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PM102WX1
Version : 0.5
TECHNICAL MODEL
SPECIFICATION
NO. : PM102WX1
Customer's Confirmation Customer
By PVI's Confirmation
Confirmed By
Prepared By
PRIME VIEW INTERNATIONAL CO.,LTD.
3,LI SHIN RD. 1,SCIENCE-BASED INDUSTRIAL PARK,HSINCHU,TAIWAN,R.O.C. http://www.pvi.com.tw
Date: Fab.16,2005 This technical specification is subject to change without notice. Please return 1 copy with your signature on this page for approval.
The information contained herein is the exclusive property of Prime View International Co., Ltd. and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Prime View International Co., Ltd. Page:1
PM102WX1
TECHNICAL
SPECIFICATION
CONTENTS
NO.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
ITEM
Cover Contents Application Features Mechanical Specifications Mechanical Drawing of TFT-LCD module Input / Output Terminals Absolute Maximum Ratings Electrical Characteristics Pixel Arrangement Display Color and Gray Scale Reference Block Diagram Interface Timing Power On Sequence Optical Characteristics
Handling Cautions
PAGE
1 2 3 3 3 4 6 12 12 13 14 15 16 21 21 25 26 27 28
Reliability Test Packing Diagram Revision History
-
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PM102WX1
1.Application
This data sheet applies to a color TFT LCD module, PM102WX1. PM102WX1 module applies to OA product, car TV (must use Analog to Digital driving board), which requires high quality flat panel display. If you must use in severe reliability environment, please don't extend over PVI's reliability test conditions. If you use PM102WX1, Prime View advises your systems use PVI's timing controller IC (PVI-2002A) which will generate proper timing signals to control PM102WX1.
2. Features
. Wide VGA (800*480 pixels) resolution . Amorphous silicon TFT LCD panel with back-light unit . Pixel in stripe configuration . Thin and light weight . Display Colors262,144 colors . Optimum Viewing Direction6 o'clock . TTL interface . Wide viewing angle
3.Mechanical Specifications
Parameter Screen Size Display Format Display Colors Active Area Pixel Pitch Pixel Configuration Outline Dimension Weight Back-light Surface treatment Display mode Specifications 10.2 (diagonal) 800x(R, G, B)x480 262,144 222.0(H)x132.48(V) 0.2775(H)x0.276(V) Stripe 235.0(W)x145.8 (H)x5.9 (D) (typ.) 31210 CCFL, 1 tube Anti-glare and Wide View Film Normally white Unit inch dot mm mm mm g
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PM102WX1
4.Mechanical Drawing of TFT-LCD Module
Outline Drawing : Front View (unit : mm)
PM102WX1_X2(FRONT VIEW)
1
Patrick Lin
1
CHG DIM 60 TO 115
Patrick Lin
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1
CN1
30
1
CN2
30
M001-036-01
PM102WX1
Outline Drawing : Rear View (unit : mm)
OUTLINE DIMENSION(BACK VIEW),10.2"COG
Patrick Lin
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30
CN2
1
30
CN1
1
M001-036-01
PM102WX1
5.Input / Output Terminals
5-1) TFT-LCD Panel Driving Connector type: ELCO, 6210-30PIN, PIN No 30 pins, pitch=0.5mm CN 1 Pin No. 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 Symbol DIO1 VSS1 VDD1 CLK VSS1 R/L R0 R1 R2 R3 R4 R5 VSS1 G0 G1 G2 G3 G4 G5 VSS1 B0 B1 B2 B3 B4 B5 LD REV POL DIO2 I/O I/O I I I I I I I I I I I I I I I I I I I I I I I I I I I I I/O Function Horizontal Start Pulse Signal Input or Output Ground Power Supply Horizontal Shift Clock Ground Right / Left selection Red Data (LSB) Red Data Red Data Red Data Red Data Red Data (MSB) Ground Green Data (LSB) Green Data Green Data Green Data Green Data Green Data (MSB) Ground Blue Data (LSB) Blue Data Blue Data Blue Data Blue Data Blue Data (MSB) Load output signal Data invert control Polarity selection Horizontal Start Pulse Signal Input or Output Remark Note 5-1
Note 5-1
Note 5-2 Note 5-3 Note 5-4 Note 5-1
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PM102WX1
CN 2 Pin No. 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 Symbol VSS2 V1 V2 V3 V4 V5 V6 V7 VSS2 V8 V9 V10 V11 V12 V13 V14 VSS2 VDD2 VCOM XON OE U/D CKV STVU STVD VGG GND VCC GND VEE I/O I I I I I I I I I I I I I I I I I I I I I I I I/O I/O I I I I I Function Ground Gamma Voltage 1 Gamma Voltage 2 Gamma Voltage 3 Gamma Voltage 4 Gamma Voltage 5 Gamma Voltage 6 Gamma Voltage 7 Ground Gamma Voltage 8 Gamma Voltage 9 Gamma Voltage 10 Gamma Voltage 11 Gamma Voltage 12 Gamma Voltage 13 Gamma Voltage 14 Ground Voltage for analog circuit Common Voltage NC Output Enable Up / Down Selection Vertical Shift Clock Vertical Shift Pulse Signal Input or Output Vertical Shift Pulse Signal Input or Output Gate On Voltage Ground Voltage for logic circuit Ground Gate Off Voltage Remark Note 5-10 Note 5-10 Note 5-10 Note 5-10 Note 5-10 Note 5-10 Note 5-10 Note 5-10 Note 5-10 Note 5-10 Note 5-10 Note 5-10 Note 5-10 Note 5-10 Note 5-10
Note 5-5 Note 5-6 Note 5-7 Note 5-6 Note 5-6 Note 5-8
Note 5-9
Note 5-1: Select left or right shift R/L 1 0 DIO1 Input Hi-Z DIO2 Hi-Z Input Shift Left to right Right to left
Note 5-2: Latch the polarity of outputs and switch the new data to outputs At the rising edge (CLK), latch the "POL" signal to control the polarity of the outputs. Note 5-3: Control whether the Data R0~G5 are inverted or not. (PVI suggests connecting to GND) When "REV=1", these data will be inverted. EX: "00""3F", "07""38", "15""2A" Note 5-4: Polarity selector for dot-inversion control. Available at the rising edge of LD. When POL=1: Even outputs range from V1~V7, and Odd outputs range from V8~V14; When POL=0: Even outputs range from V8~V14, and Odd outputs range from V1~V7.
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PM102WX1
Note 5-5: When OE is connected to high "1", the driver outputs are disabled (Gate output = VEE). Under this condition, the operation of registers will not be affected. Note 5-6: Select up or down shift U/D 1 0 STVU Hi-Z Input STVD Input Hi-Z Shift Down to Up Up to Down
Note 5-7: Gate driver shift clock Note 5-8: Gate on voltage, VGG=16V. Note 5-9: Gate off voltage, VEE=-9V. Note 5-10: 1) Relationship between input data and output voltage The figure below shows the relationship between the input data and the output voltage with the polarity. The range of V1~V7 is for positive polarity, and V8~V14 for negative polarity. Please refer to the following pages to get the related resister values and voltage calculation method.
Vout VDD2 V1 V2 V3 V4 V5 V6 V7 Vcom V8 V9 V10 V11 V12 V13 V14 Vss2 00H 08H 10H 18H 20H 28H 30H 38H 3FH Input Data
Gamma correction diagram
Positive polarity
Negative polarity
Remark: VDD2-0.1V1V2V3V4V5V6V7; V8V9V10V11V12V13V14 VSS2+0.1V.
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PM102WX1
2) Output voltage and input data Output Voltage to Panel V.S. Input Data Data Positive polarity Output Voltage Negative polarity Output Voltage 00H V1 V14 01H V2=V3+(V1-V3) x 58 / 64.4 V13=V14+(V12-V14) x 6.4 / 64.4 02H V3+(V1-V3) x 52 / 64.4 V14+(V12-V14) x 12.4 / 64.4 03H V3+(V1-V3) x 46.4 / 64.4 V14+(V12-V14) x 18 / 64.4 04H V3+(V1-V3) x 41.2 / 64.4 V14+(V12-V14) x 23.2 / 64.4 05H V3+(V1-V3) x 36.4 / 64.4 V14+(V12-V14) x 28 / 64.4 06H V3+(V1-V3) x 32 / 64.4 V14+(V12-V14) x 32.4 / 64.4 07H V3+(V1-V3) x 27.6 / 64.4 V14+(V12-V14) x 36.8 / 64.4 08H V3+(V1-V3) x 23.6 / 64.4 V14+(V12-V14) x 40.8 / 64.4 09H V3+(V1-V3) x 19.6 / 64.4 V14+(V12-V14) x 44.8 / 64.4 0AH V3+(V1-V3) x 16.4 / 64.4 V14+(V12-V14) x 48 / 64.4 0BH V3+(V1-V3) x 13.2 / 64.4 V14+(V12-V14) x 51.2 / 64.4 0CH V3+(V1-V3) x 10.4 / 64.4 V14+(V12-V14) x 54 / 64.4 0DH V3+(V1-V3) x 7.6 / 64.4 V14+(V12-V14) x 56.8 / 64.4 0EH V3+(V1-V3) x 4.8 / 64.4 V14+(V12-V14) x 59.6 / 64.4 0FH V3+(V1-V3) x 2.4 / 64.4 V14+(V12-V14) x 62 / 64.4 10H V3 V12 11H V4+(V3-V4) x 19.6 / 22 V12+(V11-V12) x 2.4 / 22 12H V4+(V3-V4) x 17.6 / 22 V12+(V11-V12) x 4.4 / 22 13H V4+(V3-V4) x 15.6 / 22 V12+(V11-V12) x 6.4 / 22 14H V4+(V3-V4) x 13.6 / 22 V12+(V11-V12) x 8.4 / 22 15H V4+(V3-V4) x 12 / 22 V12+(V11-V12) x 10 / 22 16H V4+(V3-V4) x 10.4 / 22 V12+(V11-V12) x 11.6 / 22 17H V4+(V3-V4) x 8.8 / 22 V12+(V11-V12) x 13.2 / 22 18H V4+(V3-V4) x 7.6 / 22 V12+(V11-V12) x 14.4 / 22 19H V4+(V3-V4) x 6.4 / 22 V12+(V11-V12) x 15.6 / 22 1AH V4+(V3-V4) x 5.2 / 22 V12+(V11-V12) x 16.8 / 22 1BH V4+(V3-V4) x 4 / 22 V12+(V11-V12) x 18 / 22 1CH V4+(V3-V4) x 3.2 / 22 V12+(V11-V12) x 18.8 / 22 1DH V4+(V3-V4) x 2.4 / 22 V12+(V11-V12) x 19.6 / 22 1EH V4+(V3-V4) x 1.6 / 22 V12+(V11-V12) x 20.4 / 22 1FH V4+(V3-V4) x 0.8 / 22 V12+(V11-V12) x 21.2 / 22
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PM102WX1
Output Voltage to Panel V.S. Input Data (continued) Data 20H 21H 22H 23H 24H 25H 26H 27H 28H 29H 2AH 2BH 2CH 2DH 2EH 2FH 30H 31H 32H 33H 34H 35H 36H 37H 38H 39H 3AH 3BH 3CH 3DH 3EH 3FH Positive polarity Output Voltage Negative polarity Output Voltage V4 V11 V5+(V4-V5) x 12 / 12.8 V11+(V10-V11) x 0.8 / 12.8 V5+(V4-V5) x 11.2 / 12.8 V11+(V10-V11) x 1.6 / 12.8 V5+(V4-V5) x 10.4 / 12.8 V11+(V10-V11) x 2.4 / 12.8 V5+(V4-V5) x 9.6 / 12.8 V11+(V10-V11) x 3.2 / 12.8 V5+(V4-V5) x 8.8 / 12.8 V11+(V10-V11) x 4 / 12.8 V5+(V4-V5) x 8 / 12.8 V11+(V10-V11) x 4.8 / 12.8 V5+(V4-V5) x 7.2 / 12.8 V11+(V10-V11) x 5.6 / 12.8 V5+(V4-V5) x 6.4 / 12.8 V11+(V10-V11) x 6.4 / 12.8 V5+(V4-V5) x 5.6 / 12.8 V11+(V10-V11) x 7.2 / 12.8 V5+(V4-V5) x 4.8 / 12.8 V11+(V10-V11) x 8 / 12.8 V5+(V4-V5) x 4 / 12.8 V11+(V10-V11) x 8.8 / 12.8 V5+(V4-V5) x 3.2 / 12.8 V11+(V10-V11) x 9.6 / 12.8 V5+(V4-V5) x 2.4 / 12.8 V11+(V10-V11) x 10.4 / 12.8 V5+(V4-V5) x 1.6 / 12.8 V11+(V10-V11) x 11.2 / 12.8 V5+(V4-V5) x 0.8 / 12.8 V11+(V10-V11) x 12 / 12.8 V5 V10 V7+(V5-V7) x 26.8 / 27.6 V10+(V8-V10) x 0.8 / 27.6 V7+(V5-V7) x 26 / 27.6 V10+(V8-V10) x 1.6 / 27.6 V7+(V5-V7) x 25.2 / 27.6 V10+(V8-V10) x 2.4 / 27.6 V7+(V5-V7) x 24.4 / 27.6 V10+(V8-V10) x 3.2 / 27.6 V7+(V5-V7) x 23.6 / 27.6 V10+(V8-V10) x 4 / 27.6 V7+(V5-V7) x 22.4 / 27.6 V10+(V8-V10) x 5.2 / 27.6 V7+(V5-V7) x 21.2 / 27.6 V10+(V8-V10) x 6.4 / 27.6 V7+(V5-V7) x 20 / 27.6 V10+(V8-V10) x 7.6 / 27.6 V7+(V5-V7) x 18.4 / 27.6 V10+(V8-V10) x 9.2 / 27.6 V7+(V5-V7) x 16.8 / 27.6 V10+(V8-V10) x 10.8 / 27.6 V7+(V5-V7) x 14.8 / 27.6 V10+(V8-V10) x 12.8 / 27.6 V7+(V5-V7) x 12.8 / 27.6 V10+(V8-V10) x 14.8 / 27.6 V7+(V5-V7) x 10.4 / 27.6 V10+(V8-V10) x 17.2 / 27.6 V7+(V5-V7) x 6.4 / 27.6 V10+(V8-V10) x 21.2 / 27.6 V7 V8
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PM102WX1
3) Typical Application Circuit (When VDD2 = +8.8V)
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PM102WX1
5-2) Backlight driving
Connector type: JST BHR-02VS-1, PIN No 2 pins, pitch=3.5mm
Pin No 1 2 Symbol VL1 VL2 Description Input terminal (Hi voltage side) Input terminal (Low voltage side) Remark Wire color : Pink Wire color : White Note 5-11
Note 5-11: Low voltage side of backlight inverter connects with ground of inverter circuits.
6.Absolute Maximum Ratings:
Parameters Symbol VDD1 VCC VDD2 VGG VGG-VEE VEE VIN VL FL TST TOP MIN. -0.3 -0.5 -0.3 -20 -0.5 0 -30 -20
VSS1=VSS2=GND=0V, Ta=25
MAX. 5.0 12.0 40.0 40 0.3 VCC+0.5 2000 100 80 80 Unit V V V V V V V V KHz Remark
Supply Voltage
Digital Input Backlight Driving Voltage Backlight Driving Frequency Storage Temperature Operating Temperature
7.Electrical Characteristics
7-1) Recommended Operating Conditions: Item Supply Voltage for Source Driver Supply Voltage for Gate Driver Symbol Min. VDD1 3.0 VDD2 8.2 VGG VEE VCC 3.0 VIH 0.8VDD1 VIL 0
VSS1=VSS2=GND=0V, Ta=25
Typ. 3.3 8.8 16 -9 3.3 Max. Unit 3.6 V 9.2 V V V 3.6 V VDD1 V 0.2VDD1 V Remark
Digital Input Voltage
7-2) Recommended Driving Condition for Back Light Parameter Symbol Min. Typ. Max. Lamp Voltage VL 711 790 869 Lamp Current IL 4 6 8 Lamp Frequency PL 30 60 80 Starting Voltage (25) (Reference Value) Starting Voltage (0) (Reference Value) Vs Vs -
Unit V mA KHz Vrms Vrms
Ta=25 Remark IL=6mA Note 7-1 Note 7-2 Note 7-3 Note 7-3
-
1270 1650
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PM102WX1
Note 7-1: In order to have proper operation of the B/L, no matter what kind of inverters, the output lamp current must be between Min. and Max. values to avoid the abnormal display image caused by B/L. Note 7-2: The waveform of lamp driving voltage should be as close to a perfect sine wave as possible. Note 7-3: This value is not the output voltage of inverter. The voltage of inverter must be larger than the starting voltage. The kick-off time must larger than 1 second. 7-3) Power Consumption Parameter Supply Current for Gate Driver (Hi level) Supply Current for Gate Driver (Low level) Supply Current for Source Driver (Digital) Supply Current for Source Driver (Analog) Supply Current for Gate Driver (Digital) LCD Panel Power Consumption Back Light Lamp Power Consumption
Symbol IGG IEE IDD1 IDD2 ICC
Min. VGH=+27V VEE=-10V VDD1=+3.3V VDD2=+9.5V VCC=+3.3V
Typ. 0.37 2.67 6.0 32.5 0.012 381.5 4.74
Max. 0.56 4.0 10 48.8 0.017
Unit mA mA mA mA mA mW W
Remark
Note 7-4 Note 7-5
Note 7-4: The power consumption for back light is not included. Note 7-5: Back light lamp power consumption is calculated by ILxVL. 8. Pixel Arrangement The LCD module pixel arrangement is stripe configuration.
R G B R G B R G B 1 st Line R G B R G B 2 nd Line R G B 3 rd Line 1 st Pixel 1 Pixel = R G B
RGB RGB RGB 800 th Pixel
RGB
478 th Line 479 th Line 480 th Line
RGB RGB RGB
RGBRGB
RGBRGBRGB
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PM102WX1
9. Display Color and Gray Scale Reference Input Color Data Green 0 1 0 0 0 1 1 1 0 0 1 0 1 0 0 0 1 1 1 0 1 0 0 0 1 0 1 0 1 1 0 0 0 0 0 1 0 1 0 1 1 0 0 0 0 0 1 0 1 0 1 1 0 0 0 0 0 1 0 1 0 1 1 0 0 0 0 0 1 0 1 0 1 1 0 0 0 0 0 1 0 1 0 1 1 0 0 0 0 0 0 1 1 1 0 1 0 0 0 0 0 0 1 1 1 0 1 0 0 0 Color Black Red (63) Green (63) Blue (63) Cyan Magenta Yellow White Red (00) Red (01) Red (02) Darker Brighter Red (61) Red (62) Red (63) Green (00) Green (01) Green (02) Darker Brighter Green (61) Green (62) Green (63) Blue (00) Blue (01) Blue (02) Darker Brighter Blue (61) Blue (62) Blue (63) 0 1 0 0 0 1 1 1 0 0 0 0 1 0 0 0 1 1 1 0 0 0 Red 0 1 0 0 0 1 1 1 0 0 0 0 1 0 0 0 1 1 1 0 0 0 Blue 0 0 0 1 1 1 0 1 0 0 0 0 0 0 1 1 1 0 1 0 0 0 0 0 0 1 1 1 0 1 0 0 0 0 0 0 1 1 1 0 1 0 0 0
R5 R4 R3 R2 R1 R0 G5 G4 G3 G2 G1 G0 B5 B4 B3 B2 B1 B0
Basic Colors
Red
1 1 1 0 0 0 1 1 1 0 0 0 1 1 1 0 0 0 1 1 1 0 0 0 0 1 1 0 0 0 1 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Green
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 0 0 0 1 1 1 0 0 0 1 1 1 0 0 0 1 1 1 0 0 0 0 1 1 0 0 0 1 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 1 0
Blue
000000000000111101 000000000000111110 000000000000111111
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PM102WX1
10. Block Diagram 10-1) TFT-module Block Diagram
SYSTEM
User connector 30 pin Timing Controller (PVI-2002A) Video Control VDD1 VDD2 DC-DC Converter Gamma Generator Gamma Source Driver IC
FPC
10.2" WVGA TFT-LCD Panel
Vcom Generator
Vcom
VGG / VEE
Gate Driver IC
If you use PM102WX1, you can apply PVI-2002A(Timing controller) which will gernerate timing signals to support PM102WX1.
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PM102WX1
11. Interface Timing 11.1) Timing Parameters AC Electrical Characteristics (VCC=VDD1=3.3V, VDD2=9.5V, GND=VSS1=VSS2=0V, Ta=25) Parameter CLK Frequency CLK Pulse Width Data Set-up Time Data Hold Time Propagation Delay of DIO2/1 Time That The Last Data to LD Pulse width of LD Time That LD to DIO1/2 POL Set-up Time POL Hold Time OE Pulse Width CKV Pulse Width STV Set-up Time STV Hold Time Horizontal Display Period Horizontal Period Timing Range Horizontal Lines Per Field Vertical Display Timing Range Symbol Fclk Tcw Tsu Thd Tphl Tld Twld Tlds Tpsu Tphd TOEV TCKV TSUV THDV THDP THP TV TDV Min. 25 4 2 6 1 2 5 6 6 1 500 400 400 484 Typ. 32 10 800 1056 508 480 Max. 40 15 620 Unit MHz ns ns ns ns Tcw Tcw Tcw ns ns s ns ns ns Tcw Tcw THP THP
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PM102WX1
11.2) Timing Diagram
800
data
70%
Last
Tphl
799
70%
Tphl
70%
30%
70%
70%
Tsu
70%
Tsu
Thd
70%
70%
First data
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(Output)
DIO1/2
(Input)
DIO1/2
CLK
REV
Data
Fig. 11-1 Harizontal Timing(1)
Tcw
Thd
1
Second data
70%
2
PM102WX1
30%
Positive
Tst High-z
Tpsu Tphd
70%
70%
Negative
70%
Tlds
Last
Thd
30%
Tpsu Tphd
70%
DIO 1/2 (Input)
70%
70%
Odd outputs
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Even outputs
CLK
LD
POL
LD
High-z
Fig. 11-2 Horizontal timing(2)
30%
70%
Tphd
70%
Twld
70%
Tpsu
70%
High-z
PM102WX1
50%
STVU/STVD
50%
TSUV
CKV
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OE
Fig. 11-3 Vertical shift clock timing
THDV
TCKV
TOEV
PM102WX1
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POL(Odd Field)
POL(Even Field)
STVU/STVD
(HSY)
(VSY)
Fig. 11-4 Vertical timing
THDP
THP
PM102WX1
12. Power On Sequence
VGG
VDD2 VDD1,VCC
VSS(0V)
VEE
OFF
ON
OFF
T1 T2
Logic signal RGB-Video signal
T3 T4
1. 10msT1T2 2. 0msT3T410ms 13. Optical Characteristics
13-1) Specification: Parameter Symbol Horizontal (to 12 Viewing o'clock) Angle Vertical (to 6 o'clock) Contrast Ratio Response time Rise Fall CR Tr Tf U x y =0 Condition MIN. 55 50 35 TYP. 60 55 40 MAX. 30 50 0.34 0.37 3.5 Ta=25 Unit Remarks deg Note 13-1 deg deg ms ms cd/ % % Note 13-2 Note 13-3 Note 13-4 Note 13-5
CR10
At optimized viewing angle
=0 =0/=0
200
350 75 0.28 0.31 -
400
15 25 400 80 0.31 0.34 -
Brightness Luminance Uniformity White Chromaticity Cross Talk
Note 13-6
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PM102WX1
Note 13-1: The definitions of viewing angles are as follow
Lamp connector
6 o'clock
9 o'clock
3 o'clock
12 o'clock
Note 13-2: The definition of contrast ratio CR =
Luminance at gray level 63 Luminance at gray level 0
Note 13-3: Definition of Response Time Tr and Tf:
White 100% 90% Brightness 10% 0% Tr
Black
White
Tf
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PM102WX1
Note 13-4: All optical measurements shall be performed after backlight being turned-on for 30 mins. The optical characteristics shall be measured in dark room (ambient illumination on panel surface less than 1 Lux). The measuring configuration shows as following figure.
Photometer (TOPCON BM-5A or BM-7 fast)
Note 13-5: The uniformity of LCD is defined as U= The Minimum Brightness of the 9 testing Points The Maximum Brightness of the 9 testing Points Luminance meter: BM-5A or BM-7 fast (TOPCON) Measurement distance: 500 mm +/- 50 mm Ambient illumination: < 1 Lux Measuring direction: Perpendicular to the surface of module The test pattern is white (Gray Level 63).
1 2 3
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500 mm +/- 50 mm
4 5 7 8
Field = 1 TFT-LCD module
DC/AC Inverter Optical characteristics measuring configuration
6
9
PM102WX1
Note 13-6: Cross Talk (CTK) = YA-YB YA x100%
YA: Brightness of Pattern A YB: Brightness of Pattern B Luminance meter: BM-5A or BM-7 fast (TOPCON) Measurement distance: 500 mm +/- 50 mm Ambient illumination: < 1 Lux Measuring direction: Perpendicular to the surface of module
Pattern A (Gray Level 31) YA 1/3 1/3 1/3 1/3
Pattern B (Gray Level 31, except the black box in the center ) YB
1/3
1/3 Black (Gray Level 0)
: Measuring Point (A and B are at the same point.)
Note 13-7: Topcon BM-5A or BM-7 fast luminance meter 1 field of view is used in the testing (after 30 minutes' B/L power-on). The typical luminance value is measured at lamp current 6 mA.
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PM102WX1
14. Handling Cautions
14-1) Mounting of module a) Please power off the module when you connect the input/output connector. b) Please connect the ground pattern of the inverter circuit surely. If the connection is not perfect, some following problems may happen possibly. 1.The noise from the backlight unit will increase. 2.The output from inverter circuit will be unstable. 3.In some cases a part of module will heat. c) Polarizer which is made of soft material and susceptible to flaw must be handled carefully. d) Protective film (Laminator) is applied on surface to protect it against scratches and dirts. It is recommended to peel off the laminator before use and taking care of static electricity. 14-2) Precautions in mounting a) When metal part of the TFT-LCD module (shielding lid and rear case) is soiled, wipe it with soft dry cloth. b) Wipe off water drops or finger grease immediately. Long contact with water may cause discoloration or spots. c) TFT-LCD module uses glass which breaks or cracks easily if dropped or bumped on hard surface. Please handle with care. d) Since CMOS LSI is used in the module. So take care of static electricity and earth yourself when handling. 14-3) Adjusting module a) Adjusting volumes on the rear face of the module have been set optimally before shipment. b) Therefore, do not change any adjusted values. If adjusted values are changed, the specifications described may not be satisfied. 14-4) Others a) Do not expose the module to direct sunlight or intensive ultraviolet rays for many hours. b) Store the module at a room temperature place. c) The voltage of beginning electric discharge may over the normal voltage because of leakage current from approach conductor by to draw lump read lead line around. d) If LCD panel breaks, it is possibly that the liquid crystal escapes from the panel. Avoid putting it into eyes or mouth. When liquid crystal sticks on hands, clothes or feet. Wash it out immediately with soap. e) Observe all other precautionary requirements in handling general electronic components. f) Please adjust the voltage of common electrode as material of attachment by 1 module. 14-5) Polarizer mark The polarizer mark is to describe the direction of wide view angle film how to match up with the rubbing direction.
The information contained herein is the exclusive property of Prime View International Co., Ltd. and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Prime View International Co., Ltd. Page:25
PM102WX1
15. Reliability Test
No Test Item Test Condition Ta = +80, 240 hrs Ta = -30, 240 hrs Ta = +80, 240 hrs Ta = -20, 240 hrs (No Condensation) 0 +60, 50 Cycles 1Hr 1Hr Frequency10 ~ 57 HZ , Amplitude0.5 mm 58~500Hz, 1G Sweep time: 11 min Test Period: 3 hrs (1 hr for each direction of X, Y, Z) 80G, 6ms, X,Y, Z 1 times for each direction Remark
1 High Temperature Storage Test 2 Low Temperature Storage Test 3 High Temperature Operation Test 4 Low Temperature Operation Test 5 6 Operation Test Thermal Cycling Test (non-operating) Vibration Test (non-operating) Shock Test (non-operating) Electrostatic Discharge Test (non-operating)
High Temperature & High Humidity Ta = +60, 90%RH, 240 hrs
7
8
9
200pF, 0 200V 1 time / each terminal
Ta: ambient temperature Note: The protective film must be removed before temperature test [Judgement Criteria] Under the display quality test conditions with normal operation state, there should be no change which may affect practical display function.
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PM102WX1
16. Packing Diagram
The information contained herein is the exclusive property of Prime View International Co., Ltd. and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Prime View International Co., Ltd. Page:27
PM102WX1 Revision History
Rev. Issued Date Revised Contents
0.1 0.2 0.3
0.4 0.5
Jul. 21,2004 New Aug. 13, 2004 Page 16: Modify Interface Timing Dec.28,2004 Updata Page12: 7-2) Recommended Driving Condition for Back Light Page 13:7-3) Power Consumption Page 22:13-1) Specification Jun.31,2005 Page4: 4.Mechanical Drawing of TFT-LCD Module (Change ground line form 45mm increase length to 100mm) Fab.16,2005 Updata Page 21: 13. Optical Characteristics Luminance Uniformity Page 27: 16. Packing Diagram
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