Download Sierra Wireless SyncMaster 800TFT User's Manual

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Transcript 
COLOR MONITOR
SyncMaster 800TFT
(Toshiba Panel)
SERVICE
Manual
COLOR MONITOR
CONTENTS
1. Precautions
2. Product Specifications
3. Disassembly & Reassembly
4. Alignments & Adjustments
5. Troubleshooting
6. Exploded View & Parts List
7. Electrical Parts List
8. Block Diagram
9. Wiring Diagram
10. Schematic Diagrams
1 Precautions
Follow these safety, servicing and ESD precautions to prevent damage and to protect against potential hazards such as
electrical shock.
1-1 Safety Precautions
1-1-1 Warnings
1.
For continued safety, do not attempt to modify the
circuit board.
2.
Disconnect the AC power and DC power jack
before servicing.
(READING SHOULD
NOT BE ABOVE 0.5mA)
1-1-2 Servicing the LCD Monitor
1.
When servicing the LCD Monitor, Disconnect the
AC line cord from the AC outlet.
2.
It is essential that service technicians have an
accurate voltage meter available at all times. Check
the calibration of this meter periodically.
TEST ALL
EXPOSED METAL
SURFACES
2-WIRE CORD
*ALSO TEST WITH
PLUG REVERSED
(USING AC ADAPTER
PLUG AS REQUIRED)
1-1-3 Fire and Shock Hazard
Before returning the monitor to the user, perform the
following safety checks:
1.
Inspect each lead dress to make certain that the
leads are not pinched or that hardware is not
lodged between the chassis and other metal parts in
the monitor.
2.
Inspect all protective devices such as nonmetallic
control knobs; insulating materials; cabinet backs;
adjustment and compartment covers or shields;
isolation resistor-capacitor networks; mechanical
insulators, etc.
3.
Leakage Current Hot Check (Figure 1-1): WARNING:
Do not use an isolation transformer during this test.
Use a leakage current tester or a metering system
that complies with American National Standards
Institute (ANSI C101.1, Leakage Current for
Appliances), and Underwriters Laboratories (UL
Publication UL1410, 59.7).
SyncMaster 800TFT
LEAKAGE
CURRENT
TESTER
DEVICE
UNDER
TEST
EARTH
GROUND
Figure 1-1. Leakage Current Test Circuit
4.
With the unit completely reassembled, plug the AC
line cord directly into a 120V AC outlet. With the
unit’s AC switch first in the ON position and then
OFF, measure the current between a known earth
ground (metal water pipe, conduit, etc.) and all
exposed metal parts, including: metal cabinets,
screwheads and control shafts. The current
measured should not exceed 0.5 milliamp. Reverse
the power-plug prongs in the AC outlet and repeat
the test.
1-1-4 Product Safety Notices
Some electrical and mechanical parts have special
safety-related characteristics which are often not
evident from visual inspection. The protection they give
may not be obtained by replacing them with
components rated for higher voltage, wattage, etc. Parts
that have special safety characteristics are identified by
! on schematics and parts lists. A substitute
replacement that does not have the same safety
characteristics as the recommended replacement part
may create shock, fire and / or other hazards. Product
safety is under review continuously and new
instructions are issued whenever appropriate.
1-1
1 Precautions
1-2 Servicing Precautions
WARNING:
An electrolytic capacitor installed with the wrong polarity may explode.
Caution:
Before servicing units covered by this service manual, read and follow the Safety Precautions
section of this manual.
Note:
If unforeseen circumstances create conflict between the following servicing precautions and any of the
safety precautions, always follow the safety precautions.
1-2-1 General Servicing Precautions
1.
2.
3.
Always unplug the unit’s AC power cord from the
AC power source and disconnect the DC power
jack before attempting to:
(a) remove or reinstall any component or assembly.
(b) disconnect PCB plugs or connectors.
(c) connect a test component in parallel with an
electrolytic capacitor.
Some components are raised above the printed
circuit board for safety. An insulation tube or tape
is sometimes used. The internal wiring is
sometimes clamped to prevent contact with
thermally hot components. Reinstall all such
elements to their original position.
4.
Check the insulation between the blades of the AC
plug and accessible conductive parts (examples:
metal panels, input terminals and earphone jacks).
5.
Insulation Checking Procedure: Disconnect the
power cord from the AC source and turn the power
switch ON. Connect an insulation resistance meter
(500 V) to the blades of the AC plug.
The insulation resistance between each blade of the
AC plug and accessible conductive parts (see
above) should be greater than 1 megohm.
6.
After servicing, always check that the screws,
components and wiring have been correctly
reinstalled. Make sure that the area around the
serviced part has not been damaged.
Always connect a test instrument’s ground lead to
the instrument chassis ground before connecting the
positive lead; always remove the instrument’s
ground lead last.
1-3 Electrostatically Sensitive Devices (ESD) Precautions
Some semiconductor (solid state) devices can be easily damaged by static electricity. Such components are commonly
called Electrostatically Sensitive Devices (ESD). Examples of typical ESD components are integrated circuits and some
field-effect transistors. The following techniques will reduce the incidence of component damage caused by static
electricity.
1. Immediately before handling any semiconductor
6. Do not remove a replacement ESD from its
components or assemblies, drain the electrostatic
protective package until you are ready to install it.
charge from your body by touching a known earth
Most replacement ESDs are packaged with leads
ground. Alternatively, wear a discharging wristthat are electrically shorted together by conductive
strap device. To avoid a shock hazard, be sure to
foam, aluminum foil or other conductive materials.
remove the wrist strap before applying power to
the monitor.
7. Immediately before removing the protective
material from the leads of a replacement ESD,
2. After removing an ESD-equipped assembly, place it
touch the protective material to the chassis or
on a conductive surface such as aluminum foil to
circuit assembly into which the device will be
prevent accumulation of an electrostatic charge.
installed.
3. Do not use freon-propelled chemicals. These can
Caution: Be sure no power is applied to the
generate electrical charges sufficient to damage
chassis or circuit and observe all
ESDs.
4.
Use only a grounded-tip soldering iron to solder or
desolder ESDs.
5.
Use only an anti-static solder removal device. Some
solder removal devices not classified as “anti-static”
can generate electrical charges sufficient to damage
ESDs.
1-2
other safety precautions.
8.
Minimize body motions when handling
unpackaged replacement ESDs. Motions such as
brushing clothes together, or lifting your foot from
a carpeted floor can generate enough static
electricity to damage an ESD.
SyncMaster 800TFT
2 Product Specifications
2-1 Specifications
Item
Description
LCD Panel
TFT-LCD panel, RGB vertical stripe, normally white transmissive,
18-Inch viewable, 0.28 mm pixel pitch
Scanning Frequency
Horizontal : 30 kHz to 81 kHz (Automatic)
Vertical : 56 Hz to 85 Hz (~XGA), 76 Hz (SXGA)
Display Colors
16.7 Million colors
Maximum Resolution
Horizontal : 1280 Pixels @ 81 kHz
Vertical : 1024 Pixels @ 76 Hz
Input Video Signal
Analog, 0.714 Vp-p ± 5% positive at 75 Ω, internally terminated
Input Sync Signal
Type:
Level:
Maximum Pixel Clock rate
135 MHz
Active Display
Horizontal/Vertical
359 ± 3 mm /
287.2 ± 3 mm
Seperate H/V sync, Composite H/V, Sync-on-Green
TTL level (V high ≥ 2.0 V, V low ≤ 0.8 V), Sync-on-Green (≤ –0.25 V)
AC power voltage & Frequency AC 90 to 264 Volts, 60/50 Hz ± 3 Hz
Power Consumption
54 W (max.), 48W (norminal)
Dimensions
Unit (W x D x H)
Carton (W x D x H)
17.7 x 18.2 x 7.2 Inches (449.4 x 461.2 x 182 mm)
22.4 x 11.6 x 22.8 Inches (570 x 295 x 580 mm)
Weight
(Net/Gross)
8.3 kg (18.28 lbs) / 11.8 kg ( 20.0 lbs)
Environmental Considerations
Operating Temperature : 50°F to 104°F (10°C to 35°C)
Humidity : 10 % to 80 %
Storage Temperature
: -68°F to 113°F (-20°C to 45°C)
Humidity : 5 % to 95 %
• SyncMaster 800TFT complies with SWEDAC (MPR II) recommendations for reduced electromagnetic fields.
• Designs and specifications are subject to change without prior notice.
SyncMaster 800TFT
2-1
2 Product Specifications
2-2 Pin Assignments
Sync
Type
Pin No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
2-2
15-Pin D-Sub & 13W3 Signal Cable Connector
13W3
A1
A2
A3
4
4
A1-GND
A2-GND
A3-GND
3, 8
10
4
6
5
7
1, 2
Separate
Red
Green
Blue
GND
DDC Return (GND)
GND-R
GND-G
GND-B
No Connection
Self Raster
GND
Bi-Dr Data (SDA)
H-Sync
V-Sync
DDC Clock (SCL)
Composite
Red
Green
Blue
GND
DDC Return (GND)
GND-R
GND-G
GND-B
No Connection
Self Raster
GND
Bi-Dr Data (SDA)
H/V-Sync
Not Used
DDC Clock (SCL)
Sync-on-green
Red
Green + H/V Sync
Blue
GND
DDC Return (GND)
GND-R
GND-G
GND-B
No Connection
Self Raster
GND
Bi-Dr Data (SDA)
Not Used
Not Used
DDC Clock (SCL)
SyncMaster 800TFT
2 Product Specifications
2-3 Timing Chart
This section of the service manual describes the timing that the computer industry recognizes as standard
for computer-generated video signals.
Table 2-1. Timing Chart
Mode
IBM
VESA
VGA2/70 Hz VGA3/60 Hz 640/75 Hz 640/85 Hz 800/75 Hz 800/85 Hz 1024/60Hz 1024/75Hz 1024/85Hz 1280/76Hz 1280/75Hz
720 x 400 640 x 480 640 x 480 640 x 480 800 x 600 800 x 600 1024 x 768 1024 x 768 1024x768 1280x1024 1280x1024
Timing
fH (kHz) 31.469
31.469
37.500
43.269
46.875
53.674
48.363
60.023
68.677
81.129
79.976
A µsec
31.777
31.778
26.667
23.111
21.333
18.631
20.677
16.660
14.561
16.640
12.504
B µsec
3.813
3.813
2.032
1.556
1.616
1.138
2.092
1.219
1.016
6.400
1.067
C µsec
1.589
1.589
3.810
2.222
3.232
2.702
2.462
2.235
2.201
2.880
1.837
D µsec
26.058
26.058
20.317
17.778
16.162
14.222
15.754
13.003
10.836
E µsec
0.318
0.318
0.508
1.556
0.323
0.569
0.369
0.203
0.508
3.200
0.119
fV (Hz)
70.087
59.940
75.000
85.008
75.000
85.061
60.004
75.029
84.997
76.106
75.025
O msec
14.268
16.683
13.333
11.764
13.333
11.756
16.666
13.328
11.765
10.660
13.329
P msec
0.064
0.064
0.080
0.671
0.064
0.056
0.124
0.050
0.044
0.080
0.038
Q msec
0.858
0.794
0.427
0.578
0.448
0.503
0.600
0.466
0.524
3.200
0.475
R msec
13.155
15.761
12.800
11.093
12.800
11.179
15.880
12.795
11.183
S msec
0.191
0.064
0.027
0.023
0.021
0.019
0.062
0.017
0.015
0.020
0.013
Clock
Freq.
(MHz)
28.322
25.175
31.500
49.500
49.500
56.250
75.000
78.750
94.500
135.000
135.000
9.481
12.804
Polarity
H.Sync Negative Negative Negative Negative Positive
Positive Negative Positive
Positive Negative
Positive
Positive Negative Negative Negative Positive
Positive Negative Positive
Positive Negative
Positive
V.Sync
Remark Separate Separate Separate Separate Separate Separate Separate Separate Separate
Vertical
DD
E
E
Q
S
Vertical
Horizontal
Video
Video
CC
VIDEO
R
Q
A
Video
Video
Separate
H/V Composite Sync
Separate Sync
Horizontal
Com.
P
RR
Q
O
B
S S
Sync-on-Green
Sync
Sync
Sync
Sync
BB
Vertical
Green
Horizontal
PP
AA
P
O O
B
R
Q
S
O
A : Line time total
B : Horizontal sync width
O : Frame time total
P : Vertical sync width
C : Back porch
D : Active time
Q : Back porch
R : Active time
E : Front porch
SyncMaster 800TFT
S : Front porch
2-3
2 Product Specifications
Memo
2-4
SyncMaster 800TFT
3 Disassembly and Reassembly
This section of the service manual describes the disassembly and reassembly procedures for the
SyncMaster 800TFT TFT-LCD monitor.
WARNING: This monitor contains electrostatically sensitive devices. Use caution when handling
these components.
3-1 Disassembly
Cautions:1. Disconnect the monitor from the power source before disassembly.
2. Follow these directions carefully; never use metal instruments to pry apart the cabinet.
3-1-1 Removing the Stand
1. Remove 4 screws on the Stand.
3-1-2 Main Body Disassembly
1. Remove 4 screws on the Rear Cover.
2. Pull the Rear Cover up and off the monitor.
3. Remove 4 screws on the BRKT-VESA and
Remove the BRKT-VESA.
4. Remove 16 screws on the PCB Shield and
remove the Shield.
5. Remove 7 screws on the Main PCB and 2
screws on the Inverter PCB and 2 screws on
the 10P Harness.
6. Disconnect the connector (140P) between the
Panel and the CN600 connector on the Main
PCB.
7. Disconnect the Function PCB wire (10P)
between the Function PCB and the CN102
connector on the Main PCB.
8. Disconnect 2 Inverter wires between the Panel
and the CN2, CN3 connectors on the Inverter
PCB.
9. Disconnect the 12P harness between CN1
connectors on the Inverter PCB and CN103
connector on the Main PCB.
10. Carefully lift the Main PCB Assembly and
Inverter PCB and place them on a flat, level
surface that is protected from static electricity.
11. Remove 10 screws on the PCB Bracket.
12. Remove the Bracket Assembly from the Front
Cover.
13. Remove the 2 screws on the Function PCB
from the Front Cover and remove the
Function PCB and Function Knob.
3-2 Reassembly
Reassembly procedures are in the reverse order of Disassembly procedures.
SyncMaster 800TFT
3-1
3 Disassembly and Reassembly
Memo
3-2
SyncMaster 800TFT
4 Alignments and Adjustments
This section of the service manual explains how to use the DDC JIG to adjust the black, red, green, and blue
levels of the FPD when you replace the AD Board, and how to update the microprocessor when you
change the Panel or Lamp(s).
4-1 Required Equipment
The following equipment is necessary for adjusting the monitor:
• Oscilloscope with probe tool
• Computer with Windows 95 R , Windows 98 R , or Windows NT R .
• DV18AS.exe software
• DDC Control JIG
4-2 Using the DDC Control JIG
After replacing the LCD Panel, Lamp(s), and / or AD Board, use the DDC Control JIG to complete your
service. Attach the DDC Control JIG to the flat panel display (FPD) as shown in the diagrams, below.
MONITOR
INTERFACE
BOARD VER. 2.0
5V DC
ADAPTOR
MONITOR
SIGNAL CABLE
3-WIRE CABLE
5V DC
ADAPTOR
3-WIRE
CABLE
SIGNAL CABLE
PARALLEL CABLE
PC
INTERFACE
BOARD VER. 2.0
SIGNAL
GENERATOR
PARALLEL CABLE
PC
D-SUB
CONNECTOR
Figure 4-1. Setup 1, With Signal Generator
Figure 4-2. Setup 2, Without Signal Generator
SyncMaster 800TFT
4-1
4 Alignments and Adjustments
4-2-1
Main Menu
4-2-2 Sub Menu
4-2-2 (a) Panel Information
4-2-1 (a) Service JIG : DV18
a
1
2
3
4
5
6
7
m
l
b
c
g
n
8
10
9
11
12
13
d
h
e
i
f
j
14
o
15
16
17
18
k
Figure 4-3.Service JIG Menu
No
Label
Definition
1
Red max value
Shows the red video signal max value
2
Green max value
Shows the green video signal max value
3
Blue max value
Shows the blue video signal max value
4
Red min value
Shows the red video signal min value
5
Green min value
Shows the green video signal min value
6
Blue min value
Shows the blue video signal min value
7
Color
Figure 4-4. Control JIG Menu
No
Label
a
Monitor On Time Total hours that the monitor has been actively
functioning.
b
Panel Cycle
The total number of times the Panel has been
turned ON.
c
Time
Total in Hours that this Panel or Lamp has been
ON. Reset this number to 000000 after
replacing the part.
Automatical screen contrast setting
d
Panel
Total number of hours that this Panel has
been ON.
e
Lamp, Upper
Total number of hours that this Upper Lamp
has been ON.
f
Lamp, Lower
Total number of hours that this Lower Lamp
has been ON.
g
Change No.
The number of times this Panel or Lamp has
been replaced. The numbers are 00 if the item
is the original factory part installed during
manufacture of this monitor.
h
Panel
Replacement times. This value is 00 if original
equipment.
i
Lamp, Upper
Replacement times. This value is 00 if original
equipment.
j
Lamp, Lower
Replacement times. This value is 00 if original
equipment.
k
Message
Read
Shows the message.
Reads all Panel information data from the
AD Board
Writes the Panel Parameter Control values to the
AD Board
Reload the Panel Parameter Control values from
the Program buffer
Returns to the Main menu
Auto Adjustment
8
Red gain control
Adjusts the red video signal gain control
9
Green gain control
Adjusts the green video signal gain control
10
Blue gain control
Adjusts the blue video signal gain control
11
Red cutoff control
Adjusts the red video signal cutoff control
12
Green cutoff control Adjusts the green video signal cutoff control
13
Blue cutoff control
Adjusts the blue video signal cutoff control
14
Panel information
Shows the sub menu to panel information
(4-2-2 (a))
15
Scroll bar
Changes the value or level of the selected
item. The window to the right shows the
value as it changes.
16
SAVE
Saves the current adjustment value of
the R,G,B video contrast gain and
cutoff level
17
Setting
Displays and allows you to adjust the
PC and Control JIG communication
environment. Use this button to change the
Delay parameter and Port Address of
your PC system and to test the connection
between the Control JIG and your computer
18
4-2
Exit
Definition
Quits the DDC Control JIG
l
m
Write
n
Read buffer
o
Return Main
SyncMaster 800TFT
4 Alignments and Adjustments
4-2-3 Adjustment Procedures
Use the following procedures whenever you
replace the AD Board, Panel, or one or both of the
Lamps.
4-2-3 (a) When Replacing the AD Board
1. Before replacing the AD Board, read all Panel
information data by using the Read button on
the DDC Control JIG.
2. Remove the old AD Board and replace it with
a new board.
3. Perform the procedures described in section
4-2-3 (b).
4. Write the Panel information data to the new
AD Board by using the Write button.
5. Perform other procedures using the DDC
Control JIG, if necessary.
6. When all procedures are complete, select the
Exit button ( 18 ) to quit the DDC Control JIG
software.
4-2-3 (b) Color Auto Adjustment
1. After displaying 16-Gray pattern or black and
white mixed pattern, click “Color Auto
Adjustment” button.
2. During normal execution of Auto Algorithm
the screen image may flicker. If Auto
Algorithm does not excute properly, check
DDC Control JIG.
3. After normal execution of Auto Algorithm,
confirm optimal settings by observing the
contrast of several different patterns on the
display.
4-2-3 (c) When Replacing the Panel
1. Select the Read Buffer button ( n ) to gather the
current information about this monitor.
2. Increment the number by clicking on the (+)
button on the Panel row in the Change No.
column. If they were not already 00, the
numbers for the Upper and Lower Lamps will
automatically change to 00.
3. Check all values. If there is an error, select
Read Buffer again and increment the Change
No. column to the correct number. When all
values are correct, select the Write button ( m )
to record the data in the firmware.
4. Select the Return Menu button (
Main Menu.
o
) to Return
4-2-3 (d) When Replacing the Upper and/or Lower Lamp
1. Select the Read Buffer button ( n ) to gather
current information about this monitor.
2. Increment the number by clicking on the (+)
button on the Lamp Upper and/or Lamp
Lower row in the Change No. column.
3. Check all values. If there is an error, select
Read Buffer again and increment the Change
No. column to the correct number(s). When all
values are correct, select the Write button
( m ) to record the data in the firmware.
4. Select the Return Menu button (
Main Menu.
o
) to Return
4. If you want to check each color value, click the
button from 1 to 6 and from 8 to 13
SyncMaster 800TFT
4-3
4 Alignments and Adjustments
4-3 Using the OSD Service function
After replacement of the LCD Panel or Lamp(s), use the 800TFT’s OSD Service Function to complete your
service.
1. To display the Service Function OSD, push
and hold in for 8 seconds the Left and Right
arrow buttons on the front panel of the
monitor.
Service Function
Monitor On Time : 000049Hr
Panel Cycle
: 000088
Time Change No.
Panel
: 000050Hr
00
Lamp Upper : 000050Hr
00
Lamp Lower : 000050Hr
00
Figure 4-5. Service Function Menu Screen
2. If the Panel has been replaced during this
servicing, use the Up or Down arrow button
on the front panel to highlight the Panel row
on the table. Increment the Change No. value
by pushing and holding in (for 8 seconds) the
Left and Right arrow buttons on the front
panel. Incrementing the Panel value
automatically changes both the Upper and
Lower Lamp Change No. value to 00.
If you have changed the Upper and/or Lower
Lamp(s) without changing the Panel, highlight
the appropriate row(s) then push and hold in
(for 5 seconds) both the Left and Right arrow
buttons on the front panel. This action
increments the Change No. value(s).
Note: Increment the Lamp value(s) only if one
or both of them were replaced,
but the Lamp was not replaced.
3. After incrementing the appropriate values,
power off the monitor.
4-4
SyncMaster 800TFT
4 Alignments and Adjustments
SyncMaster 800TFT
4-5
5 Troubleshooting
Notes: 1. Before troubleshooting, set up the PC’s display as below.
• Resolution: 1280 x 1024
• H-frequency: 64 kHz
• V-frequency: 60 Hz
2. If no picture appears, confirm the power cord is correctly connected.
3. Check the following circuits.
• No raster appears: Stand PCB, Main PCB
• 12V develop but no screen: Main PCB
• 12V does not develop: Main PCB
4. If you push and hold the EXIT button for more than 5 seconds, the monitor automatically reverts back
to the factory preset
5-1 No Power
Does proper DC 12 V appear at
DC jack connected to CN101?
No
Check Power Adaptor.
Yes
Does proper DC 5 V appear at
Pin 4 of IC101?
No
Check IC101 and related circuit.
Yes
Does proper 5 V - signal appear at
Pin 42 of IC501 (SW_REG_EN)?
No
Check IC501 and related circuit.
(CN102, Function Key)
Yes
Check Q103, Q105 and Q106.
SyncMaster 800TFT
5-1
5 Troubleshooting
5-2 No Video
Check signal cable and connection.
Does the outpus signal appear at RA403 and
R411 of IC406? (LDTGB, LVSYNCB, LHSYNCB,
LCKBB)
1 2 3 4
Yes
Is the output of Pins 1, 17 of IC501 High ?
No
Yes
Check TFT-LCD panel and Inverter.
No
Check IC501 and related circuit
Does the analog video signal appear at R211,
R212, R215? (BLUE, GREEN, RED)
(IC201)
No
Check IC201 and related circuit.
Yes
Does the sync signal appear
at the output of Pin 14 of IC201and Pin 3 of IC 206 ?
5 6 (V-SYNC, H*V SYNC)
No
Check IC201, IC206 and related
circuit.
Yes
Does the input signal appear at the Pins 40, 41
of IC 300? 7 8
(PLL H*V MX-PDEN)
No
Check the related circuit for these
ports.
Yes
During power on-off does the input signal
appear at the Pin 29,30 of IC300?
(AD-SDA, AD-SCL)
No
Check IC501 and related circuit.
Yes
Do the clock and sync signal appear at Pin
9 10
115, 117 of IC 300?
(DCLKAB, MX_HSYNC) and does the digital video
signal appear at thr output port PDA, PDB)?
No
Check IC 300 and related circuit.
Yes
During power on-off dose the input signal
appear at the R 407 and R 408 ?
(MX-SDA, MX-SCL)
No
Check IC501 and related circuit.
Yes
Check IC 406 and related circuit.
5-2
SyncMaster 800TFT
5 Troubleshooting
WAVEFORMS
1
CH1 RMS = 3.26V
5
CH1 RMS = 4.96V
9
CH1 RMS = 2.50V
SyncMaster 800TFT
2
CH1 RMS = 3.25V
6
CH1 RMS = 4.42V
3
CH1 RMS = 3.12V
7
CH1 RMS = 3.20V
4
CH1 RMS = 2.20V
8
CH1 RMS = 3.24V
10
CH1 RMS =960mV
5-3
5 Troubleshooting
5-3 No OSD
WAVEFORMS
There is video but no OSD.
11 12 13
Does input signal appear
at the Pins 2, 5 and
10 of IC404?
11
No
Check IC405 and related circuit.
CH1 RMS = 4.18V
Yes
12
While pushing a front control
button does any pulse appear
at Pin 12 of IC404?
No
Check IC404 and related circuit.
Yes
CH1 RMS = 3.26V
Replace IC404.
13
CH1 RMS = 3.26V
5-4
SyncMaster 800TFT
6 Exploded View and Parts List
SyncMaster 800TFT
6-1
6 Exploded View & Parts List
6-2
SyncMaster 800TFT
6 Exploded View & Parts List
SyncMaster 800TFT
6-3
6 Exploded View & Parts List
Memo
6-4
SyncMaster 800TFT
7 Electrical Parts List
7-1 Main PCB Parts
Loc. No.
C101
C102
C103
C104
C105
C106
C107
C108
C110
C111
C118
C119
C120
C121
C122
C123
C124
C125
C126
C127
C128
C129
C130
C131
C132
C133
C134
C135
C136
C137
C138
C201
C202
C203
C204
C205
C207
C208
C209
C210
C211
C213
C214
C217
Code No.
BN91-00013X
2402-000176
2203-000257
2203-000257
2402-001044
2402-001042
2203-005005
2203-005005
2402-001042
2203-000257
2203-000257
2203-000257
2203-000257
2402-001044
2404-001075
2402-001042
2203-005005
2402-001042
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2402-000176
2402-001044
2203-000257
2203-005005
2203-005005
2203-000257
2402-000176
2203-000257
2402-000176
2203-001656
2402-000176
2203-000257
2203-000257
2402-000176
2203-005005
2402-000176
2203-000257
2402-000176
SyncMaster 800TFT
Description
PROCESS-DV18MST(TSB)
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-TA,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-AL,SMD”
Specification
Remarks
“DV18MST,DAVINCH(TSB),-,-”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“10nF,10%,50V,X7R,TP,1608”
“10nF,10%,50V,X7R,TP,1608”
“100uF,20%,25V,-,TP,8.3x8.3x6.3”
“100uF,20%,16V,GP,TP,6.6x6.6x5.”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100uF,20%,16V,GP,TP,6.6x6.6x5.”
“10nF,10%,50V,X7R,TP,1608”
“10nF,10%,50V,X7R,TP,1608”
“10nF,10%,50V,X7R,TP,1608”
“10nF,10%,50V,X7R,TP,1608”
“100uF,20%,25V,-,TP,8.3x8.3x6.3”
“100UF,20%,16V,GP,TP,7343”
“100uF,20%,16V,GP,TP,6.6x6.6x5.”
“100nF,10%,16V,X7R,TP,1608”
“100uF,20%,16V,GP,TP,6.6x6.6x5.”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“100uF,20%,25V,-,TP,8.3x8.3x6.3”
“10nF,10%,50V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“10nF,10%,50V,X7R,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“10nF,10%,50V,X7R,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“0.47nF,5%,50V,NP0,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“10nF,10%,50V,X7R,TP,1608”
“10nF,10%,50V,X7R,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“100nF,10%,16V,X7R,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“10nF,10%,50V,X7R,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
7-1
7 Electrical Parts List
Loc. No.
C218
C219
C222
C223
C226
C230
C232
C233
C234
C235
C236
C238
C239
C240
C241
C242
C243
C244
C245
C246
C247
C248
C249
C301
C302
C303
C304
C305
C306
C307
C308
C309
C310
C311
C312
C313
C314
C315
C316
C317
C318
C319
C320
C321
C322
C323
C324
7-2
Code No.
2203-000257
2402-000176
2203-000257
2402-000176
2203-005005
2203-005005
2203-001607
2203-000998
2203-001607
2203-005005
2203-001607
2203-001607
2203-000998
2203-001607
2203-001607
2203-001607
2402-000176
2203-001607
2402-000176
2203-000257
2203-000257
2402-000176
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
Description
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
Specification
Remarks
“10nF,10%,50V,X7R,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“10nF,10%,50V,X7R,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“0.22nF,5%,50V,NP0,TP,1608”
“0.047nF,5%,50V,NP0,TP,1608”
“0.22nF,5%,50V,NP0,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“0.22nF,5%,50V,NP0,TP,1608”
“0.22nF,5%,50V,NP0,TP,1608”
“0.047nF,5%,50V,NP0,TP,1608”
“0.22nF,5%,50V,NP0,TP,1608”
“0.22nF,5%,50V,NP0,TP,1608”
“0.22nF,5%,50V,NP0,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“0.22nF,5%,50V,NP0,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“10nF,10%,50V,X7R,TP,1608”
“10nF,10%,50V,X7R,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
SyncMaster 800TFT
7 Electrical Parts List
Loc. No.
C325
C326
C327
C328
C329
C330
C332
C333
C334
C335
C354
C355
C356
C357
C401
C402
C403
C404
C405
C406
C407
C408
C409
C410
C411
C412
C413
C414
C415
C416
C417
C418
C419
C420
C421
C422
C424
C425
C426
C427
C428
C429
C430
C431
C432
C433
C434
Code No.
2203-005005
2203-005005
2203-000257
2203-005221
2203-005221
2203-005221
2203-005005
2402-000176
2402-000176
2402-000176
2203-000384
2203-000384
2203-000384
2203-000257
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2402-000176
2203-000384
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2402-000176
2203-005005
2203-000280
2402-000176
2203-005005
2203-005005
2203-005005
SyncMaster 800TFT
Description
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-AL,SMD”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
Specification
Remarks
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“10nF,10%,50V,X7R,TP,1608”
“15nF,10%,50V,X7R,TP,1608,-”
“15nF,10%,50V,X7R,TP,1608,-”
“15nF,10%,50V,X7R,TP,1608,-”
“100nF,10%,16V,X7R,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“0.015nF,5%,50V,NP0,TP,1608”
“0.015nF,5%,50V,NP0,TP,1608”
“0.015nF,5%,50V,NP0,TP,1608”
“10nF,10%,50V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“0.015nF,5%,50V,NP0,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“100nF,10%,16V,X7R,TP,1608”
“0.01nF,0.5pF,50V,NP0,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
7-3
7 Electrical Parts List
Loc. No.
C436
C437
C438
C439
C440
C441
C442
C443
C444
C445
C446
C448
C449
C450
C451
C452
C453
C454
C455
C456
C457
C458
C459
C460
C461
C501
C502
C503
C504
C506
C507
C508
C509
C510
C511
C512
C513
C514
C515
C516
C517
C603
C604
C605
C606
C607
C608
7-4
Code No.
2203-000280
2203-000280
2203-000280
2203-000280
2203-005005
2402-000176
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-005005
2203-000626
2402-000176
2203-000626
2203-005005
2203-005005
2402-000176
2203-005005
2402-001042
2203-005005
2203-005005
2203-000280
2203-000257
2203-000257
2402-000176
2402-000176
2203-000626
2203-000626
2402-000176
2203-000257
2203-000236
2203-000236
2203-000257
2402-000176
2203-005005
2402-001042
2203-000491
2402-000176
2402-000176
2402-000176
2402-000176
2402-000176
2203-000257
2203-000257
Description
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-AL,SMD”
“C-AL,SMD”
“C-AL,SMD”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
Specification
Remarks
“0.01nF,0.5pF,50V,NP0,TP,1608”
“0.01nF,0.5pF,50V,NP0,TP,1608”
“0.01nF,0.5pF,50V,NP0,TP,1608”
“0.01nF,0.5pF,50V,NP0,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“0.022nF,5%,50V,NP0,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“0.022nF,5%,50V,NP0,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“100nF,10%,16V,X7R,TP,1608”
“100uF,20%,16V,GP,TP,6.6x6.6x5.”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“0.01nF,0.5pF,50V,NP0,TP,1608”
“10nF,10%,50V,X7R,TP,1608”
“10nF,10%,50V,X7R,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“0.022nF,5%,50V,NP0,TP,1608”
“0.022nF,5%,50V,NP0,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“10nF,10%,50V,X7R,TP,1608”
“0.1nF,5%,50V,NP0,TP,1608”
“0.1nF,5%,50V,NP0,TP,1608”
“10nF,10%,50V,X7R,TP,1608”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“100nF,10%,16V,X7R,TP,1608”
“100uF,20%,16V,GP,TP,6.6x6.6x5.”
“2.2nF,10%,50V,X7R,TP,1608,-”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“10nF,10%,50V,X7R,TP,1608”
“10nF,10%,50V,X7R,TP,1608”
SyncMaster 800TFT
7 Electrical Parts List
Loc. No.
C609
C610
C611
C612
C613
C620
C621
C622
C625
C626
C631
C632
C633
C634
C635
C636
C637
C638
C639
C640
C641
C642
CA300
CA301
CA302
CA303
CA304
CA305
CA306
CA307
CA308
CA309
CA310
CA311
CA401
CA402
CA403
CA404
CA405
CA406
CA407
CA408
CA409
CA410
CA411
CA412
CIS
Code No.
2203-000257
2203-000257
2203-000257
2203-000257
2203-000260
2402-000176
2402-000176
2402-000176
2402-001042
2203-005005
2203-005005
2203-005005
2203-000455
2203-000455
2203-005005
2203-000455
2203-000455
2203-000455
2203-005005
2203-000455
2203-005005
2203-005005
2503-001018
2503-001018
2503-001018
2503-001018
2503-001018
2503-001018
2503-001018
2503-001018
2503-001018
2503-001018
2503-001018
2503-001018
2503-001018
2503-001018
2503-001018
2503-001018
2503-001018
2503-001018
2503-001018
2503-001018
2503-001018
2503-001018
2503-001018
2503-001018
BN46-00004Q
SyncMaster 800TFT
Description
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-AL,SMD”
“C-AL,SMD”
“C-AL,SMD”
“C-AL,SMD”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
“C-CERAMIC,CHIP”
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
C-NETWORK
“MICOM-S/W,DV18M(TSB)”
Specification
Remarks
“10nF,10%,50V,X7R,TP,1608”
“10nF,10%,50V,X7R,TP,1608”
“10nF,10%,50V,X7R,TP,1608”
“10nF,10%,50V,X7R,TP,1608”
“10nF,10%,50V,X7R,TP,2012”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“10uF,20%,16V,GP,TP,4.3x4.3x5.4”
“100uF,20%,16V,GP,TP,6.6x6.6x5.”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“1nF,5%,50V,NP0,TP,2012”
“1nF,5%,50V,NP0,TP,2012”
“100nF,10%,16V,X7R,TP,1608”
“1nF,5%,50V,NP0,TP,2012”
“1nF,5%,50V,NP0,TP,2012”
“1nF,5%,50V,NP0,TP,2012”
“100nF,10%,16V,X7R,TP,1608”
“1nF,5%,50V,NP0,TP,2012”
“100nF,10%,16V,X7R,TP,1608”
“100nF,10%,16V,X7R,TP,1608”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“15PFX4,10%,50V,-”
“DV18M(TSB),-,-”
7-5
7 Electrical Parts List
Loc. No.
CN102
CN301
D101
D102
D103
D104
D201
D202
D203
D204
D205
D206
D207
D208
D209
D211
D212
D213
D214
D215
D216
D3
D501
FT101
FT102
FT103
FT108
FT109
FT110
FT111
FT112
FT141
FT142
FT143
FT144
FT145
FT146
FT202
FT203
FT204
FT205
FT206
FT301
FT302
FT307
FT401
FT402
7-6
Code No.
3711-002050
3711-004070
0402-001098
0402-001098
0401-001056
0401-001056
0401-001056
0401-001056
0401-001056
0401-001056
0401-001056
0401-001056
0401-001056
0401-001056
0401-001056
0401-001056
0401-001056
0401-001056
0401-001056
0401-001056
0401-001056
0401-001056
0403-000579
3301-001145
3301-001145
3301-001145
3301-001145
3301-001145
3301-001145
3301-001145
3301-001145
3301-001278
3301-001278
3301-001278
3301-001278
3301-001319
3301-001319
2901-001114
2901-001114
2901-001114
2901-001114
2901-001114
2703-001070
2703-001070
2901-001133
2901-001114
2901-001114
Description
CONNECTOR-HEADER
CONNECTOR-HEADER
DIODE-RECTIFIER
DIODE-RECTIFIER
DIODE-SWITCHING
DIODE-SWITCHING
DIODE-SWITCHING
DIODE-SWITCHING
DIODE-SWITCHING
DIODE-SWITCHING
DIODE-SWITCHING
DIODE-SWITCHING
DIODE-SWITCHING
DIODE-SWITCHING
DIODE-SWITCHING
DIODE-SWITCHING
DIODE-SWITCHING
DIODE-SWITCHING
DIODE-SWITCHING
DIODE-SWITCHING
DIODE-SWITCHING
DIODE-SWITCHING
DIODE-ZENER
CORE-FERRITE BEAD
CORE-FERRITE BEAD
CORE-FERRITE BEAD
CORE-FERRITE BEAD
CORE-FERRITE BEAD
CORE-FERRITE BEAD
CORE-FERRITE BEAD
CORE-FERRITE BEAD
CORE-FERRITE BEAD
CORE-FERRITE BEAD
CORE-FERRITE BEAD
CORE-FERRITE BEAD
CORE-FERRITE BEAD
CORE-FERRITE BEAD
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
INDUCTOR-SMD
INDUCTOR-SMD
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
Specification
Remarks
“BOX,10P,1R,1.25mm,SMD-A,SN”
“BOX,30P,1R,1.25mm,SMD-A,SN”
“SK34,40V,3.0A,SMC,TP”
“SK34,40V,3.0A,SMC,TP”
“MMBD4148SE,75V,600mA,SOT-23,TP”
“MMBD4148SE,75V,600mA,SOT-23,TP”
“MMBD4148SE,75V,600mA,SOT-23,TP”
“MMBD4148SE,75V,600mA,SOT-23,TP”
“MMBD4148SE,75V,600mA,SOT-23,TP”
“MMBD4148SE,75V,600mA,SOT-23,TP”
“MMBD4148SE,75V,600mA,SOT-23,TP”
“MMBD4148SE,75V,600mA,SOT-23,TP”
“MMBD4148SE,75V,600mA,SOT-23,TP”
“MMBD4148SE,75V,600mA,SOT-23,TP”
“MMBD4148SE,75V,600mA,SOT-23,TP”
“MMBD4148SE,75V,600mA,SOT-23,TP”
“MMBD4148SE,75V,600mA,SOT-23,TP”
“MMBD4148SE,75V,600mA,SOT-23,TP”
“MMBD4148SE,75V,600mA,SOT-23,TP”
“MMBD4148SE,75V,600mA,SOT-23,TP”
“MMBD4148SE,75V,600mA,SOT-23,TP”
“MMBD4148SE,75V,600mA,SOT-23,TP”
“BZX84C5V1,5.1V,5%,200mW,SOT-23”
“AB,4.5x1.6x1.6mm,-,-”
“AB,4.5x1.6x1.6mm,-,-”
“AB,4.5x1.6x1.6mm,-,-”
“AB,4.5x1.6x1.6mm,-,-”
“AB,4.5x1.6x1.6mm,-,-”
“AB,4.5x1.6x1.6mm,-,-”
“AB,4.5x1.6x1.6mm,-,-”
“AB,4.5x1.6x1.6mm,-,-”
“AB,120ohm,1.6x0.8x0.8mm,200mA,TP,-,0.12ohm”
“AB,120ohm,1.6x0.8x0.8mm,200mA,TP,-,0.12ohm”
“AB,120ohm,1.6x0.8x0.8mm,200mA,TP,-,0.12ohm”
“AB,120ohm,1.6x0.8x0.8mm,200mA,TP,-,0.12ohm”
“AB,300ohm,16x0.8x0.8mm,200mA,TP,-,0.3ohm”
“AB,300ohm,16x0.8x0.8mm,200mA,TP,-,0.3ohm”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“100uH,10%,4.5x3.2x3.2mm”
“100uH,10%,4.5x3.2x3.2mm”
“25V,0.15A,-,33pF,2x1.25x0.8mm,TP”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
SyncMaster 800TFT
7 Electrical Parts List
Loc. No.
FT403
FT404
FT406
FT407
FT408
FT410
FT411
FT412
FT43
FT501
FT502
FT503
FT601
FT602
FT603
FT604
FT605
FT606
FT627
IC101
IC102
IC13
IC201
IC204
IC205
IC206
IC207
IC208
IC209
IC300
IC401
IC402
IC403
IC404
IC405
IC406
IC501
IC501_SOCK
IC502
IC503
IC504
IC600
IC601
L101
L102
L103
L104
Code No.
2901-001114
2901-001114
2901-001114
2901-001114
2901-001114
2901-001114
2901-001114
2901-001133
2901-001114
2901-001114
2901-001114
2901-001114
2901-001114
2901-001114
2901-001114
2901-001114
2901-001114
2901-001114
2901-001114
1203-001448
1203-001447
1203-001801
1001-001082
0803-000106
0803-000106
0803-000122
0801-002171
0803-000117
0801-002404
1002-001171
1105-001165
1105-001165
1105-001165
BN09-00001A
0801-002237
1003-001243
0903-001063
3704-001071
1103-001164
1103-001163
1203-001109
1205-001686
1205-001686
2703-001778
2703-001778
2703-001778
BN27-20001C
SyncMaster 800TFT
Description
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
FILTER-EMI SMD
IC-POSI.FIXED REG.
IC-POSI.FIXED REG.
IC-POSI.FIXED REG.
IC-VIDEO SWITCH
IC-TTL
IC-TTL
IC-TTL
IC-CMOS LOGIC
IC-TTL
IC-CMOS LOGIC
IC-A/D CONVERTER
IC-DRAM
IC-DRAM
IC-DRAM
IC-OSD PROCESSOR
IC-CMOS LOGIC
IC-LCD CONTROLLER
IC-MICROCONTROLLER
SOCKET-IC
IC-EEPROM
IC-EEPROM
IC-VOL. DETECTOR
IC-TRANSMITTER
IC-TRANSMITTER
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
COIL-SMD
Specification
Remarks
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25V,0.15A,-,33pF,2x1.25x0.8mm,TP”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“2596,TO-263,5P,-,PLASTIC,4.750”
“2596,TO-263,5P,-,PLASTIC,3.135”
“3300,SOT-23,6P,70MIL,PLASTIC,3.3V,-,-55TO+125C,50MA,-,TP”
“BA7657F,-,SOP,24P,300MIL,SINGL”
“74F132,TRIGGER,SOP,14P,150MIL,”
“74F132,TRIGGER,SOP,14P,150MIL,”
“74F125,BUFFER,SOP,14P,150MIL,Q”
“74LCX125,BUS BUFFER,SOP,14P,15”
“74F14,INVERTER,SOP,14P,150MIL,”
“74VHC4066,ANALOG SWITCH,SOP,14”
“AD9884,8BIT,QFP,128P,-,1/2LSB,TR,CMOS,PLASTIC,4V,0TO+85C,730MW,-”
“416S1020,512Kx16BITx2,TSOP,50P”
“416S1020,512Kx16BITx2,TSOP,50P”
“416S1020,512Kx16BITx2,TSOP,50P”
“LCD,MTV121P-31,16P,-”
“74HC04,INVERTER GATE,SOP,5P,49”
“MX88L282FC,QFP,256P,1102MIL,DUAL,-,TR,PLASTIC,-,0TO+70C,1.5W,-,-”
“72E75,8BIT,DIP,42P,600MIL,24MH”
“42P,DIP,SN,1.778mm”
“24LC21A,128X8BIT,SOP,8P,150MIL,-,5V,10%,PLASTIC,0 TO +70C,100UA,CMOS,TP”
“24LC041,512X8BIT,SOP,8P,150MIL,10MS,5V,10%,PLASTIC,-25TO+70C,10UA,CMOS,TP”
“7045,SOT-89,3P,-,PLASTIC,4.3/4”
“DS90CF383A,TSSOP,56P,240MIL,PALSTIC,4V,1.63W,-10TO+70C,ST,FPD LINK-65MHZ(LVDS)”
“DS90CF383A,TSSOP,56P,240MIL,PALSTIC,4V,1.63W,-10TO+70C,ST,FPD LINK-65MHZ(LVDS)”
“3.3UH,20%,3.2X2.5X2.2MM”
“3.3UH,20%,3.2X2.5X2.2MM”
“3.3UH,20%,3.2X2.5X2.2MM”
7-7
7 Electrical Parts List
Loc. No.
L105
L107
L108
L109
L110
L111
L112
L113
L114
L115
L116
L117
L119
L120
L121
L122
L123
L124
L125
L126
L127
L129
L201
L202
L203
L204
L205
L206
L207
L401
L402
L603
MP1.0
Q101
Q102
Q103
Q105
Q501
Q502
Q503
R101
R102
R103
R104
R105
R106
R107
7-8
Code No.
Description
2703-001778
BN27-20001A
2703-001778
2703-001334
2703-001334
2703-001778
2703-001334
2703-001334
2703-001334
2703-001334
2703-001334
2703-001334
2703-001334
2703-001334
2703-001778
2703-001334
2703-001334
2703-001334
2703-001334
2703-001334
2703-001070
2703-001070
2703-001070
2703-001334
2703-001334
2703-001334
2703-001334
2703-001334
2703-001334
2703-001778
2703-001778
2703-001778
BN41-00031A
0505-001170
0501-002080
0501-002080
0501-002080
0501-002080
0501-002080
0501-002080
2007-000084
2007-000102
2007-000090
2007-000102
2007-000090
2007-000084
2007-000102
INDUCTOR-SMD
COIL-CHOKE
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
INDUCTOR-SMD
PCB-MAIN
FET-SILICON
TR-SMALL SIGNAL
TR-SMALL SIGNAL
TR-SMALL SIGNAL
TR-SMALL SIGNAL
TR-SMALL SIGNAL
TR-SMALL SIGNAL
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
Specification
Remarks
“3.3UH,20%,3.2X2.5X2.2MM”
“3.3UH,20%,3.2X2.5X2.2MM”
“1.5uH,10%,2x1.25x0.85mm”
“1.5uH,10%,2x1.25x0.85mm”
“3.3UH,20%,3.2X2.5X2.2MM”
“1.5uH,10%,2x1.25x0.85mm”
“1.5uH,10%,2x1.25x0.85mm”
“1.5uH,10%,2x1.25x0.85mm”
“1.5uH,10%,2x1.25x0.85mm”
“1.5uH,10%,2x1.25x0.85mm”
“1.5uH,10%,2x1.25x0.85mm”
“1.5uH,10%,2x1.25x0.85mm”
“1.5uH,10%,2x1.25x0.85mm”
“3.3UH,20%,3.2X2.5X2.2MM”
“1.5uH,10%,2x1.25x0.85mm”
“1.5uH,10%,2x1.25x0.85mm”
“1.5uH,10%,2x1.25x0.85mm”
“1.5uH,10%,2x1.25x0.85mm”
“1.5uH,10%,2x1.25x0.85mm”
“100uH,10%,4.5x3.2x3.2mm”
“100uH,10%,4.5x3.2x3.2mm”
“100uH,10%,4.5x3.2x3.2mm”
“1.5uH,10%,2x1.25x0.85mm”
“1.5uH,10%,2x1.25x0.85mm”
“1.5uH,10%,2x1.25x0.85mm”
“1.5uH,10%,2x1.25x0.85mm”
“1.5uH,10%,2x1.25x0.85mm”
“1.5uH,10%,2x1.25x0.85mm”
“3.3UH,20%,3.2X2.5X2.2MM”
“3.3UH,20%,3.2X2.5X2.2MM”
“3.3UH,20%,3.2X2.5X2.2MM”
“DV18MST,-,-,223*118.9,1.6 T”
“SI9933ADY-T1,P,-20V,3.4A,0.075OHM,2W,SO-8”
“2SC2412K,NPN,200mW,SOT-23,TP,1”
“2SC2412K,NPN,200mW,SOT-23,TP,1”
“2SC2412K,NPN,200mW,SOT-23,TP,1”
“2SC2412K,NPN,200mW,SOT-23,TP,1”
“2SC2412K,NPN,200mW,SOT-23,TP,1”
“2SC2412K,NPN,200mW,SOT-23,TP,1”
“4.7Kohm,5%,1/16W,DA,TP,1608”
“100Kohm,5%,1/16W,DA,TP,1608”
“10Kohm,5%,1/16W,DA,TP,1608”
“100Kohm,5%,1/16W,DA,TP,1608”
“10Kohm,5%,1/16W,DA,TP,1608”
“4.7Kohm,5%,1/16W,DA,TP,1608”
“100Kohm,5%,1/16W,DA,TP,1608”
SyncMaster 800TFT
7 Electrical Parts List
Loc. No.
R108
R201
R202
R203
R204
R205
R206
R207
R208
R209
R211
R212
R214
R215
R216
R217
R218
R219
R227
R229
R233
R234
R237
R238
R240
R241
R242
R247
R249
R250
R255
R256
R257
R258
R259
R260
R261
R263
R265
R301
R302
R303
R304
R305
R306
R307
R310
Code No.
2007-000090
2007-000113
2007-000113
2007-001167
2007-000113
2007-001167
2007-000107
2007-001167
2007-000113
2007-001167
2007-001167
2007-001167
2007-000074
2007-001167
2007-000113
2007-001167
2007-000113
2007-001167
2007-000116
2007-001114
2007-000070
2007-000070
2007-000074
2007-000074
2007-000118
2007-000070
2007-000118
2007-000118
2007-000118
2007-000070
2007-000074
2007-000080
2007-000080
2007-000090
2007-000090
2007-000074
2007-000074
2007-000070
2007-000113
2007-000239
2007-000118
2007-000118
2007-000071
2007-000071
2007-000071
2007-000090
2007-000071
SyncMaster 800TFT
Description
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
Specification
Remarks
“10Kohm,5%,1/16W,DA,TP,1608”
“33ohm,5%,1/16W,DA,TP,1608”
“33ohm,5%,1/16W,DA,TP,1608”
“75ohm,5%,1/16W,DA,TP,1608”
“33ohm,5%,1/16W,DA,TP,1608”
“75ohm,5%,1/16W,DA,TP,1608”
“470Kohm,5%,1/16W,DA,TP,1608”
“75ohm,5%,1/16W,DA,TP,1608”
“33ohm,5%,1/16W,DA,TP,1608”
“75ohm,5%,1/16W,DA,TP,1608”
“75ohm,5%,1/16W,DA,TP,1608”
“75ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“75ohm,5%,1/16W,DA,TP,1608”
“33ohm,5%,1/16W,DA,TP,1608”
“75ohm,5%,1/16W,DA,TP,1608”
“33ohm,5%,1/16W,DA,TP,1608”
“75ohm,5%,1/16W,DA,TP,1608”
“120ohm,5%,1/16W,DA,TP,1608”
“680Kohm,5%,1/16W,DA,TP,1608”
“0ohm,5%,1/16W,DA,TP,1608”
“0ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“390ohm,5%,1/16W,DA,TP,1608”
“0ohm,5%,1/16W,DA,TP,1608”
“390ohm,5%,1/16W,DA,TP,1608”
“390ohm,5%,1/16W,DA,TP,1608”
“390ohm,5%,1/16W,DA,TP,1608”
“0ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“2Kohm,5%,1/16W,DA,TP,1608”
“2Kohm,5%,1/16W,DA,TP,1608”
“10Kohm,5%,1/16W,DA,TP,1608”
“10Kohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“0ohm,5%,1/16W,DA,TP,1608”
“33ohm,5%,1/16W,DA,TP,1608”
“1.5Kohm,1%,1/16W,DA,TP,1608”
“390ohm,5%,1/16W,DA,TP,1608”
“390ohm,5%,1/16W,DA,TP,1608”
“22ohm,5%,1/16W,DA,TP,1608”
“22ohm,5%,1/16W,DA,TP,1608”
“22ohm,5%,1/16W,DA,TP,1608”
“10Kohm,5%,1/16W,DA,TP,1608”
“22ohm,5%,1/16W,DA,TP,1608”
7-9
7 Electrical Parts List
Loc. No.
R311
R312
R313
R316
R317
R343
R401
R402
R403
R404
R405
R406
R407
R408
R409
R410
R411
R412
R413
R414
R415
R416
R417
R418
R419
R421
R422
R427
R430
R501
R502
R503
R504
R505
R506
R507
R508
R509
R510
R511
R512
R513
R514
R515
R516
R517
R518
7-10
Code No.
2007-000071
2007-000080
2007-000080
2007-000090
2007-000090
2007-000090
2007-000074
2007-000090
2007-000074
2007-000071
2007-000084
2007-001002
2007-001002
2007-001002
2007-000084
2007-000084
2007-000071
2007-000084
2007-000084
2007-000084
2007-000074
2007-000074
2007-000074
2007-000074
2007-000071
2007-000109
2007-000074
2007-000071
2007-000070
2007-000090
2007-000074
2007-000074
2007-000074
2007-000074
2007-000074
2007-000074
2007-000074
2007-000074
2007-000084
2007-000084
2007-000084
2007-000084
2007-000078
2007-000074
2007-000074
2007-000074
2007-000084
Description
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
Specification
Remarks
“22ohm,5%,1/16W,DA,TP,1608”
“2Kohm,5%,1/16W,DA,TP,1608”
“2Kohm,5%,1/16W,DA,TP,1608”
“10Kohm,5%,1/16W,DA,TP,1608”
“10Kohm,5%,1/16W,DA,TP,1608”
“10Kohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“10Kohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“22ohm,5%,1/16W,DA,TP,1608”
“4.7Kohm,5%,1/16W,DA,TP,1608”
“510ohm,5%,1/16W,DA,TP,1608”
“510ohm,5%,1/16W,DA,TP,1608”
“510ohm,5%,1/16W,DA,TP,1608”
“4.7Kohm,5%,1/16W,DA,TP,1608”
“4.7Kohm,5%,1/16W,DA,TP,1608”
“22ohm,5%,1/16W,DA,TP,1608”
“4.7Kohm,5%,1/16W,DA,TP,1608”
“4.7Kohm,5%,1/16W,DA,TP,1608”
“4.7Kohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“22ohm,5%,1/16W,DA,TP,1608”
“1Mohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“22ohm,5%,1/16W,DA,TP,1608”
“0ohm,5%,1/16W,DA,TP,1608”
“10Kohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“4.7Kohm,5%,1/16W,DA,TP,1608”
“4.7Kohm,5%,1/16W,DA,TP,1608”
“4.7Kohm,5%,1/16W,DA,TP,1608”
“4.7Kohm,5%,1/16W,DA,TP,1608”
“1Kohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“4.7Kohm,5%,1/16W,DA,TP,1608”
SyncMaster 800TFT
7 Electrical Parts List
Loc. No.
R519
R520
R521
R522
R523
R524
R525
R526
R527
R528
R529
R530
R531
R532
R533
R534
R535
R536
R537
R538
R539
R540
R541
R542
R543
R544
R545
R546
R547
R548
R549
R550
R551
R552
R553
R554
R555
R556
R557
R558
R560
R561
R601
R602
R603
R604
R605
Code No.
2007-000074
2007-000084
2007-000084
2007-000084
2007-000084
2007-000074
2007-000077
2007-000074
2007-000076
2007-000077
2007-000074
2007-000076
2007-000078
2007-000074
2007-000074
2007-000077
2007-000078
2007-000074
2007-000074
2007-000074
2007-000074
2007-000092
2007-000092
2007-000074
2007-000074
2007-000074
2007-000074
2007-000074
2007-000074
2007-000109
2007-000075
2007-000078
2007-000077
2007-000074
2007-000084
2007-000084
2007-000074
2007-000074
2007-000071
2007-000102
2007-000077
2007-000077
2007-000070
2007-000084
2007-000070
2007-000084
2007-000070
SyncMaster 800TFT
Description
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
Specification
Remarks
“100ohm,5%,1/16W,DA,TP,1608”
“4.7Kohm,5%,1/16W,DA,TP,1608”
“4.7Kohm,5%,1/16W,DA,TP,1608”
“4.7Kohm,5%,1/16W,DA,TP,1608”
“4.7Kohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“470ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“330ohm,5%,1/16W,DA,TP,1608”
“470ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“330ohm,5%,1/16W,DA,TP,1608”
“1Kohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“470ohm,5%,1/16W,DA,TP,1608”
“1Kohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“15Kohm,5%,1/16W,DA,TP,1608”
“15Kohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“1Mohm,5%,1/16W,DA,TP,1608”
“220ohm,5%,1/16W,DA,TP,1608”
“1Kohm,5%,1/16W,DA,TP,1608”
“470ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“4.7Kohm,5%,1/16W,DA,TP,1608”
“4.7Kohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“22ohm,5%,1/16W,DA,TP,1608”
“100Kohm,5%,1/16W,DA,TP,1608”
“470ohm,5%,1/16W,DA,TP,1608”
“470ohm,5%,1/16W,DA,TP,1608”
“0ohm,5%,1/16W,DA,TP,1608”
“4.7Kohm,5%,1/16W,DA,TP,1608”
“0ohm,5%,1/16W,DA,TP,1608”
“4.7Kohm,5%,1/16W,DA,TP,1608”
“0ohm,5%,1/16W,DA,TP,1608”
7-11
7 Electrical Parts List
Loc. No.
R606
R607
R609
R610
R611
R612
R613
R614
R615
R616
R617
R618
R619
R620
R621
R622
R623
R624
R625
R626
R627
R628
R630
R631
RA301
RA302
RA303
RA304
RA305
RA306
RA307
RA308
RA309
RA310
RA311
RA312
RA401
RA402
RA403
RA404
RA405
RA406
RA407
RA408
RA409
RA410
RA411
7-12
Code No.
2007-000084
2007-000074
2007-000072
2007-000072
2007-000072
2007-000072
2007-000072
2007-000072
2007-000072
2007-000072
2007-000072
2007-000072
2007-000072
2007-000072
2007-000072
2007-000072
2007-000072
2007-000072
2007-000072
2007-000072
2007-000072
2007-000072
2007-000458
2007-000092
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
Description
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-CHIP
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
Specification
Remarks
“4.7Kohm,5%,1/16W,DA,TP,1608”
“100ohm,5%,1/16W,DA,TP,1608”
“47ohm,5%,1/16W,DA,TP,1608”
“47ohm,5%,1/16W,DA,TP,1608”
“47ohm,5%,1/16W,DA,TP,1608”
“47ohm,5%,1/16W,DA,TP,1608”
“47ohm,5%,1/16W,DA,TP,1608”
“47ohm,5%,1/16W,DA,TP,1608”
“47ohm,5%,1/16W,DA,TP,1608”
“47ohm,5%,1/16W,DA,TP,1608”
“47ohm,5%,1/16W,DA,TP,1608”
“47ohm,5%,1/16W,DA,TP,1608”
“47ohm,5%,1/16W,DA,TP,1608”
“47ohm,5%,1/16W,DA,TP,1608”
“47ohm,5%,1/16W,DA,TP,1608”
“47ohm,5%,1/16W,DA,TP,1608”
“47ohm,5%,1/16W,DA,TP,1608”
“47ohm,5%,1/16W,DA,TP,1608”
“47ohm,5%,1/16W,DA,TP,1608”
“47ohm,5%,1/16W,DA,TP,1608”
“47ohm,5%,1/16W,DA,TP,1608”
“47ohm,5%,1/16W,DA,TP,1608”
“18Kohm,5%,1/16W,DA,TP,1608”
“15Kohm,5%,1/16W,DA,TP,1608”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
SyncMaster 800TFT
7 Electrical Parts List
Loc. No.
RA412
RA413
RA414
RA415
RA416
RA417
RA418
U5
U6
U7
U8
X401
X501
Code No.
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2011-000002
2703-001778
2203-005005
2901-001114
1204-001551
2801-003667
2801-003326
SyncMaster 800TFT
Description
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
R-NETWORK
INDUCTOR-SMD
“C-CERAMIC,CHIP”
FILTER-EMI SMD
IC-VIDEO SYSTEM
CRYSTAL-SMD
CRYSTAL-SMD
Specification
Remarks
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“22ohm,5%,63mW,L,CHIP,8P,TP”
“3.3UH,20%,3.2X2.5X2.2MM”
“100nF,10%,16V,X7R,TP,1608”
“25VDC,2.0ADC,-,100nF,3.2x1.6x1”
“GS1881,SOIC,8P,150MIL,PLASTIC,13.2V,-,0TO+70C,TP,VIDEO SYNC SEPARATOR”
“14.3182MHZ,50PPM,28-AAN,16,50OHM,TP”
“24MHz,30ppm,28-ABX,16pF,50ohm,”
7-13
SyncMaster 800TFT
DC 12V
(Adapter)
13W3
D'SUB
Video2
Video1
DC_DC
H
V
Video
Switch
(IC201)
R
G
B
DC 3.3V
DC 5V
DC 12V
MUX
I2C
I2C
R/G/B
Dot CLK
Data Enable
V_sync
H_sync
B_digital
dVsync
X-tal (24Mhz)
Micro Control Unit
I2C
OSD
(IC404)
User Control
H-Sync
(IC406)
(IC300)
OSD
Signal
Engine
Sync Separator
(U8)
SOG
OSD
Control
Scaling
G_digital
B_digital
G_digital
Pre-AMP/PLL
ADC/
R_digital
SDRAM
(IC401,
IC402,
IC403)
IC601)
(IC600,
LVDS
X-tal 14.3 Mhz
R_digital
dHsync
DCLK
LVDS
signal
(Panel)
LCD
TFT
8 Block Diagram
8-1
8 Block Diagrams
Memo
8-2
SyncMaster 800TFT
GND
IN12V
CN101
IN12V
1
2
3
9 Wiring Diagram
CN201
INVERTER
CN1
12V_BL
12V_BL
12V_BL
GND
GND
GND
BL_CNT
BL_ON
NC
1
2
3
4
5
6
7
8
9
1
2
3
4
5
6
7
8
9
12V_BL
12V_BL
12V_BL
GND
GND
GND
BL_CNT
BL_ON
NC
CN103
CN102
RxEIN0+
RxEIN0-
LVDSGND
30
RxEIN1-
27
28
29
RxEIN2RxEIN1+
26
25
24
RxOCLKIN+
RxOCLKINRxEIN2+
23
RxEIN3-
KEY1
KEY2
LED_G
LED_R
GND
KEY +5V
+5V
GND
13W3_LED
1
2
3
4
5
6
7
8
9
D_SUB_LED 10
22
20
21
RxOIN0RxEIN3+
RxOIN1RxOIN0+
17
18
19
16 RxOIN1+
14 RxOIN2+
15 RxOIN2-
12 RxOCLKIN+
13 RxOCLKIN-
VcontlN
9 DGND
10 RxOIN3+
11 RxOIN3-
8
VDD
VDD
VDD
GND
GND
GND
VSELLVDS
CN301
1
2
3
4
5
6
7
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
RED & R_GND A1
GREEN&G_GND A2
BLUE & B_GND A3
DDC_CLK
1
CN202
DDC_CLK
2
NC
3
GND
4
5
H_SYNC
6
NC
DDC_DATA
7
NC
8
9
V_SYNC
SELF_TEST 10
MAIN PCB
SyncMaster 800TFT
RED
GREEN
BLUE
GND
GND
GND
GND
GND
NC
SELF_TEST
GND
DDC_DATA
H_SYNC
V_SYNC
DDC_CLK
Signal Cable
13W3 CABLE
1
2
3
4
5
6
7
8
9
KEY1
KEY2
LED_G
LED_R
GND
KEY +5V
+5V
GND
13W3_LED
CN2
FUNC PCB
10 D_SUB_LED
9-1
9 Wiring Diagram
Memo
9-2
SyncMaster 800TFT
10 Schematic Diagrams
10-1 Signal input Part Schematic Diagram
5
CH1 RMS = 4.96V
6
CH1 RMS = 4.42V
5
6
10-1
SyncMaster 800TFT
10 Schematic Diagrams
10-2 Scaler Chip Part Schematic Diagram
1
2
11
CH1 RMS = 3.26V
3
CH1 RMS = 3.25V
4
12
13
CH1 RMS = 3.12V
1
2
CH1 RMS = 2.20V
11
12
CH1 RMS = 4.18V
CH1 RMS = 3.26V
3
13
4
SyncMaster 800TFT
CH1 RMS = 3.26V
10-2
10 Schematic Diagrams
10-3 Power input Part & LCD panel interface part Schematic Diagram
10-3
SyncMaster 800TFT
10 Schematic Diagrams
10-4 Micom Part Schematic Diagram
SyncMaster 800TFT
10-4
10 Schematic Diagrams
10-5 A/D converter Part Schematic Diagram
7
CH1 RMS = 3.20V
9
CH1 RMS = 3.20V
8
CH1 RMS = 3.24V
10
CH1 RMS = 3.24V
7
8
9
10
10-5
SyncMaster 800TFT
Samsung Electronics Co., Ltd. May 2000
Printed in Korea
P/N : BN68-00049R-01
6 Exploded View and Parts List
SyncMaster 800TFT
6-1
6 Exploded View & Parts List
6-2
SyncMaster 800TFT
6 Exploded View & Parts List
SyncMaster 800TFT
6-3
6 Exploded View & Parts List
Memo
6-4
SyncMaster 800TFT
10 Schematic Diagrams
10-1 Signal input Part Schematic Diagram
5
CH1 RMS = 4.96V
6
CH1 RMS = 4.42V
5
6
10-1
SyncMaster 800TFT
10 Schematic Diagrams
10-2 Scaler Chip Part Schematic Diagram
1
2
11
CH1 RMS = 3.26V
3
CH1 RMS = 3.25V
4
12
13
CH1 RMS = 3.12V
1
2
CH1 RMS = 2.20V
11
12
CH1 RMS = 4.18V
CH1 RMS = 3.26V
3
13
4
SyncMaster 800TFT
CH1 RMS = 3.26V
10-2
10 Schematic Diagrams
10-3 Power input Part & LCD panel interface part Schematic Diagram
10-3
SyncMaster 800TFT
10 Schematic Diagrams
10-4 Micom Part Schematic Diagram
SyncMaster 800TFT
10-4
10 Schematic Diagrams
10-5 A/D converter Part Schematic Diagram
7
CH1 RMS = 3.20V
9
CH1 RMS = 3.20V
8
CH1 RMS = 3.24V
10
CH1 RMS = 3.24V
7
8
9
10
10-5
SyncMaster 800TFT
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