Datasheet PMO9704 Datasheet (Pacer)

Preliminary Specification

PRODUCT NAME: 2.4 inch Mono Colour OLED
PRODUCT NO.: PMO9704

CUSTOMER

APPROVED BY

DATE:

Pacer PLC APP ROVED

- 1 - REV.: X02 2006/03/24

REVISION RECORD

REV. REVISION DESCRIPTION REV. DATE REMARK
X01 INITIAL RELEASE 2006. 03. 13
X02 Add the information of module weight

-Add the panel electrical specification
Modify standby mode luminance
Modify CIE specification

2006. 03. 24 Page 5 & 8

- 2 - REV.: X02 2006/03/24

CONTENTS

ITEM PAGE

1. SCOPE

2. WARRANTY 4

3. FEATURES

4. MECHANI CAL DATA

5. MAXIMUM RATINGS

6. ELECTRICAL CHARACTE RISTICS

6.1 D.C ELECTRICAL CHARACTERISTICS

6.2 ELECTRO-OPTICAL CHARACTERISTICS

7. INTERFACE

7.1 FUNCTION BLOCK DIAGRAM

7.2 PANEL LAYOUT DIAGRAM

7.3 PIN ASSIGNMENTS

7.4 GRAPHIC DISPLAY DAT A RAM ADDRESS MAP

7.5 INTERFACE TIMING CHART

8. APPLICATION CIRCUIT

8.1 APPLICATION CIRCUIT

8.2 COMMAND TABLE

9. RELIABILITY TEST CONDITIONS 14

10. EXTERNAL DIMENSION

11. PACKING SPECIFICATION 16

12. APPENDIX ES

4

4
5
6
7

9

13

15

17

- 3 - REV.: X02 2006/03/24

1. SCOPE

The purpose of this specification is to define the general provisions and quality
requirements that apply to the supply of display cells manufactured. This
document, together with the Module Assembly Drawing, is the
highest-level specification for this product. It describes the product,
identifies
supporting documents and contain s specifications, which are either not
addressed, or are exceptions to the supporting documents.

Pacer PLC warrants that the products delivered pursuant to this specification (or
order) will conform to the agreed specifications for twelve (12) months from the
shipping date ("Warranty Period"). Pacer PLC is obligated to repair or replace
the products which are found to be defective or inconsistent with the
specifications during the Warranty Period without charge, on condition that the
products are stored or used as the conditions specified in the specifications.
Nevertheless, Pacer PLC is not obligated to repair or replace the products
without charge if the defects or inconsistency are caused by the force majeure
or the reckless behaviors of the customer.
After the Warranty Period, all repairs or replacements of the products are
subject to charge .

3. FEATURES

- Small Molecular Organic Light Emission Diode.

- Color : Yellow

- Panel matrix : 128*64

- Driver IC : SSD1303T10

- Extremely thin thickness for best mechanism design : 2.05 mm

- High contrast : 500:1

- Wide viewing angle : 160

- Strong environmental resistance.

- Wide range of operating temperature : -40 to 85°C

- 4 - REV.: X02 2006/03/24

4. MECHANICAL DATA

NO ITEM SPECIFICATION UNIT

1 Dot Matrix 128 (W) x 64 (H) dot
2 Dot Size 0.4 (W) x 0.4 (H) mm

3 Dot Pitch 0.43 (W) x 0.43 (H) mm
4 Aperture Rate 87 %
5 Active Area 55.01 (W) x 27.49 (H) mm
6 Panel Size 65.5 (W) x 40.0 (H) mm

2

2

2

2

7 Panel Thickness

2.05 ± 0.1

mm

8 Module Size 75.0 (W) x 52.7 (H) x 9.5 (D) mm
9 Diagonal A/A size 2.4 inch

10 Module Weight

30.2 ± 10%

3

- 5 - REV.: X02 2006/03/24

5. MAXIMUM RATINGS

ITEM MIN MAX UNIT Condition Remark
Supply Voltage (VDD) -0.3 3.5 V Ta = 25 °C
Supply Voltage(V

) 1.8 6 V Ta = 25 °C

BAT

Operating Temp. -40 85 °C
Storage Temp -40 85 °C

Humidity 85 %
Operating Life Time 40,000 - Hrs

Operating Life Time 50,000 - Hrs
Operating Life Time 66,000 - Hrs

100 cd/m², 50%

checkerboard

80 cd/m², 50%

checkerboard

60 cd/m², 50%

checkerboard

Note (1)

Note (2)
Note (3)

Note:

(A) Under V

= 3.3 V, Ta = 25°C, 50% RH.

BAT

(B) Life time is defined the amount of time when the luminance has decayed

to less than 50% of the initial measured luminance.

- 6 - REV.: X02 2006/03/24

6. ELECTRICAL CHARACTERISTICS

6.1 D.C ELECTRICAL CHARACTERISTICS

SYMBOL

V

VDD Digital power supply Ta=-20 C to +70 C 2.4 2.7 3.5 V

PARAMETERS TEST CONDITION MIN TYP MAX UNIT

Analog power supply

BAT

(For DC-DC circuit)

Ta=-20 C to +70 C

2.8 3.3 5 V

Operating current for V

I

DD

VDD = 2.7V, VCC = 12V, IREF = 10uA
No loading, All Display ON

Operating current for V

I

VDD = 2.7V, VCC = 12V, IREF = 10uA

CC

All Display ON

VIH High logic input level 0.8* V

VIL Low logic input level 0 -

VOH High logic output level

VOL Low logic output level

I

Segment on output current

SEG

Note 1: VDD= 2.7V V
Note 2: The V

VDD=2.7V, VCC=12V, I
Display on, Segment pin under test

is connected with a 20K resistive
load to GND

Contrast=0F

input must keep in a stable value; ripple and noise are not

BAT

REF

= 3.3V Frame rate=85Hz No panel attached.

BAT

DD

Contrast=FF - 190 - uA

CC

Contrast=FF - 550 - uA

0.9* V

0 -

=10uA,

Contrast=FF
Contrast=AF

Contrast=5F

- - 300 uA

- 220 - uA

- 120 - uA

- 20 - uA

DD -
DD -

V

0.2* V

V

0.1* V

allowed.
Note 3: VCCis analog power supply for OLED panel (Generated from DC-DC
circuit).

V

DD

DD V

V

DD

V

DD

- 7 - REV.: X02 2006/03/24

6 .2 ELECTRO-OPTICAL CHARACTERISTICS
P A NEL ELECTRICA L SPECIFICATIONS

PARAMETER MIN TYP. MAX UNITS COMMENTS

Normal mode current 138 144 mA All pixels on (1)
Standby mode current 9 12 mA
Normal mode power

consumption
Standby mode power
consumption
Normal mode
Luminance
Standby mode
Luminance
CIEx(Yellow) 0.42 0.46 0.50

455.4 475.2 mW All pixels on (1)

29.7 39.6 mW

60 80 cd/m

30 cd/m

x, y (CIE 1931)

Standby mode

10% pixels on (2)

St andby mode

10% pixels on (2)

2

Display Average

2

CIEy(Yellow) 0.44 0.48 0.52
Dark Room Contrast 500:1
Viewing Angle 160 degree

(1) Normal mode condition :

- Driving Voltage : 3.3 V

- Contrast setting : 0x8FH

- Frame rate : 85Hz

- Duty setting : 1/64

(2) Standby mode condition :

- Driving Voltage : 3.3 V

- Contrast setting : 0x01H

- Frame rate : 85Hz

- Duty setting : 1/64

- 8 - REV.: X02 2006/03/24

7. INTERFACE

7.1 FUNCTION BLOCK DIAGRAM

TAB

VBAT VCC

DC-

DC

VDD

GND Row 0~62

D0~D7

D/C# Panel
W R# Row 1~63

RD#

CS#

RES#

DISB

128X64 OLED module

SSD1303 Column 2~129

128X64

OLED

7.2 PANEL LAYOUT DIAGRAM

- 9 - REV.: X02 2006/03/24

7.3 PIN ASSIGNMENTS

Pin Name Pin No. Type Description

GND 1 I Ground pin.
VDD 2 I Logic voltage power supply.

VBAT 3 I Input voltage power supply to DC-DC circuit.

D/C 4 I This is a Data/Command control pin.

WR# 5 I Th is pin is used to receive the write data signal.

RD# 6 I This pin is used to receive the read data signal.

D0 7
D1 8

D2 9

- 10 - REV.: X02 2006/03/24

7.4 GRAPHIC DISPLAY DATA RAM ADDRESS MAP

- 11 - REV.: X02 2006/03/24

7.5 INTERFACE TIMING CHART

- 12 - REV.: X02 2006/03/24

8. APPLICATION CIRCUIT

8.1 APPLICATION CIRCUIT

Recommend component:

The C1 and C2 : 4.7uF/25V

8.2 COMMAND TABLE

Refer to IC Spec.: SSD1303

- 13 - REV.: X02 2006/03/24

9. RELIABILITY TEST CONDITIONS

No. Items Specification Quantity

High temp.

1

(Non-operation)

2 High temp. (Operation) 85°C, 120hrs 5
3 Low temp. (Operation) -40°C, 120hrs 5

High temp. / High

4

humidity (Operation)

85°C, 240hrs 5

65°C, 90%RH, 120hrs 5

Thermal shock

5

(Non-operation)

6 Vibration

7 Drop

8 ESD (Non-operation)

Test and measurement conditions

1. All measurements shall not be started until the specimens attain to
temperature stability.

2. All-pixels-on is used as operation test pattern.

Air discharge model, ±8kV, 10

-40°C ~85°C (-40°C /30min;
transit /3min; 85°C /30min; transit
/3min) 1cycle: 66min, 100 cycles

Frequency : 5~50HZ, 0.5G
Scan rate : 1 oct/min
Time : 2 hrs/axis
Test axis : X, Y, Z

Height: 120cm
Sequence : 1 angle 3 edges and
6 faces
Cycles: 1

5

times

5

1 Carton

1 Carton

3. The degradation of Polarizer are ignored for item 1, 2 & 4.

Evaluation criteria

1. The function test is OK.

2. No observable defects.

3. Luminance: > 50% of initial value.

4. Current consumption: within ± 50% of initial value.

- 14 - REV.: X02 2006/03/24

10. EXTERNAL DIMENSION

D3D5D4

D2

D/C

VDD

VBAT

1 GND

465

3

2

Pin Assignment

NO. SYMBOL

0 2

D1

WR#

RD#

7 D0

9

8

101211

D7

13 D 6

14

NC

NC

CS#

RES#

19 NC

161817

15

20 D ISB

0 2

02

02

REVISION

REVISION

C62 C0 S 2 S1 29 C 1 C 63

2006/03/13 Modify Pin 3 and Pin 20 Assignment

02

87%

128x64

0.43x0.43mm

0.4x0.4mm

OLED(Yellow)

Revision Date Note

P09704

55.01x27.49mm

9809704000

SSD1303T10

Mo dul e Ass'y

PARTS NO.

PART NAME

PROJECT CO DE

1/1mm1:1

ApprovedSpec.ModuleE.E.M.E.

Eric Wu

Stro ng Tsai

David Li

Scale Un it She et

Angle

Third

Projection

Pau l Chang

CONFI DENTIAL

David Li

±0.1

±0.2

±0.3

Tole ranc e( m m )

General Tolera nce

0~8

8 ~ 25

Length (m m)

25 ~ 50

40±0.2 (TAB)

128x64 Dots

- 15 - REV.: X02 2006/03/24

11. PACKING SPECIFICATION

- 16 - REV.: X02 2006/03/24

12. APPENDIXES

APPENDIX 1: DEFINITIONS

A. DEFINITION OF CHROMATICITY COORDINATE

The chromaticity coordinate is defined as the coordinate value on the CIE
1931 color chart for R, G, B, W.

B. DEFINITION OF CONTRAST RATIO

The contrast ratio is defined as the following formula:

Luminance of all pixels on measurement

Contrast Ratio =

Luminance of all pixels off measurement

C. DEFINITION OF RESPONSE TIME

The def inition of turn-on response time Tr is the time interval between a pixel
reaching 10% of steady state luminance and 90% of steady state luminance.
The d efinition of turn-off response time Tf is the time interval between a pixel
reaching 90% of steady state luminance and 10% of steady state luminance.
It is shown in Figure 2.

100%

90%

Brightness

Tr

Tf

Figure 2 Response time

10%

- 17 - REV.: X02 2006/03/24

D. DEFINITION OF VIEWING ANGLE

The viewing angle is defined as Figure 3. Horizontal and vertical (H & V)
angles are determined for viewing directions where luminance varies by 50%
of the perpendicular value.

0

+x

-x

direction)

(

=

+

-

+x

-x

direction)

(

-y

0+

=

-

+

Vertical angles Horizontal angles

Figure 3 Viewing Angle

-

- 18 - REV.: X02 2006/03/24

APPENDIX 2: MEASUREMENT APPARATUS

A. LUMINANCE/COLOR COORDINATE

PHOTO RESEARCH PR-705, MINOLTA CS-100

Measurement

Header

Panel

Plate Form

PR-705 /
MINOL TA CS-100
Color Analyzer

B. CONTRAST / RESPONSE TIME / VIEWING ANGLE

WESTAR CORPORATION FPM-510

Measurement

Header

West ar FPM-510
Display Contrast /

Panel

Response time /
View angle Analyzer

Plate Form

- 19 - REV.: X02 2006/03/24

C. ESD ON AIR DISCHARGE MODE

R 330 ohms

ESD

DISCHARGE

TIP

V

C

EUT

150pF

RETURN

GROUND PLANE

- 20 - REV.: X02 2006/03/24

APPENDIX 3: PREC AUTIONS

A. RESIDUE I MAGE

Because the pixels are lighted in different time, the luminance of active pixels
may reduce or differ from inactive pixels. Therefore, the residue image will
occur. To avoid the residue image, every pixel needs to be lighted up
uniformly.

- 21 - REV.: X02 2006/03/24