Tuesday, December 14, 2021

How to enter the service mode Toshiba 21T01F, 21R01F, 21T01B, 14R01F, 14T01B, circuit diagram, default factory data, option bytes , reset

 

Applicable to Toshiba 21T01F, 21R01F, 21T01B, 14R01F, 14T01B, 14R01B, 21T01N, 21T01I, 21T01D, 14T01N, 14T01I, 14T01D

  Always respect voltages. While some may not be dangerous in themselves, they can cause unexpected reactions that are best avoided. Before reaching into a powered TV set, it is best to test the high voltage insulation. It is easy to do, and is a good service precaution.

Factory Mode

1. Do not attempt these adjustments in the Video Mode.
2. The Factory Mode adjustments are necessary when either the EEPROM (IC902) or the CRT is replaced.
3. Do not tamper with the “Adjustment” screen of the Factory Mode menu. This screen is intended only for factory use.

When EEPROM (IC902) Is Replaced.
1. When IC902 is replaced all adjustment data revert to initial values. It is necessary to re-program this data.
2. After IC902 is replaced, warm up the TV for 10 seconds.

When CRT Is Replaced.
1. Make the following adjustments AFTER setting up after setting up purity and convergence:
White Balance
Sub-Brightness
Vertical Center
Vertical Size
Horizontal Size
Fail Safe (This adjustment must be the last step).
2. If the EEPROM or CRT is replaced, set PVA to 40 (factory mode) and set SC as follows.
14 inch : 18
21 inch : 24

Factory or Service Mode.

Procedure for the “Adjustment” Mode.
1. This mode uses the standard remote control.
The Service Mode is activated by entering the following remote-control sequence :
(1) DISPLAY→FACTORY.
(2) STAND-BY→DISPLAY→MENU→MUTE →POWER ON.
2. The “SERVICE (FACTORY)” message will be displayed. The Service Mode has three components: ADJUST, OPTION and RESET.
3. Access the Adjustment Mode by pressing the “VOLUME” keys ( Up or Down). The adjustment parameters are listed in the accompanying table, and selected by pressing the CHANNEL keys (
,).

4. Selection sequences for the all system:
DOWN or UP key:
AGC>SCT>SBT>BLR>BLB>RG>GG>BG> VSL>VS>VA>HS>SC>CDL>STT>AKB> PDL>NDL>PSR>NSR>VOL>LCO>TXP> MVOL>FMWS>AGCS>OMD>SCL>PWL> AGN>PEK>ACL>FCO>SCBT>TSC
5. The VOLUME keys increase or decrease the adjustment values (stored in the non-volatile memory) when Adjustment Mode is cancelled.
6. Cancel the Adjustment Mode by re-pressing the “FACTORY” or “Power OFF” key.

Initial data values

NOTE : PVS, PVA, PHS, parameters must be aligned using the 50Hz vertical-field rates.

Option Bytes
In the Service Mode, various can be selected via the Option Table. Example:

RESET
The Reset Mode is used during factory inspection.
Function Reset:
1. Picture Custom
2. Auto Volume Off
3. Color System Auto (option)
4. Blue Screen Off
5. Volume 10
6. CH. Skip Erased
7. CH. Lock Off

1.Usually, a color TV needs only slight touchup adjustment upon installation. Check the basic characteristics such as height, horizontal and vertical sync and focus.
2. The picture should have good black and white details. There should be no objectionable color shading; if color shading is present, perform the purity and convergence adjustments described below.
3. Use the specified test equipment or its equivalent.
4. Correct impedance matching is essential.
5. Avoid overload. Excessive signal from a sweep generator might overload the front-end of the TV. When inserting signal markers, do not allow the marker generator to distort test results.
6. Connect the TV only to an AC power source with voltage and frequency as specified on the back cover nameplate.
7. Do not attempt to connect or disconnect any wires while the TV is turned on. Make sure that the power cord is disconnected before replacing any parts.

Automatic Degaussing.

A degaussing coil is mounted around the picture tube, so that external degaussing after moving the TV should be unnecessary. But the receiver must be properly degaussed upon installation.
The degaussing coil operates for about 1 second after the power is switched ON. If the set has been moved or turned in a different direction, disconnect its AC power for at least 30 minutes.
If the chassis or parts of the cabinet become magnetized, poor color purity will result. If this happens, use an external degaussing coil.
Slowly move the degaussing coil around the faceplate of the picture tube and the sides and front of the receiver. Slowly withdraw the coil to a distance of about 6 feet before removing power.

High Voltage Check.
CAUTION: There is no high voltage adjustment on this chassis.
The B+ power supply must be set to +125 volts (Full color bar input and normal picture level).
1. Connect a digital voltmeter to the second anode of the picture tube.
2. Turn on the TV. Set the Brightness and Contrast controls to minimum (zero beam current).
3. The high voltage should not exceed 27.5KV.
4. Adjust the Brightness and contrast controls to both extremes. Ensure that the high voltage does not exceed 27.5KV under any conditions.

FOCUS Adjustment.
1. Input a black and white signal.
2. Adjust the tuning control for the clearest picture.
3. Adjust the FOCUS control for well defined scanning lines in the center area of the screen.
Cathode Voltage Adjustment (Screen Adjustment)
1. Enter the FACTORY mode.
2. Select the G2-ADJUST.
3. Adjust the screen VR(on the FBT) so that ‘SCREEN ADJUST : NG(Red or Blue)’ becomes ‘SCREEN ADJUST : OK’.
When the color of ‘SCREEN ADJUST’ is red, the cathode voltage is low and when blue, it is high.

4. Input a black and white signal.
5. Fully demagnetize the receiver by applying an external degaussing coil.
6. Turn the CONTRAST and BRIGHTNESS controls to maximum.
7. Loosen the clamp screw holding the yoke.
Slide the yoke backward or forward to provide vertical green belt.
8. Tighten the convergence yoke.
9. Slowly move the deflection yoke forward, and adjust for the best overall green screen.
10. Temporarily tighten the deflection yoke.
11. Produce blue and red rasters by adjusting the low-light controls. Check for good purity in each field.

White Balance Adjustment.

Set up
1. Warm up the TV for at least 30 minutes in the Aging Mode (OSD White). This mode is entered by entering the following sequence:
(Displaying AGING on the screen)
DISPLAY →FACTORY →FACTORY
2. Input a Toshiba pattern.
(b) Low-Light Adjustment
1. Set SBT to 3.5 ± 0.5 fL in the Factory Service Mode with using CA100.
(14inch : 2.5 ± 0.5fL, 21inch : 1.5 ± 0.5fL)
2. Adjust RG,BG so that the levels are suitable to each local area.

(c) High-Light Adjustment
1. Set SCT to 35 FL (20”. 21”), 60 FL(14”) in the Factory Service Mode with using CA100.

Center Convergence Adjustment
1. Warm up the receiver for at least 20 minutes.
2. Adjust the two tabs of the 4 pole magnets to change the angle between them. Superimpose the red and blue vertical lines in the center area of the screen.
3. Adjust the Brightness and Contrast controls for a well defined picture.
4. Adjust the two-tab pairs of the 4 pole magnets, and change the angle between them.
Superimpose the red and the blue vertical lines in the center area of the screen.

5. Turn the both tabs at the same time, keeping the angle constant, and superimpose the red and blue horizontal line in the center of the screen.
6. Adjust the two-tab pairs of the 6-pole magnets to superimpose the red and blue line onto the green. (Changing the angle affects the vertical lines, and rotating both magnets affects the horizontal lines.)
7. Repeat adjustments 2~6, if necessary.
8. Since the 4-pole magnets and 6-pole magnets interact, the dot movement is complex

RF AGC Adjustment
Set the AGC data to 33 (Factory Mode).
Sub-Color Adjustment
Set data to (Factory Mode).
Geometry Adjustment
SC →VS→VSL→HS
1. Input a lion head pattern (in the PAL channel).
2. Set the SC (S-Correction) as follows : 24 (21”),
24 (20”), 18 (14”) and VA 40 so that the lion head circle becomes oval.
3. Adjust with VSL (Vertical-Slope) so that the bottom margin of the picture is 4.

4. Adjust with VS (Vertical shift) so that the top margin of the picture is 4.


6. Adjust HS (using the width coil) so that the left and right margins of the picture are 5


Wiring diagram and schematic diagram






Wednesday, December 8, 2021

Toshiba PC-10X Stereo Cassette Tape Deck and Kenwood KX-700 Stereo Cassette Deck Schematic

 

Toshiba PC-10X Stereo Cassette Tape Deck Schematic


Kenwood KX-700 Stereo Cassette Deck Schematic


Sunday, December 5, 2021

Marantz SM1000 stereo schematic diagram and Sanyo JA566 circuit diagram and parts list

 

Schematic diagram

Sanyo JA566 Parts list

Sanyo JA566 Circuit diagram (Schematic)

Friday, November 26, 2021

AKAI GXC-65D Dolby System Schematic Diagram

 





Thomson Multimedia AM1150 Audio - Chassis CRKD1290, Brandt, Ferguson, Saba, Telefunken – Schematic diagram and PCB

 

Used ICs: LA1823, AN7312, LC7213, TC4052BP, UPD753016, PT2256, TA8227

Schematic diagram (Circuit Diagram)






Tuesday, November 9, 2021

Daewoo 715B XGA COLOR MONITOR – How to enter the service mode, How to troubleshoot, Full schematic diagram

 

  Always respect voltages. While some may not be dangerous in themselves, they can cause unexpected reactions that are best avoided. Before reaching into a powered TV set, it is best to test the high voltage insulation. It is easy to do, and is a good service precaution.


This color monitor automatically scans all horizontal frequencies from 30KHz to 70KHz, and all vertical frequencies from 50Hz to 160Hz. This color monitor supports IBM PC, PC/XT, PC/AT, personal System/2 (PS/2), Apple Macintosh, and compatible users crisp text and vivid color graphics display when using the following graphics adapters : (VGA, 8514/A, Super VGA, VESA and XGA and Apple Macintosh Video Card). And so, this color monitor has a maximum horizontal resolution of 1280 dots and a maximum vertical resolution of 1024 lines for superior clarity of display.
By accepting analog signal inputs which level is zero to 0.7 Volts. This color monitor can display and unlimited palette of colors depending on the graphics adapter and software being used.

Degaussing is always required when adjusting purity or convergence.
• The white balance adjustment has been done by a color analyzer in factory. The adjustment procedure,
described in the service manual is made by a visual check.
• Allow 20 minutes warm-up time for the display before checking or adjusting only electrical
specification or function.
• Reform the lead wire after any repair work.

Caution For Servicing
In case of servicing or replacing CRT, high voltage sometimes remains in the anode of the CRT. Completely discharge high voltage before servicing or replacing CRT to prevent a shock to the serviceman.

ALIGNMENT PROCEDURE

Standard Adjustment Conditions
1. Power source voltage : AC 120V, 60Hz/AC 220V, 50Hz.
2. Aging : Take at least 20 minutes warm-up time.
3. Signals.
Video : Analog 0.7Vpp 75Ωterminal positive polarity
Synchronizing : TTL Level Negative/Positive Separate/Composite
Deflection frequency
Horizontal Frequency : 30KHz - 70KHz
Vertical Frequency : 50Hz - 160Hz
Pre-Adjustment
1. High Voltage Adjustment
Adjust 25.8 KVdc between Anode cap and ground at a cross hatch pattern of 60KHz by using VR 601.
2. H.Size Adjustment
(a) Receive a cross hatch pattern of 60KHz
(b) Set the H-Size control to the maximum on OSD menu.
Method to launch the factory mode [Service mode]
Push the menu button.
Push the menu button and plus control button ( + ) for 5 times in same time.
Main Adjustment.
1. Setting the Controls
Set the value of items as following.
Contrast : Max. (OSD value up to 100)
Brightness : Center (Set the OSD value to 50)
2. H.size, V.size, H.phase, V.position, Pincushion, Trapezoid
Receive the cross hatch pattern of Factory preset mode.
H.size, V.size, H.phase, V.position, Pincushion, Trapezoid are adjusted at each mode.
In Factory, Auto Alignment was done at each mode. Therefore, Factory preset mode has it’s own value according to each control.
3. Focus
(a) Set brightness control to center and contrast control to MAX.
(b) Receive all “H” character pattern of 60KHz mode signal.
(c) Adjust the Focus control of FBT to obtain best Focus (static focus and Dynamic focus).
4. Geometric Distortion Adjustment
(a) Receive the cross hatch pattern of VGA mode signal by using the signal generator.
(b) Pin balance, Parallelogram are adjusted the best geometric status.
(c) Repeat the adjustment at each mode.
5. White Balance Adjustment
(a) Receive a full white pattern of 60KHz mode.
(b) Set the bright control and contrast control to the maximum and receive the all black pattern.
(c) Adjust the G1 control in Factory mode to 0.8 Ft/L.
(d) Select the R, G, B Bias on the OSD menu and adjust the +/– key to get the color coordinates in X=0.281, Y=0.311.
(e) If the screen luminosity is changed, repeat (c) & (d) to get the 0.8 Ft/L screen luminosity.
(f) Set the brightness control to the center and contrast control to the maximum.
(g) Receive a full white pattern.

(h) Select the R, G, B gain on the OSD menu and adjust the +/– key to get the color coordinates in X=0.281±0.02, Y=0.311±0.02.
(i) Adjust the sub contrast (ABL) control to get the screen luminosity to 30.0 Ft/L.
6. Static Convergence Adjustment
(a) Apply a magenta cross hatch pattern on display.
(b) Adjust the focus from the best over all focus on the display.
Also adjust the brightness to the desired condition.
(c) Vertical red and blue lines are converged by varying the angles between the two tabs of the 4-pole magnets.
(d) Horizontal red and blue lines are converged by varying the tabs together keeping the angle between them constant.
(e) Apply a yellow cross hatch pattern on the display.
(f) Vertical green and red lines are converged by varying the angle between the two tabs of the 6-pole magnets.
(g) Horizontal green and red lines are converged by varying the tabs together and keeping the angle between them constant.

Troubleshooting chart
















Full Schematic

Thursday, September 30, 2021

LG 29FX5R, LG 29FX5R-LA, LG 29FX5A, LG 29FX5A-LA schematic diagram and PWB - using STR6756 or STR6754

 LG  29 inch CRT TV - schematic diagram and PWB - using  STR6756 or STR6754 – switching power regulator - Models LG 29FX5R, LG 29FX5R-LA, LG 29FX5A, LG 29FX5A-LA

Printed circuit boards

Schematic diagram - Full

Schematic diagram - Split


Sunday, August 22, 2021

Horizont 42LE5131, Hisense RSAG7.820.5338 and AOC MIP988A-K2 SMPS board schematic

 

Horizont 42LE5131D SMPS (power supply board) schematic



RSAG7.820.5338 SMPS (power supply board) schematic - Hisense 50H7GB1, 50H7GB, 50H7C



MIP988A-K2 SMPS (power supply board) schematic – AOC LC42S05M, AOC LC42505M, LCD-42CA330