PE240128WRF-001-HQ VER.0 Page2
RECORDS OF REVISION
Date Rev. Description Page Design by
2006/04/19 0 MASS PRODUCTION --- PETER
Total:27 Page
PE240128WRF-001-HQ VER.0 Page3
Contents
1. SPECIFICATIONS
1.1 Features
1.2 Mechanical Specifications
1.3 Absolute Maximum Ratings
1.4 DC Electrical Characteristics
1.5 Optical Characteristics
1.6 Backlight Characteristics
2. MODULE STRUCTURE
2.1 Counter Drawing
2.2 Interface Pin Description
2.3 Timing Characteristics
2.4 Display Command
3. QUALITY ASSURANCE SYSTEM
3.1 Quality Assurance Flow Chart
3.2 Inspection Specification
4. RELIABILITY TEST
4.1 Reliability Test Condition
5. PRECAUTION RELATING PRODUCT HANDLING
5.1 Safety
5.2 Handling
5.3 Storage
5.4 Terms of Warranty
Appendix A:LCM Drawing
Appendix B:Package
Note : For detailed information please refer to IC data sheet : Sitronix --- ST7529-G
PE240128WRF-001-HQ VER.0 Page4
1. SPECIFICATIONS
1.1 Features
Item Standard Value
Display Type 240 * 128 Dots
LCD Type FSTN , Positive , Transflective
Driver Condition LCD Module : 1/160 Duty , 1/10 Bias
Viewing Direction 6 O’clock
Backlight Type LED B/L
Weight 50 g
Interface Support 8 Bit Parallel interface with 8080 or 6800 series MPU
& IIC serial interface
Driver IC SITRONIX - ST7529-G
1.2 Mechanical Specifications
Item Standard Value Unit
Outline Dimension 99.2 (L) * 64.2 (w) * 18.04 (H)(Max) mm
Viewing Area 93.0 (L) * 49.0 (w) mm
Active Area 82.775 (L) * 44.135 (w) mm
Dot Size 0.32 (L) * 0.32 (w) mm
Dot Pitch 0.345 (L) * 0.345 (w) mm
Note : For detailed information please refer to LCM drawing
1.3 Absolute Maximum Ratings
Item Symbol Condition Min. Max. Unit
Power Supply Voltage VDD - -0.5 5.0 V
LCD Driver Supply Voltage VLCD -VSS - -0.5 +22 V
Input Voltage VIN - -0.5 VDD + 0.5 V
Operating Temperature TOP - -20 70 °C
Storage Temperature TST - -30 80 °C
Storage Humidity HD Ta < 40 °C 20 90 %RH
PE240128WRF-001-HQ VER.0 Page5
1.4 DC Electrical Characteristics
VDD = 3.3 V ± 0.3 , VSS = 0 V , Ta = 25°C
Item Symbol Condition Min. Typ. Max. Unit
Logic Supply Voltage VDD - 3.0 3.3 3.6 V
High-level Input Voltage VIH - 0.7VDD - VDD V
Low-level Input Voltage VIL - VSS - 0.3VDD V
High-level Output Voltage VOH - - - - V
Low-level Input Voltage VOL - - - - V
Supply Current IDD V
DD = 3.3 V - 1.2 6.2
mA
VOP Vo – Vss (-20°C) 14.0 14.1 14.2 V
VOP Vo – Vss (25°C) *1 12.8 12.95 13.1 V
LCM Driver Voltage
VOP Vo – Vss (70°C) 11.7 11.8 11.9 V
NOTE:*1 The VOP test point is Vo – Vss.
NOTE:2 :Recommended Power Supply Combinations.
1.5 Optical Characteristics
LCD Panel: 1/160 Duty , 1/13 Bias , VLCD = 15.06 V Ta = 25°C
Item Symbol Conditions Min. Typ. Max. Reference
View Angle θ C>2.0 , ∅ = 270° -40° - +40° Note 1
Contrast Ratio CR θ = -5° , ∅ = 270° 2 2.8 - Note 3
Response Time(rise) Tr θ = -5° , ∅ = 270° - 135 ms 205 ms
Response Time(fall) Tf θ = -5° , ∅ = 270° - 300 ms 450 ms
Note 2
PE240128WRF-001-HQ VER.0 Page6
Note 1.
Optical characteristics-2
Viewing angle
Front (6H)
φ=270°
Rear (12H)
φ=90°
Right (3H)
φ=0°
Left (9H)
φ=180°
θL
Viewing angle
Top (θ=0°)
θ
R
θ-
θ+
PE240128WRF-001-HQ VER.0 Page7
Note 2.
Optical characteristics-3
Fig.2 Definition of response time
Positive Type
Selected waveform
N
o selected waveform
N
o selected waveform
100% 90%
10%
Tf
Tr
Transmittance
Negative Type
100% 90%
10%
Tf
Tr
N
o selected
Selected waveform
N
o selected waveform
Transmittance
PE240128WRF-001-HQ VER.0 Page8
Electrical characteristics-2
※2 Drive waveform
Vop: Drive voltage fF: Frame frequency
1/B: Bias fD: Drive frequency
N: Duty
(1) Selected waveform
(2) Non- Selected waveform
1
V
Vop/B
Vop/B
V
1/fF 1/fD
3
2
N
3
2
1
N
ote:
Frame frequency is defined as follows: Common side supply
voltage peak - to - peak /2 = 1 period
Vop/B
1/fF 1/fD
32
1
N32
1
(1-2/B)Vop
Vop/B
(1-2/B)Vop
PE240128WRF-001-HQ VER.0 Page9
Note 3. : Definition of Vth
Active voltage range
View direction
Drive waveform
Transmittance
※1 Contrast ratio
= (Brightness in OFF state) / (Brightness in ON state)
Outline of Electro-Optical Cha racteristics Measuring System
Measuring System: Autronic DMS-803
50% (No selected waveform)
73%
Vth2
40°
(Selected waveform)
Vth1
10°
Selected waveform
N
o selected waveform
DriveVth2
Vth1
Transmittanc
100
73%
50%
正讀
θ
ψ
Human
Photo Detecto
r
LC D Pan el Transmissive
Temperatur
e Control
Chamber
Active
PE240128WRF-001-HQ VER.0 Page10
1.6 Backlight Characteristics
LCD Module with LED Backlight
Maximum Ratings
Item Symbol Conditions Min. Max. Unit
Forward Current IF Ta =25℃ - 180 mA
Reverse Voltage VR Ta =25℃ - 5 V
Power Dissipation PO Ta = 2 5 ℃ - 0.61 W
Electrical / Optical Characteristics
Ta =25℃
Item Symbol Conditions Min. Typ. Max. Unit
Forward Voltage VF IF= 80 mA - 3.3 3.4 V
Reverse Current IR VR= 5V - - 60 uA
X 0.29 0.32 0.35
CIE Color Coordinate
(With LCD) Y
IF= 80 mA
0.35 0.38 0.41
-
Average Brightness
(with LCD) *1 IV IF= 80 mA 30 50 - cd/m2
Uniformity
(With LCD)*2 △B IF= 80 mA 70 - - %
Color White
*1 This value will be changed while mass production.
*2:△B=B(min) / B(max)
PE240128WRF-001-HQ VER.0 Page11
2. MODULE STRUCTURE
2.1 Counter Drawing
2.1.1 LCM Mechanical Diagram
* See Appendix
2.1.2 Block Diagram
LED BACKLIGHT
240 * 128 DO T S
LCD PANEL
IC-ST7529
Please refer interface pin description for detail
PIN1
PIN34 …………………………
A
K
COM0
COM63
………
COM127
…
COM64
SEG0 SEG239
…………………………
SEG0
SEG239 …………………………
COM0
COM63
………
COM143
………
COM80
PE240128WRF-001-HQ VER.0 Page12
2.2 Interface Pin Description
Pin No. Symbol Function
1 A0
Register select input pin
− A0 = "H": DB0 to DB8 or SI are display data
− A0 = "L": DB0 to DB8 or SI are control data
2 RW_WR
Read / Write execution control pin
MPU Type RW_WR Description
6800 RW Read / Write control input pin
RW = “H” : read
RW = “L” : write
8080 /WR Write enable clock input pin
The data on DB0 to DB8 are latched at the
rising edge of the /WR signal.
3 DB0
4 DB1
5 DB2
6 DB3
They connect to the standard 8-bit MPU bus via the 8 bit bi-directional bus.When
the following interface is selected and the XCS pin is high, the following pins
become highimpedance, which should be fixed to VDD or VSS.
7 DB4
8 DB5
9 DB6
10 DB7
In IIC Interface
D7: SCL; D6: SI ; D0, D1: SA1, SA0
D3, D2: Acknowledgement
D4, D5, D8 should be fixed to VDD or VSS.
11 E_RD
Read / Write execution control pin
MPU Type RW_WR Description
6800 E Read / Write control input pin
-RW = “H”: When E is “H”, DB0 to DB8 are
in an output status.
-RW = “L”: The data on DB0 to DB8 are
latched at the falling edge of the E signal.
8080 /RD Read enable clock input pin
When /RD is “L”, DB0 to DB8 are in an
output status.
12 RST Reset input pin. When RST is “L”, initialization is executed.
PE240128WRF-001-HQ VER.0 Page13
Pin No. Symbol Function
13 IF1
14 IF3
IF1 IF3
MPU interface type
H L 80 series 8-bit parallel
L H 68 series 8-bit parallel
L L IIC
15 XCS
Chip select input pins
Data/instruction I/O is enabled only when XCS is "L". When chip select is
non-active, DB0 to DB8 may be high impedance.
16 VSS Power supply (VSS=0)
17 VDD Power supply (VDD=3.3V)
18 CAP7P DC / DC voltage converter. Connect a capacitor between this terminal and
the CAP7P terminal.
19 CAP1N DC / DC voltage converter. Connect a capacitor between this terminal and
the CAP1N terminal.
20 CAP5P DC / DC voltage converter. Connect a capacitor between this terminal and
the CAP5P terminal.
21 CAP3P DC / DC voltage converter. Connect a capacitor between this terminal and
the CAP3P terminal.
22 CAP1N DC / DC voltage converter. Connect a capacitor between this terminal and
the CAP1N terminal.
23 CAP1P DC / DC voltage converter. Connect a capacitor between this terminal and
the CAP1P terminal.
24 CAP2P DC / DC voltage converter. Connect a capacitor between this terminal and
the CAP2P terminal.
25 CAP2N DC / DC voltage converter. Connect a capacitor between this terminal and
the CAP2N terminal.
26 CAP4P DC / DC voltage converter. Connect a capacitor between this terminal and
the CAP4P terminal.
27 CAP2N DC / DC voltage converter. Connect a capacitor between this terminal and
the CAP2N terminal.
28 CAP6P DC / DC voltage converter. Connect a capacitor between this terminal and
the CAP6P terminal.
29 VLCD LCD supply voltage
PE240128WRF-001-HQ VER.0 Page14
Pin No. Symbol Function
30 V4
31 V3
32 V2
33 V1
34 V0
LCD driver supply voltages
V0In & V0out should be connected together in FPC area.
Voltages should have the following relationship:
V0 ≧ V1 ≧ V2 ≧ V3 ≧ V4 ≧ VSS
When the internal power circuit is active, these voltages are generated as the
following table according to the state of LCD bias.
LCD Bias V1 V2 V3 V4
1/N Bias (N-1) / N x V0 (N-2) / N x V0 (2/N) x V0 (1/N) x V0
NOTE: N = 5 to 14
PE240128WRF-001-HQ VER.0 Page15
2.3 Timing Characteristics
For the 8080 Series MPU
VDD = 3.3V , Ta = 25ºC
Rating
Item Signal Symbol Condition Min Max Units
Address hold time tAH8 - 20 -
Address setup time tAW8 - 20 -
System cycle time
A0
tCYC8 - 200 -
Enable L pulse width (Write) tCCLW - 100 -
Enable H pulse width (Write) RW_WR tCCHW - 100 -
Enable L pulse width (Read) tCCLR - 100 -
Enable H pulse width (Read) E_RD tCCHR - 100 -
WRITE Data setup time tDS8 - 150 -
WRITE Address hold time tDH8 - 20 -
READ access time tACC8 C
L=100pF - 40
READ Output disable time
DB0 to DB7
tOH8 C
L=100pF - 30
ns
PE240128WRF-001-HQ VER.0 Page16
For the 6800 Series MPU
VDD = 3.3V , Ta = 25ºC
Rating
Item Signal Symbol Condition Min Max Units
Address hold time tAH6 - 20 -
Address setup time tAW6 - 20 -
System cycle time
A0
tCYC6 - 200 -
Enable L pulse width (Write) tEWLW - 100 -
Enable H pulse width (Write) RW_WR tEWHW - 100 -
Enable L pulse width (Read) tEWLR - 100 -
Enable H pulse width (Read) E_RD tEWHR - 100 -
WRITE Data setup time tDS6 - 150 -
WRITE Address hold time tDH6 - 20 -
READ access time tACC6 C
L=100pF - 40
READ Output disable time
DB0 to DB7
tOH6 C
L=100pF - 30
ns
PE240128WRF-001-HQ VER.0 Page17
Reset Timing
VDD = 3.3V , Ta = 25ºC
Rating
Item Signal Symbol Condition
Min Typ Max
Units
Reset time - tR - - 1 µs
Reset “L” pulse width RES tRW - 1 - - µs
PE240128WRF-001-HQ VER.0 Page18
2.4 Display Command
PE240128WRF-001-HQ VER.0 Page19
PE240128WRF-001-HQ VER.0 Page20
3. QUALITY ASSURANCE SYSTEM
3.1 Quality Assurance Flow Chart
Item Customer Sales R&D Q.A Manufactu
ring
Product
control Purchase Inventory
control
Marketing
&
Design
Sample
Approval
Pilot
Run
&
Mass
Product
Ship
Out
OK
Request
Info Survey
Inquiry Project evaluation
Project Validatio
n
Quote OK
N
G
Contract
Design chec
k
Sample test
Verificatio
n
Sam
p
le a
pp
roval
N
G
N
G
Pilot run & Reliabilit
y
test
Verificatio
n
S
p
ecification
p
re
p
aration
OK
Mass
p
roduction
Ins
p
ection
N
G
OK
Shi
p
ment
N
G
Shi
p
ou
t
OK
PE240128WRF-001-HQ VER.0 Page21
Item Customer Sales R&D Q.A Manufact
uring
Product
control Purchase Inventory
control
Sales
Service
Q.A
Activity
1. ISO 9001 Maintenance Activities 2. Process improvement proposal
3. Equipment calibration 4. Education And Training Activities
5. Standardization Management
Info Clai
m
Failure anal
y
sis
Corrective action
Trackin
g
Anal
y
sis re
p
ort
PE240128WRF-001-HQ VER.0 Page22
3.2 Inspection Specification
Inspection Standard : MIL-STD-105E Table Normal Inspection Single Sampling Level II
Equipment : Gauge , MIL-STD , Powertip Tester , Sample
IQC Defect Level : Major Defect AQL 0.4; Minor Defect AQL 1.5
FQC Defect Level : 100% Inspection
OUT Going Defect Level : Sampling
Specification :
NO Item Specification Judge Level
1 Part Number
The part number is inconsistent with work order of
production N.G. Major
2 Quantity
The quantity is inconsistent with work order of
production N.G. Major
The display lacks of some patterns. N.G. Major
Missing line. N.G. Major
The size of missing dot, A is > 1/2 Dot size N.G. Major
There is no function. N.G. Major
3
Electronic
characteristics of
LCM
A=( L + W ) ╱2 Output data is error N.G. Major
Material is different with work order of production N.G. Major
LCD is assembled in inverse direction N.G. Major
Bezel is assembled in inverse direction N.G. Major
Shadow is within LCD viewing area + 0.5 mm N.G. Major
The diameter of dirty particle, A is > 0.4 mm N.G. Minor
Dirty particle length is > 3.0mm, and 0.01mm < width
≤ 0.05mm N.G. Minor
Display is without protective film N.G. Minor
Conductive rubber is over bezel 1mm N.G. Minor
Polarizer exceeds over viewing area of LCD N.G. Minor
Area of bubble in polarizer, A > 1.0mm, the number
of bubble is > 1 piece. N.G. Minor
4
Appearance of
LCD
A=( L + W ) ╱ 2
Dirty particle
(Including
scratch、bubble )
0.4mm < Area of bubble in polarizer, A < 1.0mm, the
number of bubble is > 4 pieces. N.G. Minor
Burned area or wrong part number is on PCB N.G. Major
The symbol, character, and mark of PCB are
unidentifiable. N.G Minor
The stripped solder mask , A is > 1.0mm N.G. Minor
0.3mm < stripped solder mask or visible circuit,
A < 1.0mm, and the number is ≥ 4 pieces N.G. Minor
There is particle between the circuits in solder mask N.G Minor
The circuit is peeled off or cracked N.G Minor
There is any circuits risen or exposed. N.G Minor
0.2mm < Area of solder ball, A is ≤ 0.4mm
The number of solder ball is ≥ 3 pieces N.G Minor
5
Appearance of
PCB
A=( L + W ) ╱2
The magnitude of solder ball, A is > 0.4mm. N.G Minor
PE240128WRF-001-HQ VER.0 Page23
NO Item Specification Judge Level
The shape of modeling is deformed by touching. N.G. Major
Insufficient epoxy: Circuit or pad of IC is visible N.G. Minor
Excessive epoxy: Diameter of modeling is > 20mm
or height is > 2.5mm N.G. Minor
6
Appearance of
molding
A=( L + W ) ╱2
The diameter of pinhole in modeling, A is > 0.2mm. N.G. Minor
The folding angle of frame must be > 45°+ 10° N.G. Minor
The area of stripped electroplate in top-view of
frame, A is > 1.0mm. N.G. Minor
Rust or crack is (Top view only) N.G. Minor
7
Appearance of
frame
A=( L + W ) ╱2 The scratched width of frame is > 0.06mm.
(Top view only) N.G. Minor
The color of backlight is nonconforming N.G. Major
Backlight can’t work normally. N.G. Major
The LED lamp can’t work normally N.G. Major
The unsoldering area of pin for backlight,
A is > 1/2 solder joint area. N.G. Minor
8
Electrical
characteristic of
backlight
A=( L + W ) ╱2 The height of solder pin for backlight is > 2.0mm N.G. Minor
The mark or polarity of component is unidentifiable. N.G. Minor
The height between bottom of component and
surface of the PCB is floating > 0.7mm N.G. Minor
D > 1/4W
W D
D’ Pad
N.G. Minor
End solder joint width, D’ is > 50% width of
component termination or width of pad N.G. Minor
Side overhang, D is > 25% width of component
termination. N.G. Minor
Component is cracked, deformed, and burned, etc. N.G. Minor
The polarity of component is placed in inverse
direction. N.G. Minor
10 Assembly parts
A=( L + W ) ╱2
Maximum fillet height of solder extends onto the
component body or minimum fillet height
is < 0.5mm.
N.G. Minor
PE240128WRF-001-HQ VER.0 Page24
4. RELIABILITY TEST
4.1 Reliability Test Condition
NO Item Test Condition
1 High Temperature
Storage
Storage at 80 ± 2°C 96~100 hrs
Surrounding temperature, then storage at normal condition
4hrs
2 Low Temperature
Storage
Storage at -30 ± 2°C 96~100 hrs
Surrounding temperature, then storage at normal condition
4hrs
3 High Temperature
/Humidity Storage
1.Storage 96~100 hrs 60 ± 2°C, 90~95%RH surrounding
temperature, then storage at normal condition 4hrs.
(Excluding the polarizer).or
2.Storage 96~100 hrs 40 ± 2°C, 90~95%RH surrounding
temperature, then storage at normal condition 4 hrs.
4 Temperature Cycling
-20°C → 25°C → 70°C → 25°C
(30mins) (5mins) (30mins) (5mins)
10 Cycle
5 Vibration 10~55Hz ( 1 minute ) 1.5mm
X,Y and Z direction * (each 2hrs)
Air Discharge:
Apply 6 KV with 5 times
discharge for each polarity +/-
Contact Discharge:
Apply 250V with 5 times
discharge for each polarity +/-
6 ESD Test
Testing location:
Around the face of LCD
Testing location:
1.Apply to bezel.
2.Apply to Vdd, Vss.
Packing Weight (Kg) Drop Height (cm)
0 ~ 45.4 122
45.4 ~ 90.8 76
90.8 ~ 454 61
7 Drop Test
Over 454 46
PE240128WRF-001-HQ VER.0 Page25
5. PRECAUTION RELATING PRODUCT HANDLING
5.1 SAFETY
5.1.1 If the LCD panel breaks , be careful not to get the liquid crystal to touch your skin.
5.1.2 If the liquid crystal touches your skin or clothes , please wash it off immediately by
using soap and water.
5.2 HANDLING
5.2.1 Avoid any strong mechanical shock which can break the glass.
5.2.2 Avoid static electricity which can damage the CMOS LSI—When working with the
module , be sure to ground your body and any electrical equipment you may be using.
5.2.3 Do not remove the panel or frame from the module.
5.2.4 The polarizing plate of the display is very fragile. So , please handle it very carefully,
do not touch , push or rub the exposed polarizing with anything harder than an HB
pencil lead (glass , tweezers , etc.)
5.2.5 Do not wipe the polarizing plate with a dry cloth , as it may easily scratch the surface
of plate.
5.2.6 Do not touch the display area with bare hands , this will stain the display area.
5.2.7 Do not use ketonics solvent & aromatic solvent. Use with a soft cloth soaked with a
cleaning naphtha solvent.
5.2.8 To control temperature and time of soldering is 280 ± 10°C and 3-5 sec.
5.2.9 To avoid liquid (include organic solvent) stained on LCM
5.3 STORAGE
5.3.1 Store the panel or module in a dark place where the temperature is 25°C ± 5°C
and the humidity is below 65% RH.
5.3.2 Do not place the module near organics solvents or corrosive gases.
5.3.3 Do not crush , shake , or jolt the module.
5.4 TERMS OF WARRANTY
5.4.1 Applicable warrant period
The period is within thirteen months since the date of shipping out under normal
using and storage conditions.
5.4.2 Unaccepted responsibility
This product has been manufactured to your company’s specification as a part for use
in your company’s general electronic products. It is guaranteed to perform according
to delivery specifications. For any other use apart from general electronic equipment,
we cannot take responsibility if the product is used in nuclear power control equipment,
aerospace equipment , fire and security systems or any other applications in which there
is a direct risk to human life and where extremely high levels of reliability are required.
