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AL1931(AM939) TFT LCD MONITOR

CONTENTS

INTRODUCTION .......................................................................................................................................... 2

1.1

Scope

.................................................................................................................................................... 2

1.2

Description

............................................................................................................................................ 2

ELECTRICAL REQUIREMENTS................................................................................................................. 3

2.1

Standard Test Conditions

..................................................................................................................... 3

2.2

LCD monitor General specification

....................................................................................................... 3

2.3

LCD Panel Specification

....................................................................................................................... 4

2.4

Input Signals

....................................................................................................................................... 11

2.5

CONTROLS

........................................................................................................................................ 16

2.6

White Color Temperature

................................................................................................................... 20

2.7

POWER SUPPLY

............................................................................................................................... 21

2.8

Plug & Play (EDID)

............................................................................................................................. 23

2.9

Audio Technical specification

............................................................................................................. 24

VL-903 DISPLAY CONTROL BOARD...................................................................................................... 25

3.1

Description

.......................................................................................................................................... 25

3.2

Features

.............................................................................................................................................. 25

3.3

BLOCK DIAGRAM

.............................................................................................................................. 26

3.4

Connector Locations

........................................................................................................................... 27

3.5

Connector Type

.................................................................................................................................. 27

3.6

Connector pin assignment

.................................................................................................................. 28

VK-903 Function Control key Board....................................................................................................... 31

4.1

Description

.......................................................................................................................................... 31

4.2

Connector and Switch Locations

........................................................................................................ 31

4.3

Connector type

................................................................................................................................... 31

4.4

Connector pin Assignment

.................................................................................................................. 31

4.5

Switch definition

.................................................................................................................................. 32

4.6

LED definition

...................................................................................................................................... 32

TROUBLESHOOTING............................................................................................................................... 33

5.1

Main Procedure

.................................................................................................................................. 33

MECHANICAL REQUIREMENTS ............................................................................................................. 38

6.1

Vibration and Shock

............................................................................................................................ 38

6.2

Package Drop Specification

............................................................................................................... 38

6.3

Dimension Size and Weight

................................................................................................................ 39

6.4

Gap Spec.

........................................................................................................................................... 39

6.5

Tilt Base Rotation

............................................................................................................................... 41

6.6

Plastic Material

.................................................................................................................................... 41

6.7

GAP Spec.

.......................................................................................................................................... 41

Power Line Transient Test (IEC 61000-4-4 Fast Transients/Burst) ..................................................... 41

7.1

Peak Voltage:

...................................................................................................................................... 41

7.2

Polarity : + / -

................................................................................................................................ 42

7.3

Repetition Frequency of the impulse : 5 KHz.

.................................................................................... 42

7.4

Rise-Time : 5ns

30%

..................................................................................................................... 42

7.5

Impulse Duration: 50 nS

30%

.......................................................................................................... 42

7.6

Relation to Power Supply: Asynchronous

.......................................................................................... 42

7.7

Burst Duration: 15 ms

20%

.............................................................................................................. 42

7.8

Burst Period: 300 ms

20%

............................................................................................................... 42

7.9

Climatic Conditions:

............................................................................................................................ 42

7.10

Test Procedure:

.................................................................................................................................. 42

Power Line Surge Test (IEC 61000-4-5 Surge) ...................................................................................... 44

8.1

Climatic Condition

............................................................................................................................... 44

8.2

Test Conditions:

.................................................................................................................................. 44

8.7

Display set high-resolution mode, AC input use AC 240V. ................................................................ 44

Summary of Contents for AL1931

Page 1: ...31 4 4 Connector pin Assignment 31 4 5 Switch definition 32 4 6 LED definition 32 5 TROUBLESHOOTING 33 5 1 Main Procedure 33 6 MECHANICAL REQUIREMENTS 38 6 1 Vibration and Shock 38 6 2 Package Drop Specification 38 6 3 Dimension Size and Weight 39 6 4 Gap Spec 39 6 5 Tilt Base Rotation 41 6 6 Plastic Material 41 6 7 GAP Spec 41 7 Power Line Transient Test IEC 61000 4 4 Fast Transients Burst 41 7 1...

Page 2: ...ANCE 46 10 1 This product comply to the most current revisions of following regulations 46 10 2 Electrostatics Discharge ESD 47 11 QUALITY AND RELIABILITY 48 11 1 Quality Assurance 48 11 2 Reliability 48 Appendix A Parts Lists 49 Appendix B Display Unit Assembly 53 Appendix C P C B A ASSEMBLY 60 ...

Page 3: ...play function There is a build in stereo audio amplifier with volume control to drive a pair of speakers Monitor also can support multi media function as Composite signal and S Video signal input 1 2 Description The LCD monitor is designed with the latest LCD technology to provide a performance oriented product with no radiation This will alleviate the growing health concerns It is also a space sa...

Page 4: ... balance Green white balance and Blue white balance control In the center unless otherwise specified Power input 110Vac or 230Vac Ambient temperature 20 5 C 68 9 F Analog input mode 1280 x1024 60 Hz 2 1 1 MEASUREMENT SYSTEMS The units of measure stated in this document are listed below 1 gamma 1 nano tesla 1 tesla 10 000 gauss cm in x 2 54 lb kg x 2 2 degrees F C x 1 8 32 degrees C F 32 1 8 u 4x 2...

Page 5: ...Uniformity 75 Pc interface 1 Video RGB analog 0 7V peak to peak Sync TTL positive or negative 2 Digital TMDS 3 Audio 3 5 mm stereo audio jack Audio Signal connector 15 pin Mini D type standard VGA video DVI D connector Audio power 1Wrms 1Wrms 300Hz 10kHz S P L 10 dB Front control power on off with LED select up down adjustment Interface frequency Horizontal Frequency 30KHz 80KHz analog 31 5 64KHz ...

Page 6: ...60 Hz fDCLK 54 MHz IL 6 5mArms Specification Item Symbol Condition Min Typ Max Unit Remark Rising TR 15 50 30 100 ms Response time Falling TF θ 25 0 10 50 25 100 ms Note 1 3 Contrast Ratio CR θ 0 400 600 Note 1 2 4 Brightness center of screen YL θ 0 250 300 nit Note 5 White Uniformity δ w 70 Note 6 Wx 0 283 0 313 0 343 White Chromaticity Wy 0 309 0 329 0 349 Rx 0 648 Red Chromaticity Ry 0 346 Gx 0...

Page 7: ... FV 60Hz FDCLK 54MHz ITEM Symbol Condition MIN TYP MAX UNIT Contrast Ratio Center of screen CR 600 Rising TR Response Time at Ta Falling TF 25 total msec Luminance of white Center of screen YL 200 250 cd m2 RX 0 603 0 633 0 663 Red RY 0 324 0 354 0 384 GX 0 262 0 292 0 322 Green GY 0 568 0 598 0 628 BX 0 115 0 145 0 175 Blue BY 0 077 0 107 0 137 WX 0 280 0 310 0 340 Color Chromaticity CIE White WY...

Page 8: ...V FV 60Hz FDCLK 54MHz ITEM Symbol Condition MIN TYP MAX UNIT Contrast Ratio Center of screen CR 700 Rising TR 16 Response Time at Ta Falling TF 9 total msec Luminance of white Center of screen YL 200 250 cd m2 RX 0 605 0 635 0 665 Red RY 0 324 0 354 0 384 GX 0 265 0 295 0 325 Green GY 0 570 0 600 0 630 BX 0 110 0 140 0 170 Blue BY 0 050 0 080 0 110 WX 0 280 0 310 0 340 Color Chromaticity CIE White...

Page 9: ... panel Luminance with all pixels white Gmax CR Luminance with all pixels black Gmin Note 3 Definition of Response time Sum of TR TF Note 4 After stabilizing and leaving the panel alone at a given temperature for 30 min the measurement should be executed Measurement should be executed n a stable windless and dark room 30 min after lighting the back light This should be measured in the center of scr...

Page 10: ...9 current 13 0mA 6 5mA x2 Refer to the note 1 in the page 14 for more information Environment condition Ta 25 2 C Optical characteristics measurement setup ...

Page 11: ...finition of Flicker level Flicker Voltage pp F x 100 LMD Voltage dc One maximum value of three estimated values For this test an LMD Light Measurement Device is needed with adequate response time to track any visible rate flicker component and with a voltage level output proportional To luminance intensity Test Pattern For dot inversion Driving Gray levels of foreground dots on the test panel Are ...

Page 12: ...e background and foreground gray levels of step1 Gbkg and Gfg Turn on each box at a time Look for the case with the worst shadowing The box causing the worst case is the shadowing source or Bsrc Use Bsrc and the box opposite from it that lies directly in the shadow path That is the target box or Btgt Note that box Eight be either Bsrc or Btgt depending on the shadowing conditions but typically Bsr...

Page 13: ...ured Horizontal Frequency 30KHz 80KHz analog 31 5 64KHz digital Vertical Frequency 56Hz 75Hz DISPLAY MODES MONITOR MODE NO SCREEN RESOLUTION HORIZONTAL SYNC RATE kHz VERTICAL SYNC RATE Hz VIDEO CLK MHz STANDAR D 1 640X480 31 5 60 0 25 0 Defacto 2 640X480 37 86 72 80 31 5 VESA 3 640X480 37 5 75 0 31 5 VESA 4 720X400 31 5 70 0 28 0 Text Defacto 5 800X600 37 8 60 0 40 0 VESA 6 800X600 48 07 72 18 50 ...

Page 14: ...0 65 XGA 60 004 806 768 6 3 29 1024x768 56 476 1328 1024 136 24 144 75 VESA 768 70Hz 70 069 806 768 6 3 29 1024x768 60 023 1312 1024 96 16 176 78 75 VESA 768 75Hz 75 029 800 768 3 1 28 1024x1024 64 1688 1280 112 48 248 108 VESA 1024 60Hz 60 1066 1024 3 1 38 1280x1024 80 1688 1280 144 16 248 135 VESA 1024 75Hz 75 1066 1024 3 1 38 If the input timing is not a supported timing listed above but within...

Page 15: ...g Video input Connector Analog Video input Connector 15pins mini D Sub Table 2 4 5 Pin assignment for D sub connector PIN NO Separate Sync 1 RED VIDEO 2 GREEN VIDEO 3 BLUE VIDEO 4 GROUND 5 GROUND 6 RED GROUND 7 GREEN GROUND 8 BLUE GROUND 9 PC5V 5V DDC 10 CABLE DETECTION 11 GROUND 12 SDA 13 H SYNC 14 V SYNC 15 SCL 15 10 5 1 6 11 D sub connector Color of plastic parts Blue ...

Page 16: ...C 7 DDC Serial Data 15 Ground 5V 23 TXC 8 No Connect 16 Hot plug detect 24 TXC In case the power of the PC unit is switched off and the power of the monitor is switched on no voltage may occur at pin 14 Composite Video Monitor rear side RCA female Yellow AV1 input S Video Y C Monitor rear side 4 Pin Mini DIN female S Video 2 4 7 Support Composite Video S Video Input JV3 for Composite Video RCA fem...

Page 17: ...ting 2 Press the Auto Buttons over 2 second the Monitor Searching next source 4 Function Select and Adjustment Control Buttons 1 Direct press either left or right control button can adjusting speaker Volume control 2 When press after Menu buttons then Press either left or right control button for OSD first menu left side function selection 1 When selection you want adjusting function then press Me...

Page 18: ...vanced Sharpness Adjusts the picture sharpness Color You have 4 kinds of options Cool This control adjusts the color temperature of the screen image this item are preset by factory you can not adjust these setting The performance is bluer and brighter Natural This performance is reddish and closer to paper white Warm This performance is yellowish and closer to paper white User You can adjust the i...

Page 19: ...r 16 9 screen Exit To exit the main menu Advanced Sharpness Adjusts the picture sharpness Color You have 4 kinds of options Cool This control adjusts the color temperature of the screen image this item are preset by factory you can not adjust these setting The performance is bluer and brighter Natural This performance is reddish and closer to paper white Warm This performance is yellowish and clos...

Page 20: ...e up effect smoother or sharper OSD Transparency Adjust the transparency level of OSD The range is from 0 to 100 scales Comment 1280x1024 Current mode resolution 60 HZ Current mode vertical frequency 1Hz VER 1 00 Firmware revision Other features Intellectual Auto AM939 can start the Auto Adjustment automatically when input a new display mode at first time less then 4 sec to finish After the adjust...

Page 21: ...r Temp Color Coordinate Tolerance Color Coordinate Tolerance x y u v Cool 9300K 0 281 0 311 0 03 0 189 0 446 u v 0 01 Natural 6500K 0 313 0 329 0 01 0 198 0 468 u v 0 01 Warm 5000K 0 345 0 350 0 03 0 209 0 488 u v 0 01 User TCO 0X A 2 6 1 requirement User should follow Microsoft Windows Color Quality Specification for Liquid Crystal Display OEM s http www microsoft com hwdev tech color ColorTest a...

Page 22: ...AX Volt Tolerance 12Vdc 5 0A 5A 11 4 12 6Vdc Total output power 60 Watt max Withstanding voltage 1 5Kvac or 2 2KVdc for 1 minute Leakage current 0 25mA 100Vac 3 5mA 230Vac Efficiency 80 min 115V 230VAC maximum load 2 7 4 Power Management 2 7 4 1 Meet VESA DPMS proposal The monitor must comply with the Microsoft On Now specification with a minimum of three power management states as defined by the ...

Page 23: ...ge Minimum Luminance Maximum Luminance 60 5 Working Frequency Fo 40 50 60 KHz 6 Lamp Current ILAMP 4 7 4 7 9 mA ON Normal Operation 1 5 3 3 V 7 Backlight ON OFF Control OFF Shutdown Lamp off 0 1 0 V 8 Brightness control range positive adjustment 0 3 3 V 9 Lamp Current Balance IL1 IL2 0 5 mA 10 Open Lamp Volt Vopen Vin 12V 0degC 1600 Vrms 11 Efficiency Vin 12V maximum brightness 75 12 Strike Lamp t...

Page 24: ...able Backlight ON OFF control Active High ON 1 5 3 3V OFF 0 3 1 0V 7 8 Vcpu 5Vdc supply to micro P always on 9 Vcc 12 Vdc supply to mainboard 2 2 Output Connector 2 for CCFLs J940 J980 J941 J981 Connector type ACES 88225 0211 P8 0 or alternative Pin No Symbol Description 1 HV High Voltage 2 LV Low Voltage 2 8 Plug Play EDID The monitor will be capable of sending a VESA standardized EDID file throu...

Page 25: ...m Audio Input Freq Min Typ Max Comment Input Voltage V 5 Input Current m A 500 800 Audio Voltage Gain 500m Vrms 1KHz 6 d B Volume Max load 8 Ω Frequency Response 500m Vrms 300Hz 20KHz 10dB 10d B Volume Max load 8 Ω Signal to Noise ratio 500m Vrms 1KHz 40dB Volume Max load 8 Ω Total harmonic distortion 500m Vrms 1KHz 1 except speakers distortion Cross talk 500m Vrms 1KHz 30dB Volume Max load 8 Ω Ou...

Page 26: ... control user functions Using PixelWorks PW131 design to generate optimum LCD timings Using E 2 PROM to memorize every adjusted parameter Support up to 13 display modes from VGA to SXGA Offer full screen expansion function on non SXGA mode automatic Flexible color temperature selection function including Cool 9300 Natural 6500 Warm 7500 and user mode color temperature Support OSD functions Support...

Page 27: ...26 3 3 BLOCK DIAGRAM ...

Page 28: ...tions 3 5 Connector Type Location Type Maker Number of pins CN1 24P Female V DVI D Foxconn 24 CN2 15P Female V D Sub E T 15 CN3 4300 04 E T 04 CN5 98210 4011 E T 40 CN6 4500 09 E T 09 CN8 4300 05 E T 05 CN10 4300 08 E T 08 ...

Page 29: ... OUTPUT DATA PAIRS 5 TXE1 LVDS EVEN OUTPUT DATA PAIRS 7 TXE2 LVDS EVEN OUTPUT DATA PAIRS 8 TXE2 LVDS EVEN OUTPUT DATA PAIRS 10 TXECLK LVDS EVEN OUTPUT DATA PAIRS 11 TXECLK LVDS EVEN OUTPUT DATA PAIRS 13 TXE3 LVDS EVEN OUTPUT DATA PAIRS 14 TXE3 LVDS EVEN OUTPUT DATA PAIRS 16 TXO0 LVDS ODD OUTPUT DATA PAIRS 17 TXO0 LVDS ODD OUTPUT DATA PAIRS 19 TXO1 LVDS ODD OUTPUT DATA PAIRS 20 TXO1 LVDS ODD OUTPUT...

Page 30: ...o Right Channel Output 3 6 4 CN6 Pin NO Signal Comment 1 12 V 12V Power Input 2 5V 5V Power Input 3 5V 5V Power Input 4 BKLON Black Light ON 5 BRI_ADJ Brightness Adjusting 6 GND GND 7 GND GND 8 Audio GND Audio GND 9 Audio VDD Audio 5V Power Input 3 6 5 CN3 Pin NO Signal Comment 1 5 V 5V Power Input 2 RXD Data Transmission 3 TXD Data Receive 4 GND GND ...

Page 31: ...t and Adjust Down 3 6 7 CN1 Digital Video input Connector DVI D Pin Assignment of DVI D 24 pin connector 1 TX2 9 TX1 17 TX0 2 TX2 10 TX1 18 TX0 3 Shield TX2 TX4 11 Shield TX1 TX3 19 Shield TX0 TX5 4 NC 12 NC 20 NC 5 NC 13 NC 21 NC 6 DDC Serial Clock 14 5V Power 22 Shield TXC 7 DDC Serial Data 15 Ground 5V 23 TXC 8 No Connect 16 Hot plug detect 24 TXC In case the power of the PC unit is switched of...

Page 32: ...0 ACER 2 J2 87502 0200 ACER 2 D5 LED LED 3 4 4 Connector pin Assignment 4 4 1 J1 Pin NO Signal Comment 1 L Audio Left Channel Output 2 L Audio Left Channel Output 3 GND Audio GND 4 R Audio Right Channel Output 5 R Audio Right Channel Output 4 4 2 J4 Pin NO Signal Comment 1 LED Y Power saving mode 2 LED G Monitor is ON 4 GND GND 5 KEY POWER Power ON OFF key 6 KEY AUTO Auto Adjusting and Input Mode ...

Page 33: ...uto Adjusting and Input Mode selection S5 Function selection Enable S6 Function select and Adjust UP S4 Function select and Adjust Down 4 6 LED definition Location Definition D5 Blue for ON mode Yellow for OFF mode yellow for Power Saving mode Dark for DC power OFF mode ...

Page 34: ...33 5 TROUBLESHOOTING 5 1 Main Procedure ...

Page 35: ...34 5 1 1 Power Circuit Troubleshooting ...

Page 36: ...35 5 1 2 Backlights Troubleshooting ...

Page 37: ...36 5 1 3 Performance Troubleshooting ...

Page 38: ...37 5 1 4 Function Troubleshooting ...

Page 39: ... nominal 2 GRMS The test shall be for one hour for each of the three axes Half Sine Wave Shock 120 G peak half sine pulse 2 ms pulse duration Testing shall consist of one shock in each direction in each axis for a total of 6 shock inputs Square Wave Shock 40 G peak acceleration 160 inches second velocity change There shall be one shock in each direction in each axis for a total of 6 shock inputs 6...

Page 40: ...6 5Kg Gross Weight 9 Kg 6 4 Gap Spec 6 4 1 The step between front bezel and back cover shall be within specification Top and Bottom Left and Right Back cover Bezel concavity Back cover Bezel concavity 0 3mm A 0 8 mm 0 3mm A 0 8 mm Back Cover Hinge Cover concavity 0 4mm B 1 2mm LAM939 E01 LAM939 E02 ...

Page 41: ...CD Horizontally The angle between front bezel and LCD unit in bottom side should not large than 1 0mm The distance of the LCD display unit from left side to right should not large than 4 0mm LAM939 E03 LAM939 E03 ...

Page 42: ...7 GAP Spec Gap between panel with bezel is 0 mm gap 1 5 mm 7 Power Line Transient Test IEC 61000 4 4 Fast Transients Burst TEST CONDITIONS PROCEDURE Follow IEC 61000 4 4 Test Condition The condition is base on operating with 50Ω load 7 1 Peak Voltage 2 KV applies the Level 3 typical Industrial Environment of IEC 61000 4 4 CM870 E18 ...

Page 43: ... 10 Test Procedure The monitor Display set high resolution mode AC input use AC 240V Note 7 10 1 IEC 61000 4 4 defines that power supply I O line and control line all shall be performed the transient test but the I O line and control line is applied with only half of peak voltage 1 KV 7 10 2 For the comparison of wave shape generated by different generator so the test must uses a scope with at lea...

Page 44: ...43 WAVESHAPE ...

Page 45: ...to 270º versus the AC line phase angle 8 2 4 Repetition rate at least 1 per minute 8 2 5 Number of tests at least 5 positive and 5 negative at the selected points 8 3 The surge will be applied between lines and between lines and ground 8 4 If not otherwise specified the surge to power supply circuits shall be applied synchronized to the voltage phase at the zero crossing and the peak value of the ...

Page 46: ...torage or Shipment Temperature 20 C 60 C Relative Humidity 5 to 85 Altitude Sea level to 40 000ft 9 2 1 TEST PROCEDURE Put in temperature chamber under 60 C Time 24 hours Back to room temperature Time 4 hours Put in temperature chamber under 20 C Time 24 hours Back to room temperature Time 4 hours The process repeat 2 times ...

Page 47: ... Personal Computers Test methods for Ergonomic Emission Energy Efficiency safety TUV GS Safety regulation for displays work places in the office sector FCC 47 CFR Chapter 1 Subchapter A Part 15 Subpart B A digital device that is marketed for use in a residential environment not withstanding use in commercial business and industrial environments CISPR 22 Limits and methods of measurements of radio ...

Page 48: ...or Intervention or system reset Class B Temporary degradation or loss of function or performance which is self recoverable Class C Normal performance within the specification limits Discharge times 20 times for each discharge point time interval 1 second In the case of acceptance tests the test program and the interpretation of the test results are subject to agreement between manufacturer and use...

Page 49: ...ecification or the applicable purchase order the supplier shall be responsible for maintaining a statistical process program or performing inspections that are sufficient to assure that the parts supplied meet the requirements specified herein 11 2 Reliability The product shall have a designed MTBF of greater than 20 000 hours during its useful life ...

Page 50: ...49 APPENDIX A PARTS LISTS ...

Page 51: ...50 A FRU Board A 1 454AA030001 PCBA Key Board VK 903 ...

Page 52: ...51 A 2 461AA030001 Firmware CTRL Board VL 903 ...

Page 53: ...52 A 3 455AA030001 PCBA D D INV Board Vp 903 ...

Page 54: ...53 Appendix B DISPLAY Assembly ...

Page 55: ...54 ...

Page 56: ...M939F TCO99 19 FUJ 1600X1200 1 351 8 68008930001 PACKING ABO AL932 LAM939F UR TCO99 1 352 9 X66AN430001 MEC PACKING ABO LAM939F MSV16 1 353 End of Report QUANTITY REQUIRED DWG NO 680089 REV 0A C NO PART NO DESCRIPTION SPECIFICATION 30 001 REMARKS 68008930001 PACKING ABO AL932 LAM939F UR TCO99 1 EJ4AM939000 RATING NP N AM939 ABO UFGC 99 WW 1 001 2 HB4AM939000 CARTON C AM939 ABO W W 1 002 3 HDABOAM3...

Page 57: ...NO PART NO DESCRIPTION SPECIFICATION 30 001 REMARKS X66AN430001 MEC PACKING ABO LAM939F MSV16 1 FJAM9318000 EPS FOAM L POLYLON 1 201 2 FJAM9319000 EPS FOAM R POLYLON 1 202 3 EBAM9321000 STAND BASE ASSY AM9321 BASE SCREW MSV16 1 203 End of Report ...

Page 58: ...57 ...

Page 59: ...O 1 353 15 X66AN530001 MEC PARTS ABO LAM939F T99 MCG28 MSV16 MBK17 1 354 End of Report QUANTITY REQUIRED DWG NO X66AN5 REV 0A C NO PART NO DESCRIPTION SPECIFICATION 30 001 REMARKS X66AN530001 MEC PARTS ABO LAM939F T99 MCG28 MSV16 MBK17 1 EBAM9317000 STAND NECK AM9317 AL_ALLOY MSV16 1 001 2 ECAM931B000 CHASSIS ASSY AM931B SECC 0 8t MYLAR 1 002 3 ECAM9331000 HINGE ASSY AM9331 K7 1 5t 1 003 4 EEAM931...

Page 60: ...60 Appendix C PCBA Assembly ...

Page 61: ...61 ...

Page 62: ... D3 D4 2 BC5K2093000 LED LYSBK2093 YEL BLU 3D 3P LIMPID 1 LED 3 DA1M939V002 PCB AM939 VK 903 REV0B 1 ZZZ 4 DC030040000 WAFER CONN ACES 87502 0200 2P P2 25 2 J2 J3 5 DC03E000400 WAFER CONN E T 96113 0813 8P P1 25 1 J4 6 DC03E000600 WAFER CONN E T 96113 0513 5P P1 25 1 J1 7 DE611000607 SWITCH PT 002 B2 6 S1 S2 S3 S4 S5 S6 8 FCAM9300100 LCD HOLDER LED307_D3_L7 1 LED End of Report ...

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Page 73: ...X7 1 C125 5 CB02203M200 ELE CAP 22U 16V M A P1 5 L4 5 4X7 1 C212 6 CB100034C01 CAPACITOR 100U 16V M A P2 5 H7 9 C120 C122 C126 C128 C20 C218 C8 C84 C94 7 CB22003M200 CAPACITOR 220U 16V M A P3 5 H7 8 C108 C110 C112 C113 C130 C134 C140 C82 8 DC03E000300 WAFER CONN E T 96113 0803 8P P1 25 1 CN10 9 DC03E0026B0 WAFER E T 4500 09 9P P2 0 1 CN6 10 DC03E003140 WAFER E T 4300 04 4P P1 25 2 CN3 CN39 11 DC03...

Page 74: ...90400T5 SM TRANSISTOR MMBT3904 S0T 23 3 Q4 Q6 Q7 18 SB3241100T8 SM TRANSISTOR 2SC2411K SOT 23 1 Q3 19 SBX94350109 SM TRANSISTOR SI9435 SO 8 2 U11 U15 20 SC1LC208000 S DIO DALC208SC6 SOT23 6L ESD 1 ZD1 21 SC4LZ56B0T5 SM ZENER DIODE RLZ5 6B LL 34 6 D2 D3 D5 D6 D7 D8 22 SC4LZ91B000 S ZEN DIO RLZ9 1B LL 34 1 D201 23 SC6BAV70000 S DIO ROW BAV70 3P C C SOT 23 2 D1 D4 24 SD0010000T4 CHIP RES 1 8W 0 5 120...

Page 75: ...025103KT4 CHIP CERAMIC CAP 01U 50V 10 X7R 0603 S8 8 C105 C107 C111 C83 C85 C86 C96 C98 49 SE025272K07 CHIP CERAMIC CAP 2700P 50V K X7R 0603 S8 2 C211 C217 50 SE025392K00 CHIP CERAMIC CAP 3900P 50V K X7R 0603 1 C38 51 SE026393K00 CHIP CERAMIC CAP 039U 16V K X7R 0603 1 C39 52 SE026473K06 CHIP CERAMIC CAP 047U 16V K X7R 0603 S8 11 C24 C25 C26 C27 C28 C29 C30 C31 C40 C41 C43 53 SE027104NT0 CHIP CERAMI...

Page 76: ...76 QUANTITY REQUIRED DWG NO 451AA0 REV 0B C NO PART NO DESCRIPTION SPECIFICATION 30 001 REMARKS 59 SP02E002100 S W CONN E T 98210 4011 40P 1 CN5 End of Report ...

Page 77: ...77 ...

Page 78: ... 3 CA001EMJ000 CER CAP 10P 3KV 5 SL P7 5 4 C966 C967 C970 C971 4 CA056FMJ000 CER CAP 56P 3KV 5 SL P7 5 4 C964 C965 C968 C969 5 CB10012M5T0 ELE CAP 1000U 10V M B P5 L ESR 1 C804 6 CB22004M200 CAPACITOR 220U 25V M B P5 L10 5 L ESR 2 C930 C930A 7 CB47003M300 CAPACITOR 470U 16V M B P5 L10 5 L ESR 2 C803 C806 8 DC03E0026B0 WAFER E T 4500 09 9P P2 0 1 J802 9 DC230203400 CONN SC SCD437CCS D2 0mm 1 J801 1...

Page 79: ... 16W 47K 1 0603 2 R902 R904 18 SD014510100 CHIP RES 1 16W 5 1K 1 0603 4 R945 R945A R947 R947A 19 SD014511000 CHIP RES 1 16W 511 1 0603 4 R940 R940A R946 R946A 20 SD014511203 CHIP RES 1 16W 51 1K 1 0603 S9 1 R915 21 SD014576208 CHIP RES 1 16W 57 6K 1 0603 S9 2 R906 R948 22 SE001221JT7 CHIP CERAMIC CAP 220P 50V 5 NPO 0805 S6 1 C909 23 SE023102NT2 CHIP CERAMIC CAP 1000P 50V 20 80 Y5V 0603 1 C902 24 S...

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Acer AL1931, Manual

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