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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure 1. Alignment procedure (for function adjustment)
A. Preparation: 1. 2. Setup input timing ICL-605( 1280x1024@75Hz ), 32-Grays pattern. Setup unit and keep it warm up at least 30 minutes.

B. Timing adjustment: 1. Enter factory setting area (press "ENTER", "EXIT" and then press "SOFTPOWER"). 2. Check the settings to following values: Contrast = 50 Brightness = 90 OSD time = 20 Color = Normal Language = English Then, turn off the monitor power. 3. Turn on power enter user area.

C. Color balance adjustment: 1. Enter factory setting area (press "ENTER", "I-Key" and then press "SOFTPOWER"). 2. Setup input timing ICL-605(1280x1024@75Hz), 32-Gray pattern (pattern 48) . 3. Press "I-KEY", and than OSD will show "White Balance" item and than press "ENTER" button to do auto color.

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

D. Color adjustment: 1. Setup input timing ICL-605, white pattern . 2. Confirm auto color adjustment had already done. 3. Measure color temperature by Minolta CA-110 (or equivalent equipment). 4. Check the color temperature Bluish, Reddish & Normal. The color temperature specification as follows: White Balance (Bluish, 9300K set on OSD) White Balance (Reddish, 5800K set on OSD) White Balance (sRGB, 6500K set on OSD) X+Y+X+Y+X+Y+0.283+(-) 0.03 0.297+(-) 0.03 0. 326+(-) 0.03 0. 342+(-) 0.03 0.313+(-) 0.03 0. 329 +(-) 0.03

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure
5. Setup input timing , 32 -Gray pattern. To check if there are any abnormal display problems of preset timing modes .
No. 1 2 3 4 5 6 7 8 9 10 Check the following preset timings with General pattern: Mode H 720×400 @ 70Hz 31.468 640×480 @ 60Hz 31.469 640×480 @ 75Hz 37.500 800×600 @ 60Hz 37.879 800×600 @ 75Hz 46.875 1024×768 @ 60Hz 48.363 1024×768 @ 75Hz 60.023 1152x864 @ 75Hz 67.500 1280×1024 @ 60Hz 63.981 1280×1024 @ 75Hz 79.976 V 70.8 59.940 75.000 60.317 75.000 60.004 75.029 75.000 60.020 75.025

6. Checking if the picture is no good, reject this monitor. 7. To check the power consumption by disabling "burn-in mode" setting 8. To clear user data and program complete DDC data to monitor by IIC bus communication. E. Writing EDID file: 1. Setup a PC with DDC card. 2. Connect PC to monitor with a D-sub signal cable. 3. Please refer to the C212 for the correct EDID file. 4. Runs the writing program to write the EDID file into EEPROM . 5. Read EEPROM data and confirm it to match with the C212 document definition.

F. Command definition :

PC Host will send 0x7C IIC slave address and then following 4 bytes command I2C Send Command Byte1 Byte2 Byte3 Byte4 OK N.A. Remark
Write Contrast to MCU RAM Write Brightness to MCU RAM Write Red Gain to MCU RAM Write Green Gain to MCU RAM Write Blue Gain to MCU RAM Read Contrast from MCU RAM Read Brightness from MCU RAM Read Red Gain from MCU RAM by color index Read Green Gain from MCU RAM by color index Read Blue Gain from MCU RAM by color index Write C1 (Bluish) R-Gain Data to EEPROM Write C1 (Bluish) G-Gain Data to EEPROM Write C1 (Bluish) B-Gain Data to EEPROM Write C2 (sRGB) R-Gain Data to EEPROM Write C2 (sRGB) G-Gain Data to EEPROM Write C2 (sRGB) B-Gain Data to EEPROM CA CA CA CA CA C3 C3 C3 C3 C3 AA AA AA AA AA AA 55 56 57 58 59 55 56 57 58 59 3C 3D 3E 4C 4D 4E Data Data Data Data Data XX XX XX XX XX Data Data Data Data Data Data cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum Write data to MCU RAM and update the related register to refresh the screen immediately. Don't store data to EEPROM.

Base on current color index to read back the right gain value.

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure
Write C3 (Reddish) R-Gain Data to EEPROM Write C3 (Reddish) G-Gain Data to EEPROM Write C3 (Reddish) B-Gain Data to EEPROM Write User R-Gain Data to EEPROM Write User G-Gain Data to EEPROM Write User B-Gain Data to EEPROM Write Cx R-Gain Data to EEPROM Write Cx G-Gain Data to EEPROM Write Cx B-Gain Data to EEPROM Write Contrast to EEPROM Write Brightness to EEPROM AA AA AA AA AA AA AA AA AA AA AA 5C 5D 5E 6C 6D 6E 7C 7D 7E 92 93 Data Data Data Data Data Data Data Data Data Data Data cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum Reserved for some model have extra color temperature

1=C1/9300/Bluish, 2=C2/6500/sRGB/, 3=C3/5800/Reddish,
Write C/T index to EEPROM Write OSD-Hpos to EEPROM Write OSD-Vpos to EEPROM AA AA AA 94 95 96 0~4 cksum Data cksum Data cksum

4=User, 5=Cx

0=DE, 1=EN, 2=ES, 3=FR, 4=IT, 5=JA, 6=, 7= Write Language to EEPROM Write EEPROM OSD Timer Write EEPROM Volume Write EEPROM Gamma index Write OSD Transparency to EEPROM Write OSD Rotation to EEPROM Read C1 (Bluish) R-Gain data from EEPROM Read C1 (Bluish) G-Gain data from EEPROM Read C1 (Bluish) B-Gain data from EEPROM Read C2 (sRGB) R-Gain data from EEPROM Read C2 (sRGB) G-Gain data from EEPROM Read C2 (sRGB) B-Gain data from EEPROM Read C3 (Reddish) R-Gain data from EEPROM Read C3 (Reddish) G-Gain data from EEPROM Read C3 (Reddish) B-Gain data from EEPROM Read User R-Gain data from EEPROM Read User G-Gain data from EEPROM Read User B-Gain data from EEPROM Read Cx R-Gain data from EEPROM Read Cx G-Gain data from EEPROM Read Cx B-Gain data from EEPROM Read Contrast from EEPROM Read Brightness from EEPROM AA AA AA AA AA AA A3 A3 A3 A3 A3 A3 A3 A3 A3 A3 A3 A3 A3 A3 A3 A3 A3 97 98 99 9A 9E 9F 3C 3D 3E 4C 4D 4E 5C 5D 5E 6C 6D 6E 7C 7D 7E 92 93 0~7 cksum Data cksum Data cksum Data Data Data XX XX XX XX XX XX XX XX XX XX XX XX XX XX XX XX XX cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum Reserved for some model have extra color temperature (Also Update MCU RAM)

For model with Gamma curve selection function

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure
1=C1/9300/Bluish, 2=C2/6500/sRGB/, 3=C3/5800/Reddish,
Read C/T index from EEPROM Read OSD-Hpos EEPROM Read OSD-Vpos from EEPROM Read Language from EEPROM Read OSD Timer from EEPROM Read Volume from EEPROM Read Gamma index from EEPROM Read OSD Transparency from EEPROM Read OSD Rotation from EEPROM Change Color Temp. to C1/9300K/Bluish Change Color Temp. to C2/6500K/sRGB Change Color Temp. to C3/5800K/Reddish Change Color Temp. to User Change Color Temp. to Cx Change Input Source to D-Sub Change Input Source to DVI On burn in mode Off burn in mode Monitor is forced power saving Monitor wake up from power saving User mode to factory mode Auto Color (Offset1, Offset2, Gain) Copy EDID Serial number to EEPROM Factory mode to User mode Clear user mode and factory recall Write EDID data to MCU DDC RAM Copy DDC RAM data to EEPROM Drive WP pin to low to enable write DDC IC Drive WP pin to high to disenable write function A3 A3 A3 A3 A3 A3 A3 A3 A3 CC CC CC CC CC CD CD CE CE CF CF 1A 1B 1C 1E 1F 55 BB 55 BB 94 95 96 97 98 99 9A 9E 9F 01 02 03 04 05 01 02 01 XX* 01 XX* 5A 5A 5A 5A 5A NA NA NA NA XX cksum XX cksum XX cksum XX cksum XX cksum XX cksum XX XX XX XX XX XX XX XX XX XX XX XX XX XX XX XX cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum cksum 4=User, 5=Cx

0=DE, 1=EN, 2=ES, 3=FR, 4=IT, 5=JA, 6=, 7=

For model with Gamma curve selection function

Change C/T immediately. And store C/T index to EEPROM. Reserved

cksum cksum cksum cksum cksum

Store data to EEPROM XX* = Non "1" value Store data to EEPROM For specified "Industry Customer" model. Store data to EEPROM For MTV312 MCU type For MTV312 MCU type For stand alone DDC IC For stand alone DDC IC XX* = Non "1" value

XX cksum XX cksum XX cksum NA NA NA NA NA NA NA NA



EEPROM Bank R/W (For Debug using only, not for Production Line Write EEPROM directly)
Read EEPROM Bank 0 Read EEPROM Bank 1 Read EEPROM Bank 2 Read EEPROM Bank 3 Write EEPROM Bank 0 Write EEPROM Bank 1 Write EEPROM Bank 2 Write EEPROM Bank 3 B0 B1 B2 B3 B8 B9 BA BB
Address Address Address Address Address Address Address Address

XX XX XX XX Data Data Data Data

cksum cksum cksum cksum cksum cksum cksum cksum

(For 24C08 type) (For 24C08 type) (For 24C08 type) (For 24C08 type)

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure
Note A: Byte4 (cksum) = Byte1 + Byte2 + Byte3 Note B: Data = The value write to MCU or EEPROM Note C: XX = don't care, any value (<=0xFF). When PC Host sends 0x7D command to MCU, MCU must return as following (2 bytes) Return Code Checksum error code Normal return code If normal return code is exact FCh R-Byte1 FC the above Byte3 (/data) FC R-Byte2 AA FC CF

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

4. Wire Dressing and assembling concern
Prepare 1 panel

Assembly panel and main BKT

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

Add 4 screw between panel and main BKT

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

Add FFC

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

Add Tape

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

Assembly IF board and Power Board

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

Assembly PCB module and main BKT

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

Assembly IF board and FFC

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

Add one tape

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

Assembly lamp wire and Power Board

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

Add one screw

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

Add 5 screw

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

Assembly main shielding and main BKT

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

Add 2 screw

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

Assembly control board wire and IF board

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

Add one tape

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

Assembly Bezel and Rear Cover

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

Add 4 screw

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

Add 1 screw

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

Assembly Base and Rear cover

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

Finished

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

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Q7T4-FP71G LCD Monitor Service Guide Alignment Procedure

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Q7T4-FP71G LCD Monitor Service Guide Circuit Operation Theory
I. Introduction: The Q7T4 is a 17" SXGA (1280x1024) , 16.2M colors(R, G, B 6-bit data+FRC data) TFT LCD monitor. It's an analog only interface LCD monitor with a 15 pins D-sub signal cable. it's compliant with VESA specification to offer a smart power management and power saving function. It also offers OSD menu for users to control the adjustable items and get some information about this monitor, and the best function is to offer users an easy method to set all adjustable items well just by pressing one key, we called it "Auto key" which can auto adjusting all controlled items. Q7T4 also offer DDC2 function to meet VESA standard. II. Block diagram

The Q7T4 consists of a LCD module with 4 lamps, an power board, a control board ,and a interface BD. The block diagram is shown as below.

LCD module with 4 lamps (backlight)

Inverter Power

Interface board

Control board

D-Sub AC power in

III.

Circuit operation theory: A-1.) Interface board diagram:

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Q7T4-FP71G LCD Monitor Service Guide Circuit Operation Theory

MTV312M 64(AJ)

Clock Generator

XGA

D-SUB

140MHz ADC

RTD 2023

1280×1024 LCM

IIC

Keypad

(a) Circuit operation theory: A basic operation theory for the interface board is to convert input signal into digital RGB . Analog RGB signal is converted to digital signal through ADC. The microprocessor RTD2023 receives video data and optimizes the image automatically. It also supports 16 color from a 64k palette bitmap OSD, and keypad controlling. The output data are sent to LCD module. (b) IC introduction: 1.) DDC (Display Data Channel) function: We use DDC IC to support DDC/2B function. DDC data is stored in 24C04(EEPROM). Those data related to LCD monitor specification. PC can read them by "SDA" and "SCL" serial communication for I²C communication for DDC2B. 2.) RTD2023 IC: There are triple ADC, LVDS transmitter ,Scaling, and OSD functions in the RTD2023 IC. Scaling IC is revolutionary scaling engine, capable of expanding any source resolution to a highly uniform and sharp image, combined with the critically proven integrated 8 bit triple-ADC and patented Rapid-lock digital clock recovery system. It also
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Q7T4-FP71G LCD Monitor Service Guide Circuit Operation Theory
support detect mode and DPMS control. 3.) MTV312M64: To stored the source code which is accessed by MCU to run program. 4.) EEPROM: We use 24C04 to store all the adjustable data and user settings.And use 24C02 to store DVI EDID data. A-2.) Control board introduction: There are 6 keys for user's control which includes "Power", "Enter", "Up/Plus", "Down/Minus" , "Exit", and "iKey" . The following descriptions are the introduction of these keys. (1) Power key: to turn/off power of monitor (2) "Enter" key: to enter sub-menus or select items. (3) "Up/Plus key: to select previous and to increase adjustment (4) "Down/Minus" key: to select next and to decrease adjustment (5) "Exit" key: to back to previous menu, or leave OSD (auto save) (6) "iKey": to perform auto adjustment (7) LED: It indicates the DPMS status of this LCD monitor; green light means DPMS on (Normal operating condition). Amber light means DPMS off (Powersaving).

A-3.) Power board diagram:

EMI Filter

Rectifier and filter

Isolation power transformer

Rectifier and filter

Inverter circuit

PWM controller

Switching element

Rectifier and filter

LDO regulator

Feedback Isolation

Fig.1
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Q7T4-FP71G LCD Monitor Service Guide Circuit Operation Theory
#1 EMI Filter This circuit (fig. 2) is designed to inhibit electrical and magnetic interference for meeting FCC, VDE, VCCI standard requirements.

Fig. 2 #2 Rectifier and filter AC Voltage (90-264V) is rectified and filtered by BD601, C605 (See Fig 3) and the DC Output voltage is 1.4*(AC input). (See Fig.3)

Fig. 3

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Q7T4-FP71G LCD Monitor Service Guide Circuit Operation Theory
#3 Switching element and Isolation power transformer When the Q601 turns on, energy is stored in the transformer. During Q601 turn-off period, the stored energy is delivered to the secondary of transformer. R607, C607 and D601 is a snubber circuit. R615 is current sense resistor to control output power. (See Fig.4)

Fig. 4 #4 Rectifier and filter D701 and C703 are to produce DC output. L701 is used to suppress high Frequency switching spikes. (See Fig.5)

Fig. 5

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Q7T4-FP71G LCD Monitor Service Guide Circuit Operation Theory
#5 PWM Controller The PWM controller NCP1200A implements a standard current mode architecture. With an internal structure operating at a fixed 40KHz. Where the switch time is dictated by the peak current set-point. When the current set-point falls below a given value. The output power demand diminishes, the IC automatically enters the so-called skip cycle mode and provides excellent efficiency.

Fig. 6 #6 Feedback circuit PC123 is a photo-coupler and TL431 is a shunt regulation. They are used to detect the output voltage change and be the primary and secondary isolation. When output voltage changes, the feedback voltage will be compared and duty cycle will be decided to control the correct output voltage. (See Fig.7)

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Q7T4-FP71G LCD Monitor Service Guide Circuit Operation Theory

Fig. 7

A-3.) Control board introduction: The main parts of the control board are a push button, and a LED. (a) Push button: It's a simple switch function, pressing it for "ON" to do the auto adjustment function, releasing it for "OFF" to do nothing. (c) LED: It indicates the DPMS status of this LCD monitor; green light means DPMS on (Normal operating condition). Amber light means DPMS off (Power off condition).

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Q7T4-FP71G LCD Monitor Service Guide Circuit Operation Theory
A-4.) Inverter diagram: 1.Block Diagram:

ON/OFF 15Vin switching

OSCILATOR CIRCUIT

TRANSFORMER

CCFL

ON/OFF

PWM CONTROLLER PROTECTION TL1451 CIRCUIT AND DETECT

BRT_ADJ

2. General Specification Input Voltage: 15V Input Current: 2A max. ON/OFF Voltage: 5V PWM Duty: 5V/50KHz Output Requirement: Max. Output Current: 7.5mA Min. Output Current: 3.3mA Lamp Working Voltage: 660Vrms Open Lamp Voltage: 1500Vrms Frequency: 50KHz

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Q7T4-FP71G LCD Monitor Service Guide Circuit Operation Theory
3.Circuit Operation Theorem 3.1 ON/OFF SWITCH

The turn-on voltage was controlled by R815 and R816.The inverter was turned on or off by the switching transistors Q801 and Q802.

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Q7T4-FP71G LCD Monitor Service Guide Circuit Operation Theory
3.2 PWM Control circuit

TL1451 is a dual PWM controller.C807 and R811 decide the working frequency.BLT_ADJ signal is from control board, control pulse width then decide how much energy delivery to CCFL also decide CCFL brightness. Q810 and Q811 be the buffer to rise the drive capability and the totem poles circuit can improve a capable of driving for Q812.C813 decide the striking time delay.

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Q7T4-FP71G LCD Monitor Service Guide Circuit Operation Theory
3.3 Oscillator Circuit

Royer circuit uses the characteristic of transformer saturation to oscillate. When the DC power inject, Q808 or Q809 will turns on, and the current Ic increases. After a period, the transistor will leave the saturation status and Vce increase. The result causes the voltage of primary coil get lower. Finally the transistor turn off, and another transistor turn on. These statuses are repeated and the pin7 and pin8 of T801 will get a sine wave to turn on CCFL.

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5

4

3

2

1

D

CON301 1 2 3 4 5 6 7 8 9 10 2060089110

I _KEY KEY_EXIT KEY_LEFT BLU ORG KEY_ RIGHT KEY_MENU PW_SW LED301 BLU ORG A2 A1 BLU/ORG J

KEY_MENU

SW301 1 G1

2240069431 2 G2 2240069431 2 G2 2240069431 2 G2 2240069431 2 G2 2240069431 2 G2 2240069431 2 G2

D

KEY_ RIGHT

SW302 1 G1

KEY_LEFT

SW303 1 G1

C

PW_SW

SW306 1 G1

C

KEY_EXIT

SW304 1 G1

I _KEY

SW305 1 G1

B

B

LED use 06.3N5YG.14X; Key use 22.40069.431
Project Code 99.L1C72.001 Title
A

Model Name Q7T4 CTRL BOARD

OEM/ODM Model Name NA
A

Size PCB P/N 48.L1C03.S02

PCB Rev. Document Number S02 99.L1C72.000-C3-304-002 1 1 of Approved By DAVEN WU
1

R e v. 0

Date: Thursday, August 26, 2004 Sheet Prepared By Reviewed By ANGEL HU
5 4 3 2

ALLEN PC LEE

Q7T4-FP71G LCD Monitor Service Guide Engineering Specification

Table of Contents

1. Introduction 2. Operational Specification

3 3

2.1 Power supply................................................................................................................................. 3 2.2 Signal interface ............................................................................................................................. 4 2.3 Video performance ........................................................................................................................ 5 2.4 Scan range ..................................................................................................................................... 6 2.5 Plug & Play DDC2B Support ....................................................................................................... 6 2.6 Support Timings ............................................................................................................................ 6

3. Operational & Functional Specification

7

3.1 Video performance ........................................................................................................................ 7 3.2 Brightness Adjustable Range ........................................................................................................ 7 3.3 Acoustical Noise ........................................................................................................................... 7 3.4 Environment.................................................................................................................................. 7 3.5 Transportation ............................................................................................................................... 7 3.6 Electrostatic Discharge Requirements........................................................................................... 8 3.7 EMC .............................................................................................................................................. 8 3.8 Reliability...................................................................................................................................... 8 3.9 Audio performance........................................................................................................................ 9

4. LCD Characteristics

9

4.1 The Physical definition & Technology summary of LCD panel ................................................... 9 4.2 Optical characteristics of LCD panel ............................................................................................ 9

5. User Controls

10

5.1 User's hardware control definition................................................................................................ 10 5.2 OSD control function definition.................................................................................................... 10

6. Mechanical Characteristics

11

6.1 Dimension ..................................................................................................................................... 11 6.2 Weight ........................................................................................................................................... 11 6.3 Plastic ............................................................................................................................................ 11 6.4 Carton............................................................................................................................................ 12 1 Confidential

Q7T4-FP71G LCD Monitor Service Guide Engineering Specification

Table of Contents

7. Pallet & Shipment

12

7.1 Container Specification................................................................................................................. 12 7.2 Carton Specification...................................................................................................................... 12 Product: ................................................................................................................................. 12 Package: ................................................................................................................................ 12

8. Certification Appendix: Physical Dimension Front View and Side view

12 14

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Q7T4-FP71G LCD Monitor Service Guide Engineering Specification 1. Introduction
This specification describes Q7T4, which is a 17.0" analog interface color TFT LCD monitor without audio. The monitor supports up to 1280x1024 pixel resolution and refresh rate of 75 Hz. The independent 6 bits R, G, B colors are capable of displaying 16.2M colors (RGB-6bit + FRC data). In addition, dithering function is supported. The features summary is shown below,
*All panel spec. in C201 definition depends on the variance of panel source.

Feature items
Panel supplier & module name Screen diagonal Display Format Pixel Pitch Viewing Angle (@ Contrast Ratio = 10) Analog interface with Scaling supported DVI interface with Scaling supported Video interface with Scaling supported Max resolution mode supported Number of Display Colors supported Contrast Ratio Luminance AC power input DC power input (with AC power adapter) DPMS supported LED indicator for power status showed OSD for control & information supported Multi-language supported for OSD Buttons control supported Flywheel control supported Scaling function supported Auto adjustment function supported DDC function supported (EDID ver. 1.3) Audio speakers supported Audio Jack (input connector) supported Earphone Jack (input connector) supported Microphone function supported Mechanical Tilt base design VESA wall mounting design Mechanical Rotate design Mechanical Lift base design Kensington compatible lock design

Specifications
AUO M170EG01 17.0" (432mm) SXGA / 1280 (H) x 1024 (V) 0.264 mm x 0.264 mm R/L: 70/70 degrees (typ.) and U/D: 70/60 degrees (typ.) Yes No No 1280 x 1024 @ 75Hz 16.2M colors 450:1 (typ.) 260 cd/m2 (typ.) Yes No Yes Yes Yes Yes Yes No Yes Yes Yes No No No No Yes Yes No No Yes

Remark
Further divided into v.0 and v.1 versions (spec v.1) 337.920(H) x 270.336(V)

Panel spec. With 15-pin D-sub connector

(RGB 6-bits + FRC data) White Luminance@CCFL 7.5mA (center) 90-264 Volts, 47-63 Hz. 1W at 115±5 VAC 2W at 230 VAC in Power off Preferred Mode Green/Amber/Non 8 languages 6 buttons including 1 monitor power on/off control button.

"i-key" function DDC2B only

From -5 to +20 degree

2. Operational Specification 2.1 Power supply
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Q7T4-FP71G LCD Monitor Service Guide Engineering Specification
Item Input Voltage range Input Current range Power Consumption DPMS Inrush Current Earth Leakage Current Hi-Pot Power Line Transient Condition
Universal input full range 90 ~ 264VAC Normal "On" operation DPMS "Off" state 110 VAC 220 VAC 264 VAC/50Hz 1. 1500VAC, 1 sec 2. Ground test: 30A, 1sec IEC1000-4-4 IEC1000-4-5 (Surge)

Spec
90~264VAC /47~63Hz < 2.0 Arms < 40 W < 1 W in power preferred mode, 115V < 2 W, 230V < 30 A (peak) < 60 A (peak) < 3.5 mA Without damage < 0.1 ohm 1KV Common: 2KV, Differential: 1KV 3 mA ~8mA 40KHz ~ 80KHz Color: Black Length: 1500 +/- 50 mm

OK N.A


Remark

LED: Green LED: Amber Cold-start (on-line test) (in-lab test)


Panel Spec. 3.0 ~ 8.0mA rms Panel Spec. 40KHz ~ 80KHz

CCFL operation range CCFL Frequency Power cord

90 ~ 264VAC 90 ~ 264VAC

2.2 Signal interface
Item Signal Cable
24-pin DVI-D 15-pin D-sub connector 24-pin DVI-D connector Signal type Level Impedance Signal type

Condition
15-pin D-Sub

Spec
Color: Black Length: 1500 +/- 30 mm Color: Black Length: 2000 +/- 50 mm See Note-1 See Note-2 Separate analog R/G/B 700 mV (peak to peak) 75 Ohms +/- 1.5 Ohms Separate H/V-sync Composite H/V-sync (Positive/Negative) Logic High: 2.4V ~ 5.5V Logic Low: 0V ~ 0.5V (TTL level)
Minimum 2.2K(pull down)

OK N.A

Remark


For 15-pin D-sub For 24-pin DVI-D For 15-pin D-sub

Pin assignment

Video input

For 15-pin D-sub Refer to VESA VSIS Standard V1R1 10K for application

Sync input

Level Impedance Sync Pulse Width (SPW)

0.7s < H-SPW 1H < V-SPW

Note-1: The pin assignment of 15-pin D-sub connector is as below,
1 6 11 15 5 10

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Q7T4-FP71G LCD Monitor Service Guide Engineering Specification
Pin
1 2 3 4 5 6 7 8

Signal Assignment
Red video Green video Blue video Ground Cable Detected Red Ground Green Ground Blue Ground

Pin
9 10 11 12 13 14 15

Signal Assignment
PC5V (+5 volt power) Sync Ground Ground SDA H-Sync (or H+V) V-sync SCL

Note-2: The pin assignment of 24-pin DVI-D connector is as below,

Pin
1 2 3 4 5 6 7 8 9 10 11 12

Signal Assignment
TMDS RX2TMDS RX2+ TMDS Ground Floating Floating DDC Clock DDC Data Floating TMDS RX1TMDS RX1+ TMDS Ground Floating

Pin
13 14 15 16 17 18 19 20 21 22 23 24

Signal Assignment
Floating +5V Power Ground Hot Plug Detect TMDS RX0TMDS RX0+ TMDS Ground Floating Floating TMDS Ground TMDS Clock+ TMDS Clock-

2.3 Video performance
Item Max. support Pixel rate Max. Resolution Rise time + Fall time Settling Time after overshoot /undershoot Overshoot/Undershoot Condition Spec
135 MHz 1280 x 1024 < 6.25 ns (50% of minimum pixel clock period) < 5% final full-scale value < 12% of step function voltage level over the full voltage range

OK N.A

Remark


1280 x 1024 @ 75Hz (max. support timing) Refer to VESA VSIS Standard V1R1 Refer to VESA VSIS Standard V1R1

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Q7T4-FP71G LCD Monitor Service Guide Engineering Specification 2.4 Scan range
Item Horizontal Vertical Condition Spec
30 ~ 83 KHz 56 ~ 76 Hz

OK N.A

Remark
Without Frame buffer


OK N.A

2.5 Plug & Play DDC2B Support
Item DDC channel type EDID Condition Spec
DDC2B Version 1.3

Remark
Refer to Q7C4 S/W spec. document to see the detailed EDID data definition.



2.6 Support Timings
Input Timing Resolution 640x350 720x400 640x480 640x480 640x480 640x480 800x600 800x600 800x600 832X624 1024x768 1024x768 1024x768 1024X768 1152x864 1152x870 1152x900 1152x900 1280x1024 1280x1024 1280x1024 1280x1024 Horizontal 31.47(P) 31.47(N) 31.47(N) 35.00(N) 37.86(N) 37.50(N) 37.88(P) 48.08(P) 46.86(P) 49.72(N) 48.36(N) 56.48(N) 60.02(P) 60.24(N) 67.50(P) 68.68(N) 61.80(N) 71.81(N) 64.00(P) 75.83(N) 80.00(P) 81.18(N) Vertical 70.08(N) 70.08(P) 60.00(N) 67.00(N) 72.80(N) 75.00(N) 60.32(P) 72.19(P) 75.00(P) 74.55(N) 60.00(N) 70.10(N) 75.00(P) 74.93(N) 75.00(P) 75.06(N) 66.00(N) 76.14(N) 60.00(P) 71.53(N) 75.00(P) 76.16(N) Dot Clock 25.17 28.32 25.18 30.24 31.5 31.5 40.00 50.00 49.50 57.29 65.00 75.00 78.75 80.00 108.00 100.00 94.50 108.00 108.00 128.00 135.00 135.09 Actual Output Actual display 1280x943 1280x1024 1280x1024 1280x1024 1280x1024 1280x1024 1280x1024 1280x1024 1280x1024 1280x1024 1280x1024 1280x1024 1280x1024 1280x1024 1280x1024 1280x1024 1280x1024 1280x1024 1280x1024 1280x1024 1280x1024 1280x1024

OK N.A

Remark DOS DOS DOS Macintosh VESA VESA VESA VESA VESA Macintosh VESA VESA VESA Macintosh VESA Macintosh SUN 66 SUN VESA IBM1 VESA SPARC2



Note-3: "P", "N" stands for "Positive", "Negative" polarity of incoming H-sync/V-sync (input timing).

6 Confidential

Q7T4-FP71G LCD Monitor Service Guide Engineering Specification 3. Operational & Functional Specification 3.1 Video performance
Item Resolution Contrast ratio Brightness Response time Viewing angle CIE coordinate of White Display colors Condition
Any input resolution modes which are under 1280 x 1024 At R/G/B saturated condition Rising + Falling time At Contrast ratio = 10 At Contrast ratio = 10

Spec
1280 x 1024 450:1 (typ.) 260 cd/m (typ.) @ 7.5mA 16 ms (typ.) R/L: 70/70 degrees (typ.) U/D: 70/60 degrees (typ.) (0.31, 0.33) +/- (0.03, 0.03) 16.2M colors (RGB 6-bits + FRC data)
2

OK N.A

Remark


Support dithering

3.2 Brightness Adjustable Range
Item Condition
At default contrast level (saturate point) & Full-white Brightness adjustable range color pattern

Spec (Max. brightness value ­
Min. brightness value) 100 cd/

OK N.A

Remark



3.3 Acoustical Noise
Item Acoustical Noise Condition
At 1 meter distance & "Audio" function disabled

Spec
40 dB/A

OK N.A


Remark

3.4 Environment
Item Temperature Humidity Altitude Condition
Operating Non-operating Operating Non-operating Operating Non-operating

Spec
0 ~ +40 -20 ~ +60 10 ~ 90% 5 ~ 95% 0~3048m (10,000ft) 0~12,192m (40,000ft)

OK N.A

Remark



Non-condensing Non-condensing Without packing With packing

3.5 Transportation
Item Condition Spec (1) Sine wave
5~200Hz 1.5G, 1 octave/min, 15 min dwell on each resonant frequency, all primary axis, one sweep (30 min minimum) per orientation, total of 90+ min.

OK N.A

Remark

(1) Vibration

Package, Non-Operating



7 Confidential

Q7T4-FP71G LCD Monitor Service Guide Engineering Specification
(2) Random
5 ~100 Hz, 0 dB/Oct. 0.015 g2/Hz 100 ~200 Hz, -6 dB/Oct. 200 Hz, 0.0038 g2/Hz Equivalent to 1.47 Grms, All primary axis, 20 min perorientation, total is 60 min.

(3) Procedure:
Confirmed sample with appearance and function ready before testing then compare with after test record as brightness, uniformity and contrast ratio. Perform random vibration after sine-wave vibration test. Test Spectrum: 20 Hz 0.0185(g2/Hz) 200Hz 0.0185(g2/Hz) Unpackaged, Non-Operating Duration : 5 Minutes Axis : 3 axis ( Horizontal and Vertical axis ,Z axis) Package, Non-Operating Wooden package, Non-Operating
91 cm Height (MP stage) (1 corner, 3 edges, 6 faces) Waveform: half sine Faces: 6 sides/ per orientation 3 shocks. Duration: <3ms Velocity accelerate: 75g

(2) Unpackaged Vibration



(3) Drop



(4) Shock

3.6 Electrostatic Discharge Requirements
Item Electrostatic Discharge Condition
IEC801-2 standard

Spec
Contact: 8KV Air: 15KV

OK N.A

Remark



3.7 EMC
Item TCO03
Magnetic FCC part 15J class B

Condition
Electric

Spec
Band 1 < 10 V/m Band 2 < 1 V/m Band 1 < 200nT Band 2 < 25nT After Mass production under 1dBuv for constant measure. Besides DNSF and VCCI class-2 are optional.

OK N.A

Remark



EMI
EN55022 class B

3.8 Reliability
Item MTBF Prediction CCFL Life time Condition
Refer to MIL-217F At 25±2, under 7.0mA

Spec
> 60,000 Hours 50,000 Hours (typ.)

OK N.A

Remark
Excluding CCFL See Note-4



Note-4: CCFL lifetime is determined as the time at which brightness of lamp is 50%. The typical lifetime of CCFL is on the condition at 7.5mA lamp current.
8 Confidential

Q7T4-FP71G LCD Monitor Service Guide Engineering Specification 3.9 Audio performance
Item Preamp + Power amp (1)Output power (2)THD (@ 1W) (3)S/N ratio Speaker Driver (1)Nominal impedance (2)Rated input power (3)Frequency response (4)Output sound pressure level (5)Dimension of box Audio Control (1)Volume range (2)Mute Condition Spec
1 Wrms/CH @ 1KHz <1% >40dB 8 ohm 2 W/CH 180~20KHz SPL-10dB 84 ± 3 dB (1W 0.5M) 62x33cx20 mm2 0 ~100 levels On/Off

OK N.A

Remark



4. LCD Characteristics 4.1 The Physical definition & Technology summary of LCD panel
Item LCD Panel Supplier Panel type of Supplier Screen Diagonal Display area Physical Size Weight Technology Pixel pitch Pixel arrangement Display mode Support color Condition Spec
AUO M170EG01 V1 432mm(17.0") Unit=mm Unit=mm Unit=gram Unit=mm 337.920(H) x 270.336(V) 358.5(H) x 296.5(V) x 17.0 (D) (typ.) 1900 (typ.) TN type 0.264 x 0.264 R/G/B vertical stripe Normally white 16.2M colors (RGB 6-bits + FRC data)

OK N.A

Remark



Per one triad

4.2 Optical characteristics of LCD panel
Item Viewing Angle Contrast ratio Response Time Color / Chromaticity
[msec] [msec] [msec]

Unit
[degree] [degree] [degree] [degree]

Conditions
Horizontal (Right) CR = 10 (Left) Vertical (Up) CR = 10 (Down) Normal Direction Rising Time Falling Time Rising + Falling Red x Red y

Min.
60 60 60 50 250 0.61 0.31

Typ.
70 70 70 60 450 12 4 16 0.64 0.34

Max.
20 5 25 0.67 0.37

Remark

9 Confidential

Q7T4-FP71G LCD Monitor Service Guide Engineering Specification
Coordinates (CIE)
Green x Green y Blue x Blue y White x White y 9 points measurement 0.26 0.58 0.11 0.04 0.28 0.30 75 210 0.29 0.61 0.14 0.07 0.31 0.33 80 260 0.32 0.64 0.17 0.10 0.34 0.36 1.5

Color Coordinates (CIE) White Luminance Uniformity White Luminance @ CCFL 7.5mA (center) Crosstalk (in 75Hz)
[%] [cd/m2] [%]

* The test methods for the above items' definition, please refer to the relative panel specification.

5. User Controls 5.1 User's hardware control definition
Item Monitor Power button Enter button Right/Inc. button Left/Dec. button Exit /Volume button I-key button Mode Selection button Mute button Input source select button Condition Spec OK N.A Remark



5.2 OSD control function definition
Item Auto Adjust Brightness Contrast Horizontal Position Vertical Position Pixel Clock Phase Color OSD Position OSD Time Language Recall Mode Selection Condition Spec
Auto-Geometry

OK N.A

Remark



Bluish Reddish sRGB User: Separate R/G/B adjustment

OSD Horizontal position OSD Vertical position From 5 sec to 60 sec 8 languages Color recall Recall All

10 Confidential

Q7T4-FP71G LCD Monitor Service Guide Engineering Specification
Input Select Sharpness Display Information Volume Mute Hot key for Brightness Hot key for Contrast Hot key for Volume Hot key for Mode
D-sub DVI For input timing



* The detailed firmware functions' specification, please refer to C212 S/W spec. document.

6. Mechanical Characteristics 6.1 Dimension
Item Bezel opening Monitor without Stand Monitor with Stand Carton Box (outside) Tilt and Swivel range Condition
L x W x H mm L x W x H mm L x W x H mm

Spec
339.84 x 272.24 mm 323.75*378*60.5mm 362*378*135.31 mm 456(L)*423(W)*114(H) Tilt: -5 ~ +20 degree Swivel: 0 degrees

OK N.A

Remark



6.2 Weight
Item Monitor (Net) Monitor with packing (Gross) Condition Spec
3.8 Kg 5.7 Kg

OK N.A

Remark



6.3 Plastic
Item Flammability Heat deflection To UV stability Resin Texture Color Condition
ABS ABS

Spec
94-HB 65 Delta E < 8.0 MPRII: ABS (VW55/VE0856/D350) MT-11020 BCS-Y5003A

OK N.A

Remark


Bezel texture MT-11000 Bezel painting T8020C

11 Confidential

Q7T4-FP71G LCD Monitor Service Guide Engineering Specification 6.4 Carton
Item Color Material Compression strength Burst Strength Stacked quantity Condition Spec
Kraft B Flute 288 KGF 16 KGF/cm2 18 Layers

OK N.A

Remark



7. Pallet & Shipment 7.1 Container Specification
Stowing Type Container
20'

Quantity of products (sets) (Every container)

Quantity of Products (sets) (Every Pallet)

Quantity of pallet (sets) (Every Container)

1080 2520

Pallet A: 90 Pallet B: 72 Pallet A: 90 Pallet B: 72 X X X X

Pallet A: 12 Pallet B: 12 Pallet A: 14 Pallet B: 14 X X X X

With pallet
40'

20'

Without pallet

40'

7.2 Carton Specification
Product:
Net Weight (Kg)
3.8Kg

Gross Weight (Kg)
5.7Kg

Dimension w/o Base L*W*H (mm)
323.75*378*60.5mm

Dimension w/ Base L*W*H (mm)
362*378*135.31 mm

Package:
Carton Interior Dimension (mm) L*W*H Carton External Dimension (mm) L*W*H

448(L)*415(W)*100(H)

456(L)*423(W)*114(H)

8. Certification
Item Environment Condition
Green design Blue Angel E-2000

Spec
API Doc. 715-C49 German Standard Switzerland

OK N.A

Remark
ISO14000 Requirement

12 Confidential

Q7T4-FP71G LCD Monitor Service Guide Engineering Specification
EPA TCO'99 TCO'03 Green Mark Microsoft Windows PC98/99 VESA Version 1.3 External UL60950 3rd edition CAN/CSA-C22.2 No. 60950 EN60950 EN60950 73/23/EEC USA Standard



PC-Monitor

DPMS DDC 2B USB UL (USA) CSA (Canada) Nordic / D.N.S.F FIMKO CE Mark IEC60950

Safety

EN60950 CB TUV/GS CCC (China) GOST SASO CE Mark FCC (USA) EN55022 89/336/EEC FCC Part 15 B Class B Class B VCCI Class B CNS 13438 AS/ NZS CISPR22 USA X- Ray Standard EN60950 EN60950 EN60950 / EK1-ITB 2000:2003



EMC
CISPR 22 VCCI (Japan) BSMI (Taiwan) C-Tick (Australia) DHHS (21 CFR)

X- Ray Requirement

DNHW PTB TUV / Ergo German X- Ray standard

Ergonomics

ISO 13406-2 prEN50279

13 Confidential

Q7T4-FP71G LCD Monitor Service Guide Engineering Specification

Appendix: Physical Dimension Front View and Side view
Fig. 1 Physical Dimension Front View and Side view

14 Confidential

5

4

3

2

1

3.3V_MCU D N1 BAV70LT1 1 3 D N2 BAV99 D N3 BAV99 3 PC5V C2 0 .1U U1
D

3.3V_MCU

2

P C5V

D N4 BAV99 3

D N5 BAV99 3

2

2

2

2 C1 3 0.01U

ESD solution

C 20 0.01U J

C 25 0.01U J

C 49 0.01U J

1

1

1

2

R1 4.7K VCC WP SCL SDA 8 7 6 5

R2 4.7K 1

D1 6.2V G1 J1 6 1 7 2 8 3 9 4 10 5 2024012A15

TP2

R3 75 TP3 TP4 TP6 TP8

R4 75

1 R5 75 R+ G+ B+ L2 Z60 L1 Z60 R6 R7 R8 R9 R 11 R 12 100 100 100 100 100 100 C3 C4 C5 C6 C7 C8 0.047U 0.047U 0.047U 0.047U 0.047U 0.047U R EDR ED+ G REENGREEN+ BLUEBLUE+
D

TP1

1 2 3 4

A0 A1 A2 VSS

D SUB_SCL D SUB_SDA TP5 TP7 TP9 D D C _WP_A R 13 4.7K D SUB_SDA DSUB_SCL 3.3V_MCU R 14 R 15 47 47 D2 6.2V 1 1 D3 6.2V TP10

11 12 13 14 15

AT24C02A R 10 0

L3 TP11 R 35 A-detect 100 C 77 0 .1U R 16 R 17 200

Z60

2

2

C9 4.7P C

C 10 4.7P C

C 11 4.7P C

G2

H S YN C 200 V SYN C 2 D4 6.2V 1 R 18 2K 1 2 D5 6.2V R 19 2K C 12 22P J C 13 20P J

C

C

3.3V_MCU D N6 BAV70LT1 1 3

2

D VIPC5V

J2 1 9 17 2 10 18 3 11 19 4 12 20 5 13 21 6 14 22 7 15 23 8 16 24 G1 G2 D-detect 3 D8 6.2V ESD solution 1 C 16 0.01U 2 D N13 BAV99 TP12 TP13 TP14 TP15 TP16 TP17

3.3V_MCU

B

1 9 17 2 10 18 3 11 19 4 12 20 5 13 21 6 14 22 7 15 23 8 16 24 G1 G2

TP18

RX2RX1RX0RX2+ RX1+ RX0+ RX03

C 15 0.01U 2 D N7 BAV99 2 D N8 BAV99 2 D N9 BAV99 2 D N10 BAV99 2 D N 11 BAV99 2 D N 12 BAV99 2 D N 14 BAV99 2 D N 15 BAV99

C 14 0.1U ESD solution 1 R 22 0 RX0M 2 3 R 24 0 RX0P 4 U2 A0 A1 A2 VSS VCC WP SCL SDA 8 7 6 5 R 23 R 25 47 47 D VI_SCL D VI_SDA R 20 4.7K R 21 4.7K

1 RX0+

3

AT24C02A R 26 0 RX1M R 27 0 R 29 4.7K D D C _WP_D
B

TP19 TP20 TP21 TP22 TP23 TP24 Hot- Plug R 30 10K

1 DVI_SCL DVIPC5V DVI_SDA RXC+ RXC3.3V_MCU RX1-

3

1

RX1+

3

R 28

0

RX1P

1

RX2-

3

R 31

0

RX2M 3.3V_MCU

1

RX2+

3

R 32

0

RX2P

1

RXC-

2

2

1

1

2022009024 1

D6 6.2V 1

D7 6.2V

2

3

R 33

0

RXCM

RXC+

3

R 34

0

RXCP

A

1

A

Project Code 99.L1C72.001 Title Size P CB P/N 48.L1C01.S02

Model Name Q7T4 INTERFACE BOARD

OEM/ODM Model Name NA

PC B Rev. Document Number S02 99.L1C72.000-C3-304-001 1 of 6 Ap proved By D AV EN WU

Re v. 1

Date: Thursday, July 29, 2004 Prepared By AN GEL HU
5 4 3 2

Sheet R eviewed By ALLEN PC LEE
1

5

4

3

2

1

Delete FB1, C20; FB2, C25 ; 6/16 change FB3,FB4,FB5 from 0805 to 0603
C 17 3.3V_MCU
D

R 3 .3DVCC F B4 1 220 OHM C 35 0 .1U C 36 0 .1U C 37 0.1U C 38 0 .1U C 39 0 .1U C 40 0 .1U C 41 0 .1U

18P J C 18

Y1 24.576MHZ

R 3 .3DVCC

R 2 .5DVCC
D

+ 2

120 109 96 84 72 57 48

121 110 95 83 71 58 49

127 98 69 45 2.5V Power 2.5V Power 2.5V Power 2.5V Power

3.3V Ground 3.3V Ground 3.3V Ground 3.3V Ground 3.3V Ground 3.3V Ground 3.3V Ground

XI

1

XO R 3 .3DVCC TMDS_VCC C 21 0 .1U C 22 0.1U

2.5V Ground 2.5V Ground 2.5V Ground 2.5V Ground

3.3V Power 3.3V Power 3.3V Power 3.3V Power 3.3V Power 3.3V Power 3.3V Power

128 97 70 44

C 34 22U 25V

18P J R 3 .3DVCC 1 2 4 5 3 8 6 7 9 12 14 15 17 18 20 21 23 24 11 13 19 26 10 16 22 25 BLUE+ BLUEGREEN+ GREENR ED+ R EDAD C _VCC 30 31 33 34 35 37 38 29 36 41 C 24 0 .1U 28 27 32 39 40 H S YN C V SYN C 42 43

XO XI DPLL_VDD APLL_VDD DPLL_GND APLL_GND PLL_TEST1 PLL_TEST2

TCON[12]/COUT/PWM2 PWM0/REFCLK TCON[13]/COUT/PWM2 AR1N AR1P/TCON[0] AR2N/TCON[1] AR2P/TCON[5] AR3N/TCON[6] AR3P/TCON[7] AG1N/TCON[8] AG1P/TCON[9] AG2N/TCON[10] AG2P/TCON[11] BG3N BG3P BCLKN BCLKP BB1N BB1P BB2N BB2P BB3N BB3P

113 112 55 108 107 106 105 104 103 102 101 100 99 68 67 66 65 64 63 62 61 60 59

R 36

100

VOL_ADJ + C 19 4.7U 25V

R 37

100 1 + 2 C 23 4.7U 25V

2

BRT_ADJ

C 26 0 .1U

C 27 0 .1U

C 28 0.1U

C 29 0 .1U R 38 4.7K R 39 1K RX2P RX2M RX1P RX1M RX0P RX0M RXCP RXCM

3.3V_MCU

TMDS_TST/PWM1 EXT_RES RX2P RX2N RX1P RX1N RX0P RX0N RXCP RXCN TMDS_VDD TMDS_VDD TMDS_VDD TMDS_VDD TMDS_GND TMDS_GND TMDS_GND TMDS_GND B+ BSOG/ADC_TEST G+ GR+ RADC_VDD ADC_VDD ADC_VDD ADC_REFIO ADC_GND ADC_GND ADC_GND ADC_GND AHS AVS SCLK SDIO[0] TCON[4]/SDIO[1] TCON[3]/SDIO2] TCON[2]/SDIO[3]/PWM2 SCSB RESET#

TMDS_VCC

RTD2523

C

C

+2.5V F B5 1 220 OHM C 43 0 .1U C 44 0.1U C 45 0 .1U

R 2 .5DVCC

AG3N/TEAN AG3P/TEAP ACLKN/TEBN ACLKP/TEBP AB1N/TECN AB1P/TECP AB2N/TECLKN AB2P/TECLKP AB3N/TEDN AB3P/TEDP BR1N/TOAN BR1P/TOAP BR2N/TOBN BR2P/TOBP BR3N/TOCN BR3P/TOCP BG1N/TOCLKN BG1P/TOCLKP BG2N/TODN BG2P/TODP

94 93 92 91 90 89 88 87 86 85 82 81 80 79 78 77 76 75 74 73

RXOIN0RXOIN0+ RXOIN1RXOIN1+ RXOIN2RXOIN2+ RXOCKINRXOCKIN+ RXOIN3RXOIN3+ RXEIN0RXEIN0+ RXEIN1RXEIN1+ RXEIN2RXEIN2+ RXECLKRXECKIN+ RXEIN3RXEIN3+

+ 2

C 42 22U 25V

C 46 0 .1U

3.3V_MCU F B3 1 220 OHM C 31 0 .1U C 32 0.1U C 33 0 .1U

AD C _VCC

50 54 53 52 51 111 56

47 46 125 126

+ 2

C 30 22U 25V

B

RESET RTD_RESET

R 40 R 41

0 0

RTD_SCLK RTD_SDO/SDI S DIO1 S DIO2 S DIO3 RTD_SCSB

114 115 116 117 118 119 122 123 124

TCON[11]/V[0] TCON[10]/V[1] TCON[9]/V[2] TCON[8]/V[3] TCON[7]/V[4] TCON[6]/V[5] TCON[5]/V[6] TCON[1]/V[7] TCON[0]/VCLK

DDCSDA DDCSCL DDCSDA2 DDCSCL2

B

R 67 4.7K

D SUB_SDA D SUB_SCL

delete RN1, add R65 R66;Delete RN2 Add R67; R35: Delete R65,R66 0615

3.3V_MCU

A

A

Project Code 99.L1C72.001 Title Size P CB P/N 48.L1C01.S02

Model Name Q7T4 INTERFACE BOARD

OEM/ODM Model Name NA

PC B Rev. Document Number S02 99.L1C72.000-C3-304-001 2 of 6 Ap proved By D AV EN WU

Re v. 1

Date: Thursday, July 29, 2004 Prepared By AN GEL HU
5 4 3 2

Sheet R eviewed By ALLEN PC LEE
1

5

4

3

2

1

delete RN4,RN5,RN6,RN8; Q1,R44,C49,R46,R47
R N3

3.3V_MCU

8 7 6 5
D

1 2 3 4

4.7K

D

I - KEY RTD_SCSB PANEL_ON D-detect PW _SW KE Y_MENU 3.3V_MCU 3.3V_MCU 44 43 42 41 40 6 5 4 3 2 1

3.3V_MCU

C 47 0 .1U 1 2 3 4

U4 A0 A1 A2 GND VCC WP SCL SDA 8 7 6 5

**C50 close to scaler, R43 close to MCU.

R 42 4.7K

R 43 4.7K

SC L SD A

VDD3

DA0/P5.0

DA1/P5.1

DA2/P5.2

DA3/P5.3

DA4/P5.4

C 48 0.22U K 7 8 R 45 4.7K 9 10 11 RST VDD P6.3/AD3 VSS X2 X1

DA5/P5.5

NC

NC

VSYNC

HSYNC

RESET 3.3V_MCU 3.3V_MCU

R 68 DA8/HLFHO DA9/HALFV 39 38 37 36 35 34 33 32 31 30 29 K EY_RIGHT L ED_ORG LE D_GRN BL_ON VOL_ON DSUB_SCL 3.3V_MCU D D C _ WP_D D D C_WP_A 4.7K 3.3V_MCU

AT24C04N-10SI-2.7

U5

HBLANK/P4.1 VBLANK/P4.0 DA7/HCLAMP

C 50 6.8P J Y2 12MHZ SD A SC L D D C _WP_A
C

12 13 14 15 16 17

SOCKET P/N: 22.10079.044

DA6/P5.6 P6.7/DA13 P6.6/DA12

C 51 6.8P J

ISDA/P3.4/T0 ISCL/P3.5/T1 STOUT/P4.2 P6.2/AD2/HLFHI HSDA/P3.1/Txd P1.0 P3.2/INT0 P6.1/AD1 P6.0/AD0 MTV312MV64

+2.5V

P6.5/DA11 P6.4/DA10 HSCL/P3.0/Rxd

D D C _ WP_D

U6 1 GND GND VIN

GMT
VOUT 3

C

P1.1

P1.2

P1.3

P1.4

P1.5

P1.6

18

19

20

21

22

23

24

25

P1.7

26

27

28

D SUB_SDA RTD_SDO/SDI SDIO1 SDIO2 SDIO3 RTD_SCLK KEY_LEFT KEY_EXIT A-detect RTD_RESET

C 54 100P 50V J C 55 100P 50V J TP25 TP26 J3 1 3 5 7 9 11 1 3 5 7 9 11 2 4 6 8 10 12 2 4 6 8 10 12 L4 Z30 TP27 L5 220 OHM TP28 TP29 TP31

R N7

1 2 3 4

4.7K

BRT_ADJ

2 G1

C 52 0.1U

G950T65U

C 53 0.1U

BL_ON +5V 3.3V_MCU VOL_ON

8 7 6 5

VOL_ADJ 3.3V_MCU 3.3V_MCU
B

TP30

2072060206

B

1

C 58 C 64 220P J R 49 2 220 0 .1U

C 59 2 0 .1U

+ C 56 22U 25V

C 60 2 0 .1U

1 + C 57 22U 25V

C 61 0 .1U

C 62 0.1U

C 63 0 .1U

2 L ED_ORG L ED_ORG R 48 10K 1 3 2N3906 Q2

LE D_GRN

LE D_GRN

R 50

10K

1 3

2N3906 Q3 R 51

220

C 65 0 .1U

C 66 0 .1U J4 TP32 TP33 TP34 TP35 TP36 TP37 TP38 TP39 TP40 1 2 3 4 5 6 7 8 9 2060091109 R 52 0

KEY_EXIT KEY_LEFT K EY_RIGHT K EY_MENU PW _SW I - KEY

R 53

1K

R 54

1K

L6 R 55 1K R 56 1K

L7

L8

R 57

1K

L9

R 58

1K

L10

L11

A

C 67 100P 50V J

C 68 100P 50V J

C 69 100P 50V J

C 70 100P 50V J

C 71 100P 50V J

C 72 100P 50V J

A

Project Code 99.L1C72.001 Title Size P CB P/N 48.L1C01.S02

Model Name Q7T4 INTERFACE BOARD

OEM/ODM Model Name NA

PC B Rev. Document Number S02 99.L1C72.000-C3-304-001 3 of 6 Ap proved By D AV EN WU

Re v. 1

Date: Thursday, July 29, 2004 Prepared By AN GEL HU
5 4 3 2

Sheet R eviewed By ALLEN PC LEE
1

5

4

3

2

1

D

+5V 5V_PANEL 3 1

D

R59 100K 1 3

Q4 ELM13401CA 2 2

+

C73 22U 25V

C74 0.1U

+5V Q5 2N3904

PANEL_ON

R60

20K 1 + 2 C75 OPEN 25V R61 10K

1 2

G(1)
C76 0.1U

S(2)

D(3)

C

C

J5 G1 1 TP41 2 3 TP42 4 TP43 5 TP44 6 7 TP45 8 TP46 9 TP47 10 TP48 11 TP49 12 TP50 13 14 TP51 15 TP52 16 17 TP53 18 TP54 19 TP55 20 TP56 21 TP57 22 TP58 23 24 TP59 25 TP60 26 TP61 27 TP62 28 TP63 29 TP64 30 G2 G1 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 G2 20K2085030

5V_PANEL R62 R63 R64 0 0 0

B

RXEIN3+ RXEIN3RXECKIN+ RXECLKRXEIN2+ RXEIN2RXEIN1+ RXEIN1RXEIN0+ RXEIN0RXOIN3+ RXOIN3RXOCKIN+ RXOCKINRXOIN2+ RXOIN2RXOIN1+ RXOIN1RXOIN0+ RXOIN0-

B

Project Code 99.L1C72.001 Title Size PCB P/N 48.L1C01.S02

Model Name Q7T4 INTERFACE BOARD

OEM/ODM Model Name NA
A

A

PCB Rev. Document Number S02 99.L1C72.000-C3-304-001 4 6 of Approved By DAVEN WU
1

R e v. 1

Date: Thursday, July 29, 2004 Prepared By ANGEL HU
5 4 3 2

Sheet Reviewed By ALLEN PC LEE

5

4

3

2

1

D

D

C

C

1

1

5
B

9 8 7 6

5 4 3 2
H2

9 8 7 6

5 4 3 2
H3

1

9 8 7 6
B

4 3
Optical Points OP1 OP OP2 OP OP3 OP

2
H1 HOLE-V8

HOLE-V8

HOLE-V8

A

Project Code 99.L1C72.001 Title Size PCB P/N 48.L1C01.S02

Model Name Q7T4 INTERFACE BOARD

OEM/ODM Model Name NA

A

P C B R ev. Document Number S02 99.L1C72.000-C3-304-001 5 of 6 A pproved By DAVEN W U

R e v. 1

D ate: Thursday, July 29, 2004 Prepared By ANGEL HU
5 4 3 2

Sheet R eviewed By ALLEN PC LEE
1

5
1. Add C20, C25, C49, C77, R35

4

3

2

1

D

D

C

C

B

B

A

A

P r o j e c t Code 9 9 .L 1 C72.001 Title S ize P C B P /N 4 8 .L 1 C 01.S02

Mo d e l Nam e Q7T4 I N T E R FAC E B OAR D

OE M/OD M Mo d e l Nam e NA

P C B R e v. D o c u m e n t Num ber S02 9 9 .L 1 C 7 2 .000-C3-304-001 6 of 6 A p p r o ve d B y D AVEN WU

R e v. 1

D a te : Th u r s d a y, J u l y 2 9 , 2004 P r e p a r e d By

S h eet R e vi e w e d B y AL L E N P C L EE

5

4

3

2

1

A N GE L H U

Q7T4-FP71G LCD Monitor Service Guide Trouble Shooting
Q7T4 TROUBLE SHOOTING GUIDE No Display or display is unstable: 1.1 Interface Board:
No picture or picture unstable

Power off No

Yes

Turn on power

Does cable plugs in connector? Yes

No

Check all of wire then turn on power switch again.

Does power stable? Yes

No

Check Power BD

Is LED light green/orange? Yes

No

Check control BD

Is LED status normal? Yes

No

Check Flash Rom or replace it

Does crystal work correctly? Yes

No

Check crystal CKT or replace it

Is interface BD normally? Yes

No

Replace interface BD

Replace panel

1 Confidential

Q7T4-FP71G LCD Monitor Service Guide Trouble Shooting
2. BUTTON function:
2.1 Control Board

OSD is not working Yes

Is control BD connecting?

No

Plug control BD then retry

Yes

Is bottom switch normally?

Yes

Replace control BD then retry

No Replace Control BD Is OSD working??

No Check Interface BD

3. OSD function:
OSD doesn't work

Is control BD working?

No

Replace control BD

Check interface BD

4. Power Board

2 Confidential

Q7T4-FP71G LCD Monitor Service Guide Trouble Shooting

Backlight didn't shine

Y Replace Q761 IC801 PIN 9 IS 15V? N N Plug CN701 again or checking I/F BD PWM existed? (BLT_ADJ) Y N Plug CN601 again or checking PW BD Turn on level existed? (BLT_ON) Y N Insert them again Check CN801, CN802 was pluged properly? Y

Y LED shined? N Y 3.3V existed? Y Replace new fuse N IS I/F board connected? N

Replace new fuse Y Check IC701 OK? Replace IC701

N Replace IC801,Q805 Checking F601 Broke? N Y Replace new fuse

Y Check IC601 Vcc existed? N

Replace IC601,Q602,Q603 R602

Replace IC602, IC702,D701 or check I/F BD

3 Confidential

BENQ LCD Q7T4(FP71G) Spare Parts List
P/N: 99.L1C72.ASE

ITEM DESCRIPTION
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18

PART NO. 55.L1C01.001 71.02023.00E 72.02402.C01 72.02404.N01 74.95065.03C 71.31264.A03 55.L1C02.001 55.L1C03.001 56.91L83.011 60.L1C01.001 60.L1C02.001 60.L1C03.001 44.L1C01.001 47.L1C01.001 47.L1C02.001 50.L9005.501 53.L1C01.001 60.L1C04.001

LOCATION

PCBA I/F BD MI AUO M170EG01 IC CONTROLER RTD2023 QFP 128P IC EEPROM AT24C02N-10SI-1.8SON IC EEPROM AT24C04N-10SI-2.7SON IC VR G950T65U SOT-223 IC FLASH MTV312MV64 (AJ) PLCC44 PCBA SPS BD MI QT74 EG01 PCBA CTRL BD MI Q7T4 LCDM 17 M170EG01 V.1 AUO ASSY FC ABS 8020C Q7T4 ASSY RC ABS 5003A Q7T4 ASSY BASE-CLUM ABS 5003A Q7T4 CTN B 456*423*114 Q7T4/BENQ CSN BTM EPS Q7T4 CSN TOP EPS Q7T4 CABLE SIGNAL 15/15P CORE*1 1.5M CD MANUAL Q7T4 ASSY BASE ABS 5003A Q7T4

U3 U1 U4 U6 U5

* THIS PARTS LIST MAY BE SUBJECT TO CHANGE WITH PRIOR NOTICE BY CSD OF BENQ.

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