Philips 170b Service Manual download (Page 5 of 92)

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Page 5 of 92

170B LCD

Connection to PC

Please follow the steps to connect your LCD Monitor to PC.

1. To remove the back cover, Press up to disengage the clips on each

side, then pull and lift.

2. Remove the plastic ring from the hinge.

3. Plug in the video cable into VGA or DVI-D connector.

4. Cover the cables with the plastic ring and put the ring back on the

hinge

NOTE: If you use an Apple Macintosh™, you need to connect the

special Mac adapter to one end of the monitor signal cable.

5. Replace the back cover on the monitor.

6. Connect to Your PC.

6.1 Turn off your computer and unplug its power cable.

6.2 Connect the monitor signal cable to the video connector on the back

of your computer.

6.3 Plug the power cord of your computer and your monitor into a

nearby outlet.

6.4 Turn on your computer and monitor. If the monitor displays an

image, installation is complete.

Go to cover page

Forward

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This manual is suitable for devices

Philips 170b

17” TFT LCD Colour Monitor DVI-D & D-SUB Dual Input/Plug & Play 170B1A/00(ADT panel) Auto Picture Adjustment/Wide Viewing Angle TABLE OF CONTENTS Horizontal frequencies 30 - 82 kHz Description Page Description Page Important Safety Notice..................................2 Repair Flow Chart...........................................32~34 Technical Data & Power Management ............3~4 Repair tips .....................................................35 Connection to PC...........................................5 Colour Adjustment..........................................36~42 Installation & Accessories...............................6 PCBA Architecture..........................................43 Description of Controls...................................7 Power Distribution Flow...................................44 Advanced Control of OSD...............................8 Block Diagram & Control Panel C.B.A...............45 Clock & Phase Adjustments............................9 AC Adapter Schematic Diagram and C.B.A.......46 OSD Menu Control Level Structure.................10~11 DC Converter & Video in Schematic Diagram....47 OSD Attention Signal.....................................12 RGB Digitizer Diagram and Waveforms.............48 Troubleshooting............................................13 Scaling Schematic Diagram and Waveforms......49 Failure Mode of LCD Panel.............................14 MCU Schematic Diagram and Waveforms..........50 USB Connection & USB Hub Installation.........15 Frame buffer and Power Saving Diagram...........51 Flat Panel Adjust (FP Adjust)......................... 16 Inverter & Control Panel Schematic Diagram.....52 Definition Of Pixel Defects..............................17 TMDS Receiver and Main Panel C.B.A ..............53 Wiring Diagram..............................................18 TTL to LVDS Schematic Diagram.......................54 Mechanical Instructions..................................19~21 Exploded View..................................................55 Electrical Instructions.....................................22~23 Recommended Parts List..................................56 Factory Adjustment........................................24 Spare Parts List................................................57~62 Safety test Requirements...............................25 General Product Specification...........................63~85 DDC Instructions............................................26~29 Inverter Panel C.B.A.........................................86 DDC Data.......................................................30~31 Spare Parts List for Inverter...............................87 ANY PERSON ATTEMPTING TO SERVICE THIS CHASSIS MUST FAMILIARIZE HIMSELF WITH THE CHASSIS AND BE AWARE OF THE NECESSARY SAFETY PRECAUTIONS TO BE USED WHEN SERVICING ELECTRONIC EQUIPMENT CONTAINING HIGH VOLTAGES. CAUTION: USE A SEPARATE ISOLATION TRANSFORMER FOR THIS UNIT WHEN SERVICING. REFER TO BACK COVER FOR IMPORTANT SAFETY GUIDELINES Published by BCU Monitor Printed in Taiwan © Copyright reserved Subject to modification August 4, 2000 3138 106 10106 2 170B LCD Important Safety Notice Go to cover page Proper service and repair is important to the safe, reliable FOR PRODUCTS CONTAINING LASER : operation of all Philips Consumer Electronics Company** Equipment. The service procedures recommended by DANGER- Invisible laser radiation when open. Philips and described in this service manual are effective AVOID DIRECT EXPOSURE TO BEAM. methods of performing service operations. Some of these service operations require the use of tools specially designed CAUTION- Use of controls or adjustments or for the purpose. The special tools should be used when and performance of procedures other than as recommended. those specified herein may result in hazardous radiation exposure. It is important to note that this manual contains various CAUTIONS and NOTICES which should be carefully read in CAUTION- The use of optical instruments with this order to minimize the risk of personal injury to service product will increase eye hazard. personnel. The possibility exists that improper service methods may damage the equipment. It is also important to TO ENSURE THE CONTINUED RELIABILITY OF THIS understand that these CAUTIONS and NOTICES ARE NOT PRODUCT, USE ONLY ORIGINAL MANUFACTURER'S EXHAUSTIVE. Philips could not possibly know, evaluate and REPLACEMENT PARTS, WHICH ARE LISTED WITH THEIR advise the service trade of all conceivable ways in which PART NUMBERS IN THE PARTS LIST SECTION OF THIS service might be done or of the possible hazardous SERVICE MANUAL. consequences of each way. Consequently, Philips has not undertaken any such broad evaluation. Accordingly, a Take care during handling the LCD module with backlight servicer who uses a service procedure or tool which is not unit recommended by Philips must first satisfy himself thoroughly that neither his safety nor the safe operation of the equipment - Must mount the module using mounting holes arranged in four will be jeopardized by the service method selected. corners. * * Hereafter throughout this manual, Philips Consumer - Do not press on the panel, edge of the frame strongly or electric Electronics Company will be referred to as Philips. shock as this will result in damage to the screen. WARNING - Do not scratch or press on the panel with any sharp objects, such as pencil or pen as this may result in damage to the panel. Critical components having special safety characteristics are identified with a by the Ref. No. in the parts list and - Protect the module from the ESD as it may damage the electronic enclosed within a broken line* circuit (C-MOS). (where several critical components are grouped in one area) along with the safety symbol on the schematics or - Make certain that treatment person’s body are grounded through exploded views. wrist band. Use of substitute replacement parts which do not have the - Do not leave the module in high temperature and in areas of high same specified safety characteristics may create shock, fire, humidity for a long time. or other hazards. - Avoid contact with water as it may a short circuit within the module. - If the surface of panel become dirty, please wipe it off with a soft material. (Cleaning with a dirty or rough cloth may damage the panel.) Under no circumstances should the original design be modified or altered without written permission from Philips. Philips assumes no liability, express or implied, arising out of any unauthorized modification of design. Servicer assumes all liability. * Broken Line Back Forward Technical Data 170B LCD 3 Go to cover page Technical Specifications Pin Assignment D-Sub connector LCD Panel : ADT Active matrix - TFT LCD 1 5 Screen type : 17 inches (diagnoal) Screen dimensions 6 10 Preset display area : 337 mm : 270 mm 11 15 Horizontal : 0.26 x 0.26 mm Vertical : 135 (vertical) Pin No. Assignment Pixel pitch : 160 (horizontal) 1 Red video input Viewing angle : 250 CD/m2 2 Green video input / Sync On Green : 400 typical 3 Blue video input Luminance output : Anti-glare with hard coating 3H 4 Sense (ground) Contrast ratio : CCFL edge light system 5 No connected Faceplate coating 6 Red video ground Backlight 7 Green video ground 8 Blue video ground Resolution : 30 kHz to 82 kHz (automatic) 9 Not connected Horizontal scan range : 56 Hz to 76 Hz (automatic) 10 Logic (Sync) ground Vertical scan range : 1280 x 1024 at 60 Hz 11 Sense (ground) Optimal preset resolution : 1280 x 1024 at 75 Hz 12 Bi-directional data (SDA of DDC) Highest preset resolution 13 H / H+V Sync 14 V. Sync (VCLK of DDC) Electrical : Analog,0.7Vpp, positive at 75 ohms 15 Data clock (SCL of DDC) Video input signals : Separate horizontal and vertical / Synchronization input signals composite ;TTL level, positive or negative, Sync On Green AC input voltage / frequency : 90 to 264 VAC / 50 or 60 Hz 3 Hz Physical Characteristics : DVI-D, 15-pin D-subminiature DVI-D connector Connector type (Digital Visual Interface - Digital) Signal cable type : Detachable 1 8 9 16 24 Tilt and swivel angle of pedestal 17 Tilt angle of forward : 0 degree Tilt angle of backward : 30 degree Swivel angle of left : 40 degree Pin No. 24-Pin Side of the Signal Cable 1 TMDS Data 2- Swivel angle of right : 40 degree 2 TMDS Data 2+ 3 TMDS Data 2/4 Shield Dimensions : 452 mm 4 TMDS Data 4- Height : 180 mm 5 TMDS Data 4+ Depth : 454 mm 6 DDC Clock Width : 7.2 kg 7 DDC Data 8 No connection Weight (monitor only) 9 TMDS Data 1- 10 TMDS Data 1+ Temperature : 5 C to 35 C (41 F to 95 F) 11 TMDS Data 1/3 Shield Operating : -20 C to 60 C (-43 F to 140 F) 12 TMDS Data 3- Non-operating 13 TMDS Data 3+ : 80% max. (non-condensing) 14 +5V Power Humidity : 95% max. (non-dondensing) 15 Ground (+5) Operating 16 Hot Plug Detect Non-operating : 3,658 m 17 TMDS Data 0- : 12,192 m 18 TMDS Data 0+ Altitude 19 TMDS Data 0/5 Shield Operating 20 TMDS Data 5- Non-operating 21 TMDS Data 5+ 22 TMDS Clock Shield 23 TMDS Clock+ 24 TMDS Clock- Back Forward 4 170B LCD Technical Data Go to cover page Data Storage This monitor is Environmental Protection Agency (EPA) Energy Star compliant and TCO'99 power management compatible. Factory preset mode: *Zero power consumption in OFF mode can only be achieved by This monitor has 16 factory-preset modes as indicated in the disconnecting the mains cable from the monitor. following table : ENERGY STAR R is a U.S. registered mark. AS AN ENERGY STAR # Resolution Frequency Pixel rate Sync Comment PARTNER, PHILIPS HAS DETERMINED THAT THIS PRODUCT MEETS THE ENERGY STAR GUIDELINES FOR ENERGY 1 640X350 31.5K/70HZ 25.175 (+/-) IBM VGA 10h EFFICIENCY. 2 720X400 31.5K/70HZ 28.322 (-/+) IBM VGA 3h 3 640X480 37.5K/75HZ 31.501 (-/-) 4 640X480 43.3K/85HZ 36 (-/-) 5 640X480 37.9K/72HZ 31.5 (-/-) 6 640X480 35.0K/67HZ 30.24 (-/-) 7 640X480 31.5K/60HZ 25.175 (-/-) 8 800X600 35.2K/56HZ 36 (+/+) 9 800X600 46.9K/75HZ 49.498 (+/+) 10 800X600 37.9K/60HZ 40 (+/+) 11 800X600 53.7K/85HZ 56.251 (+/+) 12 832X624 49.7K/75HZ 57.28 (+/+) MAC 13 800X600 48.1K/72HZ 50 (+/+) 14 1024X768 60.0K/75HZ 78.75 (+/+) 15 1024X768 48.4K/60HZ 65 (-/-) 16 1024X768 56.5K/70HZ 75 (-/-) 17 1024X768 61.1K/76HZ 83.096 (+/+) IBM XGA-2 18 1024X768 68.7K/85HZ 94.5 (+/+) 19 1152X864 67.5K/75HZ 108 (+/+) 20 1152X864 63.9K/70HZ 94.5 (+/+) non-VESA 21 1152X864 54.0K/60HZ 79.9 (+/+) non-VESA 22 1152X870 68.7K/75HZ 100 (-/-) MAC 23 1152X900 61.8K/66HZ 92.94 serr- SUN Mode IV 24 1152X900 71.8K/76HZ 108 (+/+) SUN Mode II 25 1280X960 60.0K/60HZ 108 (+/+) 26 1280X960 75.0K/75HZ 129.895 (+/+) non-VESA 27 1280X1024 76.0K/72HZ 130.223 (+/+) DOS/V 28 1280X1024 64.0K/60HZ 108 (+/+) 29 1280X1024 80.0K/75HZ 135 (+/+) 30 1280X1024 81.1K/76HZ 135.008 (-/-) SUN Mode I 31 1280X1024 71.7K/67HZ 117 (+/+) SUN Mode V 32 688X556 31.3K/50HZ 27 (-/+) TV-PAL Meanwhile, it also reverse 16 sets data space available for user storage new timings data. Automatic Power Saving If you have VESA's DPMS compliance display card or software installed in your PC, the monitor can automatically reduce power consumption when power saving function active. And if an input from keyboard, mouse or other input devices is detected, the monitor will automatically "wake up". The following table shows the power consumption and signaling of this automatic power saving feature : Power Management Definition VESA's mode VIDEO H-SYNC V-SYNC POWER POWER LED USED SAVING( % ) COLOR ON Active Yes Yes < 42 W 0 % Green 83.3 % Amber Stand-by Blanked No Yes < 3 W 83.3 % Amber Suspend Blanked Yes No < 3 W 90 % Amber OFF Blanked No No < 3 W Back Forward Connection to PC 170B LCD 5 Go to cover page Please follow the steps to connect your LCD Monitor to PC. NOTE: If you use an Apple Macintosh™, you need to connect the special Mac adapter to one end of the monitor signal cable. 1. To remove the back cover, Press up to disengage the clips on each side, then pull and lift. 5. Replace the back cover on the monitor. 2. Remove the plastic ring from the hinge. 3. Plug in the video cable into VGA or DVI-D connector. 6. Connect to Your PC. 6.1 Turn off your computer and unplug its power cable. 6.2 Connect the monitor signal cable to the video connector on the back of your computer. 6.3 Plug the power cord of your computer and your monitor into a nearby outlet. 6.4 Turn on your computer and monitor. If the monitor displays an image, installation is complete. 4. Cover the cables with the plastic ring and put the ring back on the hinge Back Forward 6 170B LCD Installation & Accessories Go to cover page Installation Locations Pedestal Avoid Heat and Extreme Cold With the built-in pedestal, you can tilt or swivel the monitor for the most comfortable viewing angle. 1. Do not store or use the LCD monitor in locations exposed to heat, direct sunlight, or extreme cold. 0 30 2. Avoid moving the LCD monitor between locations with large 40 40 temperature differences. Choose a site falling within the following temperature and humidity ranges. Temperature: 5-35 C 41-95 F Humidity: 20-80% RH 3. Do not subject the LCD monitor to severe vibration or high impact conditions. Do not place the LCD monitor inside a car trunk. 4. Take care not to mishandle this product by either knocking or dropping during operation or transportation. 5. Do not store or use the LCD monitor in locations exposed to high humidity or a dusty environment. Also do not allow water or other liquids to spill on or into the LCD monitor Correct handling of the monitor Accessory Pack 1. When handling the monitor, grip the bottom firmly with both hands 1. Power Cable (socket may differ for different countries) and ensure that the front panel faces outward before lifting. Please 2. Macintosh Adapter (optional) refer to the diagram on the right. 3. VGA Signal Cable (Analog D-Sub type) 4. E-DFU package with Quick Setup Guide, Using Your Monitor Manual, 2. Handling the monitor with care prevents scratching and damage. If the monitor becomes damaged, immediately disconnect the power and CD-ROM. from the unit and have it checked by a qualified service person before using it again. 3. To prevent fire or electrical shock, do not drop the monitor. 4. When moving the monitor, be sure to unplug all power cords in order to avoid injury or damage to the equipment. Back Forward Description of Controls 170B LCD 7 Go to cover page FRONT VIEW Power Button - Turns the monitor On or Off. LED - Light Emitting Diode turns green when the monitor is on. AUTO Adjust Button- Brightness/Function Selection Button - Press this button for Direct adjust brightness or select functions when optimal picture display. adjustment. Clock,Phase.Vertical position and Horizontal position are adjusted automatically. OSD Control Button - OSD controls when On Screen Display adjustment . (OSD) button - Brings up the On Screen REAR VIEW Display and helps you navigate through it. USB Bay - Slot for plugging in USB Hub. Optional hardware that allows true Plug- and-Play. Power Plug - Plug the AC power cord in here. DC power cord Digital DVI - D Back Analog D-SUB cable USB Bay Forward 8 170B LCD Advanced control of OSD Go to cover page Front control panel Recover attention signals by pressing button for more than 10 seconds without video signal input. ATTENTION ATTENTION SIGNAL ON To Lock/Unlock OSD function Access Service Mode The OSD function can be locked by pressing button for more than Operating monitor with no signals (power saving mode), keep 10 seconds, the screen shows following windows for 3 seconds. pressing button for more than 10 seconds. Following information Everytime when you press or button, this message appears will appear on the screen. Leave service mode by either re-feed on the screen automatically. The & (brightness) , & video signal or simply turn off and on the power of monitor. (mute) hotkey are still functional for brightness and mute expectively while OSD locked ATTENTION SERVICE MODE OSD MAIN MENU LOCKED SERIAL NO.: TY 123456 HOURS OF OPERATION: 000103 Locked OSD function can be released by pressing button for Access Factory Mode more than 10 seconds. While press button for OSD unlocked To hold and buttons then power on the monitor. Press to bring up OSD menu for confirmation as below: purpose, the screen will keep showing “OSD MAIN MENU LOCKED” until OSD function unlocked and screen automatically shows following window for 3 seconds. ATTENTION OSD MAIN MENU UNLOCK Switch ON/OFF attention signals POGO2 V0.17 2000-05-09 All attention signals can be switched off by keep pressing button for more than 10 seconds if there is no video signal supplied. In the factory mode, once video signal removed, a full white pattern will be display on the screen as Fig.1 in stead of power saving mode. ATTENTION In other words, the power saving function will be disable in the factory mode. ATTENTION SIGNAL OFF NO VIDEO INPUT AGING... Back Fig.1 Leave factory mode by simply power off the monitor. Forward CLOCK & PHASE Adjustments 170B LCD 9 Go to cover page Due to the different quality of video signal generated from graphics Step 3 : Remaining Shut Down Window on the screen , follow cards. It is necessary to adjust CLOCK and PHASE functions for the The CLOCK and PHASE adjustment instructions for the optimal video display of LCD monitor. Following steps will guide you to optimal video display. make correct adjustment of CLOCK and PHASE. Step 4 : Press the button to bring up OSD menu. However, CLOCK and PHASE functions are only available while analog video signal is supplied. Operating unit under digital signal state, the video clock information can be obtained from graphics cards directly. Therefor, it is unnecessary to adjust these functions Auto adjustment hotkey The 170B has build-in a auto adjustment hotkey on the front panel, you Step 5 : Select IMAGE OPTIMIZATION by press button. may obtained a optimal video display by simply press the button and save the settings. CLOCK, PHASE, Vertical position, and Horizontal Step 6 : Press for bring up it’s submenu. position are adjusted automatically. Manual adjustment If the quality of display still poor or flicker, you may also improve it by manual adjust CLOCK and PHASE functions to eliminate the flicker. Step 1 : Click on the Start button (Win95, Win98 or Win NT) and choose " Shut Down...". as shown in Fig.1 Step 7 : Press or to adjust PHASE. The picture will be jitter as following figure, adjust PHASE and check the picture, stop at the point that without any vertical jitter bar remaining on the CLOCK Phenomenon Step 8 : Press or to adjust CLOCK. The picture will be jitter as following figure, adjust CLOCK to fine-ture the video until Fig.1 optimal display is obtained. Step 2 : The menu of " Shut Down Windows " is as shown in Fig. 2 PHASE phenomenon Step 9 : Quit OSD menu by press button to save the settings. Fig. 2 Back Forward 10 170B LCD OSD Control Structure for Analog Go to cover page The OSD Tree for analog video signal Below is an overall view of the structure of the On-Screen Display. You can use this as reference when you want to later on work your way around the different adjustments. First Level Second Level OSD Menu (Analog) Back Forward OSD Control Structure for Digital 170B LCD 11 Go to cover page The OSD Tree for digital video signal (DVI-D) This OSD structure is different from analog menu, there are three functions will be disable on digital OSD menu: Contrast, Image Optimization, and Adjust Color. First Level Second Level OSD Menu (Digital) Back Forward 12 170B LCD OSD Attention signals Go to cover page The monitor will detect various display situation automatically. When ENTERING SLEEP MODE the monitor detects the problems, the screen will show the different This screen appears when the monitor is about to enter the sleep warning signals to remind you what is happen to your monitor. mode. Please press any key on the keyboard or click the mouse to wake up the monitor and computer. NO VIDEO INPUT This screen appears if there is no video signal input. Please check ATTENTION that the signal cable is properly connected to the video card of PC. ATTENTION ENTERING SLEEP MODE NO VIDEO INPUT THIS IS BEST PICTURE SHARP When you expand picture size by using OSD menu “ADJUST VIDEO INPUT SELECTED SIZE/USER SETTINGS”, during the adjustment, Once the pixels This windows appears 3 seconds that show you which video input number of horizontal size has reached 1280 pixels, following has selected by monitor when every time you turn on the monitor. window will appear on the screen that remind you the resolution of video signal was expanded exactly can match the LCD panel ATTENTION (1280X1024). ANALOG VIDEO INPUT SELECTED ATTENTION USE OSD MENU TO CHANGE DEFAULT INPUT SELECTION THIS IS BEST PICTURE SHAPE CANNOT DISPLAY THIS VIDEO MODE.. WAIT FOR AUTOMATIC ADJUSTMENT This screen warns when the input frequency from the computer is not a standard video mode or out of the monitor's scanning range. This screen appears when you touch the button. It will Please change the display mode of the operating software in the computer(i.e. Windows) to 1280 x 1024@ 60Hz for best display disappear when the monitor is properly adjusted. results. ATTENTION ATTENTION WAITING FOR AUTOMATIC CANNOT DISPLAY THIS VIDEO ADJUSTMENT MODE, CHANGE COMPUTER DISPLAY INPUT TO 1280 X1024@60HZ 91.1 KHz 85.0Hz In this case, the picture will still showing on the screen about 60 SECOND VODEO IS NOT AVAILABLE seconds then shut down by monitor. Attention message will When you select video input between Analog or Digital signal via disappear as well after 30 minutes remaining then enter power INPUT SELECTION function of OSD menu, if the one you are saving state. (No picture, power indicator showing amber.) selecting is not available, following message will appear on the screen then switching back to the previous setting automatically. USE 1280 X 1024 FOR BEST RESULT This message appears at the top of the OSD window when the video ATTENTION mode input is not the recommended 1280x1024. Other modes may result in some picture distortion. Please adjust the video mode to SECOND VIDEO 1280x1024 at 60Hz for best display quality. NOT AVAILABLE USE 1280 x 1024 FOR BEST RESULT Back Forward Trouble Shooting 170B LCD 13 Go to cover page TROUBLESHOOTING Horizontal flicker Push the Auto button. appears Eliminate the horizontal bars using the Phase This page presents problems that can be corrected by the user. If the Adjustment in the First Window. problem still exists after these possible solutions, a further action has to be take by authorized technicians. No Picture Make sure the Power cable is plugged to the (Power LED not lit) wall and back of the monitor. Make sure the DC power cord has been attached to the DC jack. The screen is too Adjust the contrast and brightness using the First, power button in front of the monitor bright or too dark First Window. should be in the OFF position, then press it to (The backlight of the LCD monitor has a fixed ON position again. life span. When the screen becomes dark or begins to flicker,please contact your dealer.) No Picture Make sure the computer is turned on. An after-image If an image remains in the screen for an (Power LED is Make sure the signal cable is properly appears extended period of time,it may be imprinted in Amber or Yellow in connected to your computer. the screen and leave an after-image. This color) Check to see if the monitor cable has bent pins. usually disappears after a few hours. The Energy Saving Feature may be activated. Screen says Make sure the monitor cable is properly An after-image This is characteristic of liquid crystal and is connected to your computer. remains after the not caused by a malfunction or deterioration Check to see if the monitor cable has bent pins. power has been of the liquid crystal. The after-image will Make sure the computer is turned on. turned off disappear after a set amount of time. Green, red, The remaining dots are normal blue, dark and charactericstic of the liquid crystal used in white dots today's technology. remain on the The Auto Function is designed for screen use on standard Macintosh or AUTO button not IBM-compatible PC running Microsoft working Windows. properly It may not work properly if using non-standard PCs or video card. Imaging Push the AUTO button. Problems Adjust the image position using the Horizontal Position & / or Vertical Position in the Second Display position Window. is incorrect Image vibrates Check that the signal cable is properly on the screen connected to the graphics board or PC. Vertical flicker Push the AUTO button. appears Eliminate the vertical bars using the Clock Adjustment in the FIRST Window. Back Forward 14 170B LCD Failure Mode of LCD panel Go to cover page Quick reference for failure mode of LCD panel This page presents problems that could be made by LCD panel. It is not necessary to repair circuit board. Simply follow the “Mechanical instruction” on this manual to eliminate failure by replace LCD panel Polarizer has bubbles . or backlight tubes. Failure description Phenomenon Vertical block defect Polarizer has bubbles Vertical dim lines .. Vertical lines defect Foreign material inside (Always bright or dark) polarizer. It shows linear or dot shape. Horizontal block defect Concentric circle formed Bottom back light of LCD is brighter than normal Horizontal dim lines Backlight un-uniformity Horizontal lines defect (Always bright or dark) Backlight has foreign .. material. Black or white color, linear or circular type Has bright or dark pixel Bright pixel Dark pixel Back . . .. . Forward USB Connections & USB Hub installation 170B LCD 15 Go to cover page USB Introduction Application Just a few peripherals you can connect to your USB Hub . USB (Universal Serial Bus ) is an innovation in connecting your IBM- compatible computer to your monitor. By using the optional USB HUB, you will be able to connect optional USB type keyboards, mice, printers, and other peripherals to your monitor instead of having to connect them to your computer. This will give you greater flexibility in setting up your system. Plus, you will have true plug-and-play capability. Description of the USB Hub USB Hub supports four down stream ports and one upstream port. With its 12 Mbps; This USB Hub supplement the full-speed and low-speed PC desktop peripherals with plug-and-play capability and user-friendly interface. 1) Downstream Port #1 2) Downstream Port #2 3) Downstream Port #3 4) Downstream Port #4 5) Upstream Port Installing Your USB Hub System requirements Hardware: A PC which supports the USB function and has a USB connector. Software: Windows system which supports USB (OSR2.1 or higher). Installation of USB Hub 1. Turn off the monitor and unplug the power card. 2. Remove the cover of "USB BAY" at the back of the monitor. 3. Insert USB Hub into the slot. 4. Fix the USB Hub to the monitor by screwing. Forward 5. Do not tighten the fixing nut excessively (use fingers to tighten screws). If screwed too tight, the unit may not connect properly! 6. Plug-in the power cord and turn on the monitor. 7. The two ends of USB cable attached are different. Plug in the square end into the "upstream" connector of the USB Hub. 8. Plug-in the other end into the USB connector of the PC. Back 16 170B LCD Flat Panel Adjust (FP Adjust) Go to cover page Fpadjust program The Flat Panel Adjust (FPadjust) software helps you to find the best setting for your Philips LCD monitor. It allows you to adjust the image performance of LCD monitor, such as RESOLUTION, AUTO ADJUSTMENT, POSITION, CONTRAST, IMAGE OPTIMIZATION. Note: Image optimization function is only available for analog video signals. Install and Run FPadjust In "MS Windows 95/98" environment : For example 1. Insert CD-DFU(3138 117 01953) to your CD-ROM driver. 2. Run "E:\PC\FPADJUST\SETUP.EXE" as Fig. 1. (Replace E by the letter of your CD-ROM driver) E:\PC\FPADJUST\SETUP.EXE Fig. 1 3. Then follow the instructions to install the FPadjust program. When finish, double click FPadjust icon " FPadjust.lnk ", then the description (can be moved by mouse) and background pattern come on the screen for image adjustment. FPadjust program is working as a pattern generator to provide the pattern display on the screen for the adjustment of CONTRAST, CLOCK, PHASE ...etc. Please follow the steps below to adjust your PHILIPS Flat Panel Monitor for best display quality. Back Forward Definition of Pixel Defects 170B LCD 17 Go to cover page 0. General 3. Pixel Defect Tolerances This section explains the different types of pixel defects and In order to qualify for repair or replacement due to pixel defects defines acceptable defect levels of each type. In order to qualify during the warranty period, a TFT LCD panel in a PHILIPS flat for repair or replacement under warranty, the number of pixel panel monitor must have pixel or subpixel defects exceeding the defects on a TFT LCD panel must exceed these acceptable levels. tolerances listed in the following tables. 1. Definition of Pixels and Subpixels A pixel, or picture element , is composed of three subpixels in the primary colors of red, green and blue. Many pixels together from an image. When all subpixels of a pixel are lit, the three colored subpixels together appear as a single white pixel. When all are dark, the three colored subpixels together appear as a single black pixel. Other combinations of lit and dark subpixels appear as single pixels of other colors. Subpixel Subpixel Subpixel Pixel 2. Types of Pixel Defects Pixel and subpixel defects appear on the screen in different ways. Bright dot defects Bright dot defects appear as pixels or subpixels that are always lit or “On”. These are the types of bright dot defects:. One lit red, green or blue subpixel Two adjacent lit subpixels: - Red + Blue = Purple - Red + Green = Yellow - Green + Blue = Cyan (Light Blue) Three adjacent lit subpixels (One white pixel) Black dot defects Black dot defects appear as pixels or subpixels that are always dark or “off”. These are the types of black dot defects: One dark subpixel Two or three adjacent dark subpixels Forward Back Back 18 Go to cover page 170B LCD LCD PANEL MAIN BOARD INVERTER BOARD 1261 1012 1013 1201 1301 1302 Wiring Diagram 1909 1910 CONTROL BOARD Forward Mechanical instructions 170B LCD 19 General Go to cover page To be able to perform measurements and repairs on the circuit boards, Spread a soft mat underneath to avoid damaging the LCD surface. 1. Rear cover removal Step 1 : To remove the back cover, press up to disengage the clips on each side, then pull and lift as shown in Fig.1 Step 2 : Remove plastic ring from the hinge. See Fig. 2 (C) Fig. 4 Fig. 1 Fig. 5 Fig. 2 (D) 2. LCD panel removal and Fluorescent lamp Fig. 6 replacement Step 5 : Remove four screws (E). See Fig.7 Step 6 : Disconnect five connectors (F). See Fig. 8 Step 1 : Remove two screws (A) and unplug 18VDC power Step 7 : Remove two screws (G). Draw out upper and lower lamp connector (B). See Fig. 3 set. See Fig. 9 Step 2 : Remove four screws (C). See Fig. 4 Step 3 : Remove protective cover. See Fig. 5 Step 4 : Remove eight screws (D). See Fig. 6 (B) (A) Fig. 3 (E) Fig.7 Back Forward 20 170B LCD Mechnical instructions Go to cover page 4. Inverter PCB removal Step 1 : Disconnect three connectors (A) and remove screw (B). See Fig. 12 (F) (A) (B) Fig. 8 Fig. 12 Note: The fluorescent lamps are consumable. When replace 5. Disassemble the pedestal the lamps, both upper and lower fluorescent lamps should be Step 1 : Remove two screws ( C). See Fig. 2 replaced in all cases. If only one Step 2 : Disconnect one connector (E), remove two screws (D), lamp is replaced on either side, there can be unevenness in the release three clips (F). See Fig. 3 brightness. (C) (G) Fig. 9 3. Main panel and inverter panel removal Step 1 : Disconnect three connectors (H). See Fig. 10 Step 2 : Remove seven screws (I). See Fig. 10 (H) Fig. 2 Fig. 10 (I) Forward Back Mechanical instructions 170B LCD 21 (F) Go to cover page (E) (D) Fig. 3 Recommended service position Back Forward 22 170B LCD Electrical instructions Go to cover page 0. General FactPoRrEySEpTreVsIDeEtOvRidESeOoLrUeTsIOoNlution When carry-out the electrical settings in many cases a video # Resolution Frequency Pixel rate Sync Comment signal must be applied to the monitor. A computer with : 1 640X350 IBM VGA 10h 2 720X400 31.5K/70HZ 25.175 (+/-) IBM VGA 3h - ATI VGA 1024 V6-1.04/PH BETA4 interface card 3 640X480 - PGA 1024 (4822 212 30916), Mach 8. 4 640X480 31.5K/70HZ 28.322 (-/+) MAC - PGA 1280 (4822 212 30917), Mach 32. 5 640X480 - ATI GPT-1600 (4822 397 10065), Mach 64 (up to 107kHz) 6 640X480 37.5K/75HZ 31.501 (-/-) IBM XGA-2 7 640X480 43.3K/85HZ 36 (-/-) are used as the video signal source. The signal patterns are 8 800X600 37.9K/72HZ non-VESA selected from the "service test software" package, see user 9 800X600 35.0K/67HZ 31.5 (-/-) non-VESA guide 4822 727 31.5K/60HZ 30.24 (-/-) MAC 19896 (ATI1024), or 4822 727 20273 (PGA 1280), or 10 800X600 25.175 (-/-) SUN Mode IV 4822 727 21046 (GPT-1600). 11 800X600 SUN Mode II 12 832X624 35.2K/56HZ 36 (+/+) non-VESA 0.1 With normal VGA card: 13 800X600 46.9K/75HZ 49.498 (+/+) DOS/V If not using the ATI card during repair or alignment, The service 14 1024X768 37.9K/60HZ engineer also can use this service test software adapting with 15 1024X768 40 (+/+) SUN Mode I normal standard VGA adaptor and using standard VGA mode 16 1024X768 SUN Mode V 640 x 480, 31.5 kHz/60 Hz (only) as signal source. 17 1024X768 53.7K/85HZ 56.251 (+/+) TV-PAL 18 1024X768 49.7K/75HZ 57.28 (+/+) 0.2 AC/DC Measurement: 19 1152X864 48.1K/72HZ 50 (+/+) The measurements for AC waveform and DC figure is based on 20 1152X864 640 x 480 31.5 kHz/60 Hz resolution mode with test pattern "gray 21 1152X864 60.0K/75HZ 78.75 (+/+) scale". 22 1152X870 48.4K/60HZ 65 (-/-) 23 1152X900 56.5K/70HZ 75 (-/-) 1.General points 24 1152X900 25 1280X960 61.1K/76HZ 83.096 (+/+) 1.1 During the test and measuring, supply a distortion free AC mains 26 1280X960 68.7K/85HZ 94.5 (+/+) voltage to the apparatus via an isolated transformer with low 27 1280X1024 67.5K/75HZ 108 (+/+) internal resistance. 28 1280X1024 29 1280X1024 63.9K/70HZ 94.5 (+/+) 1.2 All measurements mentioned hereafter are carried out at a 30 1280X1024 54.0K/60HZ 79.9 (+/+) normal mains voltage (90 - 132 VAC for USA version, 195 -264 31 1280X1024 68.7K/75HZ 100 (-/-) VAC for EUROPEAN version, or 90 - 264 VAC for the model with 32 688X556 61.8K/66HZ 92.94 serr- full range power supply, unless otherwise stated.) 71.8K/76HZ 108 (+/+) 60.0K/60HZ 108 (+/+) 1.3 All voltages are to be measurement or applied with respect to 75.0K/75HZ 129.895 (+/+) ground, unless otherwise stated. Note: don't use heat-sink as 76.0K/72HZ 130.223 (+/+) ground. 64.0K/60HZ 108 (+/+) 1.4 The test has to be done on a complete set including LCD panel in a room with temperature of 25 +/- 5 degree C. 80.0K/75HZ 135 (+/+) 1.5 All values mentioned in these test instruction are only applicable 81.1K/76HZ 135.008 (-/-) of a well aligned apparatus, with correct signal. 71.7K/67HZ 117 (+/+) 1.6 The letters symbols (B) and (S) placed behind the test instruction denotes 31.3K/50HZ 27 (-/+) (B): carried out 100% inspection at assembly line (S): carried out test by sampling 3. AC Adaptor 1.7 The white balance (color temperature), has to be tested in 3.1Setup the AC I/P at 90VAC, and Output DC loading at 4 Amp, subdued lighted room. The DC output voltage is 18 1 V DC 1.8 Repetitive power on/off cycle are allowed except it should be 3.2 DC setting avoided within 6 sec. 1003: all on (connect 3.3V,5V DC power to main board) 1005: all on (connect 12V DC power to main board) 2. Input signal 4. Display Adjustment 2.1 Signal type Video : 0.7 Vp-p linear, positive polarity 4.1Input signals check Sync. : TTL level, separate, positive or negative polarity In factory mode, use 64 gray level and set the R,G,B sub gain to Signal source: pattern generator format as attachment. 100%. (table 1 to 16) Reference generator : CHROMA 2200 or 2250 4.2 Display quality test 2.2 Input signal mode Use timing mode as described in 2.2, and use the POPO (pixel on Pre-set 32 modes pixel off) pattern to adjust the clock until no stripe and adjust the phase until clear picture. Check all pre-setting 32 modes. 4.2.1 SOG mode test : Use following timing for SOG test 64 KHz/60Hz, 1280 X 1024, pixel=108 MHz Horizontal Vertical Frame border = 0 Frame border = 0 Total size = 15.620 us Total size = 16.670 ms Display size = 11.852 us Display size = 16.000 ms Rear porch = 2.000 us Rear porch = 0.580 ms Sync width = 1.000 us Sync width = 0.080 ms Sync polarity = - Sync polarity = - Sync on green 4.3 Check of WHITE-D (B) Apply a 80kHz/75Hz signal with white pattern, set brightness control at 70%, and contrast control at 50%. Adjust the R, G, B sub_gain, for the screen center, the 1931 CIE chromaticity (X, Y) co-ordinates shall be; x (center) 9300 K 6500 K y (center) 0.281 0.005 0.312 0.005 0.311 0.005 0.338 0.005 Back Forward Electrical instructions 170B LCD 23 Use Minolta CA-110 for color coordinates and luminance check. Go to cover page Luminance; 200 Nits (ADT panel) in the center of the screen. 4.4 Check the digital interface Set the delay time to be 6 nsec. Check the 64 gray level color poor & noise condition. Back Forward 24 170B LCD Factory Adjustment Go to cover page Factory Mode Adjustment (PS: The “Offset R GPBR”EfSuEnTctVioIDnEcOanREbSeOuLsUeTdIOoNn reduce or eliminate snowy noise on the background when the resolution of video signal is Entering Factory Adjustment Menu 1024 X 768 vertical 60Hz. Slightly increase or decrease the value until snowy noise completely disappear.) Push & buttons then power on the monitor, release them after picture display normally. Press button to bring up OSD menu of factory mode as shown below. POGO2 V0.17 2000-05-09 Use button to select factory adjustment indication (for example: POGO2 V0.17 2000-05-09), which is the entrance of the factory adjustment menu, press button to access it. The window shows as below. POGO2 V0.17 2000-05-09 - AUTO SUB - OK SUB CON 9300K R G B 6500K R G B OFFSET R G B GAIN R G B Use or buttons to select SUB-CON, 9300K R G B,..etc. Use or buttons to decrease/increase the value of each item AUTO : adjust Sub-brightness & Sub-contrast automatically. POGO2 V0.17 2000-05-09 - AUTO SUB - OK SUB CON 166 9300K R 205 G 233 B 255 6500K R 255 G 255 B 149 OFFSET R 22 G 20 B 20 GAIN R G B Contrast adjustment (Sub-Contrast). Use this menu item to adjust the contrast gain of pre-amp ranges from 0 to 255. 9300K R G B 6500K R G B Color temperature gain adjustment. Use these menu items to adjust the RGB gains of pre-amp for different color temperatures, ranges from 0 to 255. OFFSET R G B Sub-Brightness adjustment. Use this menu item to adjust the brightness level (DC-level) of pre-amp range from 0 to 255. Back Forward Safety Test Requirements 170B LCD 25 Go to cover page All units that are returned for service or repair must pass the 3. Equipments and Connection original manufactures safety tests. Safety testing requires both Hipot and Ground Continuity testing. 3.1. Equipments For example : HI-POT TEST INSTRUCTION - ChenHwa 9032 PROGRAMMABLE AUTO SAFETY TESTER 1. Application requirements - ChenHwa 510B Digital Grounding Continuity Tester - ChenHwa 901 (AC Hi-pot test), 902 (AC, DC Hi-pot test) 1.1 All mains operated products must pass the Hi-Pot test as Withstanding Tester described in this instruction. 3.2. Connection 1.2 This test must be performed again after the covers have * Turn on the power switch of monitor before Hipot and been refitted following the repair, inspection or modification Ground Continuity testing. of the product. Clip 2. Test method Clip 2.1 Connecting conditions 2.1.1 The test specified must be applied between the parallel- blade plug of the mainscord and all accessible metal parts of the product. 2.1.2 Before carrying out the test, reliable conductive connections must be ensured and thereafter be maintained throughout the test period. 2.1.3 The mains switch(es) must be in the "ON" position. 2.2 Test Requirements All products should be HiPot and Ground Continuity tested as (ChenHwa 9032 tester) follows: Video cable Condition HiPot Test for HiPot Test for Ground Continuity Connect the "video cable" products where products where Test requirement or "grounding screw" the mains input the mains input is to the CLIP on your tester. range is Full 110V AC(USA range(or 220V type) Grounding screw AC) Test 2820VDC 1700VDC Test current: (1200VAC) 25A,AC voltage (2000VAC) Test time: 3 seconds(min.) Test time 3 seconds 1 second Resistance (min.) required: <=0.09+R ohm, Trip set at 100 uA 5 mA R is the current for Max. resistance of (Tester) limitation; set the mains cord. at 0.1 uA for Min. limitation Ramp set at 2 Connect the power cord time seconds to the monitor. 2.2.1 The test with AC voltage is only for production purpose, Power outlet Service center shall use DC voltage. (Rear view of monitor) 2.2.2 The minimum test duration for Quality Control Inspector 4. Recording must be 1 minute. No breakdown during the test. Hipot and Ground Continuity testing records have to be kept for 2.2.3 The test voltage must be maintained within the specified a period of 10 years. voltage + 5%. Forward 2.2.4 The grounding blade or pin of mains plug must be conducted with accessible metal parts. Back 26 170B LCD DDC Instructions Go to cover page 1. General PRESET VIDEO RESOLUTION Note: The alignment box has already build-in a batteries socket for DDC Data Re-programming using batteries (9V) as power source. Pull out the socket by In case the DDC data memory IC or main EEPROM which storage all remove four screws at the rear of box. Please do not forget that factory settings were replaced due to a defect, the serial numbers have remove batteries after programming. The energy of batteries can to be re-programmed. only drive circuits for a short period of time. It is advised to re-soldered DDC IC and main EEPROM from the old 3. Pin assignment board onto the new board if circuit board have been replaced, in this case the DDC data does not need to be re-programmed. Additional information A. 15-pin D-Sub Connector Additional information about DDC (Display Data Channel) may be 1 5 obtained from Video Electronics Standards Association (VESA). Extended Display Identification Data(EDID) information may be also 6 10 obtained from VESA. 11 15 DDC EDID structure For Analog interface: Standard Version 3.0 Pin No. Assignment Pin No. Assignment 9 +5V Structure Version 1.3 1 Red video input 10 Ground For Digital inferface: Standard Version 3.0 11 Ground 2 Green video input 12 Serial data line(SDA) Structure Version 1.3 13 H.Sync 3 Blue video input 14 2. System and equipment requirements 15 V.Sync(VCLK for DDC) 4 Ground Data clock line(SCL) 1. An i486 (or above) personal computer or compatible. 2. Microsoft operation system Windows 95/98. 5 No Connected 3. EDID30.EXE program (3138 106 10075) shown as Fig. 1 4. A/D Alignment kits (3138 106 10079) shown as Fig. 2. This kit 6 Red video ground contents: a. Alignment box x1 7 Green video ground b. Printer cable x1 c. D-Sub cable x1 8 Blue video ground d. (DVI-D) to (D-Sub) cable x1 Note: The EDID30.EXE (Release Version 1.5 1999.11.17)is a windows-based program, which cannot be run in MS-DOS. Meanwhile, it is also fully compatible with previous programs DDCV2X.EXE series(MS-DOS based). B. DVI-D Connector EDID30.EXE 1 8 Ver:1.5 16 9 24 Figure 1 Diskette with EDID30.EXE 17 DC 8V~12V Power indicator Pin No. Assignment Pin No. Assignment 1 TMDS Data 2- 13 TMDS Data 3+ To Monitor To Printer 2 TMDS Data 2+ 14 +5V Power 3 TMDS Data 2/4 Shield 15 Ground (+5V) Video Card 4 TMDS Data 4- 16 Hot Plug Detect 5 TMDS Data 4+ 17 TMDS Data 0- 6 DDC Clock 18 TMDS Data 0+ 7 DDC Data 19 TMDS Data 0/5 Shield 8 No connect 20 TMDS Data 5- 9 TMDS Data 1- 21 TMDS Data 5+ 10 TMDS Data 1+ 22 TMDS Clock Shield 11 TMDS Data 1/3 Shield 23 TMDS Clock+ 12 TMDS Data 3- 24 TMDS Clock- (DVI-D) to (D-Sub) cable Fig. 2 A/D Alignment Kits Back Forward DDC Instructions 170B LCD 27 Go to cover page 4. Configuration and procedure Re-programming Digital DDC IC There are three chips contained serial number on the circuit board, Step 1: Connecting all cables and alignment box as shown on Fig. 4 Analog DDC IC (7301), Digital DDC IC (7302) and main EEPROM Step 2: Press and hold “ “ and “ “ buttons then power on the (7204) which storage all factory settings. Following descrpitions are the connection and procedure for Analog DDC IC and Digital DDC IC, the monitor. main EEPROM can be re-programmed along with Analog IC by enable Step 3: Follow the steps on DDC re-programing instructions to starting “factory memory data write” function on the DDC program (EDID30.EXE). re-programming. PC Rear view of 170B Initialize alignment box D-Sub DVI-D In order to avoid that monitor entering power saving mode due to To video card DC Power sync will cut off by alignment box, it is necessary to initialize To printer port (LTP1) alignment box before running programming software (EDID30.EXE). 8~~12 V Following steps show you the procedures and connection. DVI-D to D-Sub cable Step 1: Supply 8~12V DC power source to the Alignment box by plugging a DC power cord or using batteries. To Monitor Step 2: Connecting printer cable and video cable of monitor as Fig. A Printer Step 3: Run the EDID30.EXE program until the main menu appears. Port This is for initialize alignment box. To PC PC Rear view of 170B Fig. 4 D-Sub DVI-D To video card 5. DDC re-programming instructions To printer port (LTP1) DC Power Start on DDC program 8~~12 V Start Microsoft Windows. To 1. Insert the disk containing EDID30.EXE program into floppy disk drive. Monitor Printer 2. Click , choose Run at start menu of Windows 95/98. Port To PC Fig. A Re-programming Analog DDC IC Step 1: After initialize alignment box, connecting all cables and box as Fig. 3 Step 2: Press and hold “ “ and “ “ buttons then power on the monitor. Step 3: Follow the steps on DDC re-programming instructions to staring re-programming. Rear view of 170B PC D-Sub DVI-D To video card 3. At the submenu, type the letter of your computer's floppy disk drive To printer port (LTP1) followed by :EDID30 (for example, A:\EDID30, as shown in Fig. 5). DC Power 8~~12 V To Fig. 5 Monitor Back Printer Forward Port To PC Fig. 3 28 170B LCD DDC Instructions Go to cover page 4. Click button. The main menu appears (as shown on Fig. 6). Command bar Tools bar Status bar Fig. 6 Note: If the connection is improper, you will see the following error message before entering the main menu. Meanwhile, the (read EDID) function will be disable. At this time, please make Note: During the loading, EDID30 will verify the EDID data which just sure all cables are connected correctly and fixedly, and the loaded from monitor before proceed any further function, once procedure has been performed properly. the data structure of EDID can not be recognized, the following error message will appear on the screen (Fig. 8). Please confirm following steps to avoid this message. 1. The data structure of EDID was incorrect. 2. DDC IC that you are trying to load data is empty. 3. Wrong communication channel has set at configuration setup windows. 4. Cables loosed or poor contact of connection. Loading DDC data from monitor 1. Click icon on the tools bar to bring up the Configuration Setup windows as Fig.7 2. Select the DDC2B as the communication channel. 3. Enable Factory memory data write function and fill in page address “F0” to the block. 4.. Click button to confirm your selection. Fig. 8 Note: The Factory memory data write function will allow EDID30 to rewrite serial numbers both Analog DDC IC and main EEPROM to Modify DDC data (Serial No.) make sure both S/N are exactly the same. You may confirm the function by checking the S/N at Product information of the OSD 1. Click icon on the toolsbar. menu after restarting the monitor. 2. Click till the Step 7 of 9 window appears. 3. Type the new Serial No. (for example, Tw9928000001). 4. Click till the last step window appears, then click to exit the Step window. Fig. 7 Tw9928000001 5. Click icon to read DDC EDID data from monitor. The EDID Forward codes will display on screen as following. (The EDID codes are depend on the model.) Meanwhile, The status bar will indicate 00% to 100% when reading. Back DDC Instructions 170B LCD 29 Go to cover page Write DDC data to monitor Definition of Serial Number 1. Click icon from the tools bar to starting rewrite DDC data. TY009928000001 2. Click for confirmation. Serial Number (U.S.A: 8 digit) Save DDC data as a file Week (Other regions: 6 digit) Sometimes, you maybe need to save DDC data as a text file for using on other DDC chip. To save DDC data, follow the steps below: Year 1. Click icon on the tools bar and type a file name you like. The TY Code TY----Chungli file format is ddc type which can be open by Microsoft WordPad. CX----Dong Guan HD----Hungary 2. Click button. BZ----Suzhou Load DDC data from file 1. Click from the tools bar. 2. Select the file you want to open. 3. Click . Button. 4. Now you can re-programming DDC data which you just loaded from a file, please be confirmed that model and serial number are correct and match with the monitor you are trying to re-write. Exit DDC program 1. Click file command on the command bar then select Exit. Back Forward 30 170B LCD DDC data of Analog Go to cover page THE DISPLAY DATA CHANNEL ( DDC ) 1/2B CONTENT INCLUDING Standard Timing Identification #4 : 1024 (FOR ADT ANALOG) Horizontal active pixels : 4:3 Aspect Ratio : 75 Vendor/Product Identification Refresh Rate ID Manufacturer Name ID Product Code : PHL Standard Timing Identification #5 : 1152 ID Serial Number : 170B (HEX.) Horizontal active pixels : 4:3 Week of Manufacture : 123456 (DEC.) Aspect Ratio : 70 Year of Manufacture : 29 Refresh Rate : 2000 EDID Version, Revision Standard Timing Identification #6 : 1152 Horizontal active pixels : 4:3 Version :1 Aspect Ratio : 75 Refresh Rate Revision :3 Basic Display Parameters/Features : Analog Video Input Standard Timing Identification #7 : 1280 Video Input Definition 0.700V/0.300V (1.00Vpp) Horizontal active pixels : 5:4 Without Blank-to-Black Setup Aspect Ratio : 60 Separate Sync Refresh Rate Composite Sync Sync on Green Detailed Timing #1 No Serration required Pixel Clock (MHz) : 135 H Active (pixels) : 1280 H Blanking (pixels) : 408 Maximum H Image Size : 34 V Active (lines) : 1024 Maximum V Image Size : 27 V Blanking (lines) : 42 H Sync Offset (F Porch) (pixels) : 248 Display Transfer Characteristic : 2.1 H Sync Pulse Width (pixels) : 144 (gamma) V Sync Offset (F Porch) (lines) : 38 V Sync Pulse Width (lines) :3 Feature Support (DPMS) : Standby H Image Size (mm) : 337 Suspend V Image Size (mm) : 270 Active Off H Border (pixels) :0 Display Type : RGB color display V Border (lines) :0 Preferred Timing mode : Detailed timing block 1 Flags : Non-interlaced : Normal Display, No stereo : Digital Separate sync. Color Characteristics : Positive Vertical Sync. Red X coordinate Red Y coordinate : 0.63 : Positive Horizontal Sync. Green X coordinate : 0.33 Green Y coordinate : 0.30 Monitor Descriptor #2 : TY 123456 Blue X coordinate : 0.60 Serial Number Blue Y coordinate : 0.15 White X coordinate : 0.10 Monitor Descriptor #3 : PHILIPS 170B White Y coordinate : 0.31 Monitor Name : 0.33 Monitor Descriptor #4 Established Timings : 720 x 400 @70Hz (IBM,VGA) Monitor Range Limits : 56 Established Timings I 640 x 480 @60Hz (IBM,VGA) Min. Vt rate Hz : 75 640 x 480 @67Hz (Apple,Mac II) Max. Vt rate Hz : 30 Established Timings II 640 x 480 @72Hz (VESA) Min. Horiz. rate kHz : 82 640 x 480 @75Hz (VESA) Max. Horiz. rate kHz : 140 Manufacturer's timings 800 x 600 @56Hz (VESA) Max. Supported Pixel 800 x 600 @60Hz (VESA) No secondary GTF timing formula supported. : 800 x 600 @72Hz (VESA) 800 x 600 @75Hz (VESA) Extension Flag :0 832 x 624 @75Hz (Apple,Mac II) 1024 x 768 @60Hz (VESA) Check sum : 0E (HEX.) 1024 x 768 @70Hz (VESA) 1024 x 768 @75Hz (VESA) ********************************************************************** 1280 x 1024 @75Hz (VESA) EDID data (128 bytes) ********************************************************************** : 1152 x 870 @75Hz (Apple,Mac II) 0: 00 1: ff 2: ff 3: ff 4: ff 5: ff 6: ff 7: 00 Standard Timing Identification #1 : 640 8: 41 9: 0c 10: 0b 11: 17 12: 56 13: 34 14: 12 15: 00 Horizontal active pixels : 4:3 16: 1d 17: 0a 18: 01 19: 03 20: 0f 21: 22 22: 1b 23: 6e Aspect Ratio : 85 24: ea 25: 6e 26: a6 27: a1 28: 54 29: 4c 30: 99 31: 26 Refresh Rate 32: 19 33: 4f 34: 54 35: bf 36: ef 37: 80 38: 31 39: 59 40: 45 41: 59 42: 61 43: 59 44: 61 45: 4f 46: 71 47: 4a Standard Timing Identification #2 : 800 48: 71 49: 4f 50: 81 51: 80 52: 01 53: 01 54: bc 55: 34 Horizontal active pixels : 4:3 56: 00 57: 98 58: 51 59: 00 60: 2a 61: 40 62: f8 63: 90 Aspect Ratio : 85 64: 63 65: 08 66: 51 67: 0e 68: 11 69: 00 70: 00 71: 1e Refresh Rate 72: 00 73: 00 74: 00 75: ff 76: 00 77: 54 78: 59 79: 20 80: 20 81: 31 82: 32 83: 33 84: 34 85: 35 86: 36 87: 0a Standard Timing Identification #3 : 1024 88: 20 89: 20 90: 00 91: 00 92: 00 93: fc 94: 00 95: 50 Horizontal active pixels : 4:3 96: 48 97: 49 98: 4c 99: 49 100: 50 101: 53 102: 20 103: 31 Aspect Ratio : 85 104: 37 105: 30 106: 42 107: 0a 108: 00 109: 00 110: 00 111: fd Refresh Rate 112: 00 113: 38 114: 4b 115: 1e 116: 52 117: 0e 118: 00 119: 0a 120: 20 121: 20 122: 20 123: 20 124: 20 125: 20 126: 00 127: 0e Back Forward DDC data of Digital 170B LCD 31 Go to cover page THE DISPLAY DATA CHANNEL ( DDC ) 1/2B CONTENT INCLUDING Standard Timing Identification #4 : 1024 (FOR ADT DIGITAL) Horizontal active pixels : 4:3 Aspect Ratio : 75 Vendor/Product Identification Refresh Rate ID Manufacturer Name ID Product Code : PHL Standard Timing Identification #5 : 1152 ID Serial Number : 170B (HEX.) Horizontal active pixels : 4:3 Week of Manufacture : 123456 (DEC.) Aspect Ratio : 70 Year of Manufacture : 29 Refresh Rate : 2000 EDID Version, Revision Standard Timing Identification #6 Horizontal active pixels Version :1 Aspect Ratio : 1152 Refresh Rate : 4:3 Revision :3 : 75 Basic Display Parameters/Features : Digital Video Input Standard Timing Identification #7 Video Input Definition Compatible with VESA DFP 1.x Horizontal active pixels Aspect Ratio Maximum H Image Size : 34 Refresh Rate : 1280 Maximum V Image Size : 27 : 5:4 : 60 Detailed Timing #1 Display Transfer Characteristic : 2.1(gamma) Pixel Clock (MHz) : 135 Feature Support (DPMS) : Standby H Active (pixels) : 1280 Suspend H Blanking (pixels) : 408 Active Off V Active (lines) : 1024 V Blanking (lines) : 42 Display Type : RGB color display H Sync Offset (F Porch) (pixels) : 248 Preferred Timing mode : Detailed timing block 1 H Sync Pulse Width (pixels) : 144 V Sync Offset (F Porch) (lines) : 38 Color Characteristics V Sync Pulse Width (lines) :3 Red X coordinate Red Y coordinate : 0.63 H Image Size (mm) : 337 Green X coordinate : 0.33 Green Y coordinate : 0.30 V Image Size (mm) : 270 Blue X coordinate : 0.60 Blue Y coordinate : 0.15 H Border (pixels) :0 White X coordinate : 0.10 White Y coordinate : 0.31 V Border (lines) :0 : 0.33 Flags : Non-interlaced : Normal Display, No stereo : Digital Separate sync. : Positive Vertical Sync. : Positive Horizontal Sync. Established Timings : 720 x 400 @70Hz (IBM,VGA) Monitor Descriptor #2 Established Timings I 640 x 480 @60Hz (IBM,VGA) Serial Number 640 x 480 @67Hz (Apple,Mac II) 640 x 480 @72Hz (VESA) : TY 123456 640 x 480 @75Hz (VESA) 800 x 600 @56Hz (VESA) Monitor Descriptor #3 : PHILIPS 170B 800 x 600 @60Hz (VESA) Monitor Name Monitor Descriptor #4 Monitor Range Limits Established Timings II : 800 x 600 @72Hz (VESA) Min. Vt rate Hz : 56 800 x 600 @75Hz (VESA) 832 x 624 @75Hz (Apple,Mac II) Max. Vt rate Hz : 75 1024 x 768 @60Hz (VESA) 1024 x 768 @70Hz (VESA) Min. Horiz. rate kHz : 30 1024 x 768 @75Hz (VESA) 1280 x 1024 @75Hz (VESA) Max. Horiz. rate kHz : 82 Max. Supported Pixel : 140 No secondary GTF timing formula supported. Extension Flag :0 Check sum : 9C (HEX.) Manufacturer's timings : 1152 x 870 @75Hz (Apple,Mac II) Standard Timing Identification #1 : 640 ********************************************************************** Horizontal active pixels : 4:3 EDID data (128 bytes) Aspect Ratio : 85 ********************************************************************** Refresh Rate 0: 00 1: ff 2: ff 3: ff 4: ff 5: ff 6: ff 7: 00 Standard Timing Identification #2 : 800 8: 41 9: 0c 10: 0b 11: 17 12: 56 13: 34 14: 12 15: 00 Horizontal active pixels : 4:3 16: 1d 17: 0a 18: 01 19: 03 20: 81 21: 22 22: 1b 23: 6e Aspect Ratio : 85 24: ea 25: 6e 26: a6 27: a1 28: 54 29: 4c 30: 99 31: 26 Refresh Rate 32: 19 33: 4f 34: 54 35: bf 36: ef 37: 80 38: 31 39: 59 40: 45 41: 59 42: 61 43: 59 44: 61 45: 4f 46: 71 47: 4a Standard Timing Identification #3 : 1024 48: 71 49: 4f 50: 81 51: 80 52: 01 53: 01 54: bc 55: 34 Horizontal active pixels : 4:3 56: 00 57: 98 58: 51 59: 00 60: 2a 61: 40 62: f8 63: 90 Aspect Ratio : 85 64: 63 65: 08 66: 51 67: 0e 68: 11 69: 00 70: 00 71: 1e Refresh Rate 72: 00 73: 00 74: 00 75: ff 76: 00 77: 54 78: 59 79: 20 80: 20 81: 31 82: 32 83: 33 84: 34 85: 35 86: 36 87: 0a Back 88: 20 89: 20 90: 00 91: 00 92: 00 93: fc 94: 00 95: 50 96: 48 97: 49 98: 4c 99: 49 100: 50 101: 53 102: 20 103: 31 104: 37 105: 30 106: 42 107: 0a 108: 00 109: 00 110: 00 111: fd 112: 00 113: 38 114: 4b 115: 1e 116: 52 117: 0e 118: 00 119: 0a 120: 20 121: 20 122: 20 123: 20 124: 20 125: 20 126: 00 127: 9c Forward 32 170B LCD Repair Flow Chart Go to cover page Block Diagram AC IN AC adapter 18V DC Inverter panel 18VCC Main panel 18V DC Front control panel AC LCD panel Fluorescent Lamp No power (power indicator off) Check No AC adapter output Bad AC adapter 18V DC Adapter fixed still no good Yes Check Front control panel (power SW) OK Replace Main panel Back Forward Repair Flow Chart 170B LCD 33 No Raster Go to cover page Check No AC adapter output Bad AC adapter 18V DC Video source Yes Replace fluorescent lamp Check No video signals input interface Yes Check OK Inverter panel No No Replace main panel Replace inverter panel Front control key does not work Check Front control panel (Key & SW) Yes Check Signal connectors 1910 Yes Replace main panel Back Forward 34 170B LCD Repair Flow Chart Go to cover page Bad brightness Check No Bad Inverter panel Inverter panel output Yes Replace fluorescent lamp No Replace LCD panel Bad image Check Video,fh/fv,DVI-D signals Yes Replace main panel No Check all connectors No Replace LCD panel Back Forward Repair Tips 170B LCD 35 Go to cover page 0. Warning preferably be equipped with a thermal control (soldering temperature: 225 to 250 oC). All ICs and many other semi-conductors are susceptible to - The chip, once removed, must never be reused. electrostatic discharges (ESD). Careless handling during repair can reduce life drastically. When repairing, make sure 1.4 Attachment of SMDs that you are connected with the same potential as the mass - Locate the SMD on the solder lands by means of tweezers of the unit via a wrist wrap with resistance. Keep components and tools also at the same potential ! and solder the component on one side. Ensure that the component is positioned correctly on the solder lands (see 1. Servicing of SMDs (Surface Mounted Devices) Fig.2A). - Next complete the soldering of the terminals of the component (see Fiq. 2B). 1.1 General cautions on handling and storage Fig. 2 MOUNTING - Oxidation on the terminals of SMDs results in poor e.g. A PAIR OF TWEEZERS soldering. Do not handle SMDs with bare hands. - Avoid using storage places that are sensitive to oxidation A such as places with sulphur or chlorine gas, direct sunlight, SOLDER high temperatures or a high degree of humidity. The 0.5 - 0.8 mm capacitance or resistance value of the SMDs may be affected by this. PRESURE - Rough handling of circuit boards containing SMDs may SOLDERING cause damage to the components as well as the circuit IRON boards. Circuit boards containing SMDs should never be bent or flexed. Different circuit board materials expand and SOLDERING TIME SOLDER B contract at different rates when heated or cooled and the < 3 sec/side 0.5 - 0.8 mm components and/or solder connections may be damaged due to the stress. Never rub or scrape chip components as PRESURE this may cause the value of the component to change. Similarly, do not slide the circuit board across any surface. SOLDERING IRON 1.2 Removal of SMDs 2. Caution when attaching SMDs - Heat the solder (for 2-3 seconds) at each terminal of the - When soldering the SMD terminals, do not touch them chip. By means of litz wire and a slight horizontal force, directly with the soldering iron. The soldering should be small components can be removed with the soldering iron. done as quickly as possible, care must be taken to avoid They can also be removed with a solder sucker (see Fig. damage to the terminals of the SMDs themselves. 1A) - Keep the SMD's body in contact with the printed board when Fig. 1 DISMOUNTING soldering. SOLDERING VACUUM PISTON - The soldering iron to be used (approx. 30 W ) should IRON 4822 395 10159 preferably be equipped with a thermal control (soldering temperature: 225 to 250 oC). e.g. WELLER - Soldering should not be done outside the solder land. SOLDER TIP PT -H7 A - Soldering flux (of rosin) may be used, but should not be SOLDERING acidic. IRON - After soldering, let the SMD cool down gradually at room SOLDER WICK temperature. 4822 321 40042 - The quantity of solder must be proportional to the size of the e.g. A PAIR OF TWEEZERS solder land. If the quantity is too great, the SMD might crack or the solder lands might be torn loose from the HEATING HEATING printed board (see Fig. 3). B SOLDERING Fig. 3 Examples IRON RIGHT C SOLDER WICK - While holding the SMD with a pair of tweezers, take it off gently using the soldering iron's heat applied to each terminal (see Fig. 1 B). - Remove the excess solder on the solder lands by means of litz wire or a solder sucker (see Fig. 1C). 1.3 Caution on removal SOLDERING - When handling the soldering.iron. use suitable pressure and IRON be careful. Forward - When removing the chip, do not use undue force with the pair of tweezers. - The soldering iron to be used (approx. 30 W) should Back 36 170B LCD Colour adjustment Go to cover page LCD COLOUR ANALYZER - CA110 1. SUMMARY The LCD Colour Analyzer CA-110 was designed to upgrade the white-balanceprocess on production lines for colour LCD televisions and computer colour LCD panels in the colour LCD industry. The CA-110 consists of a main unit and a measuring probe. The measuring probe utilizes an optical system suitable for measurement of colour LCDs and is equipped with a viewfinder to verify the area to be measured. 2. APPLICATIONS * White-balance adjustment and inspection on LCD production lines. * Quality control and shipping inspection by LCD manufacturers. * Inspection of LCDs upon receipt by computer manufacturers. Back Forward Colour Adjustment 170B LCD 37 Go to cover page Back Forward 38 170B LCD Colour adjustment Go to cover page ZERO CALIBRATION Zero calibration is performed to determine the output of the measuring probe when no light reaches the sensor and to set this as the zero point to which all other measurements are referenced. Zero calibration must be performed after the POWER switch has been set ON brfore taking any measurements. To perform zero calibration : * Before performing zero calibration, check that the measuring probe has been connected to probe connector P1. DARKEN PROBE Display after POWER switch is set to ON 1. Check that the POWER switch is set to ON. --> --> --> Approximately 5 seconds 2. Set the measuring/viewing selector to the DARKEN PROBE Press 0-CAL, (viewing) position. (An image can be seen in the PUSH 0-CAL KEY Performing zero viewfinder, but no light will reach the sensor.) calibration ZERO CALIBRATION 3. Press 0-CAL. * If zero calibration is being performed immediately CH00 P1 Zero calibration after the POWER switch has been set to ON, press E1 [ ] completed 0-CAL after "PUSH 0-CAL KEY" appears in the liquid crystal display. 4. Set the measuring/viewing selector to the position. Measurements will be started immediately. 1. POWER switch Measuring/viewing selector 3. 0-CAL Index Back Forward Colour Adjustment 170B LCD 39 Go to cover page SETTING MEASUREMENT AREAII I Measurement areas of o25mm and o50mm can be selected by extending or retracting the lens barrel. Theo 25mm measurement area canI be used for measuring LCDs with 2 - inch or greater diagonals: the o50mm measurement area can be used for measuring LCDs with 4 - inch or greater diagonals. Set the measurement area : Using a slotted screwdriver, loosen the lens - barrel locking screw. Slide the lens barrel to the position corresponding to the desired measurement area. The lens barrel should be slid in the desired direction until it stops. Extending the lens barrel fully sets the o25mm measurement area: retracting the lens barrel fully sets the o50mm measurement area. Use the screwdriver to tighten the lens - barrel locking screw and lock the lens barrel in position. Changing the measurement area also changes the measurement angle. this may result in differences between values measured with the o25mm measurement area and those measured with the o50mm measurement area to the viewing - angle characteristics of the LCD. For this reason. it is recommended that the measement area be constant for all measements. I I I I 2. Move in either direction until it stops. 1. Loosen 3. Tighten Lens-barrel locking screw o25mm measurement area positionI Lens barrel o50 mm measurement area positionI Back Forward 40 170B LCD Colour adjustment Go to cover page SETTING MEASUREMENT DISTANCE The measurement distance (the distance from the front of the measuring probe's lens barrel to the display surface of the LCD ) should be set using a ruler according to the procedure below. 1. Mount the measuring probe on a tripod or other stand and mount the LCD on a suitable stand. 2. While using a ruler to measure the distance from the front of the measuring probe's lens barrel to the LCD's display surface, move the measuring probe or the LCD until the distance is the correct distance for the measurement area in use. measurement area I o 25mm Io 50mm measurement distance* 135mm+/-5mm 210mm+/-10mm * Distance from the tip of the measuring probe's lens barrel to the LCD's display surface. Display surface LCD panel Protective glass Lens barrel Measurement distance (Measurement distance-D) 3. While looking through the viewfinder, move the measuring probe or LCD until the LCD section to be measured is inside the measurement-area indication in the viewfinder. Viewfinder Measurement-area indication Back Forward Colour Adjustment 170B LCD 41 Go to cover page White Balance Adjustment 5. Adjust OSD menu to lower position of screen (i.g. adjust V-position to value “ 0” at submenu of OSD Setting. Alignment procedure 6. Setting Brightness and Contrast 1. Turn on 170B LCD monitor. - Adjust Brightness to value “70”. - Adjust Contrast to value “50”. 2. Turn on the Timing/Pattern generator. See Fig. 1 7. Switch light probe to “Viewing” position. Setting generator to provide CROSS-Hatch pattern at 8. Move the “Lens barrel” forward or backward to get clear image as Resolution : 1280 x 1024 shown in Fig. 4 9. Switch light probe to “Measuring” position. It should be able to Timing : H= 80 Khz indicate colour value on the CA-110. V= 75 Hz 3. Preset LCD colour Analyzer CA-110 - Remove the lens protective cover of probe CA-A30. - Set “Measuring/viewing selector” to Measuring position for reset analyzer. (Zero calibration) as Fig. 2 - Turn on the colour analyzer (CA-110). - Press “0-CAL” button to starting reset analyzer. See Fig. 3 cover (black) Clear image Measurement/viewing selector Measurement/viewing selector Fig. 1 Fig. 2 Fig. 4 0-CAL 10. Setting pattern to full white picture. button. Fig. 3 11. Press then select “POGO2 V0.17 2000-05-09” by 12. Press to bring up submenu as following windows. 4. Entering factory adjustment mode of LCD Monitor. - To hold and buttons then power on the monitor. Press POGO2 V0.17 2000-05-09 to bring up OSD menu for confirmation. - AUTO SUB - OK SUB CON 166 POGO2 V0.17 2000-05-09 Factory mode 9300K R 205 G 233 B 255 6500K R 255 G 255 B 149 Note : after alignment, please reset OSD to user’s mode for normal OFFSET R 22 G 20 B 20 operation. Otherwise, the monitor won’t entering power saving GAIN R G B mode and showing full white picture all the time as no video signal supplied. To leave factory mode by restart the monitor. 9300 K 13. Press or buttons to select R G B. Increase/decrease value by press or buttons until the X, Y co-ordinates as below: x= 0.281 0.005 y= 0.311 0.005 Y>= 200 nits 6500 K 14. Setting X, Y value listed as below: X= 0.312 0.005 Y= 0.338 0.005 Y>= 200 nits Alignment hits: 1. R for x value , G for y value, B for Y value on the colour analyzer. 2. If the colour analyzer has been calibrated and preset colour temperature in it. Please switch to correct setting in accordance with colour settings. Back Forward 42 170B LCD Colour adjustment Go to cover page 15. Gray scale checking - Switch Timing/pattern generator to Pattern: 32 gray scale Timing: 1280 X 1024 75Hz 60KHz - Setting both Brightness and Contrast to 50 (Value). - Check black and white scale are visible clearly across the screen. See Fig. 1 Fig. 1 Note: The bright scale will be saturated, if Y is too large. The dark scale will be invisible, if Y is too small. Re-alignment or review procedure again to correct this. Back Forward Back Main panel PCBA Architecture 215 mm 7901 7653 7652 7651 7631 Si4435 7006 7204 7902 SDRAM SDRAM SDRAM OSD 1013 LM2596S ST24C16 Si4435 16M MTV130P EEPROM 16M 16M 1261 7203 7601 PCBA Architecture To inverter panel Scaler 1012 To Panel 7013 Connector 7033 SAA6721 LM2596S MCU DS90C 583MTD 125 mm 7003 St7274 LM2596S 7403 7501 7012 1002 ADC TMDS DS90C DC Jack Receiver 583MTD AD9884AKS 7401 SIL161 3DZ13 7202 74CBT 1201 7331 7301 3257 1302 7302 Tl3016 To Control panel Analog 1301 DVI -D Digital DDC IC DDC IC 24LC21 D-SUB 24LC21 Go to cover page 170B LCD Forward 43 Back 44 AC IN Go to cover page 170B LCD 90V~264VAC AC adapter +5V (for MCU chip) DC to DC converter 1004 18VCC +5VA +5VD 5632 Fuse Filter 7001 Chopper 1003 7902 +5VD 18V DC +5V (for OSD chip) DC Power jack Power Distribution Flow Jumper +3.3V_A 5401 +3.3V_ADC 18V On 7002 7003 Power saving 7401 (for ADC chip) Power switch Chopper control (from CPU) ADT LCD panel 5402 +12VA 5640 +3.3V_PLL +12VL (for ADC chip) 1005 Jumper +3.3VM (for SDRAM chip) 7006 5501 5502 +18VCC 5503 +3.3V (for Inverter panel) 7901 (for Sil161 chip) +3V3A +3.3VD 5651 Chopper 1003 Jumper +3.3V 7033 Power saving 5603 +3.3VS control (from CPU) (for SAA6721 chip) Forward Block Diagram Control Panel C.B.A. 170B LCD 45 Copper side Go to cover page Frame Buffer (1Mx16 SDRAM x3) DVI TMDS R/A ADC R/D R (A0~7 ,B0~7) DDC1 receiver G/A ADC G/D SiI161A ADC LVD G (A0~7 ,B0~7) 24LC21 B/D S H/V(TMDS) FORMAT D-Sub (R,G,B) SCALER CONVERSION SAA6721 H/V (D-sub) SyncSlicer B/A TFT LCD MODULE Component side DDC1/2B (Discrete) OSD B (A0~7 ,B0~7) BACK LIGHT D-sub/DVI select DC-AC INVERTER DDC 24LC21 Sync pre- PLL Clock CLK processor Generator EEPROM 24C16 AD9884A HSYNC LSC SI_DE 3863DW (reserved) HS_ADC MCU I2C (SDA,SCL) ST72774 Glue Logic I/O AC ADAPTER (+18V) 2901 A1 1910 A2 1901 A2 3901 A2 6901 A1 1902 A2 Front Expansion AC 90 ~ 260V USB Hub 3902 A2 9901 A3 1903 A3 panel 3903 A3 9902 A1 1904 A3 Control DC-DC Repeater 3904 A3 9903 A1 1905 A4 Converter(+12V, 3905 A3 9904 A2 1906 A2 +5V, +3.3V) 3906 A2 9905 A1 1908 A1 3910 A1 9906 A1 1909 A3 6902 A2 Back Forward 46 170B LCD Schematic Diagram (AC adapter) C.B.A for AC adapter Go to cover page Component side Copper side 6111 E1 6112 D1 6113 C1 6117 C1 2121 B1 2123 B1 2124 B1 2126 B1 2153 A3 2154 B2 2155 B2 3101 E2 6118 B1 6151 C3 7102 C1 7121 B1 2127 B1 2156 B2 2157 B2 3105 C1 3102 E1 3103 E1 3104 E1 3107 C1 7150 B2 7151 B2 7152 B2 8101 C3 3106 C1 3120 B1 3121 B1 3122 B1 3108 D1 3109 C1 3110 D1 3111 E1 8102 B3 9102 D1 9121 C1 9151 B2 3123 B1 3124 B1 3125 B1 3126 B1 3112 C1 3113 C1 3115 B1 3116 E1 9152 B1 9154 B3 1171 D3 2101 D2 3128 B1 3129 B1 3155 B2 3157 B2 3117 C1 3127 B1 3150 B2 3151 C3 2102 E2 2103 D2 2104 E3 2105 D1 3158 B2 3161 B2 5111 C1 5113 C2 3152 B2 3156 B2 4102 C1 4151 C3 5114 C1 6153 B2 6158 B2 1101 E3 5101 E2 5102 E2 5103 E2 5112 C1 2108 C1 2109 E2 2113 C1 2115 C1 1102 D3 1103 A2 1151 A1 1161 A1 5150 D2 5151 B2 5155 B3 6101 E1 2116 D1 2122 C1 2125 C1 2150 B2 2151 C3 2152 B2 Back Forward Schematic Diagram (Video in) Schematic Diagram (DC to DC converter) 170B LCD 47 Go to cover page +5V 100N/0805 BAV99 6301 6310 18VCC 1 2 +5V_DSUB 6309 3303 BAS32L 2016 1 1 470U/25V/DIP 10R/PM5/0805 +5V 2022 470U/25V/DIP 3 +5V_DSUB BAS32L 2 2 2 (1000U/25V) 3301 10K/PM5/0805 3304 2304 7301 5331 2015 100N/0805 A23 7006 2021 A22 330R/PM5/0805 100N/0805 24FC21/SO8 BLM31P500S VIN 1 1 7003 SW 2 1 100N/0805 5003 3 100R/PM5/0805 2302 +5VA 5004 5002 1 1 VIN 1 +12VA 1 10UH/C10-K4L 68UH TP70-71 2 SW M1 GND GROUND 3 TP72-73 68UH 5005 3 GROUND GND M1 FB 4 1 2 8 1 3331 2011 5034 6003 4 FB 1 6004 1 7 2 470U/25V/DIP 10UH/C10-K4L SFPJ-73 5 SHDN SHDN 5 SFPJ-73 +5V_DSUB 100P/0805 6 VCC NC 3 1 LM2596S-12 2 5 VCLK NC 4 LM2596S-5.0 BAV99 6302 DDCSCL_DSUB SCL NC 2012 2 1 1 DDCSDA_DSUB SDA GND 470U/25V/DIP 3302 5K6/PM5/0805 1 1 470U/25V/DIP( 1 0 0 0 U/ 2 5 V) 10UH/C10-K4L 2026 470U/25V/DIP 3 100R/PM5/0805 2303 2331 2332 2025 100N/0805 10U/1206 TP76-77 7331 2 21 A6 HIN_DSUB 1 2 +5V_DSUB DDCSCL_DSUB HIN_DSUB 21 2 1 3333 100P/0805 DDCSDA_DSUB A4 47R/PM5/0805 1 BAV99 6303 1 VCC+ OUT- 8 2 IN+ OUT 7 3 3310 3 IN- GND 6 4 VCC- 5 1 2 +5V_DSUB 2K2/PM5/0805 3305 LE 1301 BAV99 6304 A5 /PANEL_12V_ON 10P/0805 2305 Normal Low 11 1 1 TL3016CD 6 3 330R/PM5/0805 3311 VIN_DSUB VIN_DSUB 1 12 1 2 2K2/PM5/0805 2036 1 7 3306 470U/25V/DIP 1 2 +5V_DSUB 1005 3326 0R/PM5/0805 1 13 1 3 10P/0805 2306 (TO Multiplexer) 8 +5V_DSUB 75R/PM5/0805 3307 14 BAV99 6305 3327 0R/PM5/0805 R 2 A21 2 1 1 14 +5V_DSUB 75R/PM5/0805 3308 1 2 3312 A1 3332 7033 +12VA 1 4 3 1 +12VL 3328 0R/PM5/0805 5K6/PM5/0805 1 VIN 9 3 100R/PM5/0805 2333 2035 100N/0805 2 SW HEAD-2.54-2x2 +3.3V +5V_DSUB 75R/PM5/0805 3309 100N/0805 3 GROUND GND M1 +5V 1 15 1 5 1 4 FB 1 10 1 5 SHDN 1 2 +3V3A TP70-71 1 LM2596S-3.3 5032 2031 BAV99 6306 1 2 3313 G 470U/25V/DIP 1003 DHSL-15UKL4 3 100R/PM5/0805 3325 2 1 10 9 1 1 A2 G_SOG NI 1 1 2032 68UH +3V3A 8 7 1 1 2 3334 6 5 22R/PM5/0805 470R/PM5/0805 470U/25V/DIP 6033 +5VA 1 4 3 1 B SFPJ-73 BAV99 6307 1 2 3314 1 2 1 1 3 100R/PM5/0805 21 2 A3 1 HEAD-2.54-5X2 1 2 6324 BAV99 6308 +5V DC-DC CONV. SIDE (SHDN pin, 2.4V--5V --> ON; SHDN<2.4V --> OFF) BAS32L 2 (FROM SiI161) 3335 1 100N/0805 +18V 10K/PM5/0805 2313 18VCC 100R/PM5/08015 3320 2 7302 100P/0805 2311 24FC21/SO8 12 BAV99 6311 SI_VS 3319 100R/PM5/0805 100R/PM5/08015 3321 2 1 2 +5VPD 3315 12 1004 10R/PM5/ARV241 (TO SiI161) 100P/0805 2312 8 VCC NC 1 1002 SSQ4 8 18VCC 7 VCLK NC 2 1 1302 1 8 RXB+ 6 SCL NC 3 2 1 1 2 3 7 DVI RXB- 5 SDA GND 4 3 33 2 7 RXG+ RXB+ BAV99 6321 1 5001 2 6 RXG- RXB- DC-PWR-JACK TP61-63 ACM0706-102-2P-T 1 1 1 2 +5VPD 3 6 RXG+ 1 2 +5VPD 1 4 1 1 5 +5VPD RXG- 2 1 4 5 1 2005 1 1 100N/1206 BAV99 6312 2006 7001 DC SWITCH 3 100N/1206 SI4835/P-MOS BAV99 6313 33 4 1 2 2 3030 4 10K/PM5/0805 5 2310 100N/0805 1 2 1 3 2 2 21 6 1 +5VPD 10K/PM5/0805 3329 Normal Low 7 1 33 BAV99 6322 TP74-75 3028 DCINGND 10K/PM5/0805 8 BAV99 6319 9 1 1 2 1 2 DCINGND 10 1 +5VPD +5VPD 6320 10K/PM5/0805 3330 +5VPD 3318 10R/PM5/0805 11 BAV99 6314 12 BAV99 6315 3 13 1 2 BAS32L 3001 3 3323 14 1 18V_ON 18V_ON 120K/PM5/0805 1 7002 15 +5V /DVI_5V_ON 3002 10K/PM5/0805 3322 18K/PM5/0805 16 33 1 8 RXR+ BSR14 RXR- 17 1 2 7 RXC+ RXR+ 7303 RXC- RXR- BC848C 18 1 RXC+ 2 RXC- 19 1 2 +5VPD 3 6 2002 +5VPD 100N/0805 20 4 5 21 BAV99 6316 10K/PM5/0805 2 22 BAV99 6317 3316 (TO SiI161) 10R/PM5/ARV241 23 1 1 2 2314 100N/0805 24 1 3324 1 10K/PM5/0805 C1 33 C2 C3 1 2 C4 +5VPD C5 BAV99 6318 2K2/PM5/0805 3317 C6 Back Forward 48 170B LCD Schematic Diagram (RGB Digitizer) Waveforms Go to cover page 7401 +3.3V_A PQ3DZ13 +5VD +3.3V_ADC 1 VIN Vo 3 1 2 2404 Waveforms for RGB Digitizer NC 4 10U/1206 5401 BEAD/1206 A1 3312 A2 3313 A3 3314 A7 7403-40 A8 7403-41 + 2402 2405 2406 2407 2408 2409 2410 2411 2412 2413 2416 2 V/div AC 100N/0805 25 uS/div 2 /SHDN 5 GND 2403 100N/0805 100N/0805 100N/0805 100N/0805 100N/0805 100N/0805 100N/0805 100N/0805 100N/0805 100N/0805 A5 3311 2401 10U/1206 2 V/div AC 2 uS/div 47U/16V/RV2-6X5 Decoupling for ADC; all supply pins must be decoupled with a 0.1uF capacitor located very close to the pin. +3.3V_PLL 0.2 V/div AC 0.2 V/div AC 0.2 V/div AC 2 V/div AC 5 uS/div 5 uS/div 5 uS/div 5 uS/div 5403 A9 7602-2 A10 7602-4 A11 7403-115 1 2 BEAD/1206 5402 +3.3V_9884 1 2 +3.3VD BEAD/1206 10U/1206 +3.3V_PLL 2424 2423 2425 2427 2428 2429 + 2448 100N/0805 100N/0805 47U/16V/RV2-6X5 100N/0805 100N/0805 100N/0805 2439 2440 2441 2442 2443 2444 2445 2446 2447 2 100N/0805 100N/0805 100N/0805 100N/0805 100N/0805 100N/0805 100N/0805 100N/0805 100N/0805 3402 33 54 10K/PM5/0805 34 64 43 74 48 84 50 94 104 114 120 +3.3V_ADC PVD VDD PVD VDD 1 PVD VDD 3412 100R/PM5/ARV241 PVD VDD PVD VDD VDD VDD VDD 1 NC DRA0 112 1 8 BIN_A0 2 NC DRA1 111 /ADC_PDN 3 NC DRA2 110 2 7 BIN_A1 2 V/div AC 2 V/div AC DRA3 109 5 uS/div 50 nS/div (FROM MCU) 3 DRA4 108 3 6 BIN_A2 2 V/div AC DRA5 107 5 uS/div ADC_PDN DRA6 106 4 5 BIN_A3 DRA7 105 Normal Low 1 4 VD 1 8 BIN_A4 Active High 8 VD 7405 10 VD 2 7 BIN_A5 MMUN2211 11 VD 16 VD 3 6 BIN_A6 18 VD 2 19 VD 4 5 BIN_A7 23 VD 25 VD BIN_A[0..7] 3414 100R/PM5/ARV241 124 VD 128 VD DRB0 102 3413 100R/PM5/ARV241 1 8 BIN_B0 DRB1 101 DRB2 100 2 7 BIN_B1 DRB3 99 DRB4 98 3 6 BIN_B2 DRB5 97 DRB6 96 4 5 BIN_B3 Waveforms for Video in and DC to DC converter DRB7 95 1 8 BIN_B4 2 7 BIN_B5 3 6 BIN_B6 125 /PWRDWN 4 5 BIN_B7 A2 3313 A4 7331-2 27 CKINV (FROM MCU) 3405 2 28 CLAMP 3416 100R/PM5/ARV241 BIN_B[0..7] A1 3312 A3 3314 1K/PM5/0805 1 A3 CLAMP 1 DGA0 92 2 8 GIN_A0 3415 100R/PM5/ARV241 DGA1 91 3 B 3403 150R/PM5/0805 DGA2 90 4 7 GIN_A1 DGA3 89 1 A2 IICSDA IICSDA 1 2 29 SDA DGA4 88 2 6 GIN_A2 IICSCL IICSCL 30 SCL DGA5 87 3 G 1 2 31 A0 DGA6 86 4 5 GIN_A3 32 A1 DGA7 85 A1 3404 AD9884AKS-140 8 GIN_A4 R 47N/0805 2431 150R/PM5/080(5680R recommended) 7 GIN_A5 6 GIN_A6 7 RAIN 5 GIN_A7 15 GAIN 22 BAIN GIN_A[0..7] 1 3418 100R/PM5/ARV241 2 DGB0 82 3417 100R/PM5/ARV241 3 8 GIN_B0 DGB1 81 4 47N/0805 2432 DGB2 80 1 7 GIN_B1 47N/0805 2433 DGB3 79 2 127 REFIN DGB4 78 3 6 GIN_B2 0.2 V/div AC 0.2 V/div AC 0.2 V/div AC 2 V/div AC 126 REFOUT DGB5 77 4 5 uS/div 5 uS/div 5 uS/div 5 uS/div DGB6 76 5 GIN_B3 DGB7 75 A6 7331-7 8 GIN_B4 2436 36 NC 7 GIN_B5 100N/0805 37 NC A7 38 NC 6 GIN_B6 5 GIN_B7 3420 100R/PM5/ARV241 GIN_B[0..7] 1 HS-MCU HS-MCU 40 HSYNC DBA0 72 2 8 RIN_A0 3419 100R/PM5/ARV241 VS-MCU VS-MCU 41 COAST DBA1 71 3 44 CKEXT DBA2 70 4 7 RIN_A1 (FROM MCU) 45 FILT DBA3 69 1 +3.3V_PLL 3409 10K/PM5/0805 DBA4 68 2 6 RIN_A2 3N9/0805 2437 DBA5 67 3 DBA6 66 4 5 RIN_A3 DBA7 65 8 RIN_A4 (TO MUX.-->SAA6721) 5 GND 7 RIN_A5 6 GND 9 GND 6 RIN_A6 12 GND 3410 13 GND 5 RIN_A7 3K3/PM5/0805 14 SOGIN +3.3V_PLL 17 GND RIN_A[0..7] 1 3422 100R/PM5/ARV241 39N/0805 2438 20 GND 2 21 GND DBB0 62 3421 100R/PM5/ARV241 3 8 RIN_B0 24 GND DBB1 61 4 26 GND DBB2 60 1 7 RIN_B1 2 V/div AC DBB3 59 2 5 uS/div DBB4 58 3 6 RIN_B2 DBB5 57 4 DBB6 56 5 RIN_B3 DBB7 55 8 RIN_B4 7 RIN_B5 6 RIN_B6 iic address: 99h read 5 RIN_B7 iic address: 98h write 46 NC DATACK 115 3423 100R/PM5/ARV241 RIN_B[0..7] 118 SOGOUT /DATACK 116 DATACK_ADC 117 HSOUT 3425 33R/PM5/0805 (level of HS, COAST cannot exceed 3.3V) GND GND A11 +3.3V_9884 GND GND set CLAMP Low at power saving mode GND GND 3427 & 5V tolarence? GND GND 33R/PM5/0805 GND GND GND GND A9 GND GND GND GND GND GND 35 63 1 2624 39 73 100N/0805 42 83 7403 47 93 7602 49 103 1 /OE 51 113 2A 52 119 3 GND 53 121 122 123 2 VCC 5 HS_ADC Y4 74AHC1G125DCK 3623 22R/PM5/0805 A10 Back Forward Schematic Diagram (Scaling) Waveforms 170B LCD 49 Go to cover page 3619 22R/PM5/ARV241 MA[0..10] 8 BA MEM_A0 7 1 MA0 MEM_A1 6 MEM_A2 5 2 MA1 MEM_A3 3 MA2 MEM_A4 OV2 BLUE MEM_A5 4 MA3 GREEN MEM_A6 BIN_B[0..7] OV1 RED MEM_A7 3620 22R/PM5/ARV241 A16 3215 A17 3216 A25 7631-5 A26 7631-2 A27 7631-15 GIN_B[0..7] OV0 8 RIN_B[0..7] MEM_A8 7 1 MA4 2 V/div AC 2 V/div AC MEM_A9 6 5 uS/div 5 mS/div BIN_A[0..7] MEM_A10 5 2 MA5 GIN_A[0..7] A30 3618-8 RIN_A[0..7] 3 MA6 0.02 V/div AC 4 MA7 5 uS/div 3621 22R/PM5/ARV241 8 7 1 MA8 6 5 2 MA9 3 MA10 RIN_B0 RIN_B1 RIN_B2 RIN_B3 RIN_B4 RIN_B5 RIN_B6 RIN_B7 GIN_B0 GIN_B1 GIN_B2 GIN_B3 GIN_B4 GIN_B5 GIN_B6 GIN_B7 BIN_B0 BIN_B1 BIN_B2 BIN_B3 BIN_B4 BIN_B5 BIN_B6 BIN_B7 4 C5 RIN_A0 B5 RIN_A1 D5 RIN_A2 A5 RIN_A3 C6 RIN_A4 B6 RIN_A5 A6 RIN_A6 C7 RIN_A7 B2 GIN_A0 A2 GIN_A1 C3 GIN_A2 B3 GIN_A3 A3 GIN_A4 C4 GIN_A5 B4 GIN_A6 A4 GIN_A7 E2 BIN_A0 E3 BIN_A1 D1 BIN_A2 D2 BIN_A3 D3 BIN_A4 C1 BIN_A5 C2 BIN_A6 B1 BIN_A7 A20 MEM_A0 C20 MEM_A1 D20 MEM_A2 E19 MEM_A3 F18 MEM_A4 E17 MEM_A5 E18 MEM_A6 C19 MEM_A7 C18 MEM_A8 D18 MEM_A9 B19 MEM_A10 BGA_CASE 0.01 V/div AC 0.02 V/div AC 0.02 V/div AC 5 uS/div 50 nS/div 20 uS/div BGA_CASE G4 G2 G3 G1 M4 M1 W14 V14 Y15 W13 V13 Y14 A19 J10 J11 J12 J13 K10 K11 K12 K13 L11 A29 3641 A31 3618-2 F1 F2 F3 E1 E4 K3 J1 J4 J2 H1 H2 H3 L3 L2 L4 L1 K1 K2 7601 K8 K9 0.01 V/div AC 50 nS/div J9 VPA0 L8 MD[0..47] (TO SDRAM) J8 VPA1 L9 H8 VPA2 L10 H9 VPA3 M20 H10 VPA4 M19 H11 VPA5 N20 H12 VPA6 N19 H13 VPA7 P19 T1 VPB0 R19 R3 VPB1 T20 R2 VPB2 T19 R1 VPB3 T18 P3 VPB4 R18 P2 VPB5 P18 P4 VPB6 P17 P1 VPB7 N18 W1 VPC0 M18 V2 VPC1 M17 V1 VPC2 L19 U2 VPC3 E20 U1 VPC4 F20 T3 VPC5 G20 T2 VPC6 H20 T4 VPC7 J20 Y4 VPD0 K19 V4 VPD1 K20 Y3 VPD2 L20 W3 VPD3 K17 V3 VPD4 K18 Y2 VPD5 J19 W2 VPD6 J18 Y1 VPD7 H19 W7 VPE0 H18 V7 VPE1 G18 Y6 VPE2 F19 W6 VPE3 A12 V6 VPE4 B12 Y5 VPE5 A13 W5 VPE6 B13 V5 VPE7 A14 Y9 VPF0 B14 U9 VPF1 A15 W9 VPF2 B15 V9 VPF3 A16 Y8 VPF4 C15 W8 VPF5 C14 V8 VPF6 D14 Y7 VPF7 C13 Y12 OVB2 C12 V11 OVB1 D12 W11 OVB0 C11 U11 OVA2 B7 Y11 OVA1 A7 Y10 OVA0 B8 W10 A8 V10 A0 B9 F4 A1 A9 K4 A2 B10 R4 A3 A10 U6 A4 B11 U10 A5 A11 U15 A6 D10 R17 A7 C10 L17 A8 D9 F17 A9 C9 D15 A10 C8 D11 BA D7 D6 DGND L12 U16 DGND L13 DGND DGND DGND DGND DGND DGND DGND DGND DGND DGND DGND MD0 DGND DGND MD1 PAR1 1 1 PAR0 DGND DGND MD2 PAR3 1 PAR2 DGND MD3 PAR4 PAR0 4 5 3601 DGND DQ0 MD4 PAR6 1 1 PAR5 PAR1 3 6 3602 DGND DQ1 MD5 1 1 PAR7 PAR2 2 7 3603 DGND DQ2 MD6 PAG1 1 1 PAG0 PAR3 1 8 3604 DGND DQ3 MD7 PAG3 1 PAG2 PAR4 22R/PM5/ARV241 1 8 3605 PAR0 DQ4 MD8 PAG4 1 PAR5 2 7 3606 PAR1 DQ5 MD9 PAG6 PAG0 PAR6 3 6 3607 PAR2 DQ6 1 1 PAG5 0.02 V/div AC PAG1 PAR7 4 5 3608 PAR3 DQ7 MD10 PAB1 1 1 PAG7 50 nS/div PAG2 22R/PM5/ARV241 1 8 3609 PAR4 DQ8 MD11 PAB3 1 1 PAB0 PAG3 PAB0 2 7 3610 PAR5 DQ9 MD12 PAB4 1 PAB2 PAG4 PAB1 3 6 3611 PAR6 DQ10 MD13 PAB6 1 PAG5 PAB2 4 5 3612 PAR7 DQ11 MD14 PAG6 PAB3 22R/PM5/ARV241 1 8 PAG0 DQ12 MD15 PBR1 1 1 PAB5 PAG7 PAB4 2 7 PAG1 DQ13 MD16 PBR3 1 1 PAB7 PAB5 3 6 PAG2 DQ14 MD17 PBR4 1 1 PBR0 PBR0 PAB6 4 5 PAG3 DQ15 MD18 PBR6 1 PBR2 PBR1 PAB7 4 5 PAG4 DQ16 MD19 1 PBR2 3 6 PAG5 DQ17 PBG1 PBR3 PBG0 2 7 PAG6 DQ18 MD20 PBG3 1 1 PBR5 PBR4 PBG1 1 8 PAG7 DQ19 MD21 PBG4 1 1 PBR7 PBR5 PBG2 22R/PM5/ARV241 4 5 PAB0 DQ20 MD22 PBG6 1 1 PBG0 PBR6 PBG3 3 6 PAB1 DQ21 MD23 1 PBG2 PBR7 PBG4 2 7 PAB2 DQ22 MD24 PBB1 1 PBG5 1 8 PAB3 DQ23 MD25 PBB3 PBB0 PBG6 22R/PM5/ARV241 4 5 PAB4 DQ24 MD26 PBB4 1 1 PBG5 PBB1 PBG7 3 6 PAB5 DQ25 MD27 PBB6 1 1 PBG7 PBB2 2 7 PAB6 DQ26 MD28 1 1 PBB0 PBB3 1 8 PAB7 DQ27 MD29 PCLK 1 PBB2 PBB4 22R/PM5/ARV241 4 5 PBR0 DQ28 1 PBB5 3 6 PBR1 DQ29 MD30 PDE PBB6 2 7 PBR2 SAA6721 DQ30 MD31 1 1 PBB5 PBB7 22R/PM5/ARV241 1 8 PBR3 DQ31 MD32 1 1 PBB7 22R/PM5/ARV241 1 8 PBR4 DQ32 MD33 1 2 7 PBR5 DQ33 MD34 3 6 PBR6 DQ34 MD35 1 PHS 4 5 PBR7 DQ35 MD36 1 8 PBG0 DQ36 MD37 1 22R/PM5/ARV241 2 7 PBG1 DQ37 MD38 3 6 PBG2 DQ38 MD39 1 1 PVS 4 5 PBG3 DQ39 22R/PM5/ARV241 1 8 PBG4 DQ40 MD40 2 7 PBG5 DQ41 MD41 3 6 PBG6 DQ42 MD42 4 5 PBG7 DQ43 MD43 22R/PM5/ARV241 1 8 PBB0 DQ44 MD44 2 7 PBB1 DQ45 MD45 3 6 PBB2 DQ46 MD46 4 5 PBB3 DQ47 MD47 PBB4 DQ48 +3.3VD (TO PANEL INTERFACE) +3.3VS PBB5 DQ49 PBB6 DQ50 +3.3VD 2605 PBB7 DQ51 VDD DQ52 1 2 1 2 VDD DGND DQ53 VDD DGND DQ54 5601 5602 VDD DGND DQ55 VDD DGND DQ56 VDD PLLVSS DQ57 VDD VSS DQ58 VDD VSS DQ59 VDD VSS DQ60 VDD VSS DQ61 VDD VSS DQ62 VDD VSS DQ63 PLLVDD VSS DGND VSS DGND VSS VSS VSS VSS VSS OVCLK CLK RSTn INTn MCLKI DQMn WEn CASn RASn MCLKO SCL SDA SAD TCLK TRSTn TDI TMS TDO PCLK PVS PDE PHS VCLK CLAMP GAINC VVS VHS OVVS OVHS OVACT NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC DGND DGND DGND DGND DGND DGND DGND DGND 1 BLM31P500S 1 BLM31P500S 1 BGA_CASE N13 N12 2601 2604 N11 N10 V17 D8 D13 D17 H17 N17 U17 U13 U8 U4 N4 H4 D4 A1 Y16 Y19 Y20 Y18 W20 T17 D16 C17 A18 A17 V18 W18 Y17 U19 W17 U18 V19 W19 Y13 V12 U12 W12 N1 N2 N3 M3 M2 W16 V15 V16 J3 U3 W4 U5 U7 U14 W15 V20 U20 R20 P20 C16 B16 B17 B18 B20 D19 G19 G17 J17 L18 M8 M9 M10 M11 M12 M13 N8 N9 100N/0805 A29 100N/0805 100N/0805 +5VD +5VD 2 2 2 BGA_CASE (O/P) OVCLK OVACT (I/P) A16 1 1 IICSCL 3641 /OVHS (O/P) A17 VHS 5631 5632 /OVVS (O/P) VS-MCU BLM31P500S BLM31P500S VCC 4 OUT 3 VCLK 100R/PM5/0805 2632 3634 1U/0805 1601 /RST_6721 1K/PM5/ARV241 2602 1 2603 27MHZ/OSC/SMD 3614 2 2 10U/1206 100N/0805 3618 5 6 7 8 A26 2 GND 100R/PM5/0805 2606 1 8 PDE PDE 1 A27 Showing OSD menu on the screen PCLK PCLK 2 1 NC 2 7 PVS PVS PHS PHS 100P/0805 3 6 1 2631 1U/0805 IICSDA 3615 4 5 7631 2 100R/PM5/0805 2607 A31 22R/PM5/ARV241 4 3 2 1 2 3635 1 VSSA VSS 16 0R/PM5/ARV241 2 PIX R 15 100P/0805 /INT_6721 A30 OVCLK 3 TEST G 14 4 5 OV0 4 VDDA B 13 OV1 /OVHS 5 /HFLB 12 3 6 OV2 /RST_OSD 6 /RST FBKG 11 OVACT 100R/PM5/0805 3632 7 SDA INT 10 2 7 8 SCLK 9 /VFLB 1 8 VDD +3.3VD +3.3VS 3616 MCLK 2.3V A28 22R/PM5/0805 IICSDA Showing OSD menu on the screen 2608 IICSCL 22P/0805 5 4 6 3 1 2 3617 MTV130P 7 2 5603 470P/0805 4 5 /RAS 100R/PM5/0805 A25 8 1 /CAS 3633 1 BLM31P500S 2610 2611 1 100N/0805 2612 1 100N/0805 2613 1 100N/0805 2614 1 100N/0805 2615 1 100N/0805 2616 1 100N/0805 2617 1 100N/0805 2618 1 100N/0805 2619 1 100N/0805 2620 1 100N/0805 2621 1 100N/0805 2622 1 100N/0805 2623 3 6 /WE /OVVS DQM 2609 2 7 3636 10K/PM5/ARV241 1 8 2 100N/0805 2 2 2 2 2 2 2 2 2 2 2 2 22R/PM5/ARV241 10U/1206 DEFAULT: HIGH-->SEL. DVI, H/V OUTPUT DISABLED BECAUSE MCU IS POLLING DVI,D-SUB INTERFACE PERIODICALLY, THE POLLING ACTION CANNOT CAUSE H/V SIGNAL INTERRUPTION. THEREFORE, RAW H/V SIGNALS SELECTION FOR MODE DETECTION CANNOT BE CONNECTED TO THE SAME SWITCH AS H/V SIGNALS FOR DATA PATH TIMING REFERENCE. Back Forward 50 170B LCD Schematic Diagram (MCU) Waveforms Go to cover page +5V +5VD +5V 2201 7201 2263 1U/0805 100N/0805 A13 7203-7 A14 7203-18 3 GND VS 1 A10 7602-4 A11 7403-115 A12 7203-6 VO 2 +3.3VD 8 7 6 5 +5V 3204 Normal Low 3217 4K7/PM5/ARV241 10K/PM5/0805 3201 LM61CIM 5V 2K2/PM5/0805 1 2 2203 2202 1 3202 NEW A12 10U/16V/RV2 10U/16V/RV2 Normal Low 6201 1202 2K2/PM5/0805 BAS32L 1 2 3 4 A18 7203 (SW1) /MAIN_5V_ON 1 3.24V SCDT EEPROM_WP 1 PC0/HSDIV PA0/OCMP 42 LED_R 2 PC1/VA TEST/VPP 41 LED_G 3 PC2/PWM2 40 2 1 4 PC3/PWM3 /RESET 39 2 1 AUDIO_PWR_CTL 5 PC4/PWM4 PA1/RDI 38 2 V/div AC 2 V/div AC 0.1 V/div AC 0.1V/div AC 2 V/div AC KEY 6 PC5/PWM5 PA2/TDO 37 5 uS/div 50 nS/div 2 uS/div 2 uS/div 2 uS/div 3 1 3207 7 PC6/PWM6 36 3218 1K2/PM5/0805 HS_IN 8 PC7/PWM7 PA3 35 3208 BRIGHT_ADJ 3212 1K/PM5/0805 VS_IN 9 PB7/AD3/PWM1 PA4 34 ADC_PDN 1M/PM5/0805 HEAD-2.54-3X1 1K/PM5/0805 VOLUME 3213 1K/PM5/0805 10 PB6/AD2/PWM0 PA5 33 SI_PDN 1220 2207 A15 11 PB5/AD1 PA6 32 //PRASNT_E6L7_2112V_ON(SW2) 10U/16V/RV2 12 PB4/AD0 OSCIN 31 /BACKLIGHT_ON H:ANALOG AUDIO_DETECT THERMO 4.26V A13 13 VDD OSCOUT 30 L:DIGITAL 2 1 +5V 14 USBVCC PA7/BLANKO 29 DVI_SEL DVI_SEL 24MHZ 1.6V:A&D 3209 SYNC/AUDIO_DET 5221 BLM31P500S 15 USBDM PB3/SDAI 28 3K3/PM5/0805 5220 16 USBDP PB2/SCLI 27 2208 +5V 17 VSS PB1/SDAD 26 22P/0805 2204 BLM31P500S 18 HSIN PB0/SCLD 25 2209 19 VSIN PD6/CLAMPO 24 22P/0805 20 PD0/VSO PD5/HFBACK 23 1205 100N/0805 2205 2206 21 PD1/HSO PD4/ITB 22 header_2.54mm 100N/0805 10U/1206 PD3/ITA/VFBACK VCC 16 PD2/CSYNCI HIN_DSUB 2 7202 HS_IN 1 2 4 3 1Y 4 3 SI_HS 5 2Y 7 3203 A10 A11 VIN_DSUB 6 1A 3Y 9 VS_IN A16 3215 A17 3216 A18 7203-33 A19 3203-26 A20 7203-22 100K/PM5/0805 SI_VS 11 1B 4Y 12 10 2A 6202 14 2B HS_ADC 13 3A VHS ( TO SAA6721 ) ST72774 A19 +5V 1 2 SI_DE 3B DATACK_ADC 4A VCLK A14 3221 BAS32L (PULL DOWN IN SiI161) SI_ODCK 4B 1 8 IICSDA IICSCL (PULL DOWN IN SiI151) DVI_SEL 1 8 GND A/B A16 2 7 DDCSDA_DSUB 15 G DDCSCL_DSUB 3206 HS-MCU 3 6 100K/PM5/0805 VS-MCU 3215 4 5 1K/PM5/0805 74CBT3257 HS-MCU 3219 100R/PM5/ARV241 (SAA6721 ACCEPT VIH(max)= VDDD + 0.5V, LESS THAN 3.8V) 3216 VS-MCU CLAMP 1K/PM5/0805 1 2 2211 2210 2 V/div AC 2 V/div AC /DVI_5V_ON 5 uS/div 2 uS/div 100P/0805 100P/0805 2 V/div AC 2 V/div AC 0.5 V/div AC /INT_6721 5 uS/div 5 mS/div 50 nS/div 22R/PM5/0805 +5V (LVC157: PIN15=HIGH, O/P= LOW) Analog Low A17 0.02V 3220 1 8 +5V 2 7 3222 10K/PM5/0805 3 6 1 2 4 5 1K/PM5/ARV241 +5V_DSUB +5V 5201 BLM31P500S A20 1 7204 A15 7203-19 +18V +18V +5V 8 VCC PRE 1 5230 7 /WC E1 2 2220 100N/0805 2221 100N/0805 BLM21B222SB 2212 EEPROM_WP 6 SCL E2 3 100N/0805 IICSCL 5 SDA 4 IICSDA VSS 5202 BLM21B222SB 2 18V_ON 18V_ON 2222 100N/0805 2223 100N/0805 ST24C16/DIP 5203 BLM21B222SB 18VCC (AUDIO) 2224 100N/0805 2225 100N/0805 5204 BLM21B222SB AUDIO_PWR_CTL +5V up--0.45V/down--0.90V/left--2.00V/right--2.50V/auto--3.61V/osd--4.09V 2 V/div AC up--1k5/down--3k3/left--10k/right--15k/auto--39k/osd--68k 5 mS/div 2226 100N/0805 2227 100N/0805 1201 5205 BLM21B222SB 3225 15K/PM5/0805 1 1 KEY 3226 100R/PM5/0805 2 1 2228 100N/0805 2229 100N/0805 +5V +5V 2240 100N/0805 3 1 2230 2241 47U/16V/RV2 3235 3241 15K/PM5/0805 4 1 10N/0805 330R/PM5/0805 3236 1K/PM5/0805 5 1 1 + 6 1 5206 BLM21B222SB 3248 1K/PM5/0805 7 1 7218 8 1 3227 BC858C 9 1 2231 100N/0805 2232 100N/0805 4K7/PM5/0805 3228 3229 7210 1K/PM5/0805 10 1 2 1K/PM5/0805 2244 3242 LED_R 100N/0805 910R/PM5/0805 11 1 AUDIO_DETECT LED_G LEOCO-2011P11H000 5210 5207 BLM21B222SB 2242 BC858C 7212 TP26-36 BLM21B222SB 47U/16V/RV2 7213 BC848C 3230 7211 100R/PM5/0805 + BC848C 2233 100N/0805 2234 100N/0805 G_SOG 3243 3246 8K2/PM5/0805 1K/PM5/0805 5208 BLM21B222SB 3231 3247 0R/PM5/0805 100R/PM5/0805 2235 100N/0805 2236 100N/0805 BC848C 5209 BLM21B222SB 3239 3244 7216 1K8/PM5/0805 6K2/PM5/0805 PMBT2369 VOLUME 3237 2243 2237 100N/0805 2238 100N/0805 3K/PM5/0805 100N/0805 10k, optimized for fall time 3238 470, optimized for rise time 1K/PM5/0805 7214 7215 3245 BC858C BC858C 10K/PM5/0805 2245 100N/0805 3240 2K7/PM5/0805 Back Forward Schematic Diagram (FRAME BUFFER) Schematic Diagram (Power saving) 170B LCD 51 +3.3V Go to cover page MD[0..47] MD[0..47] MA[0..10] MA0 +3.3VM MA[0..10] +3.3VM +3.3VM (+) BA MA1 2901 /RAS MA2 7651 7652 7653 7901 /CAS MA3 SDRAMX16M SDRAMX16M SDRAMX16M SI4435 47U/16V/RV2 /WE MA4 DQM MA5 1 VCC VCC 38 MD0 1 VCC VCC 38 MD16 1 VCC VCC 38 MD32 1 S D 8 +3.3VD MCLK MA6 7 VCC VCC 44 MD1 7 VCC VCC 44 MD17 7 VCC VCC 44 MD33 2 S D 7 MA7 13 VCC MD2 13 VCC MD18 13 VCC MD34 3 S D 6 (+) Back 25 VCC D0 2 MD3 25 VCC D0 2 MD19 25 VCC D0 2 MD35 4 G D 5 2902 MA8 D1 3 MD4 D1 3 MD20 D1 3 MD36 MA9 MA0 21 A0 D2 5 MD5 MA0 21 A0 D2 5 MD21 MA0 21 A0 D2 5 MD37 47U/16V/RV2 MA10 MA1 22 A1 D3 6 MD6 MA1 22 A1 D3 6 MD22 MA1 22 A1 D3 6 MD38 MA2 23 A2 D4 8 MD7 MA2 23 A2 D4 8 MD23 MA2 23 A2 D4 8 MD39 +5V 7902 +3.3VM MA3 24 A3 D5 9 MA3 24 A3 D5 9 MA3 24 A3 D5 9 SI4435 MA4 27 A4 D6 11 MD8 MA4 27 A4 D6 11 MD24 MA4 27 A4 D6 11 MD40 2903 MA5 28 A5 D7 12 MD9 MA5 28 A5 D7 12 MD25 MA5 28 A5 D7 12 MD41 1U/0805 1 S D 8 +5VD MA6 29 A6 MD10 MA6 29 A6 MD26 MA6 29 A6 MD42 3901 2 S D 7 MA7 30 A7 D8 39 MD11 MA7 30 A7 D8 39 MD27 MA7 30 A7 D8 39 MD43 1K/PM5/0805 3 S D 6 2904 MA8 31 A8 D9 40 MD12 MA8 31 A8 D9 40 MD28 MA8 31 A8 D9 40 MD44 4 G D 5 47U/16V/RV2 MA9 32 A9 D10 42 MD13 MA9 32 A9 D10 42 MD29 MA9 32 A9 D10 42 MD45 (+) MA10 20 A10 D11 43 MD14 MA10 20 A10 D11 43 MD30 MA10 20 A10 D11 43 MD46 BA 19 A11 D12 45 MD15 BA 19 A11 D12 45 MD31 BA 19 A11 D12 45 MD47 +5V D13 46 D13 46 D13 46 14 DQM0 D14 48 14 DQM0 D14 48 14 DQM0 D14 48 (SW1) (+) 36 DQM1 D15 49 36 DQM1 D15 49 36 DQM1 D15 49 2905 /MAIN_5V_ON 17 RAS GND 4 17 RAS GND 4 17 RAS GND 4 47U/16V/RV2 16 CAS GND 10 16 CAS GND 10 16 CAS GND 10 Normal Low 15 WE GND 26 15 WE GND 26 15 WE GND 26 18 CS GND 41 18 CS GND 41 18 CS GND 41 (Vgs MUST < 8V) 35 CLK GND 47 35 CLK GND 47 35 CLK GND 47 34 CKE GND 50 34 CKE GND 50 34 CKE GND 50 3261 1261 220R/PM5/0805 BRIGHT_ADJ 1 1 +5V 3262 10K/PM5/0805 3264 1 2 100R/PM5/0805 1 3 7261 BSR14 1 4 1 5 1 6 3 1 7 +3.3VM +3.3VD /BACKLIGHT_ON Noemal Low 1 1 8 +3.3VM +3.3VM 2261 2262 LEOCO-2011P08H000 5651 100N/0805 100N/0805 1 2 2 BLM31P500S 18VCC 2651 100N/0805 2652 100N/0805 2653 100N/0805 2654 100N/0805 2655 100N/0805 2656 100N/0805 2657 10U/1206 2659 100N/0805 2660 100N/0805 2661 100N/0805 2662 100N/0805 2663 100N/0805 2664 100N/0805 2665 10U/1206 2666 100N/0805 2667 100N/0805 2668 100N/0805 2669 100N/0805 2670 100N/0805 2671 100N/0805 2672 10U/1206 2658 100N/0805 Forward 52 170B LCD Inverter Schematic Diagram (Ambit) Schematic Diagram (Control panel) Go to cover page J1 1 2 3 4 5 6 1901 B6 1 1 R18 2 C11 C/18P/1808 1902 B6 1 2 1903 C6 2 R/0 1904 C6 3 C21 N13 J2 1905 D6 4 5 VBRI VBRI 1906 D6 ON/OFF C/18P/1808 1 1908 B3 2 T1(LL-17) 2 1 N14 1909 E2 6 VCC 1 F1 2 1910 C2 7 VCC-A N15 3 2901 C3 4 8 F/4A/1206 1 1 3901 B5 Q1 J/B8B-PH-SM3-TB VCC Q/DTA124EUA FRONT PANEL 3902 B5 SB: 53591 (8x) + C1 22k J/SM04(4.0)B-BHS-1-TB A PB: 53601 A 3903 C5 C/47uF 3904 D5 N12 2 3905 D5 3 D10 D3 4 3 3906 E5 5 2 1 D/BAV99 3910 C4 6 7C18 2C/4.7u/1206A 2 1 N22 N8N9N9 6901 E4 N16 3 Q3 N10N1N111 + 6902 C4 D/LS4148 N1 22k Q/SI3457DV 6 C16 R22 REF-1 F901 C2 N3 R/191 ohm 1 2 2 Q2 5 L1 2 1 1901 F902 C2 UP 3901 SKHHAR2530 1 Q/3904 3 VCC-A 4 2 N6N7 N7 1 2 1 F903 C2 1K5 R1 1 1 VCC-A L/245uH 1 C/0.1u F904 C2 R/205K 1902 1 SKHHAR2530 F905 D2 R2 DOWN 3902 R/68.1K + 1 1 2 R23 B 3K3 B F906 D2 C2 1 R19 R/1.6M/0805 1903 F907 D2 C/3.3u/1206A SKHHAR2530 R11 3 D2 R/910/1206 Q/2N7002 1908 LEFT 3903 F908 D2 R/1.2K D/SS24 ESB64623 10K Q/2SC1623-L6.72 3 3 F909 D2 + 6902 1904 2 3 1 22k Q5 Q6 VBRI-B 22 1 R24 2 BAV99 SKHHAR2530 F910 D2 RIGHT 3904 2 Q/2SD1802 2 1 VBRI-B VBRI 2901 15K F911 D2 100n 2 N4 2 2 12 1 R/287K 654 1905 F912 E2 321 SKHHAR2530 12 Q4 Q8 Q/2SD1802 1 1 R32 3910 AUTO 3905 F913 E2 R/75k 220R 39K C15 22k Q14 F914 F2 C/104K 1906 1 N42 2 1 1 SKHHAR2530 F915 F2 R6 OSD 3906 R/5.1K D1 DTA124E 1910 68K F916 F2 D/LS4148 JFE6127H 1 2 1 F901 VBRI-B 1 C29 R3 1 13 N43 R8 R20 C +18V C C/104K R/220 ohm VBRI-B 2 3 R/910/1206 R/910/1206 1 2 F902 2 2 18V_ON 3 F903 2 R5 N45 2 2 18VCC R/10K 2 GND 4 F904 GND 5 F905 11 N5 12 N17 C12C/18P/1808 AUDIO_PWR_CTL 6 F906 REF-1 REF-1 1 1 2 7 F907 C3 N20 KEY 8 F908 C4 C/1.0u C/103K R7 C8 2 C28 J3 D AUDIO_DETECT D R/2M C/0.1u 2 1 N21 N19 C/18P/1808 N38 1 LED_R 9 F909 2 2 1 N37 2 1N39 10 F910 1 R15 T2(LL-17) D9 3 LED_G 3 1 R16 R/487K D/BAV99 REF-1 16 C10 2 R/52.3k N40 3 11 F911 G Y 15 C/105Z C/4.C72u7/1206AN24 4 14 VBRI-A VOLUME K 2 6901 13 L-3WYGW 12 2 U1 1 + 11 U/BA9741 R36 10 R/191 ohm 9 2 J/SM04(4.0)B-BHS-1-TB REF SCP IN+_1 IN+_2 IN-_2 FEB_1 FEB_2 DTC_1 DTC_2 OUT_1 OUT_2 VCC 2 N18 2 N33 3 4 E E 5 REF-1 1 6 7 2 1 Q10 1909 Q/SI3457DV 6 N34N3N535 N36 JFE6126H F912 1 IN-_1 GND C5 5 2 1 C/104Z R34 CT RT VCC-A VCC-A 4 2 N31N32 N132 L2 2 C25 2 F913 R21 2 1 + 1 1 VCC-A L/245uH 1 1 R37 3 F914 C14 R/1.6M/0805 2 2 1 C/47uF 11 R12 1 4 F915 12 R/1.2K 3 C/0.1u 4N23 R/910/12063D6Q733 5 F916 15 R/910/1206D/SS24 6 VBRI-A 2 R38 1 VBRI 7 Q/2SC1623-L6.7 R/287K 8 N22 N2N72N828 2 Q13 Q12 12 C7 REF-1 Q/2SD1802 3 1 22k 2 F F C9 C6 C/103K C/105Z 2 12 1 1 1 R/12K C/471J R9 REF-1 2 2 Q/2SD1802 1 R39 R/75K (NPO) Q11 2 22k 1 1 2 Q9 2N26 2 1 N30 2 Q/2N7002 R17 N29 1 DTA124E R/910/1206 2 1 13 N44 N46 2 1 1 3 2 2 R10 2 D5 2 D/LS4148 R/5.1K C30 R13 C/104K R/10K G G 2 2 VBRI-A VBRI-A 1 N25 2 NOTES: STANDS FOR CHIP COMPONENT 2 C24 R4 12 N41 C/104K R/220 ohm 1 R28 1 C13 2 C/0.1u 1 R/487K R14 R/2M 1 2 R29 2 H H R/52.3K 2 1 2 3 4 5 6 Back Forward Main panel C.B.A. Copper trace Back to Main panel C.B.A. Main panel C.B.A. Component position Back to Main panel C.B.A. Job: yy-5328d-lynn-0629 Ste Lyr: gpc Main panel C.B.A. Back side Back to Main panel C.B.A. Schematic Diagram (TMDS receiver) Main panel C.B.A. 170B LCD 53 3501 47R/PM5/0805 Go to cover page 3502 47R/PM5/0805 3503 0R/PM5/0805 SI_HS (SI_HS--> to PLD for Hsync filtering) 3504 0R/PM5/0805 SI_VS & SI_HS, for MODE DETECTION SI_VS SI_VS & SI_DE, to SAA6721 R_A7 SI_DE 3515 47R/PM5/ARV241 R_A6 4 R_A5 SI_ODCK 3 5 RIN_A0 R_A4 2 R_A3 R_A0 1 6 RIN_A1 R_A2 R_A1 4 R_A1 R_A2 3 7 RIN_A2 R_A0 R_A3 2 R_A4 1 8 RIN_A3 Main panel C.B.A. Copper trace G_A7 R_A5 Main panel C.B.A. Component side G_A6 R_A6 5 RIN_A4 Main panel C.B.A. Back side R_A7 6 RIN_A5 R_B0 R_B1 7 RIN_A6 R_B2 2501 R_B3 8 RIN_A7 2502 R_B4 2503 R_B5 3516 47R/PM5/ARV241 RIN_A[0..7] R_B6 3517 RIN_B[0..7] R_B7 4 47R/PM5/ARV241 GIN_A[0..7] 3 GIN_B[0..7] B_B0 470P/0805 G_A0 2 5 RIN_B0 BIN_A[0..7] B_B1 470P/0805 G_A1 1 BIN_B[0..7] 470P/0805 G_A2 4 6 RIN_B1 G_A3 3 G_A4 2 7 RIN_B2 G_A5 1 G_A6 8 RIN_B3 G_A7 5 RIN_B4 G_B0 G_B1 6 RIN_B5 G_B2 G_B3 7 RIN_B6 G_B4 50 7501 G_B5 8 RIN_B7 49 G_B6 48 G_B7 47 46 B_A0 45 B_A1 44 B_A2 43 B_A3 42 B_A4 41 B_A5 40 B_A6 39 B_A7 38 37 B_B0 36 B_B1 35 B_B2 34 B_B3 33 B_B4 32 B_B5 31 B_B6 30 B_B7 29 28 27 26 QO1 3518 47R/PM5/ARV241 QO0 3519 HSYNC 4 47R/PM5/ARV241 VSYNC 3 2 5 GIN_A0 DE 1 OGND 4 6 GIN_A1 ODCK 3 OVCC 2 1 CTL3 CTL2 CTL1 GND VCC QE23 QE22 QE21 QE20 QE19 QE18 QE17 QE16 OVCC OGND QE15 QE14 B_B2 51 QO2 QE13 25 G_A5 7 GIN_A2 B_B3 52 QO3 QE12 24 G_A4 B_B4 53 QO4 QE11 23 G_A3 8 GIN_A3 B_B5 54 QO5 QE10 22 G_A2 B_B6 55 QO6 21 G_A1 5 GIN_A4 B_B7 56 QO7 QE9 20 G_A0 57 OVCC QE8 19 6 GIN_A5 2504 58 OGND OGND 18 470P/0805 59 QO8 OVCC 17 7 GIN_A6 60 QO9 QE7 16 2505 61 QO10 QE6 15 2515 470P/0805 8 GIN_A7 470P/0805 62 QO11 QE5 14 63 QO12 QE4 13 3520 47R/PM5/ARV241 64 QO13 QE3 12 3521 G_B0 65 QO14 QE2 11 B_A7 4 47R/PM5/ARV241 G_B1 66 QO15 QE1 10 B_A6 3 G_B2 67 VCC QE0 9 B_A5 2 5 GIN_B0 G_B3 68 GND PDO 8 B_A4 1 G_B4 69 QO16 SCDT 7 B_A3 4 6 GIN_B1 G_B5 70 QO17 STAG_OUT 6 B_A2 3 G_B6 71 QO18 VCC 5 B_A1 2 7 GIN_B2 G_B7 72 QO19 GND 4 B_A0 1 73 QO20 SII161 PIXS 3 (TO MCU) 8 GIN_B3 R_B0 74 QO21 2 low, staggered O/P R_B1 75 QO22 ST 1 SCDT: high, DE active 5 GIN_B4 R_B2 PD R_B3 DFO 6 GIN_B5 R_B4 R_B5 7 GIN_B6 R_B6 SCDT SCDT Digital Low 8 GIN_B7 Analog High 3522 47R/PM5/ARV241 3523 4 47R/PM5/ARV241 3 2 5 BIN_A0 1 2516 4 6 BIN_A1 470P/0805 3 2 7 BIN_A2 3505 0R/PM5/0805 3506 10K/PM5/0805 1 8 BIN_A3 1, HIGH O/P DRIVE STRENGTH OGND 5 BIN_A4 QO23 OVCC 6 BIN_A5 AGND RX2+ 7 BIN_A6 RX2- AVCC 8 BIN_A7 AGND AVCC 3524 47R/PM5/ARV241 RX1+ RX1- AGND AVCC AGND RX0+ RX0- AGND RXC+ RXC- AVCC EXT_RES PVCC PGND RESERVED OCK_INV 76 3507 10K/PM5/0805 3508 0R/PM5/0805 3525 47R/PM5/ARV241 77 DFO= low, ODCK runs continuously 4 78 0, normal ODCK, use falling edge to latch data 3 79 2 80 1 81 4 82 3 83 2 84 1 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 5 BIN_B0 6 BIN_B1 R_B7 470P/0805 7 BIN_B2 2506 2511 470P/0805 8 BIN_B3 470P/0805 2507 3509 0R/PM5/0805 3510 10K/PM5/0805 5 BIN_B4 5501 DIGITAL 3V3 470P/0805 6 BIN_B5 BLM31P500S 2508 +3.3V reserved pin, tied high for normal operation 7 BIN_B6 470P/0805 5502 Back 2509 470P/0805 2510 RXB+ 8 BIN_B7 RXB- 2513 RXG+ 3511 470R/0805 PLL 3V3 BLM31P500S +3.3V 3526 47R/PM5/ARV241 10U/1206 RXG- RXR+ 2517 RXR- 10U/1206 RXC+ RXC- 5503 1 2 ANALOG 3V3 BLM31P500S +3.3V 3512 10K/PM5/0805 2519 10U/1206 (FROM MCU) /SI_PDN 3 (3.3V) Digital Low 1 1 Analog High 2514 SI_PDN 7502 10N/0805 (SI_PDN, POWER-ON state MMUN2211 is HIGH) 2 2 Forward 54 170B LCD Schematic Diagram (TTL to LVDS) Go to cover page +5TTL +5LVDS +5PLL +3.3VD +5VD install one resister 5016 5018 5019 BLM21B222SB BLM21B222SB BLM21B222SB 3117 : for Thine & TI 3016 : for NS 3117 3016 0R/PM5/0805 0R/PM5/0805 7012 1 56 PAR4 2 Vcc TxIN4 55 PAR3 PAR7 3 TxIN5 TxIN3 54 PAR2 2014 PAR5 4 TxIN6 TxIN2 53 220N/0805 PAG0 5 TxIN7 GND 52 PAR1 1012 PAR0 1 +5LVDS +5PLL PAG1 6 GND TxIN1 51 PAR6 21 32 +5TTL 3012 PAG2 7 TxIN8 TxIN0 50 SR0M 43 4R7/PM5/0805 PAG6 54 3011 3013 8 TxIN9 TxIN27 49 SR0P 1 65 4R7/PM5/0805 10K/PM5/0805 76 9 TxIN10 LVDS GND 48 FR0M SR1M 1 87 FR0P 98 10 Vcc TxOUT0- 47 FR1M SR1P 1 10 9 FR1P 11 10 PAG7 11 TxIN11 TxOUT0+ 46 SR2M 1 12 11 PAG3 13 12 PAG4 12 TxIN12 TxOUT1- 45 SR2P 1 14 13 15 14 2023 2018 2019 13 TxIN13 TxOUT1+ 44 SCLKINM 1 16 15 10U/1206 10U/1206 10U/1206 14 GND LVDS Vcc 43 1 17 16 2013 SCLKINP 18 17 PAG5 15 TxIN14 LVDS GND 42 220N/0805 1 19 18 PAB0 FR2M SR3M 20 19 PAB6 16 TxIN15 TxOUT2- 41 FR2P 1 5012 5013 FCLKINM SR3P 20 17 TxIN16 TxOUT2+ 40 1 CON20 FCLKINP FR0M 18 Vcc TxCLKOUT- 39 FR3M 1 FR3P FR0P PAB7 19 TxIN17 TxCLKOUT+ 38 1 BLM21B221SB BLM21B222SB PAB1 FR1M PAB2 20 TxIN18 TxOUT3- 37 1 FR1P 21 TxIN19 TxOUT3+ 36 1 FR2M 22 GND LVDS GND 35 1 FR2P PAB3 23 TxIN20 PLL GND 34 FCLKINM 1 PAB4 24 TxIN21 PLL Vcc 33 1 PAB5 FCLKINP 25 TxIN22 PLL GND 32 1 FR3M 26 TxIN23 PWR DWN 31 1 2017 FR3P 27 Vcc TxCLK IN 30 PCLK 220N/0805 1 PHS PDE PVS 28 TxIN24 TxIN26 29 TxIN25 GND 3118 0R/PM5/0805 3119 0R/PM5/0805 DS90C583MTD +5TTL 3118 : for Thine & TI 5017 3119 : for NS BLM21B222SB +12VL 1013 7013 5640 1 1 1 56 PBR4 BLM21B222SB 2 2 Vcc TxIN4 55 PBR3 1 3 PBR7 3 TxIN5 TxIN3 54 PBR2 +5LVDS +5PLL 2643 4 2024 PBR5 4 TxIN6 TxIN2 53 5020 1 220N/0805 5 220N/0805 PBG0 5 TxIN7 GND 52 PBR1 BLM21B222SB 5021 PBR0 BLM21B222SB 2646 5P_WAFER PBG1 6 GND TxIN1 51 PBR6 2040 47U/25V/RV2 PBG2 7 TxIN8 TxIN0 50 220N/0805 PBG6 8 TxIN9 TxIN27 49 2 PBG7 PBG3 9 TxIN10 LVDS GND 48 SR0M PBG4 10 Vcc TxOUT0- 47 SR0P 11 TxIN11 TxOUT0+ 46 SR1M PBG5 12 TxIN12 TxOUT1- 45 SR1P PBB0 13 TxIN13 TxOUT1+ 44 PBB6 14 GND LVDS Vcc 43 15 TxIN14 LVDS GND 42 PBB7 16 TxIN15 TxOUT2- 41 SR2M PBB1 17 TxIN16 TxOUT2+ 40 SR2P PBB2 18 Vcc TxCLKOUT- 39 SCLKINM 19 TxIN17 TxCLKOUT+ 38 SCLKINP PBB3 20 TxIN18 TxOUT3- 37 SR3M PBB4 21 TxIN19 TxOUT3+ 36 SR3P PBB5 22 GND LVDS GND 35 PHS 23 TxIN20 PLL GND 34 PVS 24 TxIN21 PLL Vcc 33 25 TxIN22 PLL GND 32 26 TxIN23 PWR DWN 31 2027 27 Vcc TxCLK IN 30 PCLK 220N/0805 PDE 28 TxIN24 TxIN26 29 TxIN25 GND DS90C583MTD 3014 Back Forward Exploded View 170B LCD 55 Go to cover page 3138 154 01780 18 REAR DOOR 3138 154 00570 3138 154 00620 BASE-TOP USB COVER-W/O-USB 20 22 3138 151 31020 3138 151 30290 HINGE PIVOT SHIELD-BASE 33 23 3 8238 277 06010 3138 157 50800 1063 MID-BUCKET ASSY INVERTER 3138 157 50990 37 SHIELD ASSY-MAIN PCB 3138 157 50220 3138 158 52400 21 POGO II 17"-MAIN PCB 1151 ASSY-5328 BASE BOTTOM ASSY 36 3138 153 20230 47 INSULATING PLATE 3138 157 50930 METAL FRAME ASSY-ADT 3138 151 30840 41 CONTACT SPRING-TOP 43 3138 151 30850 CONTACT SPRING-R/L 1061 8238 277 05330 LCD PANEL POGO II 17"-ADT 3138 154 01790 1 4 BEZEL 3138 157 50810 CHIN ASSY Back Forward 56 170B LCD Recommended Parts List Go to cover page PHILIPS 170B Type number: 170B1A/00 Recommended Parts indicated as below, Item Code number Description 7150 9322 140 14667 PHOTOCOUPLER TCET1103G 4P 450 3138 156 30090 CARTON 7151 9337 711 00686 IC TL431CLPRP 3P 451 3138 156 30100 FORM SHEET (FRONT) 7922 9351 861 60112 IC TDA7053A/N2 16P 452 3138 156 30110 FORM SHEET (BACK) 7941 9322 142 63667 IC PQ1CF2 5P 453 3138 156 20800 P.E.BAG-ANTI-STAT. 7204 9322 126 62682 IC M24C16-BN6 8P 1 3138 155 20450 QUICK SETUP GUIDE-170B 1391 3138 158 52410 EEPROM IC ASSY(7204) 1 3138 154 01790 BEZEL 1392 3138 158 52420 CPU WITH PROGRAM ASSY(7203) 3 3138 157 50800 MID-BUCKET ASSY 7003 8238 277 05300 IC LM2596SX-5.0 4 3138 157 50810 CHIN ASSY 7006 9322 158 38668 IC REGULATOR LM2596S-12 16 3138 154 00600 CAP 7012 8238 277 05000 IC THC63LVDM83A 18 3138 154 01780 REAR DOOR 7033 8238 277 05310 IC LM2596SX-3.3 20 3138 154 00570 BASE - TOP 7201 9322 141 05685 IC LM61CIM3X 3P 21 3138 157 50220 BASE BOTTOM ASSY 7202 8238 277 05660 MUX 74CBT3257 22 3138 154 00620 USB COVER - W/O-USB 7301 9322 046 99668 IC ST24FC21M6 SO-8P 23 3138 151 30290 SHIELD-BASE 7331 8238 277 05690 IC TL3016ID 33 3138 151 31020 HINGE PIVOT 7401 9322 151 11687 IC PQ3DZ13U 5P 36 3138 157 50930 METAL FRAME ASSY-ADT 7403 8238 277 05400 IC AD9884AKS-140 37 3138 157 50990 SHIELD ASSY -MAIN PCB 7501 8238 277 05670 IC SII161A 41 3138 151 30840 CONTACT SPRING-TOP 7601 9352 671 13557 IC SAA6721 43 3138 151 30850 CONTACT SPRING-R/L 7602 8238 277 05680 IC 74AHC1G125DCK 47 3138 153 20230 INSULATING PLATE 7631 8238 277 05880 MTV130P-15 128 3138 106 32610 P.E. BAG 7651 8238 277 05720 SDRAMX16M-ESMT 2 3138 155 20350 MANUAL-USING YOUR MONITOR 7901 9322 091 05668 MOSFET SI4435 1063 8238 277 06010 INVERTER (POGO-II 17"LG) 601 3138 117 02750 E-D.F.U. ASSY-170B 1151 3138 158 52400 POGO II 17"-MAIN PCB ASSY-5328 8158 3138 178 79880 AC DC LINE WITH COIL 1004 2422 086 10929 FUSE SM SSQ F 5.0A 125V R 8159 8238 277 06240 ADT CABLE (40919) 1102 2422 086 10239 FUSE HRC T3.15AH/250V S 8161 8238 277 06250 CONTROL BOARD CABLE 1051 3138 128 76070 MAINS CORD (1.8M, 125V/10A) 1052 3138 168 75960 I/F CABLE(POTOMAC-BRD) 1053 3138 168 76400 DVI-d cable 1152 3138 158 51690 CONTROL PCB ASSY-5360 1153 3138 158 51700 AC ADAPTOR PCB ASSY-5390 7121 9322 130 28682 IC L5991 16P Recommended Parts List for inverter board Position Description Category Maker's P/N Service Code D2,D6 DIO SBD S24 SMA (GW) DIODE 06.1634.04 996500006330 D9,D10 DIO SW BAV99 SOT23 A7P @ DIODE 06.1003.01 532213034337 Q5,Q6,Q12,Q13 TR NPN 2SD1802T-TL DPAK/SANYO TRANSISTOR 06.0648.01 996500006331 Q2 TR NPN PMBS3904 SOT23(PHILIPS TRANSISTOR 06.0015.01 996500005478 Q1 TR PNP DTA124EUA UMT3 (ROHM) TRANSISTOR 06.0085.02 996500005479 Q10,Q3 PFET Si3457DV/TSOP6(SILICONIX@ TRANSISTOR 06.6031.01 996500005480 U1 IC BA9741F SOP16 (ROHM) @ IC 04.0237.01 996500006332 Q4,Q11 TR NPN 2SC1623-L6.7 SOT23(NEC@ TRANSISTOR 06.0002.04 996500005495 Q7,Q14 TR PNP DTA124EKA SMT3 (ROHM) TRANSISTOR 06.0045.01 996500006333 Q8,Q9 NFET 2N7002(E)(LT1) SOT23 @ TRANSISTOR 06.0602.01 482213011057 T1,T2 XFMR XL-1713-13010 (XTREME) TRANSFORMER 22.0316.39 996500006334 F1 FUSE KE40 1206 (DAITO) @ FUSE 26.7060.01 996500006336 L1,L2 COIL A99-1570 DIP (AXIS) @ COIL 21.0036.10 996500005459 Back Forward Spare Parts List 170B LCD 57 Go to cover page Model: 170B1A/00 Description Item Code number Description Item Code number CARTON 450 3138 156 30090 FORM SHEET (FRONT) 1 3138 154 01770 MID-BUCKET 451 3138 156 30100 FORM SHEET (BACK) 1 MATERIAL 94V-0 452 3138 156 30110 P.E.BAG-ANTI-STAT. 2 3138 151 30530 MOUNTING PAD 453 3138 156 20800 ADHESIVE TAPE 19 M/M 4 3138 151 30980 REINFORCED PLATE 454 1222 100 33005 ADH TAPE PET 0.065X75 1 3138 154 01790 BEZEL 455 1238 100 78007 ADH TAPE PETP 0,035X50MM 1 MATERIAL 94V-0 456 1238 100 78008 BASE - BOTTOM 3 3138 157 50800 MID-BUCKET ASSY 1 3138 154 00580 MAT'L 94V-0 3 REF.SHT.163 1 COUNTER WEIGHT 4 3138 157 50810 CHIN ASSY 2 3138 151 30250 RUBBER PAD 4 REF.SHT.163 3 3138 104 50160 HEAT SINK 12 3138 150 40070 SCREW M3X16 1 3138 151 60320 SPRING 2 3122 121 24785 SILICON GREASE DC4 16 3138 154 00600 CAP 3 1322 504 97401 INSULATING PLATE (16X31) 4 3138 103 21730 AC ADAPTOR PCB - MULTI 18 3138 154 01780 REAR DOOR 1 3138 103 52780 MARKING : TCI-AJS DELTA MARK & 94V-0 1 AC ADAPTOR PCB IS 3138 103 52770 18 MATERIAL 94V-0 1 SPRING (FUSE HOLDER) 7 3138 101 30870 GLUE JETMELT 3748-VO-TC 20 3138 154 00570 BASE - TOP 30 1238 100 78004 STC PIN 35 3138 101 66850 TERMINAL 21 3138 157 50220 BASE BOTTOM ASSY 36 3138 101 66900 60/40 NRG SOLDER WR 0.05 41 0638 995 00005 EXTRUDED BAR 21 REF.SHT.163 42 0611 059 00002 ISOPROPANOL COLOURLESS 43 1322 511 49002 FLUX SOLD ALPHA RF800 B 22 3138 154 00620 USB COVER - W/O-USB 44 1322 526 43001 DAUGHTER PCB - MULTI 1 3138 103 52730 MARKING : DM 020 OR 010 94V-0 23 3138 151 30290 SHIELD-BASE 1 DAUGHTER PCB IS 3138 103 52720 1 EXTRUDED BAR 32 3138 100 40980 SCREW M3X8 42 0611 059 00002 ISOPROPANOL COLOURLESS 43 1322 511 49002 FLUX SOLD ALPHA RF800 B 33 3138 151 31020 HINGE PIVOT 44 1322 526 43001 HEAT SINK 1 3138 151 60560 SPRING 34 3138 100 41370 SCREW M5-0.8X16 2 3122 121 24785 SILICON GREASE DC4 3 1322 504 97401 INSULATING PLATE 36 3138 157 50930 METAL FRAME ASSY-ADT 4 3138 103 22510 SCREW W/SPRING WASHER M3X12 5 3138 100 41390 CONTROL PCB - MULTI 36 REF.SHT.163 1 3138 103 53600 MARKING : DM 020 OR 010 94V-0 1 CONTROL PCB IS 3138 103 53590 37 3138 157 50990 SHIELD ASSY -MAIN PCB 1 60/40 NRG SOLDER WR 0.05 41 0638 995 00005 EXTRUDED BAR 37 REF.SHT.163 42 0611 059 00002 ISOPROPANOL COLOURLESS 43 1322 511 49002 FLUX SOLD ALPHA RF800 B 38 3138 153 20250 REINFORCED TAPE 44 1322 526 43001 AUDIO PCB - MULTI 1 3138 103 53700 MARKING : DM 020 OR 010 94V-0 41 3138 151 30840 CONTACT SPRING-TOP 1 AUDIO PCB IS 3138 103 53690 43 3138 151 30850 CONTACT SPRING-R/L 1 60/40 NRG SOLDER WR 0.05 47 3138 153 20230 INSULATING PLATE 41 0638 995 00005 EXTRUDED BAR 126 3138 155 50940 RATING LABEL 42 0611 059 00002 ISOPROPANOL COLOURLESS 126 MARKING SHALL DURABLE AND LEGIBLE, 43 1322 511 49002 FLUX SOLD ALPHA RF800 B 126 32610 CONTAIN REF. DRAWING 44 1322 526 43001 AC ADAPTOR-MULTI 128 3138 106 P.E. BAG 1 3138 103 53900 MARKING : TCI-AJS DELTA MARK & 94V-0 1 AC ADAPTOR PCB IS 3138 103 53890 132 3138 106 00120 FAMILY SHEET - SERVICE 1 DPRING (FUSE HOLDER) 133 3138 106 36800 PROTECTIVE BAG 7 3138 101 30870 SCREW W/WASHER 3X15 134 2838 062 90083 RUBBER BAND 24 3138 100 41530 GLUE JETMELT 3748-V0-TC 137 3138 105 84750 LABEL - MAINS CORD 30 1238 100 78004 STC PIN 137 REQUESTED BY UL 35 3138 101 66850 TERMINAL 138 3138 106 00350 FAMILY SHEET 36 3138 101 66900 SOLDER WIRE 139 3138 153 20070 EXSICCATOR 41 0638 995 00005 EXTRUDED BAR 140 3138 155 51060 PLASTIC COVER 42 0611 059 00002 ISOPROPANOL COLOURLESS 141 8238 277 03270 3MMASKING TAPE 43 1322 511 49002 FLUX SOLD ALPHA RF800 1 3138 154 01800 CONTROL KNOB 44 1322 526 43001 HEAT SINK 2 3138 154 01740 POWER KNOB 1 3138 151 60560 SPRING 3 3138 154 01750 LENS-POWER 2 3122 121 24785 4 3138 151 60500 SPRING-POWER KNOB INSULATING PLATE 4 3138 103 22510 SCREW W/SPRING WASHER M3X12 3 3138 151 30920 SHIELD-MPCB 5 3138 100 41390 METAL FRAME-ADT 1 3138 151 30830 CONTACT SPRING 1 3138 103 53280 MAIN PCB - MULTI 2 3138 151 60380 CHIN 1 3138 154 01760 MATERIAL 94V-0 1 MARKING : DM 020 OR 010 94V-0 1 CONTROL KNOB ASSY 3 3138 157 50820 REF.SHT.163 1 MAIN PCB IS 3138 103 53270 3 SCREW PH K30X8 PT 4 3138 100 41380 5 3138 155 50560 PRODUCT TRACEABILITY LABEL Back 34 3138 153 20240 THERMAL CONDUCTIVITY 41 0638 995 00005 60/40 NRG SOLDER WR 0.05 42 0611 059 00002 EXTRUDED BAR 43 1322 511 49002 ISOPROPANOL COLOURLESS 44 1322 526 43001 FLUX SOLD ALPHA RF800 B 49 1322 524 37602 GLUE FOR SMD 1 3138 155 50950 LABEL 1 3138 155 50950 LABEL 1 3138 155 20450 QUICK SETUP GUIDE-170B 2 3138 155 20350 MANUAL-USING YOUR MONITOR 6151 9322 143 37687 DIODE 150V 20A 1901 2438 128 00197 SWI TACT H 5 RD 260G SKHHAR B 1902 2438 128 00197 SWI TACT H 5 RD 260G SKHHAR B Forward 58 170B LCD Spare Parts List Go to cover page Model: 170B1A/00 Description Item Code number Description Item Code number SWI TACT H 5 RD 260G SKHHAR B 3113 2138 105 00206 1903 2438 128 00197 SWI TACT H 5 RD 260G SKHHAR B 3113 TST MOX5W RSM5WL 2K2 1904 2438 128 00197 SWI TACT H 5 RD 260G SKHHAR B 3115 2322 207 33228 1905 2438 128 00197 SWI TACT H 5 RD 260G SKHHAR B 3116 2120 105 92462 MOUNTING HEIGHT ABOVE PCB IS 10MM 1906 2438 128 00197 SWI PUSH ESB64623 3117 2138 101 13159 1908 2422 128 02864 5 PIN WAFER A2502WR2-5 P-2.5MM 3120 2322 730 61224 RST FUSE NFR25H 2R2 PM5 1909 3138 168 75180 11PIN WAFER A2502WR2-11 2.5MM 3121 2322 734 61503 1910 3138 168 75200 MLCC 0805 X7R 25V 100N K R 3122 2322 730 61332 RST MOX 1W RSS S 56K PM5 B 2901 2238 910 16649 RST SM 0805 RC11 1K5 PM5 R 3123 2322 730 61103 3901 2322 730 61152 RES 3K3 0805 SMD 3124 2322 730 61103 RST CRB CR12 A 15R PM5 A 3902 2322 730 61332 RES 10K RC-11 SMD 0805 T 3125 2322 730 61911 3903 2322 730 61103 RST SM 0805 RC11 15K PM5 R 3126 2322 730 61151 RST SMD 0805 RC11 220K PM5 R 3904 2322 730 61153 RES 39K RC-11 SMD 0805 T 3127 2138 116 11002 3905 2322 730 61393 RES 68K RC-11 SMD 0805 T 3128 2322 730 91002 SMD RST 0805 15K PM1 3906 2322 730 61683 RES 220R 0805 SMD RC-11 T 3150 2138 116 12402 3910 2322 730 61221 LED L-3WYGW 3151 2120 101 28339 RES 3K3 0805 SMD 6901 9322 146 03682 SMD DIODE BAV99 3152 2138 116 11003 6902 9332 153 70215 AC - INLET ASSY 3155 2322 730 61103 RES 10K RC-11 SMD 0805 T 1101 3138 178 78620 MARKING : I-SHENG 7014 10A 250V 3156 2138 101 13153 1101 RESOLDERING PIN (1,3) 3157 2322 730 61153 RES 10K RC-11 SMD 0805 T 1101 FUSE HRC T3.15AH/250V S 3158 2322 734 66804 1102 2422 086 10239 MARKING: T3. 15H 250V 3161 2322 730 61242 RST SMC 0805 RC11 910R PM5 T 1102 WAFER 2P 5101 3138 168 73610 1151 2438 025 00238 RESOLDERING PIN 1.2 5101 RST SM 0805 RC11 150R PM5 R 1151 CON BM H 8P F2.54 ES B 5101 1161 2438 031 00303 DIODE ASSY 6151 5102 3138 108 72620 RST MFLM MF50S A 1K PM1 A 1162 3138 158 50530 REF. SHT. 163 5103 3138 108 72620 1162 MOS ASSY 7102/6101 5111 2422 549 43922 RST SM 0805 JUMP. MAX 0R05 T 1163 3138 158 51750 REF. SHT. 163 5112 2438 535 98025 1163 CERSAF DN 250V S 4N7 PM20 B 5113 2422 549 43922 RST MFLM MF50S A 2K4 PM1 A 2101 2252 812 39427 NS-B TYPE NS472 EN132400 5114 2422 549 43922 2101 CERSAF DN 250V S 4N7 PM20 B 5150 3138 168 72460 CARBRST COMP 1/2W 33R PM10 T 2102 2252 812 39427 NS-B TYPE NS472 EN132400 5150 2102 ACROSS LINE CAP 275V 680N PM20 5150 RST MFLM MF50S A 10K PM1 A 2103 2038 301 00413 MARKING :XG-HS 0.68UF 275V 5151 3138 178 74570 2103 RESOLDERING PIN 1.2 5155 2438 535 98025 RES 10K RC-11 SMD 0805 T 2103 X2 CAP MKP 250V/275V 47N PM10 6111 9334 979 50683 2104 2038 310 00009 MARKING :MKP 275V .047UF 6112 9337 037 00133 RST CRB CR12 A 15K PM5 A 2104 ELCAP LZK 400V S 220U PM20 B 6113 9334 979 50683 2105 8238 277 04880 RESOLDERING 1.2 6117 9334 979 50683 RST SM 0805 RC11 15K PM5 R 2105 CER CAP X7R 500V 4N7 K 2E B 6118 9337 516 60683 2108 2252 608 12421 CERC 150P 1KV X7R 2E 6153 9333 882 90215 SMD RES 0805 680K PM1 2113 2252 601 08116 ELCAP VT 50V 10UF PM20 2E 6158 9339 139 10115 2115 2038 031 65109 CERC DC X7R 500V 1N0 PM10 A 7121 9322 130 28682 RES 2K4 RC-11 SMD 0805 T 2116 2252 608 08021 MLCC 0805 X7R 25V 100N K R 7150 9322 140 14667 2121 2238 910 16649 ELCAP S 35V 100UF PM20 2E 7150 LINE FILTER (HJC-K8259) 2122 2038 031 55101 CAP 330PF 0805 SMD NPO 7151 9337 711 00686 2123 2238 861 15331 SMD0805X7R 2N7 50V +/-10% 7152 9338 268 50126 MARKING : HJC-K8259 2124 2222 590 16619 MU-LAYER CER CAP 50V 100N X7R 1930 8238 277 05570 2125 2252 325 26104 CAP SMD 0805 3N9F X7R 1931 3138 168 72100 RESOLDERING PIN 2.4 2126 2238 580 16622 MLCC 0805 X7R 3N3 K 4B 9 1933 3138 168 72010 2127 2222 590 16621 CAP 220P 250V AC Y1 1934 2438 031 00317 BAR COIL 7U5H PM10 2150 8238 277 01460 MARKING: KX 221 1935 3138 168 77270 2150 CERC DC 500V 1N0 PM10 1936 2438 031 00317 BAR COIL 7U5H PM10 2151 2020 557 90151 ELCAP SX 3300U 25V 16*36 M B 2922 2038 035 50215 2152 2038 035 00303 ELCAP SX 3300U 25V 16*36 M B 2923 2238 780 19858 BEAD (ACC 3216L/500/T) 2153 2038 035 00303 ELCAP S 35V 100UF PM20 2E 2924 2238 780 19858 2154 2038 031 55101 ELCAP VT 50V 10UF PM20 2E 2925 2038 034 53339 IND FXD BEAD EMI 100MHZ 60R R 2155 2038 031 65109 MLCC 0805 X7R 4N7F K 4B 9 2926 2038 302 50212 2156 2238 580 16623 MLCC 0805 NPO 50V 47P COL R 2927 2038 302 50212 BEAD (ACC 3216L/500/T) 2157 2222 861 12479 RST NFR25H 220R PM5 2929 2238 861 15331 3101 2322 207 33221 RST NFR25H 220R PM5 2930 2238 861 15331 BEAD (ACC 3216L/500/T) 3102 2322 207 33221 NTC DC SCK-104 S 10R PM15 2932 2222 580 16638 3103 2138 660 00027 ADD TUBING ABOVE PCB IS 10MM 2933 2038 035 00037 TR-EE35L 3103 METGLAZ RST A VR37 680K PM5 2934 2222 781 19867 3104 2322 242 13684 2936 2238 580 16614 MARKING: 54A-8054 RST SM 1206 RC01 470K PM5 R 2937 2238 580 16614 3105 2322 711 61474 RST SM 1206 RC01 390K PM5 R 2938 2038 034 53101 RESOLDERING PIN 2.8.14 3106 2322 711 61394 RST CRB CR12 A 470K PM5 A 2940 2238 910 16649 3107 2138 101 13474 RES 5W 15K RSM 2941 2238 910 16649 COIL 4U7(54A-7076C) 3108 2138 105 00205 RST CRB CR12 A 1K PM5 A 2942 2038 034 54479 3109 2138 101 13102 RSS 1W 0.27R 2943 2222 590 16621 IND FXD BEAD EMI 100MHZ 60R R 3110 2138 105 00213 RST MOX 1W RSS S 39K PM5 2944 8238 277 04050 3111 2138 105 00209 RST CRB CR12 A 4K7 PM5 A 2946 2238 910 16649 DIODE RGP10J (GI) 3112 2138 101 13472 3921 2322 730 61221 DIO REC BYV26E A A DIODE RGP10J (GI) DIODE RGP10J (GI) DIODE RGP10D (GI) DIODE BZX84C-20V SMD DIODE BAS32L IC L5991 16P PHOTOCOUPLER TCET1103G 4P MARKING : ET1103 IC TL431CLPRP 3P TRANS BT169B T EARPHONE JACK 4P WAFER (63364) CON. M2426R CON BM PHONE H 1P F 3.5 ST B 5P WAFER CON BM PHONE H 1P F 3.5 ST B CAP VR 1000U 10V 10125 T CER2 0805 Y5V 16V 470N P8020 R CER2 0805 Y5V 16V 470N P8020 R ELCAP S 16V 33UF PM20 2E T POLCAP 100V 100N PM5 2E T POLCAP 100V 100N PM5 2E T CAP 330PF 0805 SMD NPO CAP 330PF 0805 SMD NPO CMC 0805 X7R 68N K 50V 3B 9 ELCAP SM 16V 47U PM20 2E T MLCC 1206 Y5V 2U2 Z 3B 7 CER2 0805 X7R 50V 1N PM10 CER2 0805 X7R 50V 1N PM10 ELCAP S 16V 100UF PM20 2E MLCC 0805 X7R 25V 100N K R MLCC 0805 X7R 25V 100N K R ELCAP S 25V 47UF PM20 2E T MLCC 0805 X7R 3N3 K 4B 9 ELCAP 470U/25V/SC TYPE MLCC 0805 X7R 25V 100N K R RES 220R 0805 SMD RC-11 T Back Forward Spare Parts List 170B LCD 59 Go to cover page Model: 170B1A/00 Description Item Code number Description Item Code number RES 22K 0805 SMD 1261 8238 277 05380 ELOCO-2011P08V000 3922 2322 730 61223 RES 22K 0805 SMD 1301 2038 031 00416 D-SUB DHSL-15UKL4 3923 2322 730 61223 RES 56K 0805 SMD 1302 3138 168 77120 CON. MOLEX 74320-4004 DVI 3924 2322 730 61563 RST SM 0805 RC11 15K PM5 R 1391 3138 158 52410 EEPROM IC ASSY(7204) 3925 2322 730 61153 RES 68K RC-11 SMD 0805 T 1392 3138 158 52420 CPU WITH PROGRAM ASSY(7203) 3926 2322 730 61683 RES 10K RC-11 SMD 0805 T 1601 8238 277 06410 27MHZ/OSC/SMD 3927 2322 730 61103 RES 68K RC-11 SMD 0805 T 2002 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 3928 2322 730 61683 RST SM 0805 RC11 8K2 PM5 R 2005 2222 580 15649 CER2 1206 X7R 63V 100N PM10 R 3929 2322 730 61822 RST SM 0805 RC11 8K2 PM5 R 2006 2222 580 15649 CER2 1206 X7R 63V 100N PM10 R 3930 2322 730 61822 RES 10K RC-11 SMD 0805 T 2011 2038 035 00309 ELCAP 470U/25V/SC TYPE 3931 2322 730 61103 CARBRST FLM CR25 10R PM5 2012 2038 035 00309 ELCAP 470U/25V/SC TYPE 3932 2138 112 73109 CARBRST FLM CR25 10R PM5 2013 2222 590 18814 MLCC 0805 Y5V 220N 4B 9 3933 2138 112 73109 RST SMC 0805 RC11 1K2 PM5 T 2014 2222 590 18814 MLCC 0805 Y5V 220N 4B 9 3934 2322 730 61122 RES 5.6K RC-11 SMD 0805 T 2015 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 3935 2322 730 61562 RES 3K3 0805 SMD 2016 2038 035 00309 ELCAP 470U/25V/SC TYPE 3936 2322 730 61332 RST SM 0805 RC11 75R PM5 T 2017 2222 590 18814 MLCC 0805 Y5V 220N 4B 9 3937 2322 730 61759 RST SMC 0805 RC11 1K2 PM5 T 2018 2222 241 19876 SMD 1206 Y5V 10U 10V 3938 2322 730 61122 SMD RES 0805 1R 2019 2222 241 19876 SMD 1206 Y5V 10U 10V 3939 2322 730 61108 RES 10K RC-11 SMD 0805 T 2021 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 3940 2322 730 61103 RES 6K8 0805 SMD 2022 2038 035 00309 ELCAP 470U/25V/SC TYPE 3941 2322 730 61682 RST SM 0805 RC11 1K5 PM5 R 2023 2222 241 19876 SMD 1206 Y5V 10U 10V 3942 2322 730 61152 RES 10K RC-11 SMD 0805 T 2024 2222 590 18814 MLCC 0805 Y5V 220N 4B 9 3943 2322 730 61103 RST SM 0805 RC11 8K2 PM5 R 2025 2038 035 00309 ELCAP 470U/25V/SC TYPE 3944 2322 730 61822 RST SM 0805 RC11 75R PM5 T 2026 2038 035 00309 ELCAP 470U/25V/SC TYPE 3945 2322 730 61759 BLM21B222SB-0805 SMD 2027 2222 590 18814 MLCC 0805 Y5V 220N 4B 9 5931 2422 549 42103 BLM21B222SB-0805 SMD 2031 2038 035 00309 ELCAP 470U/25V/SC TYPE 5932 2422 549 42103 BEAD HF70ACC321611 2032 2038 035 00309 ELCAP 470U/25V/SC TYPE 5941 2422 549 43907 DRUM CHOKE COIL 100UH T 2035 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 5942 2422 535 94971 DIODE BZX79-C2V4 (UAW) 2036 2038 035 00309 ELCAP 470U/25V/SC TYPE 6921 3198 010 22481 SMD DIODE BAV99 2040 2222 590 18814 MLCC 0805 Y5V 220N 4B 9 6922 9332 153 70215 SMD DIODE BAV99 2201 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 6923 9332 153 70215 DIODE MBRS130LT3 2202 2020 024 90163 ELCAP SM WX 16V 10U 6941 9322 041 98685 IC TDA7053A/N2 16P 2203 2020 024 90163 ELCAP SM WX 16V 10U 7922 9351 861 60112 TRANS BC848C (UAW) 2204 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 7923 3198 010 42081 IC PQ1CF2 5P 2205 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 7941 9322 142 63667 TRANS BC848C (UAW) 2206 2222 241 19876 SMD 1206 Y5V 10U 10V 7942 3198 010 42081 BRIDGE GBU8J 2207 2020 024 90163 ELCAP SM WX 16V 10U 6101 9322 131 76671 FET POW 2SK 1940-01 2208 2222 861 12229 MLCC 0805 NP0 22P J 50V 4B 9 R 7102 9322 092 42687 POGO II 17"-SEMIFINISHED-SET 2209 2222 861 12229 MLCC 0805 NP0 22P J 50V 4B 9 R 1050 3138 158 52390 REF SHT-163 2210 2222 861 12101 CER1 0805 NPO 50V 100P PM5 1050 MAINS CORD (1.8M, 125V/10A) 2211 2222 861 12101 CER1 0805 NPO 50V 100P PM5 1051 3138 128 76070 PLUG : LP-31, 10A/125V 2212 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1051 CONN : LS-13, 10A/125V 2220 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1051 CORD : SVT 18AWGX3C 105DEGREE 2221 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1051 I/F CABLE(POTOMAC-BRD) 2222 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1052 3138 168 75960 MARKING: UL 2919 VW-1 30V 80 DEG 2223 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1052 DVI-d cable 2224 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1053 3138 168 76400 LCD PANEL POGO II 17"-ADT 2225 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1061 8238 277 05330 MARKING : LM181E1-H2MN 2226 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1061 POGO II 17"-ALL CHAS. KIT-LG 2227 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1062 3138 188 05530 REF. SHT. 163 2228 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1062 INVERTER (POGO-II 17"ADT) 2229 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1063 8238 277 06010 MARKING : T50I016.00 2230 2238 580 16627 CER2 0805 X7R 50V 10N PM10 R 1063 POGO II 17"-MAIN PCB ASSY-5328 2231 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1151 3138 158 52400 REF. SHT. 163 2232 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1151 CONTROL PCB ASSY-5360 2233 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1152 3138 158 51690 REF. SHT. 163 2234 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1152 AC ADAPTOR PCB ASSY-5390 2235 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1153 3138 158 51700 REF. SHT. 163 2236 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1153 IC M24C16-BN6 8P 2237 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 7204 9322 126 62682 CPU ST72774 2238 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 7203 8238 277 05650 CON BM SUPPH 1P F 16V 3A B 2240 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1002 2438 031 00404 10P WAFER 2011P11H000 2241 2020 024 90164 ELCAP SM WX 16V 47U 1003 2438 031 00344 FUSE SM SSQ F 5.0A 125V R 2242 2020 024 90164 ELCAP SM WX 16V 47U 1004 2422 086 10929 MARKING : 5A 2243 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1004 HEAD-2.54-2X2 2244 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1005 8238 277 05370 CON20 2245 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1012 8238 277 05760 CON. 5P-WAFER 2261 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1013 3138 168 72390 CON BM IC V 8P F 2.54 DIL B 2262 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1095 2438 031 00146 CON BM IC V 42P F 1.778 DIL B 2263 2222 780 19763 CMC 0805 Y5V 1U M 16V 1096 2438 031 00167 JUMPER (BLACK) 2301 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1097 3138 160 20290 11P WAFER M242611-V 2302 2222 861 12101 CER1 0805 NPO 50V 100P PM5 1201 3138 168 72070 HEADER 1X3 2303 2222 861 12101 CER1 0805 NPO 50V 100P PM5 1202 2438 031 00343 HEAD-2.54-4X1 2304 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 1205 8238 277 06220 XTAL 24MHZ 2305 2222 861 12109 SMD0805NPO 10P 50V +/-5% 1220 2438 543 00067 2306 2222 861 12109 SMD0805NPO 10P 50V +/-5% Back Forward 60 170B LCD Spare Parts List Go to cover page Model: 170B1A/00 Description Item Code number Description Item Code number MLCC 0805 X7R 100N K 50V PM10 2615 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2310 2222 580 15649 CER1 0805 NPO 50V 100P PM5 2616 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2311 2222 861 12101 CER1 0805 NPO 50V 100P PM5 2617 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2312 2222 861 12101 MLCC 0805 X7R 100N K 50V PM10 2618 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2313 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2619 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2314 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2620 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2331 2222 580 15649 SMD 1206 Y5V 10U 10V 2621 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2332 2222 241 19876 MLCC 0805 X7R 100N K 50V PM10 2622 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2333 2222 580 15649 SMD 1206 Y5V 10U 10V 2623 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2401 2222 241 19876 ELCAP SM WX 16V 47U 2624 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2402 2020 024 90164 MLCC 0805 X7R 100N K 50V PM10 2631 2222 780 19763 CMC 0805 Y5V 1U M 16V 2403 2222 580 15649 SMD 1206 Y5V 10U 10V 2632 2222 780 19763 CMC 0805 Y5V 1U M 16V 2404 2222 241 19876 MLCC 0805 X7R 100N K 50V PM10 2643 2222 590 18814 MLCC 0805 Y5V 220N 4B 9 2405 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2646 8238 277 05361 47U/25V/RV2 0605 2406 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2651 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2407 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2652 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2408 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2653 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2409 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2654 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2410 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2655 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2411 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2656 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2412 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2657 2222 241 19876 SMD 1206 Y5V 10U 10V 2413 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2658 2222 590 16641 MLCC 0805 X7R 100N K 50V PM10 2416 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2659 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2423 2222 580 15649 SMD 1206 Y5V 10U 10V 2660 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2424 2222 241 19876 MLCC 0805 X7R 100N K 50V PM10 2661 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2425 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2662 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2427 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2663 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2428 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2664 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2429 2222 580 15649 CAP 47NF SMD 0805 X7R 2665 2222 241 19876 SMD 1206 Y5V 10U 10V 2431 2238 910 16645 CAP 47NF SMD 0805 X7R 2666 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2432 2238 910 16645 CAP 47NF SMD 0805 X7R 2667 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2433 2238 910 16645 MLCC 0805 X7R 100N K 50V PM10 2668 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2436 2222 580 15649 CAP SMD 0805 3N9F X7R 2669 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2437 2238 580 16622 CMC CAP 0805 X7R 39N K 50V T 2670 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2438 2238 580 15644 MLCC 0805 X7R 100N K 50V PM10 2671 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2439 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2672 2222 241 19876 SMD 1206 Y5V 10U 10V 2440 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2901 2020 024 90164 ELCAP SM WX 16V 47U 2441 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2902 2020 024 90164 ELCAP SM WX 16V 47U 2442 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2903 2222 780 19763 CMC 0805 Y5V 1U M 16V 2443 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2904 2020 024 90164 ELCAP SM WX 16V 47U 2444 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 2905 2020 024 90164 ELCAP SM WX 16V 47U 2445 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 3001 2322 730 61124 RES 120K 0805 SMD 2446 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 3002 2322 730 61183 RST SM 0805 RC 11 18K PM5 R 2447 2222 580 15649 ELCAP SM WX 16V 47U 3011 2322 730 61478 RST SM 0805 RC11 4R7 PM5 R 2448 2020 024 90164 CMC 0805 NPO 470P 50V J 3012 2322 730 61478 RST SM 0805 RC11 4R7 PM5 R 2501 2238 861 15471 CMC 0805 NPO 470P 50V J 3013 2322 730 61103 RES 10K RC-11 SMD 0805 T 2502 2238 861 15471 CMC 0805 NPO 470P 50V J 3014 2322 730 61103 RES 10K RC-11 SMD 0805 T 2503 2238 861 15471 CMC 0805 NPO 470P 50V J 3028 2322 730 61103 RES 10K RC-11 SMD 0805 T 2504 2238 861 15471 CMC 0805 NPO 470P 50V J 3030 2322 730 61103 RES 10K RC-11 SMD 0805 T 2505 2238 861 15471 CMC 0805 NPO 470P 50V J 3117 2322 730 91002 RST SM 0805 JUMP. MAX 0R05 T 2506 2238 861 15471 CMC 0805 NPO 470P 50V J 3118 2322 730 91002 RST SM 0805 JUMP. MAX 0R05 T 2507 2238 861 15471 CMC 0805 NPO 470P 50V J 3201 2322 730 61222 RST SM 0805 RC11 2K2 PM5 R 2508 2238 861 15471 CMC 0805 NPO 470P 50V J 3202 2322 730 61222 RST SM 0805 RC11 2K2 PM5 R 2509 2238 861 15471 CMC 0805 NPO 470P 50V J 3203 2322 730 61104 RES 100K RC-11 SMD 0805 T 2510 2238 861 15471 CMC 0805 NPO 470P 50V J 3204 2350 035 10472 ARV 241 4K7 5% 2511 2238 861 15471 SMD 1206 Y5V 10U 10V 3206 2322 730 61104 RES 100K RC-11 SMD 0805 T 2513 2222 241 19876 CER2 0805 X7R 50V 10N PM10 R 3207 2322 730 61122 RST SMC 0805 RC11 1K2 PM5 T 2514 2238 580 16627 CMC 0805 NPO 470P 50V J 3208 2322 730 61102 RST SMC 0805 RC11 1K PM5 T 2515 2238 861 15471 CMC 0805 NPO 470P 50V J 3209 2322 730 61333 RES 33K 0805 SMD 2516 2238 861 15471 SMD 1206 Y5V 10U 10V 3212 2322 730 61102 RST SMC 0805 RC11 1K PM5 T 2517 2222 241 19876 SMD 1206 Y5V 10U 10V 3213 2322 730 61102 RST SMC 0805 RC11 1K PM5 T 2519 2222 241 19876 MLCC 0805 X7R 100N K 50V PM10 3215 2322 730 61102 RST SMC 0805 RC11 1K PM5 T 2601 2222 580 15649 SMD 1206 Y5V 10U 10V 3216 2322 730 61102 RST SMC 0805 RC11 1K PM5 T 2602 2222 241 19876 MLCC 0805 X7R 100N K 50V PM10 3217 2322 730 61103 RES 10K RC-11 SMD 0805 T 2603 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 3218 2322 730 61105 RES 1M RC-11 SMD 0805 T 2604 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 3219 2322 730 61229 RST SM 0805 RC11 22R PM5 R 2605 2222 580 15649 CER1 0805 NPO 50V 100P PM5 3220 2350 035 10102 RES 1K/ARV241 2606 2222 861 12101 CER1 0805 NPO 50V 100P PM5 3221 2350 035 10101 RES 100R/ARV241 2607 2222 861 12101 MLCC 0805 NP0 22P J 50V 4B 9 R 3222 2322 730 61103 RES 10K RC-11 SMD 0805 T 2608 2222 861 12229 MLCC 0805 X7R 100N K 50V PM10 3225 2322 730 61153 RST SM 0805 RC11 15K PM5 R 2609 2222 590 16641 SMD 1206 Y5V 10U 10V 3226 2322 730 61101 RST SM 0805 RC11 100R PM5 R 2610 2222 241 19876 CMC 0805 NPO 470P 50V J 3227 2322 730 61472 RST SM 0805 RC11 4K7 PM5 R 2611 2238 861 15471 MLCC 0805 X7R 100N K 50V PM10 3228 2322 730 61102 RST SMC 0805 RC11 1K PM5 T 2612 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 3229 2322 730 61102 RST SMC 0805 RC11 1K PM5 T 2613 2222 580 15649 MLCC 0805 X7R 100N K 50V PM10 3230 2322 730 61101 RST SM 0805 RC11 100R PM5 R 2614 2222 580 15649 Forward Back Spare Parts List 170B LCD 61 Go to cover page Model: 170B1A/00 Description Item Code number Description Item Code number RST SM 0805 RC11 100R PM5 R 3504 2322 730 91002 RST SM 0805 JUMP. MAX 0R05 T 3231 2322 730 61101 RST SM 0805 RC11 330R PM5 T 3505 2322 730 91002 RST SM 0805 JUMP. MAX 0R05 T 3235 2322 730 61331 RST SMC 0805 RC11 1K PM5 T 3506 2322 730 61103 RES 10K RC-11 SMD 0805 T 3236 2322 730 61102 RST SM 0805 RC11 3K0 PM5 R 3507 2322 730 61103 RES 10K RC-11 SMD 0805 T 3237 2322 730 61302 RST SMC 0805 RC11 1K PM5 T 3508 2322 730 91002 RST SM 0805 JUMP. MAX 0R05 T 3238 2322 730 61102 RES 1K8 0805 SMD 3509 2322 730 91002 RST SM 0805 JUMP. MAX 0R05 T 3239 2322 730 61182 RES 2K7 0805 SMD 3510 2322 730 61103 RES 10K RC-11 SMD 0805 T 3240 2322 730 61272 RST SM 0805 RC11 15K PM5 R 3511 2322 730 61471 RST SM 0805 RC11 470R PM5 R 3241 2322 730 61153 RST SMC 0805 RC11 910R PM5 T 3512 2322 730 61103 RES 10K RC-11 SMD 0805 T 3242 2322 730 61911 RST SM 0805 RC11 8K2 PM5 R 3515 2350 035 10479 ARV241 47R PM5 3243 2322 730 61822 RES 6K2 0805 SMD 3516 2350 035 10479 ARV241 47R PM5 3244 2322 730 61622 RES 10K RC-11 SMD 0805 T 3517 2350 035 10479 ARV241 47R PM5 3245 2322 730 61103 RST SMC 0805 RC11 1K PM5 T 3518 2350 035 10479 ARV241 47R PM5 3246 2322 730 61102 RST SM 0805 JUMP. MAX 0R05 T 3519 2350 035 10479 ARV241 47R PM5 3247 2322 730 91002 RST SMC 0805 RC11 1K PM5 T 3520 2350 035 10479 ARV241 47R PM5 3248 2322 730 61102 RES 220R 0805 SMD RC-11 T 3521 2350 035 10479 ARV241 47R PM5 3261 2322 730 61221 RES 10K RC-11 SMD 0805 T 3522 2350 035 10479 ARV241 47R PM5 3262 2322 730 61103 RST SM 0805 RC11 100R PM5 R 3523 2350 035 10479 ARV241 47R PM5 3264 2322 730 61101 RST SM 0805 RC11 100R PM5 R 3524 2350 035 10479 ARV241 47R PM5 3301 2322 730 61101 RST SM 0805 RC11 100R PM5 R 3525 2350 035 10479 ARV241 47R PM5 3302 2322 730 61101 RES 10R 0805 SMD 3526 2350 035 10479 ARV241 47R PM5 3303 2322 730 61109 RES 10K RC-11 SMD 0805 T 3601 2350 035 10229 RES 22R/ARV241 3304 2322 730 61103 RST SM 0805 RC11 2K2 PM5 R 3602 2350 035 10229 RES 22R/ARV241 3305 2322 730 61222 RST SM 0805 RC11 2K2 PM5 R 3603 2350 035 10229 RES 22R/ARV241 3306 2322 730 61222 RST SM 0805 RC11 75R PM5 T 3604 2350 035 10229 RES 22R/ARV241 3307 2322 730 61759 RST SM 0805 RC11 75R PM5 T 3605 2350 035 10229 RES 22R/ARV241 3308 2322 730 61759 RST SM 0805 RC11 75R PM5 T 3606 2350 035 10229 RES 22R/ARV241 3309 2322 730 61759 RST SM 0805 RC11 330R PM5 T 3607 2350 035 10229 RES 22R/ARV241 3310 2322 730 61331 RST SM 0805 RC11 330R PM5 T 3608 2350 035 10229 RES 22R/ARV241 3311 2322 730 61331 RST SM 0805 RC11 100R PM5 R 3609 2350 035 10229 RES 22R/ARV241 3312 2322 730 61101 RST SM 0805 RC11 100R PM5 R 3610 2350 035 10229 RES 22R/ARV241 3313 2322 730 61101 RST SM 0805 RC11 100R PM5 R 3611 2350 035 10229 RES 22R/ARV241 3314 2322 730 61101 ARV 241 10R 5% 3612 2350 035 10229 RES 22R/ARV241 3315 2350 035 10109 ARV 241 10R 5% 3614 2322 730 61101 RST SM 0805 RC11 100R PM5 R 3316 2350 035 10109 RST SM 0805 RC11 2K2 PM5 R 3615 2322 730 61101 RST SM 0805 RC11 100R PM5 R 3317 2322 730 61222 RES 10R 0805 SMD 3616 2322 730 61229 RST SM 0805 RC11 22R PM5 R 3318 2322 730 61109 RST SM 0805 RC11 100R PM5 R 3617 2350 035 10229 RES 22R/ARV241 3319 2322 730 61101 RST SM 0805 RC11 100R PM5 R 3618 2350 035 10229 RES 22R/ARV241 3320 2322 730 61101 RST SM 0805 RC11 100R PM5 R 3619 2350 035 10229 RES 22R/ARV241 3321 2322 730 61101 RES 10K RC-11 SMD 0805 T 3620 2350 035 10229 RES 22R/ARV241 3322 2322 730 61103 RES 10K RC-11 SMD 0805 T 3621 2350 035 10229 RES 22R/ARV241 3323 2322 730 61103 RES 10K RC-11 SMD 0805 T 3623 2322 730 61229 RST SM 0805 RC11 22R PM5 R 3324 2322 730 61103 RST SM 0805 RC11 470R PM5 R 3632 2322 730 61101 RST SM 0805 RC11 100R PM5 R 3325 2322 730 61471 RST SM 0805 JUMP. MAX 0R05 T 3633 2322 730 61101 RST SM 0805 RC11 100R PM5 R 3326 2322 730 91002 RST SM 0805 JUMP. MAX 0R05 T 3634 2350 035 10102 RES 1K/ARV241 3327 2322 730 91002 RST SM 0805 JUMP. MAX 0R05 T 3635 2350 035 91001 ARV 241 0R 3328 2322 730 91002 RES 10K RC-11 SMD 0805 T 3636 2350 035 10103 RES 10K/ARV241 3329 2322 730 61103 RES 10K RC-11 SMD 0805 T 3641 2322 730 61101 RST SM 0805 RC11 100R PM5 R 3330 2322 730 61103 RES 5.6K RC-11 SMD 0805 T 3901 2322 730 61102 RST SMC 0805 RC11 1K PM5 T 3331 2322 730 61562 RES 5.6K RC-11 SMD 0805 T 5001 2422 549 43931 IND FXD LINE FIL 50V 4A R 3332 2322 730 61562 RES 47R 0805 SMD RC-11 T 5002 8238 277 05350 DRUM CHOKE 68UH/3A 3333 2322 730 61479 RES 10K RC-11 SMD 0805 T 5003 8238 277 05350 DRUM CHOKE 68UH/3A 3335 2322 730 61103 RES 10K RC-11 SMD 0805 T 5004 2422 535 94969 3A CHOKE 3402 2322 730 61103 RST SM 0805 RC11 150R PM5 R 5005 2422 535 94969 3A CHOKE 3403 2322 730 61151 RST SM 0805 RC11 150R PM5 R 5012 2422 549 42103 BLM21B222SB-0805 SMD 3404 2322 730 61151 RST SMC 0805 RC11 1K PM5 T 5013 2422 549 42103 BLM21B222SB-0805 SMD 3405 2322 730 61102 RES 10K RC-11 SMD 0805 T 5016 2422 549 42103 BLM21B222SB-0805 SMD 3409 2322 730 61103 RES 3K3 0805 SMD 5017 2422 549 42103 BLM21B222SB-0805 SMD 3410 2322 730 61332 RES 100R/ARV241 5018 2422 549 42103 BLM21B222SB-0805 SMD 3412 2350 035 10101 RES 100R/ARV241 5019 2422 549 42103 BLM21B222SB-0805 SMD 3413 2350 035 10101 RES 100R/ARV241 5020 2422 549 42103 BLM21B222SB-0805 SMD 3414 2350 035 10101 RES 100R/ARV241 5021 2422 549 42103 BLM21B222SB-0805 SMD 3415 2350 035 10101 RES 100R/ARV241 5032 8238 277 05350 DRUM CHOKE 68UH/3A 3416 2350 035 10101 RES 100R/ARV241 5034 2422 535 94969 3A CHOKE 3417 2350 035 10101 RES 100R/ARV241 5201 2422 549 43409 BEAD BLM31P500S 3418 2350 035 10101 RES 100R/ARV241 5202 2422 549 42103 BLM21B222SB-0805 SMD 3419 2350 035 10101 RES 100R/ARV241 5203 2422 549 42103 BLM21B222SB-0805 SMD 3420 2350 035 10101 RES 100R/ARV241 5204 2422 549 42103 BLM21B222SB-0805 SMD 3421 2350 035 10101 RES 100R/ARV241 5205 2422 549 42103 BLM21B222SB-0805 SMD 3422 2350 035 10101 RES 100R/ARV241 5206 2422 549 42103 BLM21B222SB-0805 SMD 3423 2350 035 10101 RES 33R 0805 SMD RC-11 T 5207 2422 549 42103 BLM21B222SB-0805 SMD 3425 2322 730 61339 RES 33R 0805 SMD RC-11 T 5208 2422 549 42103 BLM21B222SB-0805 SMD 3427 2322 730 61339 RES 47R 0805 SMD RC-11 T 5209 2422 549 42103 BLM21B222SB-0805 SMD 3501 2322 730 61479 RES 47R 0805 SMD RC-11 T 5210 2422 549 42103 BLM21B222SB-0805 SMD 3502 2322 730 61479 RST SM 0805 JUMP. MAX 0R05 T 5220 2422 549 43409 BEAD BLM31P500S 3503 2322 730 91002 Forward Back 62 170B LCD Spare Parts List Go to cover page Model: 170B1A/00 Description Item Code number Description Item Code number 7652 8238 277 05720 SDRAMX16M-ESMT 5221 2422 549 43409 BEAD BLM31P500S 7653 8238 277 05720 SDRAMX16M-ESMT 5230 2422 549 42103 7901 9322 091 05668 MOSFET SI4435 5331 2422 549 43409 BLM21B222SB-0805 SMD 7902 9322 091 05668 MOSFET SI4435 5401 2422 549 43409 E-D.F.U. 5402 2422 549 43409 BEAD BLM31P500S 602 3138 117 01950 HEX CODE F/W(NO MATL REQ) 5403 2422 549 43409 615 3138 117 02820 E-D.F.U. ASSY-170B 5501 2422 549 43409 BEAD BLM31P500S 601 3138 117 02750 5P WIRE HARNESS TO AUDIO BD 5502 2422 549 43409 AC DC LINE WITH COIL 5503 2422 549 43409 BEAD BLM31P500S 8952 3138 168 75830 ADT CABLE (40919) 5601 2422 549 43409 8158 3138 178 79880 8P+8P CONNECTOR 5602 2422 549 43409 BEAD BLM31P500S 8159 8238 277 06240 CONTROL BOARD CABLE 5603 2422 549 43409 8160 8238 277 03640 5631 2422 549 43409 BEAD BLM31P500S 8161 8238 277 06250 Forward 5632 2422 549 43409 5640 2422 549 42103 BEAD BLM31P500S 5651 2422 549 43409 6003 9322 082 82668 BEAD BLM31P500S 6004 9322 082 82668 6033 9322 082 82668 BEAD BLM31P500S 6201 9339 139 10115 6202 9339 139 10115 BEAD BLM31P500S 6301 9332 153 70215 6302 9332 153 70215 BEAD BLM31P500S 6303 9332 153 70215 6304 9332 153 70215 BEAD BLM31P500S 6305 9332 153 70215 6306 9332 153 70215 BEAD BLM31P500S 6307 9332 153 70215 6308 9332 153 70215 BLM21B222SB-0805 SMD 6309 9339 139 10115 6310 9339 139 10115 BEAD BLM31P500S 6311 9332 153 70215 6312 9332 153 70215 DIODE STP S34 3A40V 6313 9332 153 70215 6314 9332 153 70215 DIODE STP S34 3A40V 6315 9332 153 70215 6316 9332 153 70215 DIODE STP S34 3A40V 6317 9332 153 70215 6318 9332 153 70215 SMD DIODE BAS32L 6319 9332 153 70215 6320 9339 139 10115 SMD DIODE BAS32L 6321 9332 153 70215 6322 9332 153 70215 SMD DIODE BAV99 6324 9339 139 10115 7001 9322 028 99668 SMD DIODE BAV99 7002 9335 083 80215 7003 8238 277 05300 SMD DIODE BAV99 7006 9322 158 38668 7012 8238 277 05000 SMD DIODE BAV99 7013 8238 277 05000 7033 8238 277 05310 SMD DIODE BAV99 7201 9322 141 05685 7202 8238 277 05660 SMD DIODE BAV99 7210 3198 010 42201 7211 3198 010 43361 SMD DIODE BAV99 7212 3198 010 43361 7213 3198 010 42081 SMD DIODE BAV99 7214 3198 010 42201 7215 3198 010 42201 SMD DIODE BAS32L 7216 3198 010 43361 7218 3198 010 42201 SMD DIODE BAS32L 7261 9335 083 80215 7301 9322 046 99668 SMD DIODE BAV99 7302 9322 046 99668 7303 3198 010 42081 SMD DIODE BAV99 7331 8238 277 05690 7401 9322 151 11687 SMD DIODE BAV99 7403 8238 277 05400 7405 9322 092 65685 SMD DIODE BAV99 7501 8238 277 05670 7502 9322 092 65685 SMD DIODE BAV99 7601 9352 671 13557 7602 8238 277 05681 SMD DIODE BAV99 7631 8238 277 05880 7651 8238 277 05720 SMD DIODE BAV99 SMD DIODE BAV99 SMD DIODE BAV99 SMD DIODE BAS32L SMD DIODE BAV99 SMD DIODE BAV99 SMD DIODE BAS32L 30V(D-S) MOSFET SI4835 TRANS. BSR14 SOT-23 T IC LM2596SX-5.0 IC REGULATOR LM2596S-12 IC THC63LVDM83A IC THC63LVDM83A IC LM2596SX-3.3 IC LM61CIM3X 3P MUX 74CBT3257 TRANS BC858C (UAW) SMD TRANS PMBT2369 SMD TRANS PMBT2369 TRANS BC848C (UAW) TRANS BC858C (UAW) TRANS BC858C (UAW) SMD TRANS PMBT2369 TRANS BC858C (UAW) TRANS. BSR14 SOT-23 T IC ST24FC21M6 SO-8P IC ST24FC21M6 SO-8P TRANS BC848C (UAW) IC TL3016ID IC PQ3DZ13U 5P IC AD9884AKS-140 TRAN MUN2211 IC SII161A TRAN MUN2211 IC SAA6721 IC 74AHC1G125DCK MTV130P-15 SDRAMX16M-ESMT Back General Product Specifications 170B LCD 63 POGO2 17” Go to cover page GENERAL PRODUCT SPECIFICATION . ANALOG AND DIGITAL DUAL INPUT . AUTO PICTURE ADJUSTMENT . 16 FACTORY PRESET MODES AND 32 PRESET MODES WHICH CAN BE RECOVERED TO PRESET MODES . USER FRIENDLY OSD DISPLAY FOR MODE IDENTIFICATION /ADJUSTMENT . DDC1/ 2B COMMUNICATION CAPABILITY . MAX. RESOLUTION 1280*1024 NON-INTERLACED AT 75 HZ . 17” COLOR TFT LCD FLAT PANEL . EASY TILT & SWIVEL BASE . FULL RANGE POWER SUPPLY 90- 264 VAC . CE ENVIRONMENTAL POLICY . ANTI-GLARE TO REDUCE LIGHT REFLECTION . POWER MANAGEMENT CAPABILITY . SOG SUPPORT . TCO 99 . AUDIO SUPPORT(OPTION) . PROVIDE USB HUB (OPTION) . WALL MOUNT KIT (OPTION) . PROTECTIVE COVER (OPTION) 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 1 EDWARD CHANG 00-05-31 Back Forward 64 170B LCD General Product Specifications Go to cover page CONTENTS 1.0 Foreword 2.0 Product profile 2.1 LCD 2.2 Scanning frequencies 2.3 Video dot rate 2.4 Power input 2.5 Power consumption 2.6 Dimensions 2.7 Weight 2.8 Functions 2.9 Ambient temperature 2.10 Regulatory compliance 3.0 Electrical characteristics 3.1 Interface signals 3.1.1 Video 3.1.2 Audio 3.1.3 microphone 3.2 Interface 3.2.1 D-sub cable 3.2.2 DVI cable 3.2.3 OSD function control 3.3 Timing requirement 3.3.1 Mode storing capacity 3.3.2 Preset timings 3.3.3 Horizontal scanning 3.3.4 Vertical scanning 3.4 Power input connection 3.5 Power management 3.6 Display identification 3.6.1 Analog DDC 3.6.2 Digital DDC 4.0 Visual characteristics 4.1 Test conditions 4.2 Resolution 4.3 Brightness 4.4 Image size 4.4.1 Actual display size 4.4.2 Max. scan size 4.5 Brightness uniformity 4.6 Crosstalk 4.7 White color adjustment 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 2 EDWARD CHANG 00-05-31 Back Forward General Product Specifications 170B LCD 65 Go to cover page 5.0 Mechanical characteristics 5.1 Controls 5.2 Unit dimension / weight 5.3 Tilt and swivel base 5.4 Transportation packages 5.4.1 Shipping dimension / weight 5.4.2 Block unit / palletization 6.0 Environmental characteristics 6.1 Susceptibility of display to external environment 6.2 Transportation tests 6.3 Display disturbances from external environment 6.4 Display disturbances to external environment 6.4.1 EMI 7.0 Reliability 7.1 Mean time between failures 8.0 Quality assurance requirements 8.1 Acceptance test 9.0 Serviceability 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 3 EDWARD CHANG 00-05-31 Back Forward 66 170B LCD General Product Specifications Go to cover page 1.0 FOREWORD This specification describes a 18" SXGA multi-scan color TFT LCD monitor with max. resolution up to 1280*1024 /75 Hz non-interlaced. 2.0 PRODUCT PROFILE This display monitor unit is a color display monitor enclosed in PHILIPS global styling cabinet which has an integrated tilt and swivel base. 2.1 LCD Type NR. : LM181E1-H2MN (LG) Outside dimensions : 412.5(w)333.0(h)22.5(t) (Typ) mm Pitch (mm) : 0.2805 x 0.2805mm Color pixel arrangement : RGB stripes arrangement Display surface : Antiglare with hard coating (3H) Number of color : 8-bit, 16,777,216 colors Backlight : CCFL edge light system Active area (WxH) : 359x287mm (18.1” diagonal) View angle : Vertical 135 degree, Horizontal 160 degree (Typ) Contrast ratio : 400:1 White luminance : 250 nits (Typ) 2.2 Scanning frequencies Hor. : 30 82 K Hz Ver. : 56 - 76 Hz 2.3 Video dot rate : < 140 MHz 2.4 Power input : 90-264 V AC, 50/60 2 Hz 2.5 Power consumption : < 55 W typical ( exclude USB option ) 2.6 Dimensions : 2.7 Weight : 8.0 KGS 2.8 Functions : ! (1) D-shell analog R/G/B separate inputs, H/V sync separated, Composite (H+V) TTL level, SOG sync ! (2) DVI digital Panel Link TMDS input ! (3) AUDIO ! (4) USB HUB (option) ! (5) Microphone 2.9 Ambient temperature : +5°C to +35°C 2.10 Regulatory compliance : (1) Safety : UL,CSA, B-mark, SISIR, SEMKO, EN60950/IEC950, CB, RFS(NZ) (2) EMI : FCC, VCCI, CE, C-Tick, MPRIII, BCIQ (3) Environmental Issue: TCO99 (4) Ergonomic Requirements : TUV/GS, TUV/ISO9241-3/-8 3.0 Electrical characteristics 3.1 Interface signals The input signals can be applied in three different modes : 1). D-shell Analog Input signal : Video, Hsync., Vsync Video : 0.7 Vp-p, input impedance, 75 ohm @DC Sync. : Separate sync TTL level , input impedance 2k2 ohm terminate Hor. sync Positive/Negative Ver. sync Positive/Negative Composite sync TTL level, input impedance 2k2 ohm terminate 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 4 EDWARD CHANG 00-05-31 Back Forward General Product Specifications 170B LCD 67 Go to cover page (Positive/Negative) Sync on green video 0.3 Vp-p Negative (Video 0.7 Vp-p Positive) 2). Intel DVI Digital Input signal : Single channel TMDS signal 3.1.2 Audio Input Signal levels : 1.4 Vpp Headphone output signal level : 32ohm 50+50mV Input signal connector : 3.5mm mini jack Loudspeakers : 1+1 W stereo firing 3.1.3 Microphone Sensitivity : -51dB to 41dB Output impedance : 1K2 Ohm typical Directivity : -51dB at 180+20° 3.2 Interface 3.2.1 DVI Cable The input signals are applied to the display through DVI-D cable. Length : 1.8 M +/- 50 mm (fixed) Connector type : DVI-D male With DDC1/2B pin assignments. Blue connector thumb-operated jack screws 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 5 EDWARD CHANG 00-05-31 Back Forward 68 170B LCD General Product Specifications Go to cover page pin assignment : Pin No. Description 1 TMDS data2- 2 TMDS data2+ 3 TMDS data2 shield 4 NC 5 NC 6 DDC clock 7 DDC data 8 Not Connected 9 TMDS data1- 10 TMDS data1+ 11 TMDS data1 shield 12 NC 13 NC 14 +5V 15 Ground(return for +5V and H/Vsync) 16 Hot plug detect 17 TMDS data0- 18 TMDS data0+ 19 TMDS data0 shield 20 NC 21 NC 22 TMDS clock shield 23 TMDS clock+ 24 TMDS clock- 3.2.2 D-Sub Cable 3.2.3 pin assignment : PIN No. SIGNAL 1 Red 2 Green/SOG 3 Blue 4 Sense (GND) 5 Not connected 6 Red GND 7 Green GND 8 Blue GND 9 +5V 10 Sync GND 11 Sense (GND) 12 Bi-directional data 13 H/H+V sync 14 V-sync 15 Data clock Software control functions via OSD/control OSD (On Screen Display) function (1) Analog interface OSD : Adjustable functions: 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 6 EDWARD CHANG 00-05-31 Back Forward General Product Specifications 170B LCD 69 Go to cover page MAIN CONTROLS VOLUME LANGUAGE ADJUST POSITION ADJUST SIZE BRIGHTNESS & CONTRAST IMAGE OPTIMIZATION ADJUST COLOR PRODUCT INFORMATION RESET TO FACTORY SETTINGS INPUT SELECTION CLOSE MAIN CONTROLS MOVE SELECTION THEN ok VOLUME : ADJUST VOLUME LANGUAGE : ENGLISH , ESPANOL , FRANCAIS , DEUTSCH , ITALIANO JAPANESE ADJUST POSITION : HORIZONTAL VERTICAL ADJUST SIZE : full screen, native mode, user settings. BRIGHTNESS & CONTRAST : brightness and contrast adjustment. IMAGE OPTIMIZATION : Phase adjustment, Clock adjustment, Text/Graphics. ADJUST COLOR : original panel color , 9300K for general use , 6500K for image management, user red green blue adjust. PRODUCT INFORMATION : show product information RESET TO FACTORY SETTING: recall to Factory preset settings. INPUT SELECTION : select digital or analog input (2) Digital interface OSD : Adjustable functions: MAIN CONTROLS VOLUME LANGUAGE ADJUST POSITION ADJUST SIZE BRIGHTNESS & CONTRAST IMAGE OPTIMIZATION PRODUCT INFORMATION RESET TO FACTORY SETTINGS INPUT SELECTION CLOSE MAIN CONTROLS MOVE SELECTION THEN ok 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 EDWARD CHANG 23 590 7 00-05-31 Back Forward 70 170B LCD General Product Specifications Go to cover page VOLUME : ADJUST VOLUME LANGUAGE : ENGLISH , ESPANOL , FRANCAIS , DEUTSCH , ITALIANO, JAPANESE ADJUST POSITION : HORIZONTAL VERTICAL ADJUST SIZE : full screen, native mode, user settings. BRIGHTNESS & CONTRAST : brightness and contrast adjustment. IMAGE OPTIMIZATION : Text/Graphics. PRODUCT INFORMATION : show product information RESET TO FACTORY SETTING : return to Factory preset timings and settings. INPUT SELECTION : select digital or analog input 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 8 EDWARD CHANG 00-05-31 Back Forward General Product Specifications 170B LCD 71 Go to cover page 3.3 Timing requirement 3.3.1 Mode storing capacity 3.3.2 (1) Factory preset modes : 16 (2) Preset modes : 32 Factory preset timings The factory settings of size and centering are according to the reference timing charts ( see fig-4, fig-5 ) MODE NO. 1 2 3 4 RESOLUTION 640 x 350 720 x 400 640 x 480 640x480 Dot clock(MHz) 25.175 28.321 31.501 36 fh 31.469kHz 31.468kHz 37.5kHz 36kHz A ( us ) 31.778(800 dots) 31.78(900dots) 26.667 (840 dots) 23.111 (832 dots) B ( us ) 3.813(108dots) 2.032 ( 54 dots) 1.556 (56 dots) C ( us ) 3.813(96 dots) 1.907(54dots) 3.81 ( 120 dots) 2.222 ( 80 dots) D ( us ) 1.907(48 dots) 25.42(720dots) 20.317 (640 dots) 17.778 (640 dots) E ( us ) 25.422(640 dots) 0.636(18dots) 0.508 ( 26 dots) 0.636(16 dots) 1.555 (56 dots) fv 70Hz(70.085) 75Hz O (ms ) 70Hz(70.09) 14.27(449 lines) 13.333 (500 lines ) 85Hz P ( ms ) 14.27(449 lines) 0.08 ( 3 lines ) 11.763 (509 lines ) Q (ms ) 0.064(2 lines) 0.427 ( 16 lines ) 0.069 ( 3 lines ) R ( ms ) 0.064(2 lines) 1.112(34 lines) 0.578 ( 25 lines ) S ( ms ) 1.907(60 lines) 12.71(400 lines) 12.8 (480 lines ) 11.093 (480 lines ) SYNC. H/V 11.12(350 lines) 0.381(13 lines) 0.026 ( 1 lines) 0.023 ( 1 lines) POLARITY 1.175(37 lines) SEP . SYNC -/+ -/- -/- +/- Y Y Y Y MODE NO. 5 6 7 8 RESOLUTION 640 x 480 640 x 480 640 x 480 800 x 600 Dot clock(MHz) 31.500 30.24 25.175 36 fh 37.861kHz 35 kHz 31.5kHz 35.2kHz A ( us ) 26.413(832 dots) 28.571 (864 dots) 31.778(800 dots) 28.444(1024 dots) B ( us ) 2.116 ( 64 dots) 3.813( 96 dots) 2.000 ( 72 dots) C ( us ) 1.270(40 dots) 1.907( 48 dots) 3.556 ( 128 dots) D ( us ) 3.810(120 dots) 3.175( 96 dots) 25.422( 640 dots) 22.222( 800 dots) E ( us ) 20.317(640 dots) 21.164( 640 dots) 0.636( 16 dots) 0.666 ( 24 dots) 1.016(32 dots) fv 2.116( 64 dots) 56Hz O (ms ) 72.809Hz 17.778 (625 lines) P ( ms ) 13.735(520 lines) 67Hz 60Hz 0.057 ( 2 lines) Q (ms ) 15 (525 lines) 16.683 (525 lines) 0.626 ( 22 lines) R ( ms ) 0.079(3 lines) 0.086( 3 lines) 0.064 ( 2 lines) 17.066 (600 lines) S ( ms ) 0.528(20 lines) 1.114( 39 lines) 1.049 ( 33 lines) 0.029 ( 1 line ) SYNC. H/V 12.678(480 lines) 13.714(480 lines) 15.253 (480 lines) POLARITY 0.45(17 lines) 0.086( 3 line ) 0.317 ( 10 line ) +/+ SEP . SYNC -/- -/- -/- Y Y Y Y MODE NO. 9 10 11 12 RESOLUTION 800 x 600 800 x 600 800 x 600 832 x 624 Dot clock(MHz) 49.498 40 56.251 57.28 fh 46.9kHz 37.9kHz 53.7kHz 49.7kHz 21.333 (1056 dots) 26.4 (1056 dots) 18.631 (1048 dots) 20.11(1152 dots) A ( us ) 1.616 ( 80 dots) 3.2 ( 128 dots) 1.138 ( 64 dots) 1.117(64 dots) B ( us ) 3.232 ( 160 dots) 2.2 ( 88 dots) 2.702 ( 152 dots) 3.91(224 dots) C ( us ) 16.162 ( 800 dots) 20 ( 800 dots) 14.222 ( 800 dots) 14.52(832 dots) D ( us ) 0.323 ( 16 dots) 1 ( 40 dots) 0.569 ( 32 dots) 0.563(32 dots) E ( us ) 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 EDWARD CHANG 23 590 9 00-05-31 Back Forward 72 170B LCD General Product Specifications Go to cover page fv 75Hz 60Hz 85Hz 75Hz O (ms ) 13.333 (625 lines) 16.579 (628 lines) 11.756(631 lines) 13.41(667 lines) P ( ms ) 0.064 ( 3 lines) 0.056 ( 3 lines) Q (ms ) 0.448 ( 21 lines) 0.106 ( 4 lines) 0.503 ( 27 lines) 0.06(3 lines) R ( ms ) 0.607 ( 23 lines) 11.179 (600 lines) 0.784(39 lines) S ( ms ) 12.8 (600 lines) 15.84 (600lines) 0.018 ( 1 lines) 12.55(624 lines) 0.021 ( 1 line ) 0.026 ( 1 line ) 0.016(1 lines) SYNC. H/V +/+ POLARITY +/+ +/+ +/+ SEP . SYNC Y Y Y Y MODE NO. RESOLUTION 13 14 15 16 800 x 600 1024 x 768 1024 x 768 1024 x 768 Dot clock(MHz) 50 78.75 65 75 fh A ( us ) 48.077kHz 60kHz 48.363kHz 56.5kHz B ( us ) 20.80 (1040dots) 16.66 (1312dots) 20.677(1344 dots) 17.707(1328 dots) C ( us ) 2.400 ( 120 dots) 1.219 ( 96 dots) D ( us ) 1.280 ( 64 dots) 2.235 ( 176 dots) 2.092(136 dots) 1.813(136 dots) E ( us ) 16.00 ( 800 dots) 13.003 ( 1024 dots) 2.462(160 dots) 1.920(144 dots) 1.120 ( 56 dots) 0.203 ( 16 dots) 15.754(1024 dots) 13.653(1024 dots) fv 0.369(24 dots) 0.321 (24 dots) O (ms ) 72Hz ( 72.188) P ( ms ) 13.85 (666 lines) 75Hz ( 75.000) 60.004Hz 70.004Hz Q (ms ) 0.125 ( 6 lines) 13.328 (800 lines) 16.666(806 lines) 14.272(806 lines) R ( ms ) 0.478 ( 23 lines) S ( ms ) 12.48 (600 lines) 0.05( 3 lines) 0.124(6 lines) 0.106(6 lines) SYNC. H/V 0.770 ( 37 line ) 0.446 ( 28 lines) 0.600(29 lines) 0.514(29 lines) POLARITY 12.80 (768 lines) 15.880(768 lines) 13.599(768 lines) SEP . SYNC +/+ 0.017 ( 1 line ) 0.062(3 lines) 0.053(3 lines) MODE NO. Y +/+ -/- -/- RESOLUTION Y Y Y Dot clock(MHz) 17 18 19 20 fh 1024 x 768 1024 x 768 1152 x 864 1152 x 864 A ( us ) B ( us ) 83.096 94.5 108 94.5 C ( us ) D ( us ) 61.1kHz 68.7kHz 67.5kHz 63.9kHz E ( us ) 16.367 (1360dots) 14.561 (1376 dots) 14.815 (1600 dots) 15.661(1480 dots) 1.348 ( 112 dots) 1.016 ( 96 dots) 1.185 ( 128 dots) fv 2.022 ( 168 dots) 2.201 ( 208 dots) 1.016(96 dots) O (ms ) 12.323 ( 1024 dots) 10.836 ( 1024 dots) 2.37 ( 256 dots) 1.116(105 dots) P ( ms ) 0.674 ( 56 dots) 0.508 ( 48 dots) 10.667 ( 1152 dots) 12.19(1152 dots) Q (ms ) 1.339(127 dots) R ( ms ) 76Hz 0.593 ( 64 dots) S ( ms ) 13.142 (803 lines) 70Hz SYNC. H/V 0.049 ( 3 lines) 85Hz 75Hz 14.283(912lines) POLARITY 0.507 ( 31 lines) 11.765 (808 lines) 13.333 (900 lines) SEP . SYNC 12.57 (768 lines) 0.044 ( 3 lines) 0.044 ( 3 lines) 0.047(3lines) 0.524 ( 36 lines) 0.474 ( 32 lines) 0.689(44 lines) 0.016 ( 1 line ) 11.183 (768lines) 12.8 (864 lines) 13.531(864 lines) +/+ 0.014 ( 1 line ) 0.015 ( 1 lines) 0.016(1 lines) Y +/+ -/- +/+ Y Y Y 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 10 EDWARD CHANG 00-05-31 Back Forward General Product Specifications 170B LCD 73 Go to cover page MODE NO. 21 22 23 24 RESOLUTION 1152 x 864 1152 x 870 1152 x 900 1152 x 900 Dot clock(MHz) 79.9 100 94.5 108 fh 54.0kHz 68.7kHz 61.8kHz 71.8kHz A ( us ) 18.523(1480 dots) 14.56 (1456 dots) 16.169 (1528 dots) 13.926 (1054dots) B ( us ) 1.28 ( 128 dots) 1.354 ( 128 dots) 1.185 ( 128 dots) C ( us ) 1.952(156 dots) 1.44( 144 dots) 2.201 ( 208 dots) 1.778 ( 192 dots) D ( us ) 1.352(108 dots) 11.52 ( 1152 dots) 12.19 ( 1152 dots) 10.667 ( 1152 dots) E ( us ) 14.418(1152 dots) 0.32 ( 32 dots) 0.424 ( 40 dots) 0.296 ( 32 dots) 0.801(64 dots) fv 75Hz 66Hz 76Hz O (ms ) 60Hz 13.333 (916 lines) 15.151 (937lines) 13.132 (943 lines) P ( ms ) 16.671(900lines) 0.044 ( 3 lines) 0.065 ( 4 lines) 0.111 ( 8 lines) Q (ms ) 0.501 ( 31 lines) 0.46 ( 33 lines) R ( ms ) 0.148(8 lines) 0.568( 39 lines) 14.552 (900lines) 12.533 (900 lines) S ( ms ) 0.445(24 lines) 12.678 (870 lines) 0.033 ( 2 line ) 0.028 ( 2 lines) SYNC. H/V 16.004(864 lines) POLARITY 0.074(4 lines) 0.043 ( 4 line ) Serr- +/+ SEP . SYNC -/- +/+ Y Y Y Y MODE NO. 25 26 27 28 RESOLUTION 1280 x 960 1280 x 960 1280 x 1024 1280 x 1024 Dot clock(MHz) 108 129.895 130.223 108 fh 60kHz 75kHz 76kHz 64kHz A ( us ) 16.667(1800 dots) 13.307 (1728 dots) 13.158 (1713 dots) 15.63 (1688 dots) B ( us ) 1.047 ( 136 dots) 1.024 ( 133 dots) 1.037 ( 112 dots) C ( us ) 1.037(112 dots) 1.725 ( 224 dots) 1.905 ( 248 dots) 2.296 ( 248 dots) D ( us ) 2.889(312 dots) 9.857 ( 1280 dots) 9.83 ( 1280 dots) 11.852 ( 1280 dots) E ( us ) 11.852(1280 dots) 0.678 ( 88 dots) 0.445 ( 48 dots) 0.889(96 dots) 0.399( 52 dots) fv 60Hz O (ms ) 60Hz 75Hz 72Hz 16.661 (1066 lines) P ( ms ) 16.667(1000 lines) 13.333 (1002 lines) 14 (1064 lines) Q (ms ) 0.02 ( 2 lines) 0.047 ( 3 lines) R ( ms ) 0.05(3 lines) 0.039 ( 3 lines) 0.5 ( 38 lines) 0.594 ( 38 lines) S ( ms ) 0.600(36 lines) 0.48 ( 36 lines) 13.468 (1024 lines) 16.005 (1024 lines) SYNC. H/V 16(960 lines) 12.774 (960 lines) 0.012 ( 0 line) 0.015 ( 1 line) POLARITY 0.017(1 lines) 0.04 ( 3 lines ) SEP . SYNC +/+ +/+ +/+ +/+ Y Y Y Y 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 11 EDWARD CHANG 00-05-31 Back Forward 74 170B LCD General Product Specifications Go to cover page MODE NO. 29 30 31 32 RESOLUTION 1280 x 1024 1280 x 1024 1280 x 1024 688 x 556 Dot clock(MHz) 135 138.008 117 27 fh 80kHz 81.1kHz 71.7kHz 31.25kHz A ( us ) 12.504(1688 dots) 12.326 (1664 dots) 13.949 (1632 dots) 32 (864 dots) B ( us ) 0.957 (112 dots) 3.852 (104 dots) C ( us ) 1.067(144 dots) 0.474 (64 dots) 1.778 (48 dots) D ( us ) 1.837(248 dots) 2.133 (288 dots) 1.915 (224 dots) 25.481 (688 dots) E ( us ) 9.481(1280 dots) 9.481 (1280 dots) 10.94 (1280 dots) 0.889 (24 dots) 0.119(16 dots) 0.238 (32 dots) 0.137 (16 dots) fv 50Hz O (ms ) 75Hz 76Hz 67Hz 20 (625 lines) P ( ms ) 13.329(1066 lines) 13.139 (1066 lines) 14.883 (1067lines) 0.128 (4 lines) Q (ms ) 1.408 (44 lines) R ( ms ) 0.038(3 lines) 0.099 ( 8 lines) 0.112 ( 8 lines) 17.972 (556 lines) S ( ms ) 0.475(38 lines) 0.394 ( 32 lines) 0.46 ( 33 lines) 0.672 ( 21 lines ) SYNC. H/V 12.804(1024 lines) 12.622 (1024 lines) 14.283 (1024 lines) POLARITY 0.012 (1 line) 0.024( 2 lines ) 0.028 (2 lines ) -/ + SEP . SYNC +/+ -/- +/+ Y Y Y Y 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 12 EDWARD CHANG 00-05-31 Back Forward General Product Specifications 170B LCD 75 Go to cover page 3.3.3 Horizontal scanning 3.3.4 3.4 Sync polarity : Positive or Negative 3.5 Scanning frequency : 30 - 82 K Hz 3.6 3.6.1 Vertical scanning 3.6.2 Sync polarity : Positive or Negative Scanning frequency : 56 - 76 Hz Power input connection Power cord length : 1.8 M Power cord type : 3 leads power cord with protective earth plug. Power management The power consumption and the status indication of the set with power management function are as follows, STATUS Horizontal Vertical Power Spec LED On Pulse Pulse as normal on Green Stand-by No Pulse Pulse < 3W Amber Suspend Pulse No Pulse < 3W Amber off No Pulse No Pulse < 3W Amber According to VESA power saving signaling. TCO92 power saving requirement EPA energy star requirement (Power Switch Off) for Digital input power consumption is less 3W (In non-DMPM recoverable off mode) Display identification In accordance with VESA Display Channel Standard V1.0 and having DDC 1 and DDC 2B capability In accordance with DVI requirement (DDWG digital Visual Interface revision 1.0) use DDC 1/2B and EDID 3.0 structure 2.0 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 13 EDWARD CHANG 00-05-31 Back Forward 76 170B LCD General Product Specifications Go to cover page 4.0 Visual characteristics 4.1 Test conditions Unless otherwise specified, this specification is defined under the following conditions. (1) Input signal : As defined in 3.3, 1280 x 1024 non-interlaced mode (80K/75Hz), signal sources must have 75 ohm output impedance. (2) Luminance setting : controls to be set to 175 nit with full screen 100 % duty cycle white signal (3) Warm up: more than 30 minutes after power on with signal supplied. (4) Ambient light: 400 -- 600 lux. (5) Ambient temperature: 20 ± 5 C 4.2 Resolution Factory preset modes ( 16 modes ) # Resolution Frequency Pixel rate Sync Comment 1 640X350 31.5K/70HZ 25.175 (+/-) IBM VGA 10h 2 720X400 31.5K/70HZ 28.322 (-/+) IBM VGA 3h 3 640X480 37.5K/75HZ 31.501 (-/-) 4 640X480 31.5K/60HZ 25.175 (-/-) 5 800X600 35.2K/56HZ 36 (+/+) 6 800X600 46.9K/75HZ 49.498 (+/+) 7 800X600 37.9K/60HZ 40 (+/+) MAC 8 832X624 49.7K/75HZ 57.28 (+/+) 9 1024X768 48.4K/60HZ 65 (-/-) 10 1024X768 56.5K/70HZ 75 (-/-) 11 1152X870 12 1152X900 68.7K/75HZ 100 (-/-) MAC 13 1280X1024 71.8K/76HZ 108 (+/+) SUN Mode II 14 1280X1024 15 1280X1024 64.0K/60HZ 108 (+/+) SUN Mode I 80.0K/75HZ 135 (+/+) 16 688X556 81.1K/76HZ 135.008 (-/-) 31.25K/50HZ 27 (-/+) TV-PAL Note: 1. Screen displays perfect picture at 16 factory preset modes 2. Screen displays visible picture with OSD warning when input modes are other then 32 preset modes 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 14 EDWARD CHANG 00-05-31 Back Forward General Product Specifications 170B LCD 77 Go to cover page 4.3 Brightness : 155 nit (at panel color temperature, 5 points averaged, Fig. 1 ) 4.4 Image size 4.4.1 Actual display size 359x287mm 4.5 Brightness uniformity Set contrast at 50% and turn the brightness to get average above 155 nit < 1.25 at center of the screen. Apply the Fig 1, it should comply with the following formula: Maximum luminance of five points (brightness) Minimum luminance of five points (brightness) 4.6 Check Cross talk (S) Apply Pattern 2. Set contrast at 50 % and brightness at 100 %. Measure YA. Then output Pattern 3 and measure YB. the cross talk value : ABS( YA - YB ) X 100% < 1.2 % YA 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 15 EDWARD CHANG 00-05-31 Back Forward 78 170B LCD General Product Specifications Go to cover page 4.7 White color adjustment There are two factory preset white color 9300K, 6500K. Apply full white pattern, with brightness in 70 % position and the contrast control at 50 % position. The 1931 CIE Chromaticity (color triangle) diagram (x,y) coordinate for the screen center should be: 9300K CIE coordinates X=0.281±0.020 6500K CIE coordinates Y=0.311±0.020 X=0.312±0.020 Y=0.338±0.020 5.0 Mechanical characteristics 5.1 Controls Front side: DC power switch OSD function key Brightness key Mute key Auto key Rear : Video signal cable DVI signal cable Audio and Mic cable(option) Power cord socket USB hub (option) DC 18 V socket 5.2 Unit dimension / Weight Set dimension (incl. pedestal): 451 * 476 * 181 mm Net weight : 8.0 Kg 5.3 Tilt and swivel base tilt angle : 0 to +30 swivel rotation : 40 5.4 Transportation packages 5.4.1 Shipping dimension/Weight Carton dimension : 560 X 575 X 240 mm Gross weight : 10 KGS 5.4.2 Block unit / Palletization layers/block sets/layer sets/block unit 6 4 24 blocks/container 20 feet 40 feet 200 720 6.0 Environmental characteristics The following sections define the interference and susceptibility condition limits that might occur 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 16 EDWARD CHANG 00-05-31 Back Forward General Product Specifications 170B LCD 79 Go to cover page between external environment and the display device. 6.1 Susceptibility of display to external environment Operating - Temperature : +5 to 35 degree C - Humidity : 80% max - Altitude : 0-3658m - Air pressure : 600-1100 mBAR Storage - Temperature : -20 to 60 degree C - Humidity : 95% max ( < 40°C ) - Altitude : 0-12192m - Air pressure : 300-1100 mBAR Note: recommend at 5 to 35C, Humidity less than 60 % 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 17 EDWARD CHANG 00-05-31 Back Forward 80 170B LCD General Product Specifications Go to cover page 6.2 Transportation tests 6.3 Standard Philips UAN-D1400 NSTA 61 cm Height 70 cm 1 corner 3 edge 1 corner 6 face Drop Sequence 3 faces 10-50-10 Hz 0.35 mm Test 30 min. for each axis electrical function ok Test mechanical function ok Result no serious damage on set appearance (room temp./-10°c, humidity 70 %) 5-200 Hz Sequence 0.73 G Vibration 30 min. for each axis Test Test electrical function ok Result mechanical function ok no serious damage on set appearance For design evaluation only Operating Bump 10 G, 11 msec, 1000 cycles temperature :23°C Test humidity : 60 % air pressure : 100 kpa (according to DSD draft standard UAN-D636) 6.3 Display disturbances from external environment According to IEC 801-2 for ESD disturbances 6.4 Display disturbances to external environment 6.4.1 EMI EMI : FCC,VCCI,CE,C-Tick, MPRIII, BCIQ 7.0 Reliability 7.1 Mean Time Between Failures System MTBF (Excluding the LCD panel and CCFL) : 50,000 hrs CCFL MTBF : 25,000 hrs (50% of original brightness) 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 18 EDWARD CHANG 00-05-31 Back Forward General Product Specifications 170B LCD 81 Go to cover page 8.0 Quality assurance requirements 8.1 Acceptance test according to MIL-STD-105D Control II level AQL : 0.65 (major) 2.50 (minor) (please also refer to annual quality agreement) Customer acceptance criteria : UAW0377/00 9.0 Serviceability The serviceability of this monitor should fulfill the requirements which are prescribed in UAW-0346 and must be checked with the check list UAT-0361. 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 19 EDWARD CHANG 00-05-31 Back Forward 82 170B LCD General Product Specifications Go to cover page Fig 1: Brightness and Uniformity 40 +/- 5 mm 1 2 40 +/- 5 mm 3 4 5 Average = 5 points average 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 20 EDWARD CHANG 00-05-31 Back Forward General Product Specifications 170B LCD 83 Go to cover page Fig 2: Cross talk pattern Gray level 46 (64 Gray level) 1/6 1/2 Fig 3: Cross talk Pattern YA 1/2 Center at Gray level 0 (Black) 1/6 1/3 1/3 1/2 1/3 YB 1/2 1/3 1/3 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 21 EDWARD CHANG 00-05-31 Back Forward 84 170B LCD General Product Specifications Go to cover page SEPARATE SYNC. VIDEO C D E HORIZONTAL B A VIDEO Q R S VERTICAL P O COMPOSITE SYNC. VIDEO C D E HORIZONTAL B A FIG-4 TIMING CHART -1 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 22 EDWARD CHANG 00-05-31 Back Forward General Product Specifications 170B LCD 85 Go to cover page VIDEO Q R S VERTICAL P O COMPOSITE SYNC. & VIDEO ( SYNC. ON GREEN ) HORIZONTAL C D E B A VERTICAL B S P Q R O FIG-5 TIMING CHART -2 17" TFT SXGA LCD CMTR-170B1A TYPE : 170B1A/00 8639 000 10584 BRAND : PHILIPS 00-05-31 23 590 23 EDWARD CHANG 00-05-31 Back Forward 86 170B LCD Inverter panel CBA Go to cover page Back Forward Parts List for inverter 170B LCD 87 Go to cover page ITEM NUMBER P/N DESCRIPTION PHILIPS service codes C1,C14 09.0100.01 C16,C25 11.1006.01 CAP AL 35MV47SAX/SGX (SANYO) L1,L2 21.0036.10 C4,C7 08.0100.01 CAP MPPS 2A104K (SUNG HO) @ C9,C10 08.0183.01 C15,C24,C29,C30,C8,C13 08.0147.01 COIL A99-1570 DIP (AXIS) @ C18,C27 08.0454.01 08.0366.09 CAP C 103K/50V/X7R/0603 @ C3 08.0258.01 10.0005.01 CAP C 105Z/10V/Y5V/0603 @ C6 08.0180.01 C21,C28,C11,C12 08.0273.01 CAP C 104K/16V/X7R/0603 @ 08.0128.01 C2 08.0128.21 CAP C 475K/16V/X5R/1206 @ 08.0432.01 D2,D6 10.0000.01 CAP C 475K/10V/X7R/1206(AVX/K 06.1634.04 D9,D10 06.1324.20 CAP C 105K/16V/X7R/1206 @ D1,D3,D5 06.1003.01 C5 06.1007.01 CAP TAN 1u/16V/M/A @ R18 08.0022.02 Q5,Q6,Q12,Q13 13.0005.03 CAP C 471J/50V/NPO/0603 @ Q2 06.0648.01 06.0015.01 CAP C 180J/3KV/NPO/1808 @ Q1 06.0038.01 06.0085.02 CAP C 220J/3KV/NPO/1808 (AVX)@ Q10,Q3 06.0085.01 R5,R13 06.6031.01 CAP C 220J/3KV/NPO/1808(HEC) R16,R29 13.0032.02 14.0518.01 CAP C 335K/10V/X7R/1206(TAIYO R11,R12 14.0169.01 R32,R39 13.0229.01 CAP TAN 3.3u/16V/M/A R1 14.0037.02 R22,R36 14.0258.01 DIO SBD S24 SMA (GW) R8,R20,R17,R34,R19,R21 14.0651.01 R9 13.0340.01 DIO SBD B240 SMB (LITEON) 13.0046.02 R23,R37 13.0104.01 DIO SW BAV99 SOT23 A7P @ R6,R10 13.0416.01 R3,R4 13.0071.02 DIO SW LS4148 LL-34 (TEMIC) @ R2 14.0120.01 R15,R28 14.0283.01 CAP C 104Z/25V/Y5V/0603 @ 14.0760.01 R24,R38 13.0360.01 RES C 0 ohm/0603/5% @ R7,R14 14.0117.01 U1 13.0155.01 TR NPN 2SD1802T-TL DPAK/SANYO Q4,Q11 04.0237.01 06.0002.04 TR NPN PMBS3904 SOT23(PHILIPS Q7,Q14 06.0002.03 Q8,Q9 06.0004.01 TR NPN MMBT3904LT1 SOT23(MOTO 06.0045.01 T1,T2 06.0602.01 TR PNP DTA124EUA UMT3 (ROHM) 64.0004.02 F1 22.0316.39 TR PNP MUN5112T1 UMT (MOTO) J1 22.0195.13 J2,J3 26.7060.01 PFET Si3457DV/TSOP6(SILICONIX@ 26.0534.01 26.0258.01 RES C 10K ohm/0603/5% @ 19.0559.01 RES C 52.3K ohm/0603/1% @ RES C 16.2K ohm/0603/1% RES C 1.2K ohm/1206/5% RES C 75K ohm/0603/1% @ RES C 205K ohm/0603/1% RES C 191 ohm/0603/1% RES C 910 ohm/1206/5% RES C 12K ohm/0603/5% RES C 11K ohm/0603/5% RES C 1.6M ohm/0805/5% @ RES C 5.1K ohm/0603/5% @ RES C 220 ohm/0603/1% RES C 68.1K ohm/0603/1% RES C 487K ohm/0603/1% RES C 130K ohm/0603/5% RES C 287K ohm/0603/1% @ RES C 2M ohm/0603/5% @ IC BA9741F SOP16 (ROHM) @ TR NPN 2SC1623-L6.7 SOT23(NEC@ TR NPN 2SC1623-L6 SOT23 (NEC) TR NPN 2SC3052F SOT23 (MITSUB TR PNP DTA124EKA SMT3 (ROHM) NFET 2N7002(E)(LT1) SOT23 @ SOLDER PASTE SE48-M954-2(KOKI@ XFMR XL-1713-13010 (XTREME) XFMR T0.0107A.101 SMT (DARFON FUSE KE40 1206 (DAITO) @ CONN B8B-PH-SM3-TB (JST) @ CONN SM03(7-D1)B-BHS-1 (JST) PCB T50I016.00 REV:4 2L Back Forward Go to cover page TELEVISION/MONITOR SAFETY GUIDELINES FOR THE PROFESSIONAL SERVICE TECHNICIAN Safety Checks 6. New picture tubes are specifically designed to withstand higher operathng After the original swevice problem has been corrected,a complete safety voltages without creating undesirable X-radiation. It is strongly check recommended that any shop test fixture which is to be used with the new should be made. Be sure to check over the entire set, not just the areas higher voltage chassis be equipped with one of the new type tubes where you have worked. Some previous servicer may have left an unsafe designed for this service.Addition of a permanently connected HV meter condition,which could be unknowingly passed on to your customer. Be sure to the shop test fixture is advisable. The CRT types used in these new to check all of the following: sets should never be replaced with any other types,as this may result in excessive X-radiation. Fire and Shock H azard 1. Be sure all components are positioned in such a way as to avoid the 7. It is essential to use the specified picture tube to avoid a possible X-diation problem. possibility of adjacent component shorts. This is especially important on those chassis which are transported to and feom the service shop. 8. Most TV receivers contain some type of emergency "Hold Down" circuit to 2. Never release a repaired unit unless all protective devices such as pervent HV from rising to excessive levels in the presence of a failure insulators, barries, covers, strain reliefs, and other hardware have been mode. These various circuits should be understood by all technicians installed in accordance with the original design. servicing them, especially since many hold down circuits are inoperative 3. Soldering and wiring must be inspected to locate possible cold solder as long as the receiver performs normally. joints,solder splashes,sharp solder points, frayed leads, pinched leads, or damaged insulation ( including the ac cord).Be certain to remove Leakage Current Cold Check loose solder balls and all other loose foreign particles. 1. Unplug the ac line cord and connect a jumper between the two prongs of 4. Check across-the-line components and other components for physical evidence of damage or deteriortion and replace if necessary. Follow the plug. original layout,lead length, and dress. 2. Turn on the power switch. 5. No lead or component should touch a receiving tube or a resistor rated 3. Measure the resistance value between the jumpered ac plug and all at 1 watt or more. Lead tension around protruding metal surfaces or edges must be avoided. exposed cabinet parts of the receiver, such as screw heads, antennas, 6. Critical components having special safety characteristics are identified and control shafts.When the exposed metallic part has a return path to with ans bythe Ref. No. in the parts list and enclosed within a broken line the chassis, the reading should be between 1 megohm and 5.2 megohms. When the exposed metal does not have a return path to thr chassis, the * (where seceral criticalcomponents are grouped in one area) along with reading must be infinity.Remove the jumper from the ac line cord. the safety symbols on the schematic diagrams and/or exploded views. 7. When servicing any unit, always use a seoparate isolation transformer TO 0.15 uF WATER for the chassis Failure to use a separate isolation transformer may INSTRUMENTS 1500 ohm, 10W PIPE exopose you to possible shock hazard, and may cause damage to EXPOSED EARTH servicing instruments. METAL PARTS GROUND 8. Many electronic products use a polarized ac line cord (one wide pin on the plug.) Defeating this safety feature may create a potential hazard to Leakage Current Hot Check the service and the user. Extension cords which do not incorporate the 1. Do not use an isolation transformer for this test. Plug the completely polarizing feature should never be used. 9. After reassembly of the unit, always perform an leakage test or resistance reassembled receiver directly into the ac outlet. test from the line cord to all exposed metal parts of the cabinet. Also check 2. Connect a 1.5k, 10w resistor paralleled by a 0.15uf. capacitor between all metal control shafts(with knobs removed), antenna terminals, handles, screws, etc. to be sure the unit may be safety operted without danger of each exposed metallic cabinet part and a good earth ground such as a electrical shock. water pipe, as shown above. 3. Use an ac voltmeter with at least 5000 ohmsy volt sensitivity to measure * Broken line the potential across the resistor. 4. The potential at any point should not exceed 0.75 volts. Aleakage current Implosion tester may be used to make this test; leakage current must not exceed 1. All picture tubes used in current model receivers are equipped with an 0.5 milliamps. If a measutement is outside of the specified limits, there is a possibility of shock hazard. The receiver should be repaired and intergral implosion system. Care should always be used, and safety rechecked before retutning it to the customer. glassesworn,whenever handling any picture tube. Avoid scratching or 5. Repeat the above procedure with the ac plug reversed.( Note: An ac other rwise damaging the picture tube during installation. adapter is necessary when a polarized plug is used. Do not defeat the 2. Use only replacement tubes specified by the manufacturer. polarizing feature of the plug.) X-radiation Picture Tube Replacement 1. Be sure procedures and instructions to all your service personnel cover The primary source of X-radiation in this television receiver is the picture tube.The picturetube utilized in this chassis is specially constructed to limit the subject of X-radiation. Potential sources of X-rays in TV receivers are X-radiation emissions. For continued X-radiation protection, the replacement the picture tube and the high voltage circuits. The basic precaution which tube must be the same type as the original, including suffix letter,or a Philips must be exercised is to keep the high voltage at the factory recommended approved tupe. level. 2. To avoid possible exposure to X-radiation and electrical shock, only the Parts Replacement manufacturer's specified anode connectors must be used. Many electrical and mechanical parts in Philips television sets have special 3. It is essential that the service technician has an accurate HV meter safety related charcteristics. These characteristics are often not evident from available at all times. The calibration of this meter should be checked visual inspection nor can the protection afforded by them necessarily be periodically against a reference standard. obtained by using replacement components rated for higher voltage, wattage, 4. When the HV circuitry isoperating properly there is no possibility of an x- etc. The use of a substitute part which does not have the same safety radiation problem. High voltage should always be kept at the anufacture,s characteristics as the Philips recommended replacement part shown in this rated value-no higher - for optimum performance. Every time a color set is service manual may create shock, fire, or other hazards serviced, the brightness should be run up and down while monitoring the HV with a meter to be certain that the HV is requlated correctlv and does not exceed the specified value. We suggest that you and your technicians review test procedures so that HV requation are always checked as a standard servicing procedure, and the reason for this prudent routine is cleary understood by everyone. It is important to use an accurate and reliable HV meter. It is recommended that the HV recorded on each customer's invoice, which will demonstrate a proper concern for the customer's safety. 5. When troubleshooting and making test measurements in a receiver with a problem of excessive high voltage, reduce the line voltage by means of a Variac to bring the HV into acceptable limits while troubleshooting. Do not operate the chassis longer than necessary to locate the cause of the excessive HV. WARNING : Before removing the CRT anode cap, turn the unit OFF and short the HIGH VOLTAGE to the CRT DAG ground. SERVICE NOTE : The CRT DAG is not at chassis ground. 17” TFT LCD Colour Monitor DVI-D & D-SUB Dual Input/Plug & Play 170B1A/00(ADT panel) Auto Picture Adjustment/Wide Viewing Angle TABLE OF CONTENTS Horizontal frequencies 30 - 82 kHz Description Page Description Page Important Safety Notice..................................2 Repair Flow Chart...........................................32~34 Technical Data & Power Management ............3~4 Repair tips .....................................................35 Connection to PC...........................................5 Colour Adjustment..........................................36~42 Installation & Accessories...............................6 PCBA Architecture..........................................43 Description of Controls...................................7 Power Distribution Flow...................................44 Advanced Control of OSD...............................8 Block Diagram & Control Panel C.B.A...............45 Clock & Phase Adjustments............................9 AC Adapter Schematic Diagram and C.B.A.......46 OSD Menu Control Level Structure.................10~11 DC Converter & Video in Schematic Diagram....47 OSD Attention Signal.....................................12 RGB Digitizer Diagram and Waveforms.............48 Troubleshooting............................................13 Scaling Schematic Diagram and Waveforms......49 Failure Mode of LCD Panel.............................14 MCU Schematic Diagram and Waveforms..........50 USB Connection & USB Hub Installation.........15 Frame buffer and Power Saving Diagram...........51 Flat Panel Adjust (FP Adjust)......................... 16 Inverter & Control Panel Schematic Diagram.....52 Definition Of Pixel Defects..............................17 TMDS Receiver and Main Panel C.B.A ..............53 Wiring Diagram..............................................18 TTL to LVDS Schematic Diagram.......................54 Mechanical Instructions..................................19~21 Exploded View..................................................55 Electrical Instructions.....................................22~23 Recommended Parts List..................................56 Factory Adjustment........................................24 Spare Parts List................................................57~62 Safety test Requirements...............................25 General Product Specification...........................63~85 DDC Instructions............................................26~29 Inverter Panel C.B.A.........................................86 DDC Data.......................................................30~31 Spare Parts List for Inverter...............................87 ANY PERSON ATTEMPTING TO SERVICE THIS CHASSIS MUST FAMILIARIZE HIMSELF WITH THE CHASSIS AND BE AWARE OF THE NECESSARY SAFETY PRECAUTIONS TO BE USED WHEN SERVICING ELECTRONIC EQUIPMENT CONTAINING HIGH VOLTAGES. CAUTION: USE A SEPARATE ISOLATION TRANSFORMER FOR THIS UNIT WHEN SERVICING. REFER TO BACK COVER FOR IMPORTANT SAFETY GUIDELINES Published by BCU Monitor Printed in Taiwan © Copyright reserved Subject to modification August 4, 2000 3138 106 10106