Download Sierra Wireless SyncMaster 800TFT User's Manual
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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