LG T910B User manual
COLOR MONITOR
SERVICE MANUAL
Website:http://biz.LGservice.com
E-mail:http://www.LGEservice.com/techsup.html
CAUTION
BEFORE SERVICING THE UNIT,
READ THE SAFETY PRECAUTIONS IN THIS MANUAL.
MENU SELECT
Brightview
MODEL: T910B (T910BM-KL***E*)
CHASSIS NO. : CA-137
( ) **Same model for Service
*Same looking with new chassis
MODE VIDEO POWER CONSUMPTION LED COLOR
NORMAL
DPM
OFF
YES
NO
NO
less than 103W
less than 4W
less than 2W
GREEN
AMBER
OFF
3,&785(78%(
3IZE INCH&LAT3LOT-ASK
$EF)ECTION!NGLE
.ECK$IAMETER MM
3TRIP0ITCH MM
$IAGONAL3IZE MM
6IEW3IZE XMM
&ACE4REATMENT :$5$6,QWHUQDO$QWL*ODUH
6,*1$/
(ORIZONTAL6ERTICAL3YNC
)NPUT6OLTAGE,EVEL ,OWb6(IGHr6
3YNC0OLARITY 0OSITIVEOR.EGATIVE
6IDEO)NPUT3IGNAL
6OLTAGE,EVEL ^ 6PP
A#OLOR 6PP
B#OLOR 6PP
C#OLOR 6PP
)NPUT)MPEDANCE 7
6IDEO#OLOR 2'"!NALOG
3IGNAL&ORMAT 2EFERTOTHE4IMING#HART
3IGNAL#ONNECTOR
0IN$3UB#ONNECTOR
3CANNING&REQUENCY
(ORIZONTAL ^ K(Z
6ERTICAL ^ (Z
32:(56833/<
0OWER2ANGE
!#6^(:!-AX
!#6^(Z!-AX0&#VERSION
0OWER#ONSUMPTION
',63/$<$5($
!CTIVE6IDEO!REA
s-AX)MAGE3IZE8XMMX
s0RESET)MAGE3IZEXMM X
$ISPLAY#OLOR &ULL#OLORS
$ISPLAY2ESOLUTION $OTSX,INES(Z
6IDEO"ANDWIDTH -(Z
(19,5210(17
/PERATING4EMPERATURE # ^ #& ^ &
!MBIENT
2ELATIVE(UMIDITY ^
.ONCONDENSING
!LTITUDELess than Mdomestic
',0(16,216ZLWK7,/76:,9(/
7IDTH448.0MM7.64
$EPTH58.0MM03
(EIGHT398.0MM15.67
:(,*+7ZLWK7,/76:,9(/
.ET7EIGHT21.2KG
'ROSS7EIGHT4.5KG
&217(176
63(&,),&$7,216
30%#)&)#!4)/.3
3!&%4902%#!54)/.3
3%26)#%02%#!54)/.3
4)-).'#(!24
$)3!33%-",9
!$*534-%.4
7)2).'$)!'2!-
",/#+$)!'2!-
$%3#2)04)/./&",/#+$)!'2!-
42/5",%3(//4).''5)$%
%80,/$%$6)%75
2%0,!#%-%.40!243,)347
3#(%-!4)#$)!'2!-
Less than3000m(china)
SAFETY PRECAUTIONS
- 3 -
SAFETY-RELATED COMPONENT WARNING!
There are special components used in this color monitor
which are important for safety. These parts are marked
on the schematic diagram and the replacement
parts list. It is essential that these critical parts should be
replaced with the manufacturer's specified parts to prevent
X-radiation, shock, fire, or other hazards. Do not modify
the original design without obtaining written permission
from manufacturer or you will void the original parts and
labor guarantee.
CAUTION:
No modification of any circuit should be
attempted.
Service work should be performed only after
you are thoroughly familiar with all of the
following safety checks and servicing
guidelines.
SAFETY CHECK
Care should be taken while servicing this color monitor
because of the high voltage used in the deflection circuits.
These voltages are exposed in such areas as the
associated flyback and yoke circuits.
FIRE & SHOCK HAZARD
An isolation transformer must be inserted between the
color monitor and AC power line before servicing the
chassis.
• In servicing, attention must be paid to the original lead
dress specially in the high voltage circuit. If a short
circuit is found, replace all parts which have been
overheated as a result of the short circuit.
• All the protective devices must be reinstalled per the
original design.
• Soldering must be inspected for the cold solder joints,
frayed leads, damaged insulation, solder splashes, or
the sharp points. Be sure to remove all foreign
materials.
IMPLOSION PROTECTION
All used display tubes are equipped with an integral
implosion protection system, but care should be taken to
avoid damage and scratching during installation. Use only
same type display tubes.
X-RADIATION
The only potential source of X-radiation is the picture tube.
However, when the high voltage circuitry is operating
properly there is no possibility of an X-radiation problem.
The basic precaution which must be exercised is keep the
high voltage at the factory recommended level; the normal
high voltage is about 27kV. The following steps describe
how to measure the high voltage and how to prevent X-
radiation.
Note : It is important to use an accurate high voltage
meter calibrated periodically.
• To measure the high voltage, use a high impedance
high voltage meter, connect (–) to chassis and (+) to
the CDT anode cap.
• Set the brightness control to maximum point at full
white pattern.
• Measure the high voltage. The high voltage meter
should be indicated at the factory recommended level.
• If the meter indication exceeds the maximum level,
immediate service is required to prevent the possibility
of premature component failure.
• To prevent X-radiation possibility, it is essential to use
the specified picture tube.
Leakage Current Hot Check Circuit
CAUTION:
Please use only a plastic screwdriver to protect yourself
from shock hazard during service operation.
1.5 Kohm/10W
To Instrument's
exposed
METALLIC PARTS
Good Earth Ground
such as WATER PIPE,
CONDUIT etc.
AC Volt-meter
- 4 -
SERVICING PRECAUTIONS
CAUTION: Before servicing receivers covered by this
service manual and its supplements and addenda, read
and follow the SAFETY PRECAUTIONS on page 3 of this
publication.
NOTE: If unforeseen circumstances create conflict
between the following servicing precautions and any of the
safety precautions on page 3 of this publication, always
follow the safety precautions. Remember: Safety First.
General Servicing Precautions
1. Always unplug the receiver AC power cord from the AC
power source before;
a. Removing or reinstalling any component, circuit
board module or any other receiver assembly.
b. Disconnecting or reconnecting any receiver electrical
plug or other electrical connection.
c. Connecting a test substitute in parallel with an
electrolytic capacitor in the receiver.
CAUTION: A wrong part substitution or incorrect
polarity installation of electrolytic capacitors may
result in an explosion hazard.
d. Discharging the picture tube anode.
2. Test high voltage only by measuring it with an
appropriate high voltage meter or other voltage
measuring device (DVM, FETVOM, etc) equipped with
a suitable high voltage probe.
Do not test high voltage by "drawing an arc".
3. Discharge the picture tube anode only by (a) first
connecting one end of an insulated clip lead to the
degaussing or kine aquadag grounding system shield
at the point where the picture tube socket ground lead
is connected, and then (b) touch the other end of the
insulated clip lead to the picture tube anode button,
using an insulating handle to avoid personal contact
with high voltage.
4. Do not spray chemicals on or near this receiver or any
of its assemblies.
5. Unless specified otherwise in this service manual,
clean electrical contacts only by applying the following
mixture to the contacts with a pipe cleaner, cotton-
tipped stick or comparable non-abrasive applicator;
10% (by volume) Acetone and 90% (by volume)
isopropyl alcohol (90%-99% strength)
CAUTION: This is a flammable mixture.
Unless specified otherwise in this service manual,
lubrication of contacts in not required.
6. Do not defeat any plug/socket B+ voltage interlocks
with which receivers covered by this service manual
might be equipped.
7. Do not apply AC power to this instrument and/or any of
its electrical assemblies unless all solid-state device
heat sinks are correctly installed.
8. Always connect the test receiver ground lead to the
receiver chassis ground before connecting the test
receiver positive lead.
Always remove the test receiver ground lead last.
9. Use with this receiver only the test fixtures specified in
this service manual.
CAUTION: Do not connect the test fixture ground strap
to any heat sink in this receiver.
Electrostatically Sensitive (ES) Devices
Some semiconductor (solid-state) devices can be
damaged easily by static electricity. Such components
commonly are called Electrostatically Sensitive (ES)
Devices. Examples of typical ES devices are integrated
circuits and some field-effect transistors and
semiconductor "chip" components. The following
techniques should be used to help reduce the incidence of
component damage caused by static by static electricity.
1. Immediately before handling any semiconductor
component or semiconductor-equipped assembly, drain
off any electrostatic charge on your body by touching a
known earth ground. Alternatively, obtain and wear a
commercially available discharging wrist strap device,
which should be removed to prevent potential shock
reasons prior to applying power to the unit under test.
2. After removing an electrical assembly equipped with
ES devices, place the assembly on a conductive
surface such as aluminum foil, to prevent electrostatic
charge buildup or exposure of the assembly.
3. Use only a grounded-tip soldering iron to solder or
unsolder ES devices.
4. Use only an anti-static type solder removal device.
Some solder removal devices not classified as "anti-
static" can generate electrical charges sufficient to
damage ES devices.
5. Do not use freon-propelled chemicals. These can
generate electrical charges sufficient to damage ES
devices.
6. Do not remove a replacement ES device from its
protective package until immediately before you are
ready to install it. (Most replacement ES devices are
packaged with leads electrically shorted together by
conductive foam, aluminum foil or comparable
conductive material).
7. Immediately before removing the protective material
from the leads of a replacement ES device, touch the
protective material to the chassis or circuit assembly
into which the device will be installed.
CAUTION: Be sure no power is applied to the chassis
or circuit, and observe all other safety precautions.
8. Minimize bodily motions when handling unpackaged
replacement ES devices. (Otherwise harmless motion
such as the brushing together of your clothes fabric or
the lifting of your foot from a carpeted floor can
generate static electricity sufficient to damage an ES
device.)
- 5 -
General Soldering Guidelines
1. Use a grounded-tip, low-wattage soldering iron and
appropriate tip size and shape that will maintain tip
temperature within the range or 500 F to 600 F.
2. Use an appropriate gauge of RMA resin-core solder
composed of 60 parts tin/40 parts lead.
3. Keep the soldering iron tip clean and well tinned.
4. Thoroughly clean the surfaces to be soldered. Use a
mall wire-bristle (0.5 inch, or 1.25cm) brush with a
metal handle.
Do not use freon-propelled spray-on cleaners.
5. Use the following unsoldering technique
a. Allow the soldering iron tip to reach normal
temperature.
(500 F to 600 F)
b. Heat the component lead until the solder melts.
c. Quickly draw the melted solder with an anti-static,
suction-type solder removal device or with solder
braid.
CAUTION: Work quickly to avoid overheating the
circuitboard printed foil.
6. Use the following soldering technique.
a. Allow the soldering iron tip to reach a normal
temperature (500 F to 600 F)
b. First, hold the soldering iron tip and solder the strand
against the component lead until the solder melts.
c. Quickly move the soldering iron tip to the junction of
the component lead and the printed circuit foil, and
hold it there only until the solder flows onto and
around both the component lead and the foil.
CAUTION: Work quickly to avoid overheating the
circuit board printed foil.
d. Closely inspect the solder area and remove any
excess or splashed solder with a small wire-bristle
brush.
IC Remove/Replacement
Some chassis circuit boards have slotted holes (oblong)
through which the IC leads are inserted and then bent flat
against the circuit foil. When holes are the slotted type,
the following technique should be used to remove and
replace the IC. When working with boards using the
familiar round hole, use the standard technique as
outlined in paragraphs 5 and 6 above.
Removal
1. Desolder and straighten each IC lead in one operation
by gently prying up on the lead with the soldering iron
tip as the solder melts.
2. Draw away the melted solder with an anti-static
suction-type solder removal device (or with solder
braid) before removing the IC.
Replacement
1. Carefully insert the replacement IC in the circuit board.
2. Carefully bend each IC lead against the circuit foil pad
and solder it.
3. Clean the soldered areas with a small wire-bristle
brush. (It is not necessary to reapply acrylic coating to
the areas).
"Small-Signal" Discrete Transistor
Removal/Replacement
1. Remove the defective transistor by clipping its leads as
close as possible to the component body.
2. Bend into a "U" shape the end of each of three leads
remaining on the circuit board.
3. Bend into a "U" shape the replacement transistor leads.
4. Connect the replacement transistor leads to the
corresponding leads extending from the circuit board
and crimp the "U" with long nose pliers to insure metal
to metal contact then solder each connection.
Power Output, Transistor Device
Removal/Replacement
1. Heat and remove all solder from around the transistor
leads.
2. Remove the heat sink mounting screw (if so equipped).
3. Carefully remove the transistor from the heat sink of the
circuit board.
4. Insert new transistor in the circuit board.
5. Solder each transistor lead, and clip off excess lead.
6. Replace heat sink.
Diode Removal/Replacement
1. Remove defective diode by clipping its leads as close
as possible to diode body.
2. Bend the two remaining leads perpendicular y to the
circuit board.
3. Observing diode polarity, wrap each lead of the new
diode around the corresponding lead on the circuit
board.
4. Securely crimp each connection and solder it.
5. Inspect (on the circuit board copper side) the solder
joints of the two "original" leads. If they are not shiny,
reheat them and if necessary, apply additional solder.
Fuse and Conventional Resistor
Removal/Replacement
1. Clip each fuse or resistor lead at top of the circuit board
hollow stake.
2. Securely crimp the leads of replacement component
around notch at stake top.
3. Solder the connections.
CAUTION: Maintain original spacing between the
replaced component and adjacent components and the
circuit board to prevent excessive component
temperatures.
- 6 -
Circuit Board Foil Repair
Excessive heat applied to the copper foil of any printed
circuit board will weaken the adhesive that bonds the foil
to the circuit board causing the foil to separate from or
"lift-off" the board. The following guidelines and
procedures should be followed whenever this condition is
encountered.
At IC Connections
To repair a defective copper pattern at IC connections use
the following procedure to install a jumper wire on the
copper pattern side of the circuit board. (Use this
technique only on IC connections).
1. Carefully remove the damaged copper pattern with a
sharp knife. (Remove only as much copper as
absolutely necessary).
2. carefully scratch away the solder resist and acrylic
coating (if used) from the end of the remaining copper
pattern.
3. Bend a small "U" in one end of a small gauge jumper
wire and carefully crimp it around the IC pin. Solder the
IC connection.
4. Route the jumper wire along the path of the out-away
copper pattern and let it overlap the previously scraped
end of the good copper pattern. Solder the overlapped
area and clip off any excess jumper wire.
At Other Connections
Use the following technique to repair the defective copper
pattern at connections other than IC Pins. This technique
involves the installation of a jumper wire on the
component side of the circuit board.
1. Remove the defective copper pattern with a sharp
knife.
Remove at least 1/4 inch of copper, to ensure that a
hazardous condition will not exist if the jumper wire
opens.
2. Trace along the copper pattern from both sides of the
pattern break and locate the nearest component that is
directly connected to the affected copper pattern.
3. Connect insulated 20-gauge jumper wire from the lead
of the nearest component on one side of the pattern
break to the lead of the nearest component on the
other side.
Carefully crimp and solder the connections.
CAUTION: Be sure the insulated jumper wire is
dressed so the it does not touch components or sharp
edges.
TIMING CHART
- 7 -
VIDEO
SYNC D
A
EF
BC
kHz
µs
µs
µs
µs
µs
µs
Hz
ms
ms
ms
ms
ms
ms
MODE 1
–
43.269
23.112
17.778
5.334
1.556
1.556
2.222
–
85.008
11.763
11.093
0.670
0.023
0.069
0.578
640
X
480
85Hz
Yes
MODE 2
+
53.674
18.631
14.222
4.409
0.569
1.138
2.702
+
85.061
11.756
11.178
0.578
0.019
0.056
0.503
800
X
600
85Hz
Yes
MODE 3
+
68.677
14.561
10.836
3.725
0.508
1.016
2.201
+
84.997
11.765
11.183
0.582
0.015
0.044
0.523
1024
X
768
85Hz
Yes
MODE 4
+
91.146
10.971
8.127
2.844
0.406
1.016
1.422
+
85.024
11.762
11.235
0.527
0.011
0.033
0.483
1280
X
1024
85Hz
Yes Yes
MODE 5
+
93.750
10.666
7.901
2.765
0.316
0.948
1.501
+
75.000
13.333
12.800
0.533
0.011
0.032
0.490
1600
X
1200
75Hz
MARK
A
B
C
D
E
F
A
B
C
D
E
F
MODE
FACTORY PRESET MODE
Resolution
Recall
H
O
R
I
Z
O
N
T
A
L
V
E
R
T
I
C
A
L
Sync Polarity
Frequency
Total Period
Video Active Time
Blanking Time
Front Porch
Sync Duration
Back Porch
Sync Polarity
Frequency
Total Period
Video Active Time
Blanking Time
Front Porch
Sync Duration
Back Porch
VESA
1. Preparation for Service Adjustment
GENERAL INFORMATION
All adjustment are thoroughly checked and corrected
when the monitor leaves the factory, but sometimes
several adjustments may be required.
Adjustment should be following procedure and after
warming up for a minimum of 30 minutes.
•Alignment appliances and tools.
- IBM compatible PC.
- Programmable Signal Generator.
(eg. VG-819 made by Astrodesign Co.)
- EPROM or EEPROM with saved each mode data.
- Alignment Adaptor and Software.
- Digital Voltmeter.
- White Balance Meter.
- Luminance Meter.
- High-voltage Meter.
AUTOMATIC AND MANUAL DEGAUSSING
The degaussing coil is mounted around the CDT so that
automatic degaussing when turn on the monitor. But a
monitor is moved or faced in a different direction, become
poor color purity cause of CDT magnetized, then press
DEGAUSSING on the OSD menu.
ADJUSTMENT PROCEDURE & METHOD
-Install the cable for adjustment such as Figure 1and run
the alignment program on the DOS for IBM
compatible PC.
-Set external Brightness and Contrast volume to max
position.
1. Adjustment for B+ Voltage.
1) Display cross hatch pattern at Mode 4.
2) Adjust P907 voltage to 50V ± 0.2V with VR901.
2. Adjustment for High-Voltage.
1) Display cross hatch pattern at Mode 4.
2) Adjust CDT Anode voltage to 27kV ± 0.2kV with
I-P in Hot key mode.
3. Adjustment for Horizontal Raster Center.
1) Display cross hatch pattern at Mode 4.
2) Adjust the Back Raster should be center of the
screen with SW801.
2. Adjustment by Service Hot key
How to enter SVC HOT KEY
1. Press Menu and OSD window will appear.
2. While OSD window is displayed, is seen on the
left bottom of OSD window.
3. Press +simultaneously and the screen will
immediately refresh.
4. Press Menu and make sure that is changed to
1/2.
5. Follow the menu on the left of OSD window to find 1/2
and OSD will change as shown in the figure.
6. Select Degauss in the above figure and then press
Select and to change the screen as shown in the
figure. (Back Raster for Pattern)
FOS SPEC
1. Size
H : 350 4mm
V : 262 4mm
Scanning frequency : All Mode (Mode 1~4)
Display image : Crosshatch pattern
2. Centering
Scanning frequency : All Mode (Mode 1~4)
Display image : Crosshatch pattern
Horizontal : 10 Row
Vertical : 8 Row
H : L-R 4mm, V : U-D 4mm
3. Tilt
Scanning frequency : All Mode (Mode 1~4)
Display image : Crosshatch pattern
Horizontal : 10 Row
Vertical : 8 Row
Tilt : E-F 2.0mm
- 8-
ADJUSTMENT
U
D
LR
EF
- 9-
4. Distortion
Scanning frequency : All Mode (Mode 1~4)
Display image : Crosshatch pattern
Horizontal : 10 Row
Vertical : 8 Row
A-B 2.5mm, C-D 2.5mm
E-F 2.0mm, G-H 2.0mm
5. Displa Size drift
4mm : 25 Standard, 10 35
0.5mm : 180V ~ 264V
6. Linearity
Formula : (Max - Min) / Max x 100(%)
Criteria : H - 10% Max. (Upper 40kHz)
14% Max. (Less 40kHz)
V - 8% Max.
7. Regulation
1mm/side(upper 54KHZ 800*600
other model <= 2mm/side
Scanning frequency : All Mode (Mode 1~4)
8. Trapezoid
9. Pin Balance
10.Parallelogram
11. Adjustment of white balance (Adjustment of
chromaticity diagram)
*(Adjustment of white balance must be made after
entering Hot Key Mode and DEGAUSS.)
CONDITIONS
Signal: 91 kHz / 85 Hz
Display image: Back raster (Color 0,0)
Contrast: Maximum
Brightness: Maximum
Color temperature: 9300K
11-1. Adjustment of cut off (Adjustment of back raster)
11-1(a). Before adjustment, press Menu and Degauss
to remove.
=> Enter hot key mode.
Adjust Brightness and Contrast to Max in OSD
window.
(1) Adjust cut off (back raster) first. Enter DEGAUSS in
the Menu and modify the following data.
Modify RCUT to Min ( 0 ) ,
Modify GCUT To Min ( 0 ) ,
Adjust to BCUT Data = 127 (7F) ,
Adjust to SBRT Data = 205 (CD).
(2)Turn FBT screen volume on "CRT COLOR
ANALYZER CA-100" equipment to adjust
Brightness to 0.4 0.05FL.
(3) Adjust RCUT, GCUT, and SBRT to set chromaticity
diagram at :
x: 0.283 0.006
y: 0.298 0.006
Y: 0.40 0.05FL
* If color values would not be matched desirable values,
repeat sequence 1 and 2 after readjusting ÒGREEN
CUTOFFÓcontrol a little different.
U
DD
U
U-D
<4mm
L1 R1
2.0mm
L1 R1 L1 R1
Y1
Y2
Y3
Y4
X1 X2 X3 X4
2mm
A B
DC
EG
FH
91KHZ*85=8%
11-2. Adjustment of White Balance
After finishing adjustment of cut off (back raster),
approve "Color(15.0) Full white pattern".
Adjust to BDRV Data = 92(5C).
Adjust RDRV and GDRV to set chromaticity diagram at :
x: 0.283 0.003
y: 0.298 0.003
Approve "Window pattern (70x70mm)" to adjust
S-CON to Y : 45 1FL.
Approve "Color (15.0) Full white pattern" again and
adjust ABL Data to Y : 30 1FL
Adjust the horizontal position and vertical position to
4.0 mm of the center point of the screen.
*
SIZE adjustment should be made in ALL Mode.
12. Focus Adjustment
CONDITIONS
Scanning frequency : 91KHz/85KHz
Display image: “H”character pattern
Brightness: Cut off point
Contrast: Maximum
PROCEDURE
1.Adjust the Focus VR on the FBT to display the
sharpest image possible.
2. Use Locktite to seal the Focus VR in position.
14. Color Purity Adjustment
Color purity is the absence of undesired color.
Conspicuous mislanding (unexpected color in a uniform
field) within the display area shall not be visible at a
distance of 50 cm from the CRT surface.
CONDITIONS
Orientation: Monitor facing east
Scanning Frequency: 1280 x 1024@85Hz(91kHz/85Hz)
Display image: White flat field
Luminance: Cut off point at the center of the
display area
Note: Color purity adjustments should only be
attempted by qualified personnel.
PROCEDURE
For trained and experienced service technicians only.
Use the following procedure to correct minor color
purity problems:
1. Make sure the display is not affected by external
magnetic fields.
2. Very carefully break the glue seal between the 2-pole
purity convergence magnets (PCM), the band and
the spacer.
3. Make sure the spacing between the PCM assembly
and the CRT stem is 29 mm 1 mm.
4. Display a green pattern over the entire display area.
5. Adjust the purity magnet rings on the PCM assembly
to display a pure green pattern.
(Optimum setting: x = 0.295 0.015,
y = 0.594 0.015)
6. Repeat steps 4 and 5 using a red pattern and then
again, using a blue pattern.
Table 4-6. Color Purity Tolerances
(For 9300K color adjustment: x = 0.283 0.02,
y = 0.298 0.02)
7.When you have the PCMs properly adjusted,
carefully glue them together to prevent their
movement during shipping.
- 10-
U
DISPLAY AREA
EDGE OF BEZEL
D
LR
|L-R| 4.0 mm. |U-D| 4.0 mm.
Red: x=0.620 0.015 y=0.334 0.015
Green: x=0.620 0.015 y=0.334 0.015
Blue: x=0.620 0.015 y=0.334 0.015
- 11-
3. Adjustment Using Service software Program
(Adjustment Program)
1. Adjustment for Factory Mode (Preset Mode).
1) Display cross hatch pattern at Mode All.
2)Run alignment program for T910BMon the IBM
compatible PC.
3) EEPROM → ALL CLEAR → Y(Yes) command.
<Caution> Do not run this procedure unless the
EEPROM is changed. All data in EEPROM (mode
data and color data) will be erased.
4) COMMAND → PRESET START → Y(Yes)
command.
5) DIST. ADJ. → FOS. ADJ command.
6) Adjust H-POSITION as arrow keys to center of the
screen.
7) Adjust H-SIZE as arrow keys to 350 ± 2mm.
8) Adjust V-POSITION as arrow keys to center of the
screen.
9) Adjust V-SIZE as arrow keys to 262 ± 2mm.
10) Adjust TRAPEZOID as arrow keys to be the best
condition.
11) Adjust SIDE PINCUSHON as arrow keys to be the
best condition.
12) Adjust TILT as arrow keys to be the best condition.
13) Display cross hatch pattern at Mode 4.
14) DIST. ADJ. → BALANCE DATA command.
15) Adjust balance of Pin-Balance as arrow keys to be
the best condition.
16) Adjust parallelogram as arrow keys to be the best
condition.
17) Save of the Mode.
18) Save of the System.
19) Display from Mode 4 and repeat above from number
6) to 16).
20) COMMAND → PRESET EXIT → Y (Yes) command.
2. Adjustment for White Balance and Luminance.
1) Set the White Balance Meter.
2) Press the DEGAUSSING on the OSD menu for
demagnetization of the CDT.
3) Display color 0,0 pattern at Mode 4.
4) COMMAND → PRESET START → Y(Yes)
command.
5) Set Bightness and Contrast to max position.
6) COLOR ADJ. → LUMINANCE command of the
alignment program.
7) COLOR ADJ. → BIAS ADJ. command of the
alignment program.
8) Check whether blue color or not at R-BIAS and G-
BIAS to min position, Sub-Brightness to 205
(CD)position, B-Bias to 127(7F)position. If it's not
blue color, the monitor must repair.
9) Adjust Screen control on the FBT to 0.4 ± 0.05FL
of the raster luminance.
10)Adjust R-BIAS and G-BIAS command to x=0.283 ±
0.006 and y=0.298 ± 0.006 on the White Balance
Meter with PC arrow keys.
11)Display color 15,0 Full White(70x70mm) at mode 4.
12)DRIVE ADJ command.
13)Set B-DRIVE to 92(5C) at DRIVE of the alignment
program.
14)Adjust R-DRIVE and G-DRIVE command to white
balance x=0.283 ± 0.003 and y=0.298 ± 0.003 on
the White Balance Meter with PC arrow keys.
15)Adjust SUB-CONTRAST command to 45±1FL of the
raster luminance.
15)Display color 15,0 full white patten at Mode 4.
16)COLOR ADJ. → LUMINANCE → ABL command.
17) Adjust ABL to 30 ± 1FL of the luminance.
18) Exit from the program.
- 12-
Windows EDID V1.0 User Manual
Operating System: MS Windows 98, 2000, XP
Port Setup: Windows 98 => Don’t need setup
Windows 2000, XP => Need to Port Setup.
This program is available to LCD Monitor only.
1. Port Setup
a) Copy “UserPort.sys”file to
“c:\WINNT\system32\drivers”folder
b) Run Userport.exe
c) Remove all default number
d) Add 300-3FF
e) Click Start button.
f) Click Exit button.
2. EDID Read & Write
1) Run WinEDID.exe
2) Edit Week of Manufacture, Year of Manufacture,
Serial Number
a) Input User Info Data
b) Click “Update”button
c) Click “Write”button
- Adjustment and EDID Data Down in GCSC
- 13-
Figure 1. Cable Connection
0
2
2
IBM
Compatible PC
PARALLEL PORT
Power inlet (required)
Power LED
ST Switch
Power Select Switch
(110V/220V)
e
n
i
L
l
r
C t on
o
d
e
s
u
t
o
N
C
2
3
2
S
R
EL
L
RL
A
A
P
C
N
Y
-S
VR
E
W
O
P
T
S
S
G
VR
O
IT
ON
M
E
V-Sync On/Off Switch
(Switch must be ON.)
F
A
B
C
E
F
A
B
C
15
10
5
5
69
1
1
1
14
13
25
6
5V
5V
5V
4.7K
4.7K
4.7K
74LS06
74LS06
OFF ON
OFF
ON
11
VIDEO
SIGNAL
GENERATOR
EDID DATA EDIT
No Item Content Hexadecimal
1 Manufacturer ID GSM 1E6D
2 Product ID 19053 4A6D
3Year 20050F
4 Version 1 01
5 Revision 3 03
EDIDDataEdit Using ServicesoftwareProgram
1Read and Modify EDID Data
1) Connector the monitor and adjust device as Figure1
2) Display color 15,0 cross hatch pattern at Mode 4.
3) Use EDIT – MODEL SEL. command to select the
right model info file.
4) Use EDIT – EDID INFO command and return to
read the EDID Data.
5) Modify the EDID Data if needed and using F10 to
save the change and exit.
2WriteEDIDData.
1) Display color 15,0 cross hatch pattern at Mode 4.
2) Use EEPROM -- Write EDID command and confirm
“EDID Write OK!!” message of monitor.
3) Exit from the alignment program.
4) Power switch OFF/ON for EDID data save.
0
1
2
3
4
5
6
7
8
9
A
B
C
D
E
F
0
00
FF
FF
FF
FF
FF
FF
00
1E
6D
#
6D
#
4A
*
01
*
00
*
00
*
00
1
**
01
***
0F
01
03
78
24
1B
B0
E8
05
79
A0
56
4A
99
26
2
12
48
4C
FF
FF
80
31
59
45
59
61
59
81
80
A9
40
3
E1
40
A9
4A
A9
4F
86
3D
00
C0
51
00
30
40
40
A0
4
13
00
5E
06
11
00
00
1E
00
00
00
FD
00
32
A0
1E
5
62
1B
00
0A
20
20
20
20
20
20
00
00
00
FC
00
54
6
39
31
30
42
0A
20
20
20
20
20
20
20
00
00
00
FC
7
00
0A
20
20
20
20
20
20
20
20
20
20
20
20
00
%
1
2
3
4
5
6
7
8
WIRING DIAGRAM
- 14-
P301
P302
P303
Signal
Cable
AC
Socket
T
BF
P701
S+
S-
P901 P702
P551
P401
P201
P402
C
M
Y
CM
MY
CY
CMY
K
TempFile1091756268.pdf 2004-8-6 10:29:18TempFile1091756268.pdf 2004-8-6 10:29:18
BLOCK DIAGRAM
- 15-
Power Input
100~240V AC
(50/60Hz)
PFC
Degaussing
Circuit
[ OSD Control ]
SMPS
Control
(IC901)
TILT
Control
Circuit
6.3V
15V
E
2
PROM
(IC402)
5V
H-Sync
V-Sync
I
2
C DATA(SD A)
I
2
C CLOCK(SCL)
VIDEO
Pre-AMP /
OSD
(IC302)
Video
Signal R
G
B
VIDEO
Main AMP
(IC303)
CUT OFF Circuit
(IC304)
80V
MICOM & H/V Sync Processor
( IC401 )
SAA4849
V-Out
( IC601)
TD A486 7J
H-Out
( Q706)
H-Linearity
Correction
X-R AY
Protection
Circuit
Dynamic
FOCUS
Circuit
Brightness Control
- 160V
40V
15V
D/D
Feed Back
12V
SCL / SDA
H-Sync/V-Sync
PWM Control Signal
15V
50V
DY CDT
Heater ( HT )
I
2
C
Screen
H.V
R/G/B
Bias
H - Drive
B-Drive
B+
15V
DPM
Control
Circuit
5V
6.3V
12V 80V
Voltage
feedback
Degaussing
Coil
Dynamic Focus
Static Focus
TILT
Coil
50V
80V
5V
G2 G1
Auto
Beam
Limit
DC/DC Converter
FBT
( T701 )
Regulation
Circuit
15V
SMPS
(T901)
5V
BRIGHTNESS
CONTR AST
MOIRE
DEGAUSSING
H / V POSITION
H / V SIZE
SPCC
TR APEZOID
PIN BALANCE
PAR ALLELOGR AM
ROTATION (Tilt)
RECALL / RESET
COLOR
INFORMATION
LANGU AGE
OSD TIME
TOP/BOTTOM CORNER
VIDEO LEVEL
OSD CONTROL LOCK
H.T
12V
-12V
-12V
DESCRIPTION OF BLOCK DIAGRAM
- 16-
1. SMPS(Switching Mode Power Supply)
When you turn on the power switch, the operating
procedure is as follows:
1) The AC line voltage is rectified by the bridge diode
D901.
2) The control IC(IC901) starts switching and generates
switch pulse in the primary turn of the SMPS
transformer(T901)
3) The switching pulses of the primary turns are induced
to the secondary turns of the transformer by the turn
ratio. This pulses are rectified by each diode(D924,
D923,D922,D921,D920)
4) Each rectified DC voltage(80V, 50V, 15V,12V, 6.3V
5V and -12V)
2. Over Voltage Protection Circuit
When the input of IC901 Vin(pin 4) is more than
22V, all the secondary voltages of the SMPS
transformer (T901) down to low value
3. Display Power Management Circuit(DPM)
1) STAND-BY & SUSPEND Mode
When no input of horizontal or vertical sync Q951,
Q941 are turned off and Q912,Q914 are turned off.
Then input power consumption is below 8 watts.
2) OFF Mode
When no input of horizontal and vertical sync Q951,
Q941 are turned off and Q912, Q914 are turned off.
Then input power consumption is below 3 watts.
4. Microprocessor Control & Horizontal and
Vertical Sync Processor Circuit
The operating procedure is as follows ;
1) There is Horizontal & Vertical process function in
Microprocessor.(IC401)
2) Microprocessor (IC401) discriminates the operating
mode from the sync polarity and resolution.
3) After microprocessor reads these adjusted mode data
stored at EEPROM, it controls operating mode data
through IIC
4) Users can control screen condition by the OSD Select,
Up, Down, Left, Right.
5) The horizontal and vertical sync processor IC (IC401)
has a sync detector, a saw-tooth generator, and drive
function, And outputs horizontal and vertical drive
signal to control screen distortions
5. D/D Converter Circuit.
To obtain constant high voltage, this circuit supplies
controlled DC voltage for FBT and horizontal deflection
circuit according to the horizontal sync frequency.
6. X-RAY Protection Circuit
When the high Voltage reaches to 30kV in an abnormal
case, the high voltage detector circuit, R818,D721,C739,
R416, R417,C409 start operation to shut down high
voltage circuit.
7. Horizontal S-correction Circuit.
This circuit corrects the horizontal linearity for each
horizontal sync frequency.
8. Horizontal drive and Output Circuit.
This circuit is a horizontal deflection amplifier for raster
scan.
9. ABL Circuit
This circuit limits the beam-current for the reliability of
CDT
10. Vertical Output Circuit
This circuit takes the vertical ramp wave from the
TDA4867J (IC601) and perform the vertical deflection
by supplying the saw-tooth wave current to the vertical
deflection yoke.
11. Blanking and Brightness Control Circuit.
Blanking circuit eliminates the retrace line by
supplying a negative pulse wave to the G1 of the CDT.
Brightness control circuit is used for control of the
screen brightness by changing the DC level G1.
12. Image Rotation (Tilt) Circuit.
This circuit corrects the tilt of the screen by
supplying the image rotation signal to the tilt coil
which is attached near the deflection yoke of the
CDT
13. OSD (On Screen Display) Circuit.
This circuit displays information of the monitor`s status
on the screen.
14. Degauss Circuit & Coil.
The degauss circuit consists of the degaussing coil,
the PTC (Positive Temperature Coefficient) thermistor
(TH901), and the relay (RL901). This circuit eliminates
abnormal color of the screen automatically by
degaussing the slot mask in the CDT when turn on the
power switch.
When you need to degauss while using the monitor,
select DEGAUSS on the OSD menu.
- 17-
19. High Voltage Output & FBT (Flyback Transformer).
The high voltage output circuit is used for generating
pulse wave to the primary coil of the FBT (Flyback
Transformer (T701)). A boosted voltage (about 27kV)
appears at the secondary of the FBT and it is supplied
to the anode of the CDT.
And there are another output voltages such as the
dynamic focus voltage.
18. Moire Reduction Circuit
This circuit reduce interference between the periodical
display pattern and the CDT's slot (or dot).
The positions of every other one dot video signal
beams (red, green, and blue beam) are shifted finely,
thus reducing interference.
15. Video Processor Circuit.
Video processor circuit consists of the video drive
output block. The video drive IC(IC302) receives the
video signal from PC. The gain of each channel is
controlled by MICOM through IIC.The cut-off circuit
compensate different voltage of each channel between
the cathode and the G1 of the CDT
16. Video Pre-Amp Circuit.
This circuit amplifies the analog video signal from
0~0.7 V to 0~4 V. It is operated by taking the clamp,
R,G,B drive and contrast signal from the MICOM
(IC401)
17. Video Output Amp Circuit.
This circuit amplifies the video signal which comes
from the video pre-amp circuit and amplified it to
applied the CDT cathode
CHECK
D901 BRIDGE DIODE?
CHECK
C905(+) VOLTAGE
145VDC at 110V input
310VDC at 220V input
IC901, Q901
CHECK
D924, D923,
D922, D921, D920 ?
CHECK
FUSE OK?(F901)
- 18-
TROUBLESHOOTING GUIDE
1. NO POWER
NO POWER
(POWER INDICATOR OFF)
NO
NO
NO
NO
TROUBLE IN
Q912, Q914, Q941, Q951,
IC902, IC903
TROUBLE
IN FUSE (F901)
SMPS Switch (ON, OFF)
TROUBLE IN
BRIDGE DIODE (D901)
TROUBLE IN
IC901, Q901
TROUBLE IN
D924,D923,
D922, D921, D920
YES
YES
YES
YES
21
CHECK
Q905 OK?
NO TROUBLE IN
Q905
YES
1 2
Waveforms
Q901, Drain IC901, #6
6
2. NO CHARACTER
NO CHARACTER
NO
NO
NO
NO
TROUBLE IN
CDT SOCKET
TROUBLE IN
P301, SIGNAL CABLE,
PC SIGNAL
TROUBLE IN
IC302, P302
TROUBLE IN
IC303
TROUBLE IN
IC304
YES
YES
YES
YES
- 19-
CHECK
IC302 5,6,7 Pin
CHECK
IC302 1,19, 20, 21,23,24
PIN 10 (5V) ?
CHECK
IC303 PIN 1, 3, 5
PIN8 (12V),
PIN 4 (80V) ?
CHECK
R, G, B CATHODE
VOLTAGE?
Waveforms
127
10
11
12
13 10 11
13
Waveforms
IC302, #5, 6, 7
IC302, #23 IC302, #19, 20, 21
IC302, #1 IC302, #24
CDT, RK, GK, BK
26 27
IC302, #23
7
6 7
CHECK
SCREEN CONTROL
KNOB OF FBT
CHECK
VOLTAGE AT
D924 CATHODE (80V)
IC902-1 (12V)
D921 CATHODE
(6.3V)?
CHECK
IC401 (MICOM) PIN 16
5V (HIGH)
CHECK
POWER INDICATOR
GREEN or AMBER ?
- 20-
3. NO RASTER
AMBER
NO
NO
NO
TROUBLE IN
IC401 (MICOM),
TROUBLE IN
P302 SIGNAL CABLE
ROTATE SCREEN CONTROL
KNOB TO CLOCKWISE
or COUNTER CLOCKWIES
TROUBLE IN PRIMARY
CIRCUIT OF T901
TROUBLE IN
PRIMARY CIRCUIT OF T901
GREEN
YES
YES
YES
NO VIDEO
(POWER INDICATOR
GREEN or AMBER)
Other manuals for T910B
1
Table of contents
Other LG Monitor manuals
