HP v7650 User manual
SERVICE MANUAL
COLOR MONITOR
HP V7650 Series
THESE DOCUMENTS ARE FOR REPAIR SERVICE INFORMATION ONLY.
EVERY REASONABLE EFFORT HAS BEEN MADE TO ENSURE THE ACCURACY OF
THIS MANUAL; WE CANNOT GUARANTEE THE ACCURACY OF THIS INFORMATION
AFTER THE DATE OF PUBLICATION AND DISCLAIMS LIABILITY FOR CHANGES,
ERRORS OR OMISSIONS.
1
TABLE OF CONTENTS
Page
TABLE OF CONTENTS………………………………………………………………………... 2
REVISION LIST…………………………………………………………………………………. 3
1. SPECIFICATIONS .................................................................................................... 4-5
2. PRECAUTION AND NOTICES ................................................................................ 6
2-1 SAFETY PRECAUTIONS .............................................................................. 6
2-2 PRODUCT SAFETY NOTICE ....................................................................... 6
2-3 SERVICE NOTES ......................................................................................... 6
2-4 HIGH VOLTAGE WARNING ....................................................................... 7
3. OPERATING INSTRUCTIONS ................................................................................ 8
4. ADJUSTMENT .......................................................................................................... 9
4-1 ADJUSTMENT CONDITIONS AND PRECAUTIONS ............................... 9
4-2 MAIN ADJUSTMENTS ................................................................................. 9
4-3 ADJUSTMENT METHOD ............................................................................. 9
5. CIRCUIT DESCRIPTION .......................................................................................... 13
5-1 MICRO CONTROLLER CIRCUIT .............................……………………... 13
5-2 DEFLECTION CIRCUIT .............................………………………………... 13
5-3 TRANSISTOR & DIODE CIRCUIT .............................……………………. 15
6. TROUBLE SHOOTING CHART .............................................................................. 15
6-1 NO RASTER, CRT RELATIVE CIRCUIT PROBLEMS ............................. 15
6-2 ABNORMAL DISPLAY ................................................................................ 17
6-3 NO BLANKING ........................................................................................…. 18
6-4 HOR. /OSC /DEF /HV CIRCUIT FAULT ..................................................... 18
6-5 ABNORMAL HORIZONTAL DEFLECTION .............................................. 19
6-6 ABNORMAL VERTICAL SCANNING ........................................................ 20
6-7 SIDE-PIN CUSHION DISTORTION ............................................................ 20
6-8 POOR FOCUS .............................................................................................. 20
6-9 POWER SUPPLY TROUBLE SHOOTING CHART .................................... 21
7. MECHANICAL OF CABINET FRONT DIS-ASSEMBLY...................................... 22
8. BOM LIST .....................................................................................................……... 23
9. BLOCK DIAGRAM .....................................................................………………….. 39
10. IC BLOCK DIAGRAMS............................................................................................ 41
11. PCB LAYOUT ........................................................................................................... 45
11-1 MAIN PCB LAYOUT……………………………………………………………… 45
11-2 CRT BOARD LAYOUT…………………………………………………………… 46
12. SCHEMATIC DIAGRAM ......................................................................................... 47
2
REVISION LIST
REVISION DATE REVISION HISTORY TPV MODEL
A00 NOV.- 23-2005 FIRST VERSION RELEASE;
A01 DEC.-12-05 UPDATE BOM P784BVCCHPN2P
3
1. MONITOR SPECIFICATIONS
1. CRT : 43.2CM(17") 90 Deflection, 29mm Neck, 0.27mm Dot Pitch, Pure Flat, Non-Glare Screen
2. Viewable image Size: 40.6CM (16") diagonal
3. Display Color: Unlimited Colors
4. External Controls:
Power On/Off, Power led, Function knob( Contrast, Brightness, H-Center, H-Size, V-Center, V-Size,
Rotation, Pincushion, Trapezoid, Pin-Balance, Parallelogram, Color Temperature, Degaussing,
Recall, Exit,
5. Input Video Signal
Mode 1 2 3 4 5 6 7 8 9 10
Horizontal Freq.
(KHz) 31.47 31.47 37.500 43.27 46.87 53.674 60.023 68.677 79.976 81.250
Dot Clock (MHz) 28.30 25.175 31.500 36.00 49.50 56.25 78.75 94.50 135.000175.500
Horizontal Lines 720 640 640 640 800 800 1024 1024 1280 1600
Vertical Lines 400 480 480 480 600 600 768 768 1024 1200
H. Sync Polarity NEG NEG NEG NEG POS POS POS POS POS POS
H. Period (µs) 31.921 31.778 26.667 23.111 21.333 18.631 16.660 14.561 12.304 12.308
H. Sync Width (µs) 3.814 3.813 2.032 1.556 1.616 1.138 1.219 1.016 1.067 1.094
H. Back Porch (µs) 1.907 1.589 3.810 2.222 3.232 2.702 2.235 2.201 1.837 1.732
H. Active (µs) 25.424 25.422 20.317 17.778 16.162 14.222 13.328 10.836 9.481 9.117
H. Front Porch (µs) 0.911 0.318 0.508 1.556 0.323 0.569 0.203 0.508 0.119 0.365
H. Blanking (µs) 5.861 5.720 6.349 5.333 5.172 4.409 3.657 3.725 3.022 3.191
Vertical Freq. (Hz) 69.616 59.940 75.000 85.008 75.00 85.061 75.029 84.997 75.025 65.000
V. Sync Polarity POS NEG NEG NEG POS POS POS POS POS POS
V. Period (ms) 14.364 16.683 13.333 11.764 13.333 11.756 13.003 11.765 13.329 15.385
V. Sync Width (ms) 0.064 0.064 0.080 0.069 0.064 0.056 0.050 0.044 0.038 0.037
V. Back Porch (ms) 1.149 0.794 0.427 0.578 0.448 0.503 0.466 0.524 0.475 0.566
V. Active (ms) 12.768 15.253 12.800 11.093 12.800 11.179 12.795 11.183 12.804 14.769
V. Front Porch (ms) 0.000 0.064 0.027 0.023 0.021 0.019 0.01 7 0.015 0.013 0.012
V. Blanking (ms) 1.149 0.922 0.533 0.670 0.533 0.578 0.533 0.582 0.525 0.615
6. Scanning Frequencies
Horizontal: 30KHz ~ 86KHz
Vertical: 50 Hz ~ 160 Hz
7. Factory Preset Timings:10
User Timings: 8
8. Video Bandwidth: 180 MHz
4
9. Power Source:
Switching Mode Power Supply
AC 90 ~265V, 50/60Hz Universal Type
10. Operating Temperature: 10°C to 35°C Ambient
11. Humidity: 20% to 80% Relative, Non-Condensing
12. External Connection:
15 Pin D-type Connector
AC Power Cord
13. Regulations:UL, CSA, FDA, FCC, TÜV/GS, CE, MPR-II,TCO,CCC
14. Key FOS spec.
NO Measurement Item Conditions Spec
Image size B-50 % C→MAX W=312±4 mm
1 H=234 ±4 mm
2 Image centering B-50 % C→MAX HOR.|a-b|≦4.0mm
VER.|c-d|≦4.0mm
3 Geometry Distortion B-50 % C→MAX <2.0mm
4 Tilt B-50 % C→MAX HOR≦1.0 mm
B-MAX C→MAX
5 Raster Luminance Black pattern 0.2 ~2.0 FL
6 Full White B-50 % C→MAX ≧30 FL
7 ABL (30% block) luminance B-50 % C→MAX ≧45 FL
8 Size regulation B-50 % C→MAX <1mm (each side)
Color Temperature / 9300K B-50 % C→MAX x/y:0.283/0.298± 0.015
9 Color Temperature / 6500K B-50 % C→MAX x/y:0.313/0.329± 0.015
Color Temperature / 5500K B-50 % C→MAX x/y:0.333/0.346± 0.015
10 Purity B-50 % C→MAX x, y <0.015
B-50 % C→MAX x/y: ± 0.015
11
Color Tracking
Default →5 FL
12 Brightness Uniformity B-50 % C→20 FL ≧75 %
B-50 % C→20 FL (max-min) /(Max+Min) ×100≦5 ﹪
13
Linearity
12x9 X-hatch Adjacent < 4%
Normal <75W (LED Green)
Active off < 3W (LED Amber)
14
Power consumption
Switch off <1W (LED OFF)
Zoon A (Center )≦0.25mm
15
Misconvergence B-50% C→MAX
Zone B (Circle )≦0.35 mm
VGA MODE Zone A≦0.30 mm Zone A≦0.40
5
2. PRECAUTIONS AND NOTICES
2-1 SAFETY PRECAUTIONS
1. Observe all caution and safety related notes located inside the display cabinet.
2. Operation of the display with the cover removed, may cause a serious shock hazard from the
display power supply. Work on the display should not be attempted by anyone who is not
thoroughly familiar with precautions necessary when working on high voltage equipment.
3. Do not install, remove or handle the picture tube in any manner unless shatter-proof goggles are
worn. People who are not so equipped should be kept away while handling picture tube. Keep
picture tube away from the body while handling.
4. The picture tube is constructed to limit X-RAY radiation to 0.5 mR/HR. For continued protection,
use the designated replacement tube only, and adjust the voltages so that the designated
maximum rating at the anode will not be exceeded.
5. Symbol“ “ means safety relative parts. The use of substitute replacement parts which do not
have
the same characteristics as specified in the parts list may create shock, fire or explode etc.
6. Symbol“”means X-ray relative parts. Before replacing any of these components please
read the parts list in this manual carefully to avoid creating higher anode voltage or x-ray.
Especially for sealed controls, such as VR902 and FBT screen VR etc, which were sealed by
the manufacturer once their optimum position has been set, please don’t dismantle them as your
likes, otherwise you will break or damage the component. If you need replace the parts with
sealed control, please adjust the relative VR to make sure the B+ voltage about 53.5.0V and well
seal it with A+B glue or equivalent, which you can not move away with one screw driver
7. Before returning a serviced display to the customer, a thorough safety test must be performed to
verify that the display is safe to operate without danger or shock. Always perform an AC leakage
current check on the exposed metallic parts of the cabinet, such as screw heads.
Test method for current leakage is described as follow.
(a) Plug the AC line cord directly into rated AC outlet (do not use a line isolation transformer
during this check).
(b) Use an AC voltmeter having 5000 ohms per volt or with more sensitivity in the following
manner: Connect a 1500 ohms 10 Watt resistor, paralleled by a 0.15UF, AC type capacitor
between a known good earth ground (water pipe, conduit, etc.) and the exposed metallic
parts simultaneously. Measure the AC voltage across the combination of 1500 ohms
resistor and 0.15UF capacitor.
(c) Reverse the AC plug at the AC outlet and repeat AC voltage measurements for each
exposed metallic part.
(d) Voltage measured must not exceed 0.5 volts RMS. This corresponds to 0.35 milliamp AC.
Any value exceeding this limit constitutes a potential shock hazard and must be corrected
immediately.
6
2-2 PRODUCT SAFETY NOTICE
Many electrical and mechanical parts in this chassis have special safety visual inspections and the
protection afforded by them cannot necessarily be obtained by using replacement components rated
for higher voltage, wattage, etc. 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 shock, fire, X-RAY radiation or other hazards.
2-3 SERVICE NOTES
1. When replacing parts or circuit boards, clamp the lead wires around terminals before soldering.
2. When replacing a high wattage resistor (more than 1/2W of metal oxide film resistor) in circuit
board, keep the resistor about 10mm (1/2 in) away from circuit board.
3. Keep wires away from high voltage or high temperature components.
4. Keep wires in their original position so as to reduce interference.
2-4 HIGH VOLTAGE WARNING
Operation of monitor outside of cabinet or with back removed may cause a serious shock hazard.
Work on this model should only be performed by those who are thoroughly familiar with precautions
necessary when working on high voltage equipment.
Exercise care when servicing this chassis with power applied. Many B plus and high voltage
terminals are exposed which, if carelessly contacted, can cause serious shock or result in damage to
the chassis. Maintain interconnecting ground lead connections between chassis and picture tube dag
when operating chassis.
Certain HV failures can increase X-ray radiation. Monitor should not be operated with HV levels
exceeding the specified rating for the chassis type. The maximum operating HV specified for the
chassis used in this monitor is
23.0KV ±1KV
with a line voltage of 120/240 VAC. Higher voltage may also increase possibility of failure in HV
supply.
It is important to maintain specified values of all components in the horizontal and high voltage
circuits and anywhere else in the monitor that could cause a rise in high voltage or operating supply
voltages. No changes should be made to the original design of the monitor. Components shown in
the shaded areas on the schematic should be replaced with exact factory replacement parts. The
use of unauthorized substitute parts may create a shock, fire or other hazard.
To determine the presence of high voltage, use accurate, high impedance, HV meter connected
between second anode lead and CRT dag grounding device. When servicing the High Voltage
System, remove static charge from it by connecting a 10K ohm resistor in series with an insulated
wire (such as a test probe) between picture tube dag and 2nd anode lead.(AC line cord disconnected
from AC power outlet.)
The picture tube used in this monitor employs integral implosion protection. Replace with tube of the
same type number for continue safety. Do not lift picture tube by the neck. Handle the picture tube
only after discharging the high voltage completely.
7
3. OPERATING INSTRUCTIONS
This procedure gives you instructions for installing and using the Color display.
1. Position the display on the desired operation and plug the power cord into a convenient AC
outlet. Three-wire power cord must be shielded and is provided as a safety precaution as it
connects the chassis and cabinet to the electrical conduit ground. If the AC outlet in your
location does not have provisions for the grounded type plug, the installer should attach the
proper adapter to ensure a safe ground potential.
2. Connect the 15-pin color display shielded signal cable to your signal system device and lock
both screws on the connector to ensure firm grounding. The connector information is as follow:
15 - Pin Color Display Signal Cable
PIN NO.
DESCRIPTION
PIN NO.
DESCRIPTION
1. RED 9. 5V
2. GREEN 10. SYNC. GND
3. BLUE 11. NC
4. NC 12. SDA
5. GND 13. HORIZ. SYNC
6. GND-R 14. VERT. SYNC (*VCLK)
7. GND-G 15. SCL
8. GND-B
3. Apply power to the display by turning the power switch to the "ON" position and allow about
thirty seconds for display tube warm-up. The Power-On indicator lights when the display is on.
4. With proper signals feed to the display, a pattern or data should appear on the screen, adjust
the brightness and contrast to the most pleasing display.
5. This monitor has power saving function following the VESA DPMS. Be sure to connect the
signal cable to the PC.
6. If your color display requires service, it must be returned with the power cord.
1
6
11 15
5
10
8
4. ADJUSTMENT
4-1 ADJUSTMENT CONDITIONS AND PRECAUTIONS
1. Approximately 30 minutes should be allowed for warm up before proceeding.
2. Adjustments should be undertaken only on those necessary elements since most of them have
been carefully preset at the factory.
4-2 MAIN ADJUSTMENTS
NO.
FUNCTION LOCATION DESIGNATION
1 B + ADJ PCB - MAIN VR902
2 SCREEN ADJ FLY BACK TRANS T402
3 FOCUS ADJ FLY BACK TRANS T402
4 ABL ADJ PCB - MAIN IC101
-MENU PCB - MAIN <SW101>
- DOWN (-) PCB - MAIN <SW103>
- UP (+) PCB - MAIN <SW102>
5
FUNCTION ADJ
SELET PCB - MAIN <SW104>
4-3 ADJUSTMENT METHOD
1. B + & HV voltage adjustment:
A. Chroma-2000 Signal generator or PC equivalent set mode 1, VGA 640X480 pattern 1.0 .
B.Connect a DC Volt meter between TP902 and ground, then adjust VR902 to be 54.5.0 VDC for
CPT CRT
2. Factory preset Timings Adjustment:
A. Press MENU Key to show OSD window press Up or Down Key to switch the functional controls.
B. Press the Up Key to select the "MORIE" function, then press the SELEC Key. While do not
release the SELEC Key until the OSD window changed to the Factory preset window.
C. The Factory preset window contains the following functional controls. Select one of the control.
Then press the Up/Down Key to adjust its value for the optimum picture.
(The OSD menu for factory preset)
9
H-SIZE H-MOIRE REDUCE
H-CENTER MOIRE DISABLE
V-SIZE HE NO USE
V-CENTER VE NO USE
PINCUSHION NO USE
PARALLELOGRAM V-LINEARITY
PIN-BALANCE V-LINEARITY
TRAPEZOID TOP CORNER
ROTATION BOT CORNER
SH NO USE LH NO USE
CONTRAST HP MAX-HSIZE MODIFY
BRIGHTNESS VM MAX-VSIZE MODIFY
R-BIAS KM MAX-TRAPEZOID MODIFY
G-BIAS BI BI SELECT FUNCTION
R-BIAS DEGAUSS
R-GAIN OSD EXIT
G-GAIN RETURN
B-GAIN Tm BURN IN TIME
9300 COLOR TEMPERATURE USER OSD HORIZONTAL
LOCATION ADJUST
6500 COLOR TEMPERATURE USER OSD VERTICAL
LOCATION ADJUST
5500 COLOR TEMPERATURE FV FACTORY OSD VERTICAL
LOCATION ADJUST
V-MOIRE REDUCE
D. To switches the input signal to the other Timing Mode. Please follow step A ~ C to get the
optimum picture.(H/V-size:312*234mm)
E. Select the " " RETURN function and press the MENU Key, then the Factor Preset
window will be returned to the original OSD window.(user's operating condition)
F. The setting data of the CONTRAST, BRIGHTNESS, ROTATION, COLOR TEMPERATURE are
common mode saved in the memory. Don't needed adjust it individual at every timing Mode and
save in the memory.
10
3. White Balance, Luminance adjustment:
A. Bias (Raster) adjustment:
(a) Set mode8 1024×768 @85Hz full white pattern(100% white field).
(b) To make the adjustment condition is under the Factory preset OSD menu.
Same as step 2-B.
(c) Warm up more than 20 minutes.
(d) Put the probe in the middle of screen, Brightness set to maximum. Contrast set to
max. change to Raster pattern(No video)1024×768 @85Hz, set G-Bias 40,then adjust
B-Bias , R-Bias and FBT screen VR, to make the color temperature x= 265
±10, y= 290 ±10, Y=0.6±0.02FL
(e) Press up or down key to select cursor on 9300 icon and than press menu key for saved the
bias data to EEPROM.
B. 9300 and 6500 5500 color temperature window pattern(20% white field) adjustment:
(a) Set mode 1024×768 @ 85Hz Raster pattern.
(b) adjust Brightness , to make raster Luminance is 0.06 FL.
(c) Change mode to 1024×768 @ 85Hz window pattern(20% white field).put the probe in the
middle of screen ,Adjust G-Gain , B-Gain , R-Gain , to make color
temperature x=283±10, y=297 ±10, Y= 48±0.6FL.then save to 9300.(use up/down key
select cursor on 9300 icon and than press menu key)
(d) Adjust G-Gain , B-Gain , R-Gain , to make color temperature x=313±10,
y=329±10, Y= 48±0.6FL.then save to 6500.
(e) Adjust G-Gain , B-Gain , R-Gain , to make color temperature x=333±10,
y=346±10, Y= 48±0.6FL.then save to 5500.
C.Full white luminance(100% white field) for 9300:
(a) Set mode 1024×768 @ 85Hz full white field
(b) Adjust VR701 to the luminance at 33 ±0.3FL.
D.Cut off adjustment:
(a) Set mode 1024×768 @85Hz Raster pattern.
(b) Adjust Brightness , to make Y= 0.06 FL.then return from factory OSD mode to user OSD
mode.
4. Focus Adjustment:
A. Set mode 1024×768 @85Hz with crosshatch pattern.
B. Then adjust focus VR1 to a fine vertical line.
C. Adjust focus VR2 to a fine horizontal line.
D. Repeat step B & C. and change to full text pattern double check focus uniformity.
11
5. Purity Adjustment
A. Be sure that the display is not being exposed to any external magnetic fields.
B. Ensure that the spacing between the Purity, Convergence, Magnet, (PCM), assembly and the
CRT stem is 29mm. (See below diagram)
C. Produce a complete, red pattern on the display. Adjust the purity magnet rings on the PCM
assembly to obtain a complete field of the color red. This is done by moving the two tabs in such
a manner that they advance in an opposite direction but at the same time to obtain the same
angle between the two tabs, which should be approximately 180'.
D. Check the complete blue and complete green patterns to observe their respective color purity.
Make minor adjustments if needed.
RELATIVE PLACEMENT OF TYPICAL COMPONENTS
Purity Magnets
Deflection Yoke
4-pole Convergence Magnets
6-pole Convergence Magnets
6. Convergence adjustment
A. Produce a magenta crosshatch on the display.
B. Adjust the focus for the best overall focus on the display.
Also adjust the brightness to the desired condition.
C. Vertical red and blue lines are converged by varying the angle between the two tabs of the 4
pole magnets on the PCM assembly. (See above diagrams)
D. Horizontal red and blue lines are converged by varying the two tabs together, keeping the angle
between them constant.
E. Produce a white crosshatch pattern on the display.
F. Vertical green and magenta lines are converged by varying the angle between the two tabs of
the 6-pole magnets.
G. Horizontal green and magenta lines are converged by varying the two tabs together, keeping
the angle between them constant.
12
5. CIRCUIT DESCRIPTION
5-1 MICRO CONTROLLER CIRCUIT
MICRO Controller
The IC101 contains a 6502/8051 8-bit CPU core, 512 bytes of RAM, 16K bytes of ROM,14 channel 8
bit PWM D/A converters, 2 channel A/D converters for key detection, one 8 bit pre-loadable base
timer, internal H-sync and V-sync signals processor providing mode detection, watch- dog timer
preventing system from abnormal operation, and an I²C bus interface.
H/V sync signals processor
The functions of the sync processor include polarity detection, H-SYNC & V-SYNC signals counting,
Programmable SYNC signals output, free running signal generator. Pin39/Pin40 are for the H-SYNC
and V-SYNC input, Pin32/Pin33 will output the same signal as input sync signal without delay, and the
polarity are setting in the positive. When no signal input, the Pin32 will output a 72Hz V-SYNC free run
signal. The Pin33 will output a 48KHz H-SYNC free run signal. for the monitor testing use.
5-2 DEFLECTION CIRCUIT
The deflection circuit is achieved by a high performance and efficient solution IC 401 (STV9118) for
this monitor. The concept is fully DC controllable and can be used in applications with a micro-
controller solutions.
The STV9118 provides sync. Processing with full auto sync. Capability, a flexible SMPS block and an
extensive set of geometry control facilities. Further the IC generates the drive waveforms for DC
coupled vertical boosters to the STV9302A.
Horizontal Oscillator
The oscillator is of the relaxation type and requires a capacitor of C409 at pin6. The free running
frequency is determined by a resistor R412 from pin8 to ground.
PLL 1 Phase Detector
The phase detector is a standard one using switched current sources. It compares the middle of H-
sync. with a fixed point on the oscillator saw-tooth voltage. The PLL loop filter C435, C437, R411 is
connected to Pin9.
PLL2 Phase Detector
This phase detector is similar to the PLL1 detector and compares the line flyback pulse at pin 12 with
the oscillator saw-tooth voltage. The PLL2 detector thus compensates for the delay in the external H-
deflection circuit by adjusting the phase of the HDRV output pulses. The phase between H-flyback and
H-sync can be controlled at pin5.
13
X-ray Protection
The X-ray protection input pin25 provides a voltage detector with a precise threshold. If the voltage
exceeds this threshold for a certain time, an internal latch switches the whole IC into protection mode.
In this mode several pins are forced into defined states:
Pin28 (BDRV) is floating
Pin26 (HDRV) is floating
Vertical Oscillator
The vertical free –running frequency is determined by the capacitance C613 at pin22. Usually the free-
running frequency should be lower than the minimum trigger frequency.
5-3 TRANSISTOR & DIODE CIRCUIT
LOCATION
CIRCUIT FUNCTION DESCRIPTION
D901~D904 Rectifier Diode for AC Source
D910 Clamp Diode for snub CKT
D919 Rectifier for Output Voltage
D922 Rectifier for Output Voltage
D923 Rectifier for Output Voltage
D925 Rectifier for B+ Supply
D929 B+ Feed Back Rectifier from F.B.T Pulse
IC901 Power IC for Switching Power Control (Build-in MOS FET)
Q907, Q908 Use for Power Saving to Cut-off 6.3V Supply Voltage
Q909, Q910 Use for Power Saving to Cut-off 14V Supply Voltage
Q912, Q920 Push-Pull Topology to Drive Q911
Q913 Degaussing Switcher Transistor
Q906 5V Regulator Transistor
Q402 HOR. Driver Transistor
Q440 Horizontal s correction control MOSFET(Four in one)
Q404, Q405 As Differential Amp. to Drive Q406
Q406 Transistor for H-Size Control
Q705 Brightness Control CKT
Q742 V-Dynamic focus CKT
14
6.TROUBLE SHOOTING CHART
6-1 NO RASTER, CRT RELATIVE CIRCUIT PROBLEMS
REFER ITEM S.M.P.S.
BRIGHTNESS SET TO MAX. THEN
CHECK CRT G1 VOLTAGE
NG
NG
NG
NG
NG
OK
OK
OK
OK
OK
CHECK THE HIGE VOLTAGE
CHECK THE VOLTAGE OF CRT
HEATER ABOUT 6.3V
CHECK VOLTAGE OF THE CRT
CHECK BRIGHTNESS CIRCUIT
OK
CHECK POWER SAVING CIRCUIT,
"ABNORMAL DISPLAY"
H-SYNC, V-SYNC SIGNAL
CHECK SCREEN VOLTAGE ABOUT
LESS THAN 300V CHECK FBT
CHECK MAIN PCB POWER SUPPLY
CHECK FAILSAFE CKT IC401
Q909, Q910
CHECK CRT'S HEATER RELATIVE
CIRCUIT Q907, Q908
Q703, Q704, Q705 RELATIVE CKT.
PIN 25 RELATIVE CKT.
OF CRT ABOUT 24.5 ~ 25.5KV
400V TO 600V
REFER ITEM 6-2
53V, 14V, 78V
CATHODE ABOUT 55V TO 65V
CHECK MAIN PCB POWER
SUPPLY 47.0V,13V
CHECK THE HIGE VOLTAGE OF
CRT ABOUT 23~24KV
CHECK BRIGHTNESS CIRCUIT
Q705 RELATIVE CKT.
15
2.ABNORMAL VIDEO LEVEL ON SCREEN
3. ABNORMAL DDC (PLUG & PLAY)
16
6-2 ABNORMAL DISPLAY
1.NO SIGNAL ON SCREEN
17
6-3 NO BLANKING
6-4 HOR./OSC/DEF/HV CIRCUIT FAULT
1. NO RASTER (DISCONNECT WITH SIGNAL CABLE)
18
6-5 ABNORMAL HORIZONTAL DEFLECTION
1.ABNORMAL HORIZONTAL WIDTH OF VIDEO
2.ABNORMAL HORIZONTAL VIDEO CENTER
RELATIVE CIRCUIT
CHECK IC401 PIN 4, 7
3.ABNORMAL HORIZONTAL LINEARITY
19
6-6 ABNORMAL VERTICAL SCANNING
1. ABNORMAL VERTICAL SIZE
2. VERTICAL CENTER
NG
READJUST V-CENTER
RELATIVE CKT
CHECK IC401 AND IC601
6-7 SIDE-PIN CUSHION DISTORTION
NG
READJUST SIDEPIN
CHECK IC401, Q404, Q405, Q406
RELATIVE CKT.
6-8 POOR FOCUS
READJUST FOCUS CONTROL
NG CHECK FOCUS CONTROL UNIT,
FOCUS LEAD WIRE, CRT SOCKET & CRT
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