Fujitsu TF1560GH, C383, S383FA-V151 Schematic

SERVICE MANUAL

TF1560GH C383 S383FA-V151

P/N : 41A50-137

TABLE OF CONTENTS

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PAGE

1. SPECIFICATIONS ....................................................................................................

1-1 GENERAL SPECIFICATIONS ...................................................….............. 3

1-2 LCD MONITOR DESCRIPTION .................................................................. 4

1-3 INTERFACE CONNECTOR .................................................................……. 4

2. PRECAUTION AND NOTICES ................................................................................

2-1 ASSEMBLY PRECAUTION ......................................................................... 5

2-2 OPERATIONG PRECAUTION ..................................................................... 5

2-3 STORAGE PRECAUTION …........................................................................ 5

2-4 HIGH VOLTAGE WARNING ....................................................................... 5

3. OPERATING INSTRUCTIONS ................................................................................

4. ADJUSTMENT ..........................................................................................................

4-1 ADJUSTMENT CONDITIONS AND PRECAUTIONS ............................... 7

4-2 ADJUSTMENTS METHOD ...........................................................................

4-3 FRONT PANEL CONTROL KNOBS ............................................................ 8

5. CIRCUIT DESCRIPTION ..........................................................................................

5-1 THE DIFFERENT BETWEEN EACH PANEL ……………………………. 9
5-2 SPECIAL FUNCTION WITH PRESS KEY ……………………………….. 9
5-3 SIMPLE INTRODUCTION ABOUT LM500 CHIPSET …………………... 10

7-8

6. TROUBLE SHOOTING CHART ..............................................................................

7. MECHANICAL OF CABINET FRONT DIS-ASSEMBLY......................................

8. PARTS LISTING .........................................................................................………...

9. POWER SYSTEM AND CONSUMPTION CURRENT............................................

9-1 HARDWARE BLOCK DIAGRAM …………………………………………

10. PCB LAYOUT .....................................................................………………………...

11. SCHEMATIC DIAGRAM ….....................................................................................

1. SPECIFICATIONS FOR LCD MONITOR

1-1 General specifications

1. LCD-PANEL :

Active display area 15 inches diagonal

Pixel pitch 0.298 mm x 0.298 mm
Pixel format 1024 x 768 RGB vertical stripe arrangement

2. Display Color :

6-bit, 262144 colors

3. External Controls :

Power On/Off, Auto key, Rotary-knob, Contrast, Brightness, Focus, Clock,

H-position, V-position, Language, Recall-7800, Recall-6500, Reset,

Exit-osd, Red, Green, Blue

4. Input Video Signal :

Analog-signal 0.7Vpp

Video signal termination impedance 75 OHM

5. Scanning Frequencies :

Horizontal: 29 KHz - 61 KHz
Vertical: 55 Hz – 75 Hz
Pixel clock: 80 MHz

6. Factory Preset Timing : 18

User Timings : 19
Input signal tolerance : H tolerance 1 K, V tolerance

7. Power Source :

Switching Mode Power Supply
AC 100 – 240 V, 50/60 Hz Universal Type

8. Operating Temperature : 0 - 50 Ambient

Non-operating Temperature : -20 - 60

9. Humidity :

Operating : 20% to 80% RH (non-condensing)
Non Operating : 5% to 95%RH (38.7 maximum wet bulb temperature)

10. Weight :

4.6 kg

11. External Connection : 15Pin D-type Connector, AC power-Cord

12. View Angle : x-axis right/left = 60, y-axis up/down = 45

13. Outside dimension : Width x Height x Thickness = 398mm x 401mm x 250mm

14. Plug and Play : VESA DDC1/DDC2B

15. Power saving : VESA DPMS

AC-IN

1-2 LCD MONITOR DESCRIPTION

The LCD MONITOR will contain an main board, an inverter board, a power switch board and a keyboard. The
main board will house the flat panel control logic, brightness control logic, DDC and DC-DC conversion to
supply the appropriate power to the whole board and LCD panel, and transmitting TTL level signals into LCD
Module to drive the LCD display circuit.

The inverter board will drive the two CCFLs (Cold Cathode Fluorescent Tube).
The switching power board will provides the power ON/OFF control over the whole monitor and control for
DPMS LED indicator.
The function keyboard will provides the OSD control signal to the Main Board.

Inverter Flat Panel

CCFT Drive.

ADAPTER

1-3 Interface Connectors

(A) Power Cable
(B) Video Signal Connectors and Cable

Monitor Block Diagram

Main Board

Keyboard

HOST Computer

RS232 Connector

Video signal, DDC

2. PRECAUTIONS AND NOTICES

2-1 ASSEMBLY PRECAUTION

(1) Please do not press or scratch LCD panel surface with anything hard. And do not soil LCD panel surface

by touching with bare hands (Polarizer film, surface of LCD panel is easy to be flawed)

In the LCD panel, the gap between two glass plates is kept perfectly even to maintain display

characteristic and reliability. If this panel is subject to hard pressing, the following occurs :

(a) Uniform color (b) Orientation of liquid crystal becomes disorder
(2) Please wipe out LCD panel surface with absorbent cotton or soft cloth in case of it being soiled.
(3) Please wipe out drops of adhesive like saliva and water in LCD panel surface immediately.

They might damage to cause panel surface variation and color change.

(4) Do not apply any strong mechanical shock to the LCD panel.

2-2 OPERATING PRECAUTIONS

(1) Please be sure to unplug the power cord before remove the back-cover. (be sure the power is turn-off)
(2) Please do not change variable resistance settings in MAIN-BOARD, they are adjusted to the most suitable

value. If they are changed, it might happen LUMINANCE does not satisfy the white balance spec.

(3) Please consider that LCD backlight takes longer time to become stable of radiation characteristic in low

temperature than in room temperature.

(4) Please pay attention to displaying the same pattern for very long-time. Image might stick on LCD.

2-3 STORAGE PRECAUTIONS

(1) When you store LCD for a long time, it is recommended to keep the temperature between 0 without

the exposure of sunlight and to keep the humidity less than 90% RH.

(2) Please do not leave the LCD in the environment of high humidity and high temperature such as 60

90%RH.

(3) Please do not leave the LCD in the environment of low temperature; below -15 .

2-4 HIGH VOLTAGE WARNING

The high voltage was only generated by INVERTER module, if carelessly contacted the transformer on this
module, can cause a serious shock. (the lamp voltage after stable around 600V, with lamp current around 8mA,
and the lamp starting voltage was around 1500V, at Ta=25 )

3. OPERATING INSTRUCTIONS

5

This procedure gives you instructions for installing and using the LM500 LCD monitor 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 conduct 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:

PIN NO.

DESCRIPTION

1. RED 9. 5V power from VGA-card

2. GREEN 10. GND

3. BLUE 11. SYNC. GND

4. GND 12. SDA

5. GND 13. HORIZ. SYNC

6. GND-R 14. VERT. SYNC

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 Panel 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, or press auto-key to get the best picture-quality.

5. This monitor has power saving function following the VESA DPMS. Be sure to connect the signal cable
to the PC.

6. If your LM500 LCD monitor requires service, it must be returned with the power cord.

1

6

11 15

10

15 - Pin Color Display Signal Cable

PIN NO.

DESCRIPTION

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 following function : contrast, brightness focus, clock, h-position,

v-position, red, green, blue since 6500 color & 7800 color &VR501 have been carefully preset at the
factory.

4-2 ADJUSTMENT METHOD

Press MENU key to show OSD window or select function, and Left/Right key to switch the function controls or
done the adjustment.

1. White-Balance, Luminance adjustment

Before started adjust white balance ,lets setting the Chroma-7120 MEM. Channel 3 to 7800 color and
MEM. channel 4 to 6500 color, how to setting MEM.channel you can reference to chroma 7120 user
guide or simple use “ SC” key and “ NEXT” key to modify xyY value and use “ID” key to modify your
own description

Following is the step to do white-balance adjust

Press MENU key for 2 seconds at power on (replug power cord) will be in factory mode, and the OSD
screen will located at left top of panel.

I. Bias (Low luminance) adjustment :

Press “ AUTO” key , and wait for message “ Pass” appear then set OSD contrast and brightness
To maximal, RGB to “50” . then adjust VR501 until Y=210 cd/m2 cd/m2

II. Gain (High light) adjustment :
a. adjust 7800 color-temperature

Set OSD contrast = 15, Brightness = -10
Switch the chroma-7120 to RGB-mode(with press “MODE” )
,and selected the MEM.channel to Channel 03
The lcd-indicator will show x = 296 , y = 311 , Y = 135 cd/m2
Adjust RGB until R=100, G=100, B=100, and then switch the chroma-7120 to xyY mode
(With press “MODE” )
Adjust contrast until Y= 150 cd/m2
Press osd-78 to save in 7800 factory mode

b. adjust 6500 color-temperature

Set OSD contrast = 15, Brightness = -10 Switch the chroma-7120 to RGB-mode(with press
“MODE” ),and selected the MEM.channel to Channel 04
The lcd-indicator will show x = 313 , y = 329 , Y = 135 cd/m2
Adjust RGB until R=100, G=100, B=100, and then switch the chroma-7120 to xyY mode
Adjust contrast until Y= 150 cd/m2 ,Press osd-65 to save in 6500 factory mode

Press POWER-key off-on to quit from factory mode ( in USER-mode, the OSD location was
placed at middle of screen)

2. Clock adjustment
Set the Chroma at pattern 63 (cross-talk pattern) or WIN98/95 shut-down mode (dot-pattern).
Adjust until the vertical-shadow as wide as possible or no visible.
This function is adjust the PLL divider of ADC to generate an accurate pixel clock
Example : Hsyn = 31.5KHz Pixel freq. = 25.175MHz (from VESA spec)

The Divider number is (N) = (Pixel freq. x 1000)/Hsyn

From this formula, we get the Divider number, if we fill this number in ADC register (divider register),
the PLL of ADC will generate a clock which have same period with above Pixel freq.(25.175MHz) the
accuracy of this clock will effect the size of screen.(this clock was called PIXEL-CLOCK)

3. Focus adjustment
Set the Chroma at pattern 63 (cross talk pattern) or WIN98/95 shut down mode (dot-pattern).
Adjust the horizontal interference as less as possible
This function is adjust the phase shift of PIXEL-CLOCK to acquire the right pixel data .
If the relationship of pixel data and pixel clock not so match, we can see the horizontal interference at
screen only at crosstalk pattern and dot pattern we can find this phenomena, other pattern the affect is very
light

4. H/V-Position adjustment
Set the Chroma at pattern 1 (crosshatch pattern) or WIN98/95 full-white pattern confirm above 2
functions (clock & focus) was done well, if that 2 functions failed, the H/V position will be failed too.
Adjust the four edge until all four-edges are visible at the edge of screen.

5. MULTI-LANGUAGE function
There have 5 language for selection, press “MENU” to selected and confirm , press “ LEFT” or “ RIGHT”
to change the kind of language.

6. Reset function
Clear each old status of auto-configuration and re-do auto-configuration ( for all mode)
This function also recall 7800 color-temperature , if the monitor status was in “ Factory-mode” this reset
function will clear Power-on counter too.

7. OSD-LOCK function
Press Left & Right key during switching on the monitor, the access to the OSD is locked, user only has
access to “ Contrast, Brightness, Auto-key “.
If the operator pressed the Left & Right during switching on the monitor again , the OSD is unlocked.

8. View Power-on counter and reset the Power-on counter( if not necessary , not suggest to entry factory
mode)
The Power-on counter was used to record how long the backlight of panel already working, the backlight
life time was guarantee minimal 25000 hours, the maintainer can check the record only in factory mode.
Press MENU key for 2 seconds at power on (replug power cord) will be in factory mode, and the OSD
screen will located at left top of panel but take cautions don’t press icon “78” & “65”, if you press
78/65 , your white-balance data will overlap with the new-one, and you must perform the white-balance
process again.
The result of counter was place at top of OSD, the maximal of record memory was 65000 hours, if exceed
65000 hours the counter will keep in 65000 hours until press “ RESET” at osd-menu in factory mode.
The “ RESET” function in factory mode will execute following function :

1. clear the Power-on counter to zero hours

2. clear old auto-configuration status for all mode , so the monitor will automatically re-do auto-config

when change to next mode or power on-off

4-3 MAIN ADJUSTMENTS

Power Key : Press to turn on or off the monitor.
Auto Key : Press to perform automatic calculated CLOCK, FOCUS, H/V POSITION, but no affect the color-

temperature
Left/Right Key : press to perform select function or adjustment.
MENU Key : press to show the OSD menu at the monitor or to confirm your function selection

5. CIRCUIT-DESCRIPTION

5-1 THE DIFFERENT between LG-Panel & Samsung-Panel & CPT-Panel & Hannstar- Panel in

ELECTRICAL Charateristic

LG-Panel 1. Two CCFL (Cold Cathode Fluorescent Tube)

2. Single Pixel, 6 bit color (262144 colors)

3. Panel Vdd = 3.3V (in JP202 select 3.3V)

Samsung-Panel 1. Four CCFL (Cold Cathode Fluorescent Tube)

2. Double Pixel, 6 bit color (262144 colors)

3. Panel Vdd = 5V (in JP201 select 5V)

Chung-Hwa Panel 1. Two CCFL (Cold Cathode Flourescent Tube)

2. Double Pixel, 8 bit color (16.7 Million colors)

3. Panel Vdd = 5V (in JP201 select 5V)

Hannstar Panel 1. Two CCFL (Cold Cathode Flourescent Tube)

2. Double Pixel, 6 bit color (262144 colors)

3. Panel Vdd = 3.3V (in JP202 select 3.3V)

5-2 SPECIAL FUNCTION with PRESS-KEY

press ENTER-key 2 seconds, at POWER-ON: set to FACTORY-mode, when we want to adjust white-balance

with rs232-port or view Power-on-timer. In this mode, OSD­screen will locate in left top of screen.

Press POWER-key off-on : CANCEL above function(quit from factory mode) and set to user-mode.

Press both Left & Right key and switching on-off key : Enable/ Disable OSD-LOCK function

OSD-INDEX EXPLANATION

1. CABLE NOT CONNECTED : Signal-cable not connected.

2. INPUT NOT SUPPORT :

a. INPUT frequency out of range : H > 62kHz, v > 75Hz or H < 28kHz, v < 55Hz
b. INPUT frequency out of VESA-spec. (out of tolerance too far)

3. UNSUPPORT mode, try different Video-card Setting :

Input frequency out of tolerance, but still can catch-up by our system (if this message show, that means, this
is new-user mode, AUTO-CONFIG will disable)

5-3 SIMPLE-INTRODUCTION about LM500 chipset

1. GMZAN1 (Genesis all-in-one solution for ADC, OSD, scalar and interpolation) :

USE for computer graphics images to convert analog RGB data to digital data for interpolation process,
zooming, OSD font & overlay and generate drive-timing for LCD-PANEL,

2. M6759 (ALI- MCU, type 8052 series with 64k Rom-size and 512 byte ram) :

Use for calculate frequency, pixel-dot , detect change mode, rs232-communication, power-consumption
control, OSD-index warning…etc.

3. 24LC21 (MicroChip IC) :

EePROM type, 1K ROM-SIZE, for saving DDC-CONTENT.

4. 24C04 (ATMEL IC) :

EePROM type, 4K ROM-SIZE, for saving AUTO-config data, White-balance data, and Power-key status
and power on –counter data.

5. LM2569S( NS brand swintching regulator 12V to 5V with 3A load current) :

6. AIC 1084-33CM (AIC brand linear regulator 5V to 3.3V)

MODULE-TPYE COMPONENT :

1. ADAPTER : CONVERSION-module to convert AC 110V-240V to 12VDC, with 3.5 AMP

2. INVERTER : CONVERSION-module to convert DC 12V to High-Voltage around 1600V, with frequency

30K-50Khz, 7mA-9mA

**Use the PC Win 98/95 white pattern, with some icon on it, and Change the Resolution to 640x480 60 Hz / 31

Check INVERTER

-

module

OK, screen is normal

NG

NG

OK

R215= 50M Hz ? U302 pin 20= 20 M Hz ?

Check Power

-

Block

OK

NG, led in dark

KHz

**NOTICE : This system free-running freq. is 48 KHz / 60 Hz, so you better use another frequency to do

trouble shooting(ex:31kHz 60Hz) this trouble shooting is proceed with 640x480 @60Hz 31Khz

I. NO SCREEN APPEAR

OK, led in green-state
But still no screen

Replace INVERTER to new-one, and
Check the screen is normal ??

Check the FPC cable from CN201,CN202
was tight enough?, check the FPC of
panel side too

Measured all power path if have had
power?

C309, C310= 5V ?, C312=3.3V ?,U302
MCU pin 44=5V ?

Check crystal & oscillator if keep normal?
(for MCU crystal 20MHz, for GMZAN1
oscillator 50MHz)

NG, led in orange

If LED in ORANGE-state, check your
signal-cable

OK, still no screen
But led is in Green

Re-plug power cord & make sure LED was in
green-state? If led is in off-state(dark), press
POWER-button to power-on the monitor

OK

6. Trouble-Shooting

NG, still in led
ORANGE

GMZAN1-BLOCK

RE-assemble the FPC cable for both side
(Cn201,202 & panel-side)

NG

Check Oscillator & crystal relative circuit
Or replace

If LED in DARK-state, check the key­Button ,it could be stuck by mechanical

Check Keyboard circuit and check
Mechanical key button, why be stuck?

White-balance

OK

NG, no transition

NG OK

C313, R313, D301 !!

OK

NG

Check

GMZAN1

-

BLOCK

Check

PERIPHERAL PANEL BLOCK

OK NG

END

OK

Check MCU reset circuit if normal ?
U302 pin 10 = low to high when
Power-on??

Check R229 reset for GMZAN1= high to
Low twice when power-on ??

Measured PCLK(pin 44 from CN201)
PVS,PHS (pin 40,38 from CN201)
Is there has any transition?
Pclk =31.25MHZ ,PVS=60.09Hz , PHS
=50.4KHz ??(for input signal=31K 60 Hz)

OK,there have
transition

NG

Check MCU relative reset circuit

Check GMZAN1 relative reset circuit
R326,C314,D302,R229

Check input connector CN200 is loose??
Measure R212,R211= 31K & 60 hz??
Measure R200,R201,R202 (RGB input )
had signal??

Tighten CN200 Cable & check
Relative Circuit

Screen normal & appear?

PERIPHERAL PANEL BLOCK

NG OK

OK

NG

OK

NG

NG

OK

Note: “Panel vdd “ and “backlight on-off ” can be direct control by :

GMZAN1 or MCU
Some panel can direct control by GMZAN1 ,if the relative timing between panel-vdd and backlight on-off
is short ( under 80 ms) , otherwise, will be control by MCU
If J211 be connected, that means Panel-VDD control was by GMZAN1 ,otherwise by MCU( JP212)
If J300 be connected, that means Backlight control was by GMZAN1 ,otherwise by MCU ( JP301)

BUT Hannstar panel & CPT panel still control by J211 & J300

Press on-off key once, make-sure Led is in
Green state .check panel-VDD = 3.3V for
HANNSTAR
And 5V for CPT-panel , measured Panel-p
(pin 4,5 from CN201)??

Check CN303 pin 3 = 5 V ? ( that is
Backlight controller, On-state= 5V)

Check CN303 pin 4 4.6V ??(that VR is for
Backlight luminance control)

FOR HANNSTAR-PANEL , there is the relative timing between input resolution to output timing for panel
( output timing from GMZAN1 chip) as follow :

RESOLUTION( from PC or chroma) PCLK(U200.44) PHS ( U200.74) PVS (U200.73)
640X480 @60 Hz 31.25MHz 50.4 KHz 60.09 Hz
640X480 @70 Hz 35.56MHz 55.93KHz 69.83 Hz
640X480 @72 Hz 36.76MHz 57.64KHz 71.94 Hz
640X480 @75 Hz 37.71MHz 60.12KHz 74.96 Hz
800X600 @60 Hz 28.65MHz 48.45KHz 60.39 Hz
800X600 @70 Hz 32.94MHz 56.05KHz 70.03 Hz
800X600 @72 Hz 34.25MHz 57.61KHz 72.04 Hz
800X600 @75 Hz 35.71MHz 60.10KHz 75.08 Hz
1024x768@60 Hz 28.57MHz 48.36KHz 60.09 Hz
1024x768@70 Hz 32.77MHz 56.05KHz 70.03 Hz
1024x768 @72 Hz 33.97MHz 57.60KHz 71.84 Hz
1024x768@75 Hz 35.41MHz 60.24KHz 74.96 Hz

TURN VR until CN303

Pin 4= 4.7 V??

NG,still no
screen

If JP211 was connected, check PPWR relative circuit
( R400,R401,Q250,R223,Q200,R224,R225,C245,Q201
cold-solder or open loop)?? make-sure LED in
Green-state, and PPWR (U200.pin 76)= high 3.3V
If JP212 was connected, check Backlight_En relative circuit
(R223,Q200,R224,R225,Q201,C245), make sure
Backlight_En = low 0V ??

If JP300 was connected ,check Pbias relative circuit( R314,R309,R315,
Q303,Q304,R311 cold-solder or open loop)?? make-sure LED in
Green-state, and Pbias (U200.pin 75)= high 3.3V
If JP301 was connected, check Panel-en relative circuit( R315,Q304
R311 cold-solder or open loop ??) make-sure LED in green-state
And Panel-en= low 0V ??

If JP300 was connect, replace GMZAN1
Chip, if JP301 was connect , replace MCU

Replace PANEL, maybe the lamp or
Driver board was bad

GMZAN1 BLOCK check

OK

State?

OK

NG

OK

OK

NG

Note : set the input signal ( PC or CHROMA) to 640x480 31k 60 hz

Check input connector CN200 is loose??
Measure R212,R211= 31K & 60 hz ?
Measure R200,R201,R202 (RGB input )
had signal??

NG

Tighten CN200 cable & check relative circuit

Measure U201 oscillator 50MHz is normal??
(you can measure R215)

NG

Set chroma or PC to power-save mode
Check LED in ORANGE state ?

Set chroma or PC to 640x480 @60Hz or
Other frequency, check LED in GREEN

Measured PCLK(pin 44 from CN201)
PVS,PHS (pin 40,38 from CN201)
Is there has any transition?
Pclk=31.25MHZ ,PVS=60.09Hz ,PHS=50.
4KHz ??(for input signal=31K 60 Hz)

Re-plug power-cord, and check again
Previous function, if still no screen, then
Replace GMZAN1 chip

OK, partial of Gmzan1 is good

NG

Replace U201 oscillator 50 MHz

Replace GMZAN1

Check Peripheral-panel block

OK

OK

OK

NG

NG

OK

NG

NG

R300,R301 cold solder

OK

OK, no keep transition

KEYBOARD BLOCK check

Check U302 MCU pin 43,42,41,40,39 at
High state(5V)? without press any key

Press power key and check U302 pin 43
= low (0V) ?

Check U302 pin 38 (LED green) will have
transition from hi to low or low to hi when we
press the power key??

Check U302 pin 20= 20MHz ? and pin 44
(VDD)=5V ? and pin 10 (reset)=0V ? at normal
condition

Without press key and change mode, Check U302
pin 16,17(sda,scl)= hi 5V ? or keep transition ?

Replace U302 MCU

NG, MCU no response

NG

Keep transition, that means eeprom no response

Mechanical was stuck, Check !

Replace Tact-switch SW105 at keyboard if still
no work replace U302 MCU at main-board and
check MCU relative reset circuit, and crystal

If still no Led green indicator, check Q102,
R106 & LED at keyboard !! cold solder or bad

If one of this item was NG, check the relative
circuit

Check U300 eeprom 24LC04 relative circuit,
check U300 pin 7 = low?

Check JP202 is
connect ?

Check U300 pin 8
(vdd)= 5V, and check

Replace eeprom

OK

OK

pulse

NG

OK, unstable wave

POWER-BLOCK check
**Note : the waving of U304 pin 2 can determined the power situation

1. stable rectangle wave with equal duty, freq around 150K-158KHz

that means all power of this interface board is in normal operation
,all status of 5V & 3.3V is normal working

2. unstable rectangle wave without same duty, that means ABNORMAL operation was happened

check 3.3V or 5V ,short-circuit or bad component

3. rectangle wave with large spike & harmonic pulse on front side of rectangle wave, that means all 3.3v is

no load, Gmzan1 was shut-down, and only MCU still working ,the monitor is in power saving state

Measure input power at U304 LM2596 pin 1=
12V ?

NG

Check ADAPTER and connector if loose?

Check U304 pin 2 is a stable rectangle wave?
Around 150k-158kHz stable rectangle wave
with equal duty without any spike or harmonic
pulse?

The interface board power is good

Check U304 pin 2 is a unstable rectangle wave ?

Check all 3.3V & 5V power, there is
short circuit or bad component was
happened

NG,with
harmonic

The interface board is in power­saving state, press power key to wake
up & check your signal input

END

OK OK

NG, interferences still exist

NG

taipei)

NO, all mode

II.ALL SCREEN HAS INTERFERENCES OR NOISE, CAN’T BE FIXED BY AUTO KEY

** NOTE: There is so many kind of interferences, 1). One is cause by some VGA-CARD that not meet VESA spec or

power grounding too bad that influence our circuit

2).other is cause by external interferences, move the monitor far from electronic equipment.( rarely
happened)

Use DOT-pattern, or win98/99 shut-down
mode pattern, press “AUTO” key, was the
interferences disappear ??

Adjust “FOCUS” step by step, until the
horizontal interferences disappear

Does your signal-cable have an additional
cable for extension ??

Does your noise only exist in one mode only?
(ex: only at 1024x768 @ 75 Hz, other is normal)

That was cause by you VGA-CARD setting, your VGA
card timing backporch/frontporch exceed vesa timing too
far, for some new AGP-VGA-CARD such situation
always happened
So in your control-panel icon ,select monitor ,setting ,

advance ,screen-adjust,at
Size icon, increase step by step slowly, press “”AUTO”

key every step you increase the SIZE . repeat the
procedure( increase/decrease SIZE one-step and press
AUTO) until the interferences disappear, press “APPLY”
to save in your VGA

Yes, has extension

NO additional extension cable

END

Put away the additional cable
May be the additional cable grounding is
not quite well

Change the Signal-cable to new-one or
Try other brand VGA-CARD
(make sure just only that brand VGA­CARD has this problem ,contact RD-

each pin

or Pure

array LP201~LP206, both side of

Yes

No

Yes

No

III. DOS MODE has jitter

NOTE :the rule of doing AUTO-CONFIGURATION : must be a full-size screen, if the screen not full , the auto­configuration will fail. So in dos mode ,just set your “CLOCK” in OSD-MENU to zero or use some full screen edit
file (ex: PE2, HE) and press “AUTO”

I? . THERE WAS SNOW PHENOMENA or BRIGHT NOISE ON THE SCREEN

When use pattern 32 Gray-scale / or 16 Gray scale, there is a snow phenomena on the screen (like a noise spread
inside) that means some output bit to panel was bad, may be cause by FPC loose, or bead-array cold-solder
There were some panel (ex :LG),also have this phenomena too, the noise will reduce or increase depend on the
contrast/brightness value, this kind of problem was cause by Panel-driver-board it self, we can’t fix it ,the only way to
do was find the best-point of brightness/contrast, that the noise is more light

Use following pattern :

1. pure-white 2. Pure Red 3. Pure Green

4. Pure Blue 5. Pure White 6. Character
repeat measure GMZAN1 (U200) all output pins must have some transition pulse, but notice

1. For LG panel and HANNSTAR panel , only 6 bit has output, (PD0~ PD17 , PD36 ~ PD41) the

corresponding beads was LP201 ~ LP206

2. For Chung-hwa panel or other’s 8 bit panel, all output are available (PD0-PD47 ), the corresponding beads

was LP201-LP212

Ex : HANNSTAR Panel 6 bits

With 16 gray-scale, adjust contrast /brightness slowly

and observe the noise was increase or reduce or no-

influence at all ?especially at low luminance scale

That was the panel noise, no solution,
Just set the brightness to the best point

which noise is more light

Set pattern to full-white, adjust contrast to 50

Check U200 GMZAN1
Pin 71,70,69,68,67,66 ( Red, Pd0 -Pd5)
Pin 64,63,62,57,56,55 (Green ,Pd6-Pd11)
Pin 54,53,52,51,50,48 (Blue, Pd12- Pd17)
There must be have some transition pulse in

All pins has transition

Denotes U200 GMZAN1 work well

Set pattern to Pure-Red or Pure Green
Blue repeat above-step until all pins had
transition

Some pins no transition

Check bead­bead must have the same transition signal

All 5 pattern already change yet??

Check FPC cable for
loose, or FPC bad, if
FPC bad, replace it

Replace the
correpondens beads
array and check the
capacitor arrays too

If all pattern already change but still had some pins no
transition. That means GMZAN1 (U200) fail, replace
U200