34.5V, J3) is higher or lower than Standards.  Normal Condition Voltage Range: PVDD (+34.5V, J3): about +34.5V
2. Over-current occurs to AMP IC. (Over-output or Output short)
3. AMP IC’s temperature exceeds 150°C.
4. No supply voltage on GATE DRIVER.

Power Protection
1. OTW: Active, IC’s inner temperature exceeds over 150°C.  (Under 2.7V, Protection Circuit wills Active)
2. TAS5352 3TH PIN: Shout down.  (Under 2.7V, Protection Circuit wills Active)

Initialization & Upgrade Methods

MICOM Initialization & Update

 MICOM Initial

In STANDBY condition, press “STOP” button of Main Unit more than 5 seconds, STANDBY RED LED will turn off and turn on again. Then Initialization complete.

MICOM Update

1. At Bottom side of Main Unit, Connecting 6 pin cable.

2. Wire to Update connector-look like an oval hole then update start.

 Required Equipment

Computer, Rom Writer, Connecting Cable, Update Program.

Update is available Only OTP type MICOM.

Circuit diagram (Schematic)

Connector pin voltages

DVD flash Initialization & Update

 Checking out MICOM & MPEG flash Version

1. Open DISC-TRAY, Press "MENU" button on the Remote Control.

2. Press "8", "9", "5" one by one, then press “ENTER”.

DVD flash Initialization & Update (firmware)

1. Prepare or Making DISC-CD or DVD or USB that contains HEX file for Update.

2. Play the DISC or USB, then ‘Updating’ will appear on the screen, then Power will go out and on.

3. Then DISC-TRAY will OPEN, then remove DISC or USB, making Unit ‘NO DISC’ state.

4. Press ‘STOP’ button of Main Unit more than 5 seconds, Display Indicator shows ‘INITIALIZE’ then Power goes out.

5. Initialization complete

Electro help - Service Modes, Circuit Diagrams, Firmware Update procedure, Disassemble procedure, Universal remote control set-up codes, Troubleshooting and more....

Samsung HT C553 – Region code setting, Initialization, SMPS and power amplifier circuit diagram - 5.1CH Digital Home Theater System

November 26, 2017, 9:31 am

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Buyer-Region Code Setting Method
The inserting method of Region Code after replacing the Main PBA
[Reference]
- When replacing the Main PBA and System Micom should be inserted the region code.
- The set is not working properly if you don't insert the region code.
- The region code is inserted by the remote control.
1. Press the “AUX” button on the remote control
2. Press the "TUNER MEMORY" button on the remote control upto 4~5 seconds.
3. After step (2), you can see “TEST” on the VFD.
4. When you see “TEST” on VFD, Insert number “4”, “6” to start Region Code setting mode.
5. After step (4), you can see “- -” on the VFD.
Insert the Region Code (Below table) corresponding model with “0 ~ 9” buttons on the remote control.
6. After step (5), you can see “15 USA” on the VFD.
It means that currently System Micom program is installed by USA specification
7. Turn the Power off.

In case of System Micom and EEPROM problem, you can apply to this.
For example, during Updating program of System Micom, if Updating fail is happened, it is impossible to turn on the system from stand-by status.
The system will keep the stand-by status continuously, and the touch-key function will never work.
In this case, you have to change System Micom, and set up the Buyer Region code again.
In case of EEPROM, you don't need to care about it.
After set-up the Region code, System Micom will store the information of the region code to EEPROM automatically.

SMPS schematic [circuit diagram]

Power amplifier circuit diagram [schematic]

Click on the schematics to zoom in

DVD flash Initialization & Update

1. Prepare a DISC-CD or DVD or USB that contains ‘C550WWB.ROM’ file for Update.

2. Play the DISC or USB, then ‘Updating’ will appear on the screen, then Power will go out and on.

3. Then DISC-TRAY will open, then remove the DISC or USB, making the Unit as ‘NO DISC’ state.

4. Press ‘STOP’ button of Main Unit for more than 5 seconds, Display Indicator shows ‘INITIALIZE’ then Power goes out.

Checking out MICOM & MPEG flash Version

1. On Root state, Select ‘Set up’.

2. Press “Enter” and move Support.

3. Press “Enter”.

4. Check product information: “SW ver” on TV Display and “Micom SW Ver” on Front ASS’y VFD.

MICOM, MPEG Initialization & Update

Micom initial
In no Disc condition, press ‘STOP’ button of Main Unit more than 5 seconds, VF Display will happen to INIT and M int. Then Initialization complete.
 Micom Update
1. Prepare or Make a DISC-CD or DVD or USB that contains “C550WWM.SSP’ file for update.
2. Play the USB, then “updating” will appear on the screen, then Power will go out after showing ‘complete’ on the screen.
3. Press “Power” key and Press ‘Stop’ button of the remote control more than 5 seconds in No Disc.

SMPS Protection
The Condition of Power Protection Active.
1. Voltage of SMPS’s +, - PVDD (+30V, -30V) is higher or lower than Standards Normal Condition Voltage Range: PVDD (+30V, -30V): about +30V, -30V
2. Over-current occurs to FET (Over-output or Output short)
3. FET’s temperature exceed 150°C.
4. No supply voltage on GATE DRIVER

AMP Pre-Inspection relating to Power Protection
If you think, there are problems at the AMP PCB, you can check the pcb without disassemble the set.

Electro help - Service Modes, Circuit Diagrams, Firmware Update procedure, Disassemble procedure, Universal remote control set-up codes, Troubleshooting and more....

AOC2236VWA – LCD monitor circuit diagram – 7155G2892 Power board schematic

November 28, 2017, 9:38 pm

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Used ICs: AZC199-04S, AT24C02BN-SH-T, LD7576, FMA07N65GX, TSUMU58EHL-LF-1, MPS10091, P8008HV

715G2892-1-3 – SMPS Schematic

715G2892-power board inverter section schematic

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AOC F19L Wide screen 18.5 inch LCD monitor – AOC2436VW - schematic

November 28, 2017, 10:44 pm

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715G2852-3-4 and 715G2852-2-11 power board schematic

Used ICs: AM9945N-T1-PF, TL4941DR, AZC199-04S, AT24C02BN-SH-T, TSUMU58EHL-LF-1, N24C04-WMN6TP, LD7575A PS, 2SK2645-54MR(FET)

Click on the pictures to zoom in

SMPS (Power and Backlight5 inverter board) schematic

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NXP TDA9351/53/61/63 XXX SERIES – Color TV – Memory IC replacement, IC Pin voltages and functions, Service mode and adjustments, default data values, Full schematic and more….

November 29, 2017, 5:55 am

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TDA9351, TDA8370, TDA9353, OM8370 – IC default data and functional description.  Schematic (full): Used ICs – TDA9341, CD4052, AT24C08, AN7522, TDA2003, [BSC25 N0832 / BSC25 T1010A / BSC24 01N4014K Flyback Transformer], [D1651 / TT2190 – Horizontal Output Transistor], LA78040(Vertical scan output IC), [21-inch-2SC5287/ 29-inch-2AC5297 – SMPS switching transistor]

REPLACEMENT OF MEMORY IC
1. MEMORY IC.
This TV uses memory IC. In the memory IC are memorized data for correctly operating the video and deflection circuits.  When replacing memory IC, be sure to use IC written with the initial value of data.
2. PROCEDURE FOR REPLACING MEMORY IC
(1) Power off
Switch the power off and unplug the power cord from AC outlet.
(2) Replace IC
Be sure to use memory IC written with the initial data values.
(3) Power On
Plug the power cord into the AC outlet and switch the power On.
(4) Check and set system default value:
1) Press “MENU” key followed by digits '6''4''8' and '3'. then Press “TEST” key on the Remote control unit for factory used.
2) The red “M”or”factory” will be displayed on the screen, repeat this and it will changed as follow:
normal-M(factory)-BUS open-normal..
3) Press digital key, (Mkey) and corresponding on-screen display will be appeared.
4) Check the setting value of the SYSTEM default value of Table below. If the value is different, select items by [CH+]/[CH-] keys and set value by [VOL+]/[VOL-] keys.
5) Press “STANDBY” key again and return to the normal screen.

SERVICE ADJUSTMENT
B1 POWER SUPPLY
1. Receive normal colour bar signal.
2. Connect DC voltmeter to VD524- and isolated ground.
3. Adjust potentiometer in power unit to get the voltage as 110V ±1.0V for 21 inch hereinafter, FOCUS ADJUSTMENT
1. Receive a crosshatch signal.
2. While watching the screen, adjust the FOCUS VR to make the vertical and horizontal lines as fine and sharp as possible.
BUS CONTROL ADJUSTMENT
TDA9351/9353: To enter BUS control mode, Press “MENU” key followed by digits '6''4''8' and '3'. Then press digit Press “0” to “9“ key, (Mkey) and corresponding on-screen display will be appeared.
TDA8370: To enter BUS control mode, Press “MENU” key followed by digits '6''4''8' and '3'. then Press “TEST” key on the Remote control unit twice for factory used(or press digits '6''4''8' and '3' twice.). and then press digit Press “0” to “9“ key, (Mkey) and corresponding on-screen display will be appeared.
On TV screen “TEST” will be indicated, this means entered bus control mode.
And press following key, each function will be available.

Remote Hand Unit keys

Geometrical adjustment

MENU8 (9351)/servise 1(8370)

Receive PAL standard Complete pattern signal.

Adjustment steps

a) Adjust V. SLOPE, to the center horizontal line just appeare from half bottom shadow.

b) Adjust V. SIZE, to get 90% of vertical picture contents would be displayed on CRT.

c) Adjust V. SHIFT, the center horizontal line correspond to CRT vertical center.

d) Adjust H.SHIFT, to get the picture horizontal center correspond to CRT horizontal center.

Receive NTSC signal and repeat above.

AGC Adjustment.

MENU7 (9351)/servise 2(8370)

Receive 60dBμ(1mV)VH colour bar pattern signal，adjust AGC value（voltage from high to low），to noise reduce gradually and just disappeared point.

CRTcut off and white balance adjustment.

MENU9 (9351)/B W BALANCE(8370)

Receive white signal.

a) CRT cut off adjustment.

1. Select “SC”, then automatically vertical scan will be stopped.

2. Adjust SCREEN control on Flyback transformer to get the darkest single horizontal line (red, green, or blue, sometimes shows more yellow, more purple or more white).

b) White balance adjustment.

1. Select RD/BD menu.

2. Adjust RD/BD to get colour temperature as x=281, y=311

c) Sub-Brightness adjustment. (Use stair case signal)

1. Select SB menu.

2. Adjust SB to get the darkest step being cutoff.

DEFAULT DATA SETTING VALUES

AV OPTION:MENU1→AV CFG;

O =TV→AV;1=TV→AV1→AV2;2=TV→AV1→AV2→S-VIDEO;3=TV→AV1→AV2→S-VIDEO→YUV;

5 = TV→AV→S-VIDEO;6= TV→AV→S-VIDEO→YUV;7= TV→AV→YUV;8=TV→EURO;

9 =TV→AV→EURO

OM8370 – White balance

Note

1. The function of pin 20, 28, 29, 31, 32, 35 and 44 is dependent on the IC version (mono intercarrier FM demodulator /QSS IF amplifier and East-West output or not) and on some software control bits. The valid combinations are given in table 1. [Below]

2. the vertical guard function can be controlled via pin 49 or pin 50. the selection is made by means of the IVG bit in subaddress 2BH.

Note

1. When additional (external) selectivity is required for FM-PLL system pin 32 can be used as sound IF input.

This function is selected by means of SIF bit in subaddress 28H.

2. the reference output signal is only available for the CMB1/CMB0 setting of 0/1. for the other settings this pin is a switch output(see also 5 table 67). [below]

Test point waveforms

IC pin voltages

Full circuit diagram / Schematic and PWB

Click on the pictures to magnify

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Loewe Auro 59502, Xemix 59501 DVD player – SMPS circuit diagram and function details – using power control IC MC44603P

November 29, 2017, 11:52 pm

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Mc44603 controlled SMPS power supply function descriptions, IC pin connections, circuit diagram [schematic] – working principles details – The power supply (SMPS) used with Loewe DVD player is selected for reference.

Current mode power supply

Function description of the current mode power supply
MOSFET 7125 is used as a power switch controlled by the controller IC 7110. When the switch is closed, energy is transferred from the mains into the transformer. This energy is then supplied to the load when the switch is opened. By control of the switched-on time, the energy transferred in each cycle is regulated so that the output voltages are independent of load or input voltage variations. The controlling device MC44603P is an integrated pulse width modulator. A clock signal initiates power pulses at a fixed frequency. The termination of each output pulse occurs when an analogue of the conductor current reaches a threshold established by the error signal. In this way the error signal actually controls the peak conductor current on cycle-by-cycle basis.

General description of MC44603

The MC44603 is an enhanced high performance controller that is specifically designed for Off-line and dc-to dc converter applications. This device has the unique ability of automatically changing operating modes if the converter output is overloaded., unloaded, or shorted. The MC44603 has several distinguishing features when compared to conventional SMPS controllers. These features consist of a fold back facility for
overload protection, a standby mode when the converter output is slightly loaded, and demagnetization detection for reduced switching stresses on transistor and diodes, and a high current totem pole output ideally suited for driving a power MOSFET. It can also be used for driving a bipolar transistor in low power converters. It is optimized to operate in discontinuous mode but can also operate in continuous mode. Its advanced design allows use in current mode or voltage mode control applications.

MC44603P [Block diagram & pin connections of MC44603]

Pin function descriptions

Operating description

The input voltage Vcc(pin 1) is monitored by a comparator with hysteresis, enabling the circuit at 14.5V and disabling the circuit below 7.5V. The error amplifier compares a voltage Vfb(pin 14) related to the output voltage of the power supply, with an internal 2.5V reference. The current sense comparator compares the output of the error amplifier with the switch current Isense (pin 7) of the power supply. The output of the current sense comparator resets a latch, which is set every cycle by the oscillator. The output stage is a totem pole, capable of driving a MOSFET directly.

Start-up sequence

t1: Charging the capacitor at Vcc

C2129 will be charged via R3123 and R3134, C2133 and C2111 via R3129. The output is switched off during t1.

t2: Charging of output capacitors

When the input voltage of the IC exceeds 14.5V, the circuit is enabled and starts to produce output pulses. The current consumption of the circuit increases to about 17mA, depending on the external loads of the IC. At first, the capacitor at the Vcc pin will discharge because the primary auxiliary voltage, coming from winding 7-9 is below the Vcc voltage. At some moment during t2, the primary auxiliary voltage reaches the same level as Vcc. The Vcc voltage is now determinate by this primary auxiliary voltage.

t3: regulation

The output voltage of the power supply is in regulation

t4: overload

When the output is shortened, the supply voltage of the circuit will decrease and after some time drop below the lower threshold voltage. At that moment, the output will be disabled and the process of charging the Vcc capacitor starts again. If the output is still shorted at the next t2 phase, the complete start-and stop sequence will repeat. The power supply comes in a hiccup mode.

Regulation
The oscillator voltage ramps up and down between V1 and V2.
The voltage at the current sense terminal is compared every cycle with the output of the error amplifier Vcomp. The output is switched off when the current sense level exceeds the level at the output of the error amplifier.
1. Time ON phase : A drain current will flow from the positive supply at pin 1 of the transformer through the transformer's primary winding, the MOSFET and Rsense to ground. As the positive voltage at pin 1 of the transformer is constant, the current will increase linearly and create a ramp dependent on the mains voltage and the inductance of the primary winding. A certain amount of energy is stored in the transformer in the form of a magnetic field. The polarity of the voltages at the secondary windings is such that the diodes are non-conducting.
2. TimeDIODE phase : When the MOSFET is switched off, energy is no longer supplied to the transformer. The inductance of the transformer now tries to maintain the current which has been flowing through it at a constant level. The polarity of the voltage from the transformer therefore becomes reversed. This results in a current flow through the transformer’s secondary winding via the diodes, electrolytic capacitors and the load. This current is also ramp shaped but decreasing.
3. TimeDEAD phase : when the stored energy has been supplied to the load, the current in the secondary windings stops flowing. At this point the drain voltage of the MOSFET will drop to the voltage of C2121 with a ringing caused by the Drain-Source capacitance with the primary inductance.
The oscillator will start a next cyclus which consists of the described three phases. The time of the different phases depends on the mains voltage and the load.
TimeDEAD is maximum at an input of 400VDC and minimum load, it will be zero at an input of 100VDC and overload.

Input circuit
The input circuit consists of a lightning protection circuit and an EMI filter.
The lightning protection comprises R3120, gas arrestor 1125 and R3124. The EMI filter is formed by C2120, L5120, C2125 and C2126. It prevents inflow of noises into the mains.
Primary rectifier/smoothing circuit
The AC input is rectified by Rectifier Bridge 6120 and smoothed into C2121. The voltage over C2121 is approximately 300V. It can vary from 100V to 390V.
Start circuit and Vcc supply
This circuit is formed by R3123, R3134, C2129, D6129, R3129, R3111, C2133 and C2111.  When the power plug is connected to the mains voltage, the stabilized voltage over D6129(24V) will charge C2133 via
R3129. When the voltage reaches 14.5V across C2111, the control circuit of IC7110 is turned on and the regulation starts.
During regulation, Vcc of IC7110 will be supplied by the rectified voltage from winding 7-9 via R3135, D6132 and C2133.
Control circuit
The control circuit exists of IC7110, C2102, 2104, 2107, 2109, 2110, R3102, 3103, 3104, 3107, 3108, 3109 and 3110. The frequency of the oscillator is defined by C2102 and R3110.
Power switch circuit
This circuit comprises MOSFET 7125, Rsense 3126, 3127 and 3128, R3125 , C2127, L5125, R3112 and R3113. R3125 is a pull-down resistor to remove static charges from the gate of the MOSFET.
Regulation circuit
The regulation circuit comprises opto-coupler 7200 which isolates the error signal from the control IC on the primary side and a reference component 7201. The TL431 (7201) can be represented by two components:
* a very stable and accurate reference diode
* a high gain amplifier

TL431 will conduct from cathode to anode when the reference is higher than the internal reference voltage of about 2.5V. If the reference voltage is lower, the cathode current is almost zero.
The cathode current flows through the LED of the opto-coupler.
The collector current of the opto-coupler flows through R3106, producing an error voltage, connected to voltage feedback pin 14 of IC7110.

Demagnetization
The auxiliary winding (7-9) voltage is used to detect magnetic saturation of the transformer core and connected via R3101 to pin 8 of IC7110. During the demagnetization phase, the output will be disabled.
Overvoltage protection circuit
This circuit consist of D6114, C2114, R3115 and R3116.
When the regulation circuit is interrupted due to an error in the control loop, the regulated output voltage will increase (overvoltage). This overvoltage is sensed on the primary winding 7-9.
When an overvoltage longer than 2.0 (s is detected, the output is disabled until VCC is removed and then re-applied. The power supply will come in a hiccup mode as long as the error in the control loop is present.
Secondary rectifier/smoothing circuit
There are 5 rectifier/smoothing circuits on the secondary side. Each voltage depends on the number of windings of the transformer.
The +5Vstby power supply is derived from the +12Vstby by voltage regulator 7233, C2233 and L5233.
The -5V voltage is regulated by voltage regulator 7259 and will be switched off via D6256, T7256 and T7255 during standby (control signal STAND BY is high). When jumper 4250 is mounted instead of this circuit, a supply voltage -8Vstby will be present at pin 9 of connector 0205.
The +5V power supply is derived from +6Vstby by the loader up circuit formed by MOSFET 7236, reference component 7237, R3236, R3237 and C2239. This voltage will be switched off during STAND BY via T7235.
The 3V3 power supply is regulated by the control loop (7201, 7200, 7110) of the switched mode PSU.

Loewe Auro 59502, Loewe Xemix 59501 - SMPS circuit diagram and PWB

Click on the pictures to magnify

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T’Con board problems with Hitachi LCD TVs- No display – rainbow color problem

December 6, 2017, 11:48 pm

≫ Next: LG and Philips 26 inch LCD panel TVs T"Con board faults and reasons - Line fault, Rainbow colors

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Hitachi T’Con board 19-100056 faults – 37 inch Hitachi LCD TVs – input voltage 12V

No display problem

* IC5= BUF12800 Gamma Correction Amplifiers IC. If this IC failure, it will cause the TV has No Display.

* IC6= BD8161 power management IC. If this IC failure, it will cause the TV No Display.
* IC2= TCON102A-F. If this IC failure, it will cause the TV has No Display.

# Sometimes Watermark Display or Rainbow Screen problem too can occur.

Plain white screen problem or No display
* IC4 EEPROM IC. If this IC failure, it will cause either TV has No Display or White Screen.

Hitachi T’Con board 97-29925-0 – 32 inch Hitachi LCD TVs – input voltage-12V

No display problem
* IC1000 & IC1001= SDRAM memory IC. If this IC failure, it will cause the TV has No Display.
* IC200= 8018SA is the power management IC. If this IC fails, it will cause the TV has No Display.
* IC1002= TCON21.6-F. If this IC fails, it will cause the TV No Display. 
* IC1003= XCON-1. If this IC fails, it will cause the TV has No Display.
* IC1000 & IC1001= SDRAM memory IC. If this IC fails, it will cause the TV has No Display.

* IN74VHC74D IC. If this IC failure, it will cause the TV No Display.

Hitachi T’Con board – 97-390310 – 32 inch Hitachi LCD TVs – input voltage 12V

No display problem
* IC1= AN8049 IC. If this IC failure, it will cause the TV has No Display.
* 74LCX00 - If this IC fails, it will cause the TV has No Display.
* IC2= TCON23.1A. Fails or this IC  will cause the TV with No Display.
* IC3= W9864G2EH SDRAM memory IC. If this IC fails, it will cause the TV No Display.

* IC9000= 5325IRZ. If this IC fails, it will cause the TV has No Display.

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LG and Philips 26 inch LCD panel TVs T"Con board faults and reasons - Line fault, Rainbow colors

December 7, 2017, 4:17 am

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LG and Philips LCD TVs - T’Con board problems - LC260W01-A5 (6870C-0011D) - LC260WX2 (6870C-0036D) - LC260WX2-SLB3 (6870C-0079C) 

LG and Philips  T'Con Board: LC260W01-A5 (6870C-0011D)

LCD: 26 inches Panel
voltage input = 12V
* U2= EL53241REZ. If this IC fails, the TV will have No Display or Abnormal Color problem.
* UC1= TL2223PC. If this IC fails, the TV will have No Display,  Screen full of Vertical Lines/Bars or Display Distortion.
* If DC-DC circuit PCB Board fails (If this small PCB malfunctions), the TV will have No Display.

LG and Philips T'Con Board: LC260WX2 (6870C-0036D)

LCD: 26 inches Panel
voltage  input = 12V

U7 is a SDRAM memory IC. If this IC fails, the TV will have No Display or Display Distortion problem.

U1= R8A00011FT. If this IC fails, the TV will have No Display or Rainbow Display on the Screen.
U2= LPL1544. If this IC fails, the TV sill have No Display.
US1= LM2716MT power management IC. If this IC fails, the TV will have No Display.

LG and Philips T'Con Board: LC260WX2-SLB3 (6870C-0079C)

LCD: 26 inches Panel
voltage input= 12V

U10= EPM3064A. If this IC fails, the TV will have No Display.
2) U6 is a SDRAM memory IC. If this IC fails, the TV will have No Display or Display Distortion problem.
3) UC1= TL22710D. If this IC fails, the TV will have No Display, Display Distortion or Rainbow Display..
4) U9= TPS65160 power management IC (DC-DC circuit IC). If this IC fails the TV will have No Display.

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LGP32-1-13PL1: EAX4905001- for LG32LN545B-CT - LED LCD TV - SMPS schematic – [Circuit diagram]

December 7, 2017, 5:05 am

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Used ICs: SC1S311A (Power control), MDF11N65B (Power Switching MOSFET), 817B (Opto-isolator), NR891D (Back-light LED driver control), MAP3202 (Back-light LED driver control)

Input:100-240-550-60Hz 1.5Amps

Output: 3.5V-1.4Amp, 24V-0.6Amp, 12V-1.2Amp and 70.3V-0.4Amp

Click on the schematic to magnify

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40L1333DG LED LCD TV SMPS board schematic – Using Vestel 17- IPS20 SMPS board

December 7, 2017, 6:13 am

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Toshiba 40L1333DG LED LCD TV Using 17_IPS20P Vestel Power supply – circuit diagram - Schematic

Used ICs: SG6742HR, MP3394, CAP002DG, FAN7529, TCET1102G (Opto Isolator)

Main inverter part

Back-light inverter part

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Samsung LCD TV – T’Con board faults – No display, Vertical line fault, Missing colors and more..

December 7, 2017, 10:24 pm

≫ Next: Samsung 32 and 40 inch LCD TVs – T’Con board problems – No display, Distorted picture, vertical lines or bars

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Samsung T’con Board: 260W2C4LV1.0 – No Display, Vertical line fault

LCD Panel: 26 inches
 Vcc input = 5V
* OP2 & OP3= EL5420CRE IC. If this IC failure, it will cause the TV No Display.
* ICT8= EL7581IREZ power management IC. If this IC fails, the TV will have No Display.
* ICT1= LRX4222T2. If this IC fails, the TV will have No Display or Full Screen of Vertical Lines/Bars.
* ICD1 SDRAM memory IC. If this IC failure, it will cause the TV No Display or Display Distortion problem.

Samsung T’con Board: 260W2C4LV1.6 – No display, Vertical line/Bar fault

LCD Panel: 26 inches
Vcc input= 5V

* D3 & D8 both are Diodes. If one of this component failure, it will cause the TV No Display.
* IC320= 7585A is a power management IC. If this IC fails, the TV will have No Display.
* ICT1= LRX4222T2. If this IC fails, the TV will have No Display, Display Distortion or Full Screen of Vertical Lines/Bars.
* ICD1= K4D263238F-UC50 SDRAM memory IC. If this IC fails, the TV will have No Display or Display Distortion problem.

Samsung T’con Board: 320W2C4LV1.4 – No display, Display distortion, color missing

LCD Panel: 32 inches
Vcc input= 5V

* OP1 & OP2= EL5420CRZ. If one of this IC fails, the TV will have No Display.
* ICT4= LRX4222T2. If this IC failure, it will cause the TV No Display, Display Distortion or Missing Color on the Screen.
* ICS1= K4D26238F-UC50 SDRAM memory IC. If this IC fails, the TV will have No Display or Display Distortion problem.
* ICP7= LM2700 power management IC. If this IC fails, the TV will have No Display.

Samsung T’con Board: 320W2C4LV6.4 – No display, abnormal display, display distortion, vertical lines/bars, white screen only

LCD Panel: 32 inches 

Vcc input= 5V

* ICT3 EEPROM memory IC. If this IC fails, the TV will have No Display or White Screen problem.

* ICT4= LRX4222T3. If this IC fails, the TV will have No Display, Display Distortion or Abnormal Display problem.

* ICD1 SDRAM memory IC. If this IC fails, the TV will have No Display or Full Screen of Vertical Lines/Bars.

* IC320= EL7585AIL power management IC. If this IC fails, the TV will have No Display.

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Samsung 32 and 40 inch LCD TVs – T’Con board problems – No display, Distorted picture, vertical lines or bars

December 8, 2017, 3:49 am

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Samsung T’con Board: 320WTLF3C2LV0.3

LCD Panel: 32 inches 
Vcc input= 5V
* IC12= 7585A power management IC. If this IC fails the TV will have No Display.
* IC18= EEPROM memory IC. If this IC fails, the TV will have No Display or White Screen.
* U1= TFP7517PNP. If this IC fails, the TV will have No Display or Display Abnormal problem.
* U1= EM638325TS-7G SDRAM memory IC. If this IC fails, TV will have No Display or Display Distortion

Samsung T,con Board: 400W2C4LTV0.1

LCD Panel: 40 inches

Vcc input= 5V

* OP3 = 54200CRZ & another one if this IC fail, one of the half (left or right side) will No Display or Display Abnormal.

* ICG1= 5327CRZ. If this IC fails, the TV will have No Display.

* ICD3= 2700NT power management IC. If this IC fails, the TV will have No Display.

* ICt1= LRX4222 IC. If this IC fails, the TV will have No Display or Display Distortion problem.

* ICD1 is a SDRAM memory IC. If this IC fails, the TV will have No Display or Display Distortion problem.

Samsung T’con Board: 400W2C4LV1.5

LCD Panel: 40 inches
Vcc input= 5V

IC320= EL7585AIL power management IC. If this IC fails TV will have No Display.
2) ICT1= LRX4222T3. If this IC fails, the TV will have No Display or Full Screen of Vertical Lines/Bars.
3) ICD1 is a SDRAM memory IC. If this IC fails, the TV will have No Display or Display Distortion problem.
4) IC322= 24006IRZ. If this IC fails, the TV will have No Display.

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