PA080XS1
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
Version : 0.2
TECHNICAL SPECIFICATION
MODEL NO. : PA080XS1
Customer’s Confirmation
Customer
Date
By PVI’s Confirmation
Confirmed By
Prepared By
FOR MORE INFORMATION:
AZ DISPLAYS, INC.
75 COLUMBIA, ALISO VIEJO, CA, 92656
http://www.AZDISPLAYS.com
Date : Mar.22,2005
This technical specification is subject to change without notice.
Please return 1 copy with your signature on this page for approval.
PA080XS1
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:2
TECHNICAL SPECIFICATION
CONTENTS
NO. ITEM PAGE
- Cover 1
- Contents 2
1 Application 3
2 Features 3
3 Mechanical Specifications 3
4 Mechanical Drawing of TFT-LCD module 4
5 Input / Output Terminals 5
6 Pixel Arrangement and input connector pin NO. 6
7 Absolute Maximum Ratings 6
8 Electrical Characteristics 7
9 Power Sequence 17
10 Optical Characteristics 17
11 Handling Cautions 21
12 Reliability Test 22
13 Block Diagram 23
14 Packing 24
- Revision History 25
PA080XS1
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:3
1. Application
This technical specification applies to 8” color TFT-LCD module, PA080XS1. The applications
of the panel are car TV, portable DVD, GPS, multimedia applications and others AV system.
2. Features
. Pixel in stripe configuration
. Slim and compact
. High Brightness
. Image ReversionUp/Down and Left/Right
. Column inversion driving
3. Mechanical Specifications
Parameter Specifications Unit
Screen Size 8(diagonal) Inch
Display Format 1440×468 dot
Active Area 161.28 (H)×117.94 (V) mm
Dot Pitch 0.112(H)×0.252(V) mm
Pixel Configuration Stripe
Outline Dimension 172.4(W)× 131.99(H)× 6.64(D)(typ.) mm
Surface Treatment Anti-Glare
Weight TBD g
PA080XS1
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:4
4. Mechanical Drawing of TFT-LCD Module
PA080XS1
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:5
5. Input / Output Terminals
LCD Module Connector
FPC Down Connect , 32 Pins , Pitch : 0.5 mm
Pin No Symbol I/O Description Remark
1 STH2 I/O Start pulse for source driver Note 5-2
2 OEH I Output enable for source driver
3 POL I P0larity control for column inversion
4 MOD I Simultaneous/sequential mode select
5 R/L I Left / Right Control for source driver Note 5-2
6 VDD1 - Supply voltage of logic circuit for source driver
7 CPH3 I Sample and shift clock for source driver
8 CPH2 I Sample and shift clock for source driver
9 CPH1 I Sample and shift clock for source driver
10 VSS1 - Ground of logic circuit for source driver
11 VDD2 - Supply voltage of analog circuit for source driver
12 VB- I Video input B for negative polarity
13 VG- I Video input G for negative polarity
14 VR- I Video input R for negative polarity
15 VSS2 - Ground for analog circuit for source driver
16 VB+ I Video input B for positive polarity
17 VG+ I Video input G for positive polarity
18 VR+ I Video input R for positive polarity
19 VSS2 - Ground for analog circuit for source driver
20 STH1 I/O Start pulse for source driver Note 5-2
21 VCOM I Voltage for common electrode
22 OE1 I Output enable for gate driver
23 OE2 I Output enable for gate driver
24 OE3 I Output enable for gate driver
25 U/D I Up / Down Control for gate driver Note 5-1
26 CKV I Shift clock for gate driver
27 STVD I/O Vertical start pulse Note 5-1
28 STVU I/O Vertical start pulse Note 5-3
29 VCC - Power supply for gate driver circuit
30 VEE - Negative power gate driver Note 5-4
31 VGH - Positive power gate driver Note 5-5
32 GND - Ground for gate driver
Note 5-1
U/D STVD STVU scanning direction
Vcc Input output up todown
GND Output input down to up
Note 5-2
R/L STH1 STH2 scanning direction
Vcc input output left to right
GND output input right to left
The definitions of Note 5-1,5-2
PA080XS1
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:6
Note 5-3 : VCC TYP.+3.3V
Note 5-4 : VEE TYP.-10V
Note 5-5 : VGH TYP.+20V
Note 5-6 : VDD2 TYP.+12V
Note 5-7 : VDD1 TYP.+3.3V
6. Pixel Arrangement and input connector pin NO.
Line 1440Line 1
RBGRBG
RBGRBG
RBGRBG
RBGRBG
RBGRBG
RBGRBG
RBGRBG
RBGRBG
RBGRBG
RBGRBG
RBGRBG
RBGRBG
Gate driver
Row 1
Row 2
Row 3
Row 4
Row 467
Row 468
Input
FPC
Pin 32 Pin 1
Source driver
U/D(PIN 25)=High R/L(PIN 5)=High U/D(PIN 25)=LowR/L(PIN 5)=Low
PA080XS1
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:7
7. Absolute Maximum Ratings
The followings are maximum values , which if exceeded, may cause faulty operation or
damage to the unit.
Parameter Symbol MIN. MAX. Unit Remark
VDD2 +9.0 +13.5 V
Supply Voltage For Source Driver VDD1 -0.3 +7.0 V
V
CC -0.3 +6.0 V
V
GH-VEE -0.3 +40.0 V
H Level VGH -0.3 +25.0 V
Supply Voltage For Gate Driver
L Level VEE -16
+0.3 V
VR+,VG+,VB+ +4 +11 V
Analog Signal Input Level VR-,VG-,VB- 0 5.5 V Note 7-1
Storage Temperature -30 +80
Operation Temperature -20 +70 Note 7-2
Notes 7-1 : Analog Input Voltage means VR,VG,VB.
Notes 7-2 : Optical characteristics shown in Table 10-1 are measured under Ta=+25.
8. Electrical Characteristics
8-1) Recommended Driving condition for TFT-LCD panel
Parameter Sym
bol MIN. Typ. MAX. Unit Remark
Analog VDD2 +9 +10 +11 V
Supply Voltage For Source
Driver Lo
g
ic V
DD
1
+4.5 +5.0 +5.5 V
H level VGH +18 +20 +22 V
L level VEE DC -11 -10 -9 V
Supply Voltage For Gate Driver
Logic VCC +4.5 +5.0 +5.5 V
V+, AC - +4.0 - OP-P
VR+,VG+,VB+
(Analog video+) V+ ,DC 7.2 7.5 7.8 V
V- ,AC - +4.0- - OP-P
Analog Signal input Level VR-,VG-,VB-
(Analog video-) V- ,DC 2.2 2.5 2.8 V
H level VIH 0.7 - VDD1 V
Digital input voltage L level VIL -0.3 - 0.3 V
H level VOH 0.7 - VDD1 V
Digital output voltage L level V
O
L-0.3 - 0.3 V
Vcom VCOM
DC 4.5 5.0 5.5 V
DC Component
of VCOM Note 8-1
Note 8-1 : PVI strongly suggests that the VCOM DC level shall be adjustable , and the adjustable level
range is 5.0V±0.5V , every module’s VCOM DC level shall be carefully adjusted to show a best
image performance.
PA080XS1
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:8
8-2) Back Light driving (JST BHSR-02VS-1 ,Pin No.2)
Pin No Symbol Description Remark
1 VL1 Input terminal (Hi voltage side) Wire color: pink
2 VL2 Input terminal (Low voltage side) Wire color: white Note 8-2
Note 8-2 : Low voltage side of back light inverter connects with Ground of inverter circuits.
Recommended driving condition for back light Ta= 25
Parameter Symbol Min. Typ. Max. Unit Remark
Lamp voltage VL TBD TBD TBD Vrms
Lamp current IL TBD TBD TBD mA Note 8-3
Lamp frequency PL TBD TBD TBD KHz Note 8-4
Starting voltage(25)
(Reference Value) Vs TBD Vrms Note 8-5
Starting voltage(0)
(Reference Value) Vs TBD Vrms Note 8-5
Note 8-3 : In order to satisfy the quality of B/L , no matter use what kind of inverter , the output
lamp current must between Min. and Max. to avoid the abnormal display image caused
by B/L.
Note 8-4 : The waveform of lamp driving voltage should be as closed to a perfect sine wave as
possible.
Note 8-5 : This value is not output voltage of inverter.
The voltage of inverter must larger than the starting voltage.
The kick-off time must larger than 1 second.
8-3) Power Consumption Ta= 25
Parameter Symbol Conditions TYP. MAX Unit Remark
Supply current for Gate Driver (Hi level) IGH VGH +20V TBD TBD mA
Supply current for Gate Driver (Low level) IEE VEE -10V TBD TBD mA
Supply current for Source Driver(Digital) IDD1 VDD1 +3.3V TBD TBD mA
Supply current for Source Driver(Analog) IDD2 VDD2 +12V TBD TBD mA
Supply current for Gate Driver (Digital) ICC VCC +3.3V TBD TBD mA
LCD Panel Power Consumption
TBD
TBD
mW Note 8-6
Back Light Lamp Power Consumption TBD W Note 8-7
Note 8-6 : The power consumption for back light is not included.
Note 8-7 : Back light lamp power consumption is calculated by IL×VL.
PA080XS1
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:9
8-4) Timing Characteristics Of Input Signals
Characteristics Symbol Min. Typ. Max. Unit
Remark
Rising time tr - - 10 ns
Falling time tf - - 10 ns
High and low level pulse width tCPH 9.2 9.6 10.0 MHz CPH1~CPH3
CPH pulse duty tCWH 30 50 70 % CPH1~CPH3
STH setup time tSUH 20 - - ns STH1,STH2
STH hold time tHDH 20 - - ns STH1,STH2
STH pulse width tSTH - 1 - tCPH STH1,STH2
STH period tH 61.5 63.5 65.5
μs STH1,STH2
OEH pulse width tOEH - 1.40 - μs OEH
Sample and hold disable time tDIS1 - 7.43 - μs
OEV pulse width tOEV - 18 - μs OEV
CKV pulse width tCKV - 31.75 - μs CKV
Clean enable time tDIS2 - 9.0 - μs
Horizontal display start tSH - 0 - tCPH/3
Horizontal display timing range tDH - 480 - tCPH
STV setup time tSUV 400 - - Ns STVD,STVU
STV hold time tHDV 400 - - Ns STVD,STVU
STV pulse width tSTV - - 1 tH STVD,STVU
Horizontal lines per field tV 256 262 268 tH
Vertical display start tSV 3 - tH
Vertical display timing range tDV 234 - tH
PA080XS1
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:10
8-5) Signal Timing Waveforms
trtf
10%
90%
10%
90%
tSUH tHDH
tSTH
tCPH
tCWH
50%50%
STHL(R)
CPH1
CPH2
(L)
CPH3
(L)
F
i
g
.
8
-
1
S
a
m
p
l
i
n
g
c
l
o
c
k
t
i
m
i
n
g
PA080XS1
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:11
Input
(STHL/STHR)
Output
(STHR/STHL)
CPH1
tDH
Fig. 8-2 Horizontal display timing range
PA080XS1
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:12
Fig. 8-3 (a) Horizontal timing
1H
tH
(HSY)
OEH
STHL(R)
OE 1,2,3
CKV
PA080XS1
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:13
Note : The falling edge of OEV should be synchronized with the falling edge of OEH
Fig. 8-3 (b) Detail horizontal timing
tDIS2 tCKV
tOEV
tOEH
tDIS1 tSTH
1H
(HSY)
OEH
STHL(R)
OE 1,2,3
CKV
PA080XS1
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:14
V+ ,DC
White
Blamk
V+ ,AC
Positive
Analog video
1H
(HSY)
White
Black
Vcom DC
V- ,AC
V- ,DC
Negative
Analog video
Fig 8-3(c) Vcom &Analog video timing
Black
Blamk
PA080XS1
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:15
tSUV tHDV
tCKV
1H
STVU(D)
CKV
Fig. 8-4 Vertical shift clock timing
PA080XS1
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:16
Vertical timing
(HSY)
V(R,G,B+)
Fig. 8-5 (a) Vertical timing
V(R,G,B-)
(VSY)
STVU/STVD
tsv
Display on panel first line
Vcom
PA080XS1
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:17
9. Power on Sequence
The Power on Sequence only effect by VCC, VDD,VEE and VGH, the others do not care.
1) 10msT1<T2
2) 0ms<T3T410ms
10. Optical Characteristics
10-1) Specification Ta = 25
Parameter Symbol Condition MIN. TYP. MAX. Unit Remarks
Horizontal θ21,θ22 45 55 deg
θ12 10 15 deg
Viewing
Angle Vertical
θ11 CR10 30 35 deg
Note 10-1
Contrast Ratio CR At optimized
Viewing
angle 200 350
Note 10-2
Rise Tr 15 30 ms
Response time Fall Tf
θ=0° 25 50 ms
Note 10-4
Brightness TBD TBD cd/ Note 10-3
Uniformity U TBD TBD % Note 10-5
x TBD TBD TBD White
Chromaticity y θ=0° TBD TBD TBD Note 10-3
Lamp Life Time +25 TBD hrs
Note 10-1 : The definitions of viewing angles
V
SS
(0V)
V
GH
ON
OFF OFF
V
DD
,V
CC
V
EE
T1
T2
T3
T4
Logic signal
RGB-Video signal
PA080XS1
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:18
Luminance when Testing point is White
Note 10-2 : CR
Luminance when Testing point is Black
(Testing configuration see 10-2 )
Contrast Ratio is measured in optimum common electrode voltage.
Note 10-3 : 1. Topcon BM-7(fast) luminance meter 2°field of view is used in the testing (after
20~30 minutes operation).
0. Lamp current : 6 mA
0. Inverter model : TDK-347.
Note 10-4 : The definition of response time:
100%
90%
10%
0%
White White
Brightness
Black
T
r
T
f
PA080XS1
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:19
Note 10-5 : The uniformity of LCD is defined as
The Minimum Brightness of the 9 testing Points
U = 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).
1/6
1/6
2/6
2/6
1/6 1/62/6 2/6
PA080XS1
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:20
10-2) Testing configuration
LCD Display
R, G , B Wa veform o f P attern A at Te sting P oint
RGB signal level=4.0
Vp-p(white to black)
63.5us 63.5us
Vcom
R+,G+,B+
R-,G-,B-
R, G , B Wa veform o f P attern B at Te sting P oint
RGB signal level=4.0
Vp-p(white to black)
R+,G+,B+
Vcom
R-,G-,B-
63.5us 63.5us
500mm
BM-7(fast)
LCD
Backlight
R,G,B signal
Pattern
generator
input
Pattern A Patte rn B
Testing Point Testing Point
Ca u tio n : 1 . E n viro n m e n ta l illu m in a tio n 1 lux
2. B efore te st C R, V co m voltage m us t
be adjusted carefully to get the best
CR.
PA080XS1
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:21
11. Handling Cautions
11-1) 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 dirt. It is recommended to peel off the laminator before use and taking care
of static electricity.
11-2) 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.
11-3) 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
PA080XS1
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:22
12. Reliability Test
No Test Item Test Condition
1 High Temperature Storage Test Ta = +80, 240 hrs
2 Low Temperature Storage Test Ta = -30, 240 hrs
3 High Temperature Operation Test Ta = +70, 240 hrs
4 Low Temperature Operation Test Ta = -20, 240 hrs
5 High Temperature & High Humidity
Operation Test Ta = +60, 90%RH, 240 hrs
6 Thermal Cycling Test
(non-operating) -10℃→+70, 200 Cycles
30 min 30 min
7 Vibration Test
(non-operating)
Frequency10 ~ 55 HZ
Amplitude1 mm
Sweep time: 11 mins
Test Period: 6 Cycles for each direction of X, Y, Z
8 Shock Test
(non-operating)
100G, 6ms
Direction: ±X, ±Y, ±Z
Cycle: 3 times
9 Electrostatic Discharge Test
(non-operating)
200pF , 0Ω
±200V
1 time / each terminal
Ta: ambient temperature
Note: All about temperature test before must remove polarizers protective film.
[Criteria]
Under the display quality test conditions with normal operation state, there should be no change
which may affect practical display function.
PA080XS1
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:23
13.Block Diagram
LCD Panel
H Driver
(Source)
Back-light
32 PIN Input
Inverter
V Driver
(Gate)
PA080XS1
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:24
14 Packing
TBD
PA080XS1
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
Revision History
Rev. Issued Date Revised Contents
0.1 Nov 12,2004 NEW
0.2 Mar.22,2005 Modify
Page8: 8-3) Power Consumption