CSOT ST5461B02-1 Specification

ST5461B02-1 Product Specification

MODEL: ST5461B02-1

Ver. 1.1
Date: 02.Mar.2013

Customer’s Approval

CSOT

Signature Date Approved By Product Director

Name: Richard Lung

Signature:

Reviewed By PM Manager

Name: Aaron Tu

Signature:

Reviewed By Project Leader

Name: Hank Hu

Signature:

Reviewed By PM

Date

Date

Date

Date

Name: Julie Wu

Signature:

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Optoelectronics Technology Co., Ltd.
Any unauthorized use is prohibited.

ST5461B02-1 Product Specification

Contents

1. General Description ....................................................................................................................................... 4

1.1 Product Features .................................................................................................................................. 4

1.2 Overview .............................................................................................................................................. 4

1.3 General Information ............................................................................................................................. 4

2. Absolute Maximum Ratings .......................................................................................................................... 5

2.1 Absolute Maximum Ratings (TA = 25 ± 2 °C) .................................................................................... 5

2.2 Environment Requirement (Based on CSOT Module ST5461B02-1) ................................................ 5

2.3 Absolute Ratings of Environment (Open Cell) .................................................................................... 5

3. Electrical Specification .................................................................................................................................. 6

3.1 Open Cell Power Consumption (TA = 25 ± 2 °C) ............................................................................... 6

3.2 LVDS Characteristics ........................................................................................................................... 7

4. Input Terminal Pin Assignment ..................................................................................................................... 8

4.1 Interface Pin Assignment ..................................................................................................................... 8

4.2 Block Diagram of Interface ................................................................................................................. 9

4.3 LVDS Interface .................................................................................................................................. 10

4.3.1 NS Format (SELLVDS = H) ................................................................................................... 10

4.3.2 JEIDA Format (SELLVDS = L or Open) ................................................................................ 11

5. Interface Timing ........................................................................................................................................... 12

6. Optical Characteristics ................................................................................................................................. 14

6.1 Measurement Conditions ................................................................................................................... 14

6.2 Optical Specifications ........................................................................................................................ 15

7. Mechanical Characteristics .......................................................................................................................... 18

7.1 Mechanical Specification ................................................................................................................... 17

7.2 Packing ............................................................................................................................................... 19

7.2.1 Packing Specifications ............................................................................................................ 19

7.2.2 Packing Method ...................................................................................................................... 19

8. Definition of Labels ..................................................................................................................................... 19

8.1 Open Cell Label ................................................................................................................................. 20

8.2 Carton Label ...................................................................................................................................... 20

8.3 Pallet Label ........................................................................................................................................ 20

9. Precautions ................................................................................................................................................... 21

9.1 Assembly and Handling Precautions ................................................................................................. 22

9.2 Safety Precautions .............................................................................................................................. 22

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ST5461B02-1 Product Specification

Revision History

Version Date Page Section Description Revision by

Ver. 0.1 14.Jan.2013 22 All

Ver. 1.1 02.Mar.2013 22 All

Tentative Specification was First Issued.

Preliminary Specification was First Issued

Julie Wu

Julie Wu

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ST5461B02-1 Product Specification

1. General Description

1.1 Product Features

- FHD Resolution (1920 x 1080 )

- Very High Contrast Ratio: 4000:1

- Fast Response Time

- Ultra Wide Viewing Angle: 178°(H)/178°(V) (CR≥10)

- DE (Data Enable)Mode

- LVDS (Low Voltage Differential Signaling) Interface

1.2 Overview

ST5461B02-1 is a diagonal 54.6” color active matrix LCD open cell whit 2ch-LVDS interface. This open cell is a

transmissive type display operating in the normally black mode. It supports 1920 x 1080 FHD resolution and can display up to

16.7M colors (8bit). Each pixel is divided into Red, Green and Blue sub-pixels which are arranged in vertical stripe.

This open cell dedicates for LCD TV products and provides excellent performance which includes high brightness, ultra

wide viewing angle, high color saturation and high color depth. CSOT open cell comply with ROHS for identification.

1.3 General Information

Item Specification Unit Note

Active Area 1209.6 (H) * 680.4 (V) mm

Cell Size 1223.6 (H) * 697.1 (V) * 1.75 (D) mm

Weight 3.5 kg Max.

Driving Scheme a-Si TFT Active Matrix -

Number of Pixels 1920 x 1080 pixel

Pixel Pitch (Sub Pixel) 0.21 x 0.63 mm

Pixel Arrangement RGB Vertical Stripe -

Display Colors 16.7 M color

Display Mode Transmissive Mode, Normally Black -

Glass Thickness (Array/CF) 0.7 mm

R = (0.638, 0.335)
G = (0.321, 0.630)

Color Chromaticity

B = (0.157, 0.052）
W = (0.280, 0.290)

Contrast Ratio 4000:1(Typ.)

8bit

Typical value measured at CSOT’s
module: MT5461B02-1

Cell Transmittance 5.96(Typ.) %

View Angle (CR≥10)

+89/-89 (H), +89/-89 (V) (Typ.)

Polarizer (CF side) Anti-glare, Haze 2%, Hard Coating (3H)

Polarizer (TFT side) Hard Coating (3H)

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2. Absolute Maximum Ratings

2.1 Absolute Maximum Ratings (TA = 25 ± 2 °C)

The followings are maximum values which, if exceeded, may cause damage to the unit.

ST5461B02-1 Product Specification

Item Symbol

Va lu e

Unit

Min. Max.

Power Supply Voltage VCC -0.3 13.8 V

Input Signal Voltage VIN -0.3 3.6 V

2.2 Environment Requirement (Based on CSOT Module MT5461B02-1)

(1) Temperature and relative humidity range are shown as below.

Relative Humidity (%RH)

100

39ºC, 90%

80

60

Operating Range

40

-40

-20

20

0

Storage Range

20

40

60

Temperature (ºC)

80

Fig. 2.1Operating and storage environment

(a) 90%RH maximum (T

(b) Wet-bulb temperature should be 39ºC maximum (T

≤ 39 ºC).

A

> 39 ºC).

A

(c) No condensation.

(2) The storage temperature is between - 20 ºC to 60 ºC, and the operating ambient temperature is between 0 ºC to 50 ºC

The maximum operating temperature is based on the test condition that the surface temperature of display area is less than

or equal to 65ºC with LCD module in a temperature controlled chamber alone. Thermal management should be considered

in final product design to prevent the surface temperature of display area from being over 65ºC. The range of operating

temperature may degrade in case of improper thermal management in the end product design.

(3) The rating of environment is based on LCD module. Leave LCD cell alone, this environment condition can’t be guaranteed.

Except LCD cell, the customer has to consider the ability of other parts of LCD module and LCD module process.

2.3 Absolute Ratings of Environment (Open Cell)

When storing open cell as spares for a long time, please follow the precaution instructions:

(1) Do not store the module in high temperature and high humidity for a long time. It is highly recommended to store the

module with temperature from 20ºC to 30ºC in normal humidity (50 ± 10%RH) with shipping package.

(2) The open cell should be keep within one month shelf life.

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3. Electrical Specification

3.1 Open Cell Power Consumption (TA = 25 ± 2 °C)

Parameter Symbol

Min.

Va lu e

Typ.

ST5461B02-1 Product Specification

Unit Note

Max.

Power Supply Voltage VCC

Rush Current I

White Pattern I

Power Supply

Horizontal Stripe ICC -

Current

Black Pattern ICC -

Note:

(1) The ripple voltage should be controlled less than 10% of V

(2) Measurement condition: V

= 12V, Rising time = 470μs.

CC

VCCx = 0.1

GND

Fig. 3.1 VCC rising time condition

RUSH

CC

470μs

10.8 12.0 13.2

- - 2.5 A (2)

-

.

CC

VCC

VCCx = 0.9

0.45

1.1

0.46

0.59

1.43

0.6

V (1)

A

A

A

(3)

(3) Measurement condition: V

A. White Pattern B. Horizontal Pattern

C. Black Pattern

= 12V, Ta = 25 ± 2ºC, F = 60 Hz. The test patterns are shown as below.

CC

G

Fig. 3.2 Test patterns

R

R

R

R R

B

G G

B

B

G

G

B

R

R

R

G

G

G

B

B

B

B

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3.2 LVDS Characteristics

Parameter

Symbol

ST5461B02-1 Product Specification

Va lu e

Unit Note

Min. Typ. Max.

Differential Input High
Threshold Voltage

Differential Input Low
Threshold Voltage

LVDS Interface

Common Input Voltage

Differential Input Voltage |VID| 200 400 600 mV

Terminating Resistor RT 87.5 100 112.5 ohm

Input High Threshold Voltage V

CMOS Interface

Input Low Threshold Voltage VIL 0 - 0.7 V

Note:

(1) The LVDS input signal has been defined as follows:

V

CM

V

+100 - - mV

TH

- - -100 mV

V

TL

V

1.0 1.2 1.4 V

CM

2.7 - 3.3 V

IH

V

TH

V

TL

|V

|

ID

(1)

GND

Fig. 3.3 LVDS input signal

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ST5461B02-1 Product Specification

4. Input Terminal Pin Assignment

4.1 Interface Pin Assignment

CN1: 187147-51221-3 (P-two) or equivalent (see Note (4))

Pin No. Symbol Description Note

1 N.C No Connection (1)

2 N.C No Connection (1)

3 N.C No Connection (1)

4 N.C No Connection (1)

5 L/R_O

(High: Left Glass turn on Low: Right glass turn on)

6 N.C. No Connection

Input Signal for LVDS Data Format Selection

Output Signal for Left Right Glasses Control

7 SELLVDS

(2)

(High: VESA Format, Low or Open: JEIDA Format)

8 N.C. No Connection (1)

9 N.C. No Connection (1)

10 N.C. No Connection (1)

11 GND Ground

12 ORX0- Odd Pixel Negative LVDS Differential Data Input. Channel 0

13 ORX0+ Odd Pixel Positive LVDS Differential Data Input. Channel 0

14 ORX1- Odd Pixel Negative LVDS Differential Data Input. Channel 1

15 ORX1+ Odd Pixel Positive LVDS Differential Data Input. Channel 1

16 ORX2- Odd Pixel Negative LVDS Differential Data Input. Channel 2

17 ORX2+ Odd Pixel Positive LVDS Differential Data Input. Channel 2

18 GND Ground

19 OCLK- Odd Pixel Negative LVDS Differential Clock Input

20 OCLK+ Odd Pixel Positive LVDS Differential Clock Input

21 GND Ground

22 ORX3- Odd Pixel Negative LVDS Differential Data Input. Channel 3

23 ORX3+ Odd Pixel Positive LVDS Differential Data Input. Channel 3

24 N.C. No Connection (1)

25 N.C. No Connection (1)

Input Signal for 2D/3D Mode Selection

26 2D/3D

(High: 3D Enable, LOW: 3D Disable)

27 N.C. No Connection (1)

28 ERX0- Even Pixel Negative LVDS Differential Data Input. Channel 0

29 ERX0+ Even pixel Positive LVDS Differential Data Input. Channel 0

30 ERX1- Even Pixel Negative LVDS Differential Data Input. Channel 1

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ST5461B02-1 Product Specification

31 ERX1+ Even Pixel Positive LVDS Differential Data Input. Channel 1

32 ERX2- Even Pixel Negative LVDS Differential Data Input. Channel 2

33 ERX2+ Even Pixel Positive LVDS Differential Data Input. Channel 2

34 GND Ground

35 ECLK- Even Pixel Negative LVDS Differential Clock Input

36 ECLK+ Even Pixel Negative LVDS Differential Clock Input

37 GND Ground

38 ERX3- Even Pixel Negative LVDS Differential Data Input. Channel 3

39 ERX3+ Even Pixel Positive LVDS Differential Data Input. Channel 3

40 N.C. No Connection (1)

41 N.C. No Connection (1)

42 N.C. No Connection (1)

43 N.C. No Connection (1)

44 GND Ground

45 GND Ground

46 GND Ground

47 N.C. No Connection (1)

48 VCC +12V Power Supply

49 VCC +12V Power Supply

50 VCC +12V Power Supply

51 VCC +12V Power Supply

Note:

(1) For CSOT internal only, please let it open.

(2) High: connect to + 3.3V → VESA Format; Low: connect to GND or Open → JEIDA format.

(3) The first LVDS data is ODD LVDS data.

(4) The direction of pin assignment is shown as below:

Fig. 4.1 LVDS connector direction sketch map

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ST5461B02-1 Product Specification

B1 B0 G5 G4 G3 G2 G1

DE VS HS B5 B4 B3 B2

Connector

Timing Controller

LVCK1P

LV1N3

LV1P1

LV1N2

LV1N0

LV1P0

LV1N1

LV1P2

LVCK1N

LV1P3

100Ω

100Ω

100Ω

100Ω

100Ω

RCLK1P / RCLK2P

RA1P / RA2P

RB1P / RB2P

RC1P / RC2P

RD1P / RD2P

4.2Block Diagram of Interface

Fig. 4.1 Block diagram of interface

Attention:
(1) This open cell uses a 100 ohms (Ω) resistor between positive and negative lines of each receiver input.
(2) LVDS cable impedance shall be 50 ohms per signal line or about 100 ohms per twist-pair line respectively.

4.3 LVDS Interface

4.3.1 VESA Format (SELLVDS = H)

G0 R5 R4 R3 R2 R1 R0

NA B7 B6 G7 G6 R7 R6

Fig. 4.2 VESA format

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4.3.2 JEIDA Format (SELLVDS = L or Open)

RCLK1P / RCLK2P

ST5461B02-1 Product Specification

RA1P/ RA2P

RB1P/ RB2P

RC1P/ RC2P

RD1P/ RD2P

4.4 Pattern FOR V-com Adjustment

Dot - inversion pattern

Frame N Frame N+1

+

-

-

+

+

-

-

+

+

-

-

+

G2 R7 R6 R5 R4 R3 R2

B3 B2 G7 G6 G5 G4 G3

DE VS HS B7 B6 B5 B4

NA B1 B0 G1 G0 R1 R0

Fig. 4.3 JEIDA format

+

-

+ -

-

+

- +

-

+

-

+

-

+

-

+

-

+

-

+

+

-

-

+

+

-

-

+

+

-

-

+

+

-

+

-

+

-

Fig. 4.4 Pattern for V-com adjustment

+ -

-

+

- +

-

+

-

+

-

+

-

+

-

+

-

+

+

-

-

+

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5. Interface Timing

5.1 Timing Table (DE Only Mode)

Signal Item Symbol Min. Typ. Max. Unit Note

LVDS Clock Frequency

Frame Rate F 57 60 63 Hz

F

CLK

(= 1/T

CLK

ST5461B02-1 Product Specification

65 74.25 77 MHz

)

Vertical

Term

Total TV 1115 1125 1380 TH TV = T

Display TVD 1080

VD

Blank TVB 35 45 300 TH

Total T

1050 1100 1150 T

H

TH = T

CLK

HD

Horizontal

Display THD 960

Term

Blank THB 90 140 190 T

CLK

Attention:

(1) The module is operated in DE only mode, H sync and V sync input signal have no effect on normal operation.

T

T

T

VD

V

VB

DE

T

H

+ T

+ T

VB

HB

DCLK

DE

T

CLK

T

HB

THD

DATA

Valid Display Data (960 clocks)

Fig. 5.1 Interface signal timing diagram

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(2) The input clock cycle-to-cycle is defined as below figures.

p

T1= T±200ps

ST5461B02-1 Product Specification

T2=T1±200

s

Fig. 5.2 Jitter

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6. Optical Characteristics

N

A

6.1 Measurement Conditions

The table below is the test condition of optical measurement.

Item Symbol Va lu e Unit

ST5461B02-1 Product Specification

Ambient Temperature TA

Ambient Humidity HA

25 ± 2

50 ± 10

ºC

%RH

Supply Voltage VCC 12 V

Driving Signal Refer to the typical value in Chapter 3: Electrical Specification

Vertical Refresh Rate FR 120 Hz

To avoid abrupt temperature change during optical measurement, it’s suggested to warm up the LCD module more than 60

minutes after lighting the backlight and in the windless environment.

To measure the LCD cell, it is suggested to set up the standard measurement system as Fig. 6.1. The measuring area S

should contain at least 500 pixels of the LCD cell as illustrated in Fig.6.2 (A means the area allocated to one pixel). In this

model, for example, the minimum measuring distance Z is 370mm when θ is 2 degree. Hence, 500mm is the typical measuring

distance. This measuring condition is referred to 301-2H of VESA FPDM 2.0 about viewing distance, angle, and angular field

of view definition.

θ

Z

For Square

S = πr²

Fig. 6.1 The standard set-up system of measurement

θ

r

Z

Fig. 6.2 The area S contains at least 500 pixels to be measured

S

=

≥ 500 pixels

N means the actual number of the pixels in the area S.

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ST5461B02-1 Product Specification

6.2 Optical Specifications

The table below of optical characteristics is measured by MINOLTA CS2000, MINOLTA CA310, ELDIM OPTI

Scope-SA and ELDIM EZ contrast in dark room.

Item Symbol Condition Min. Ty p. Max. Unit Note

Static Contrast Ratio CR

- 4000 - - (1) (2)

Response Time TL - 6.5 12 ms (3)

Center Transmittance T% - 5.96 % (2) (4)

R

Color

Chromaticity

(CIE1931)

Red

Green

Blue

X

= 0°, θV = 0°

θ

RY 0.335 -

G

H

Normal direction at

0.321 -

X

center point with

GY 0.630 -

CSOT’s module:

B

0.157 -

X

MT5461B02-1

Typ.

- 0.03

BY 0.052 -

W

X

0.638

0.280

-

Typ.

(2) (5)

+ 0.03

-

White

WY

0.290

-

Color Gamut CG - 72 - % NTSC

θ

H+

- 89 -

Horizontal

89

89

­Deg. (6)

-

Viewing Angle

θH-

θ

V+

-

CR≥10

-

Vertical

θV-

-

89

-

Note:

(1) Definition of static contrast ratio (CR):

It’s necessary to switch off all the dynamic and dimming function when measuring the static contrast ratio.

CR - W

Static Contrast Ratio (CR) =

CR - D

CR-W is the luminance measured by LMD (light-measuring device) at the center point of the LCD module with

full-screen displaying white. The standard setup of measurement is illustrated in Fig. 6.3; CR-D is the luminance measured

by LMD at the center point of the LCD module with full-screen displaying black. The LMD in this item is CS2000.

(2) The LMD in the item could be a spectroradiometer such as (KONICA MINOLTA) CS2000, CS1000 (TOPCON), SR-UL2

or the same level spectroradiometer. Other display color analyzer (KONICA MINOLTA) CA210, CA310 or (TOPCON)

BM-7 could be involved after being calibrated with a spectroradiometer on each stage of a product.

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Black & White

LMD

LCD Module

Fig. 6.3 The standard setup of CR measurement

ST5461B02-1 Product Specification

(3) Response time T

time matrix in which each element t

luminance ratios among 0%, 25%, 50%, 75%, and 100% luminance. The transition time t

is defined as the average transition time in the response time matrix. The table below is the response

L

is the transition time from luminance ratio X to Y. X and Y are two different

X to Y

is defined as the time taken

X to Y

from 10% to 90% of the luminance difference between X and Y (X < Y) as illustrated in Fig.6.4. When X > Y, the

definition of t

optimized on refresh rate F

Measured

Transition Time

Luminance

Ratio of

Current Frame

is the time taken from 90% to 10% of the luminance difference between X and Y. The response time is

X to Y

= 60Hz.

r

Luminance Ratio of Previous Frame

0% 25% 50% 75% 100%

0% t

25% t

50% t

75% t

100% t

t

X to Y

0% to 100%

0% to 25%

t

0% to 50%

t

0% to 75%

t

means the transition time from luminance ratio X to Y.

25% to 0%

25% to 50%

25% to 75%

25% to 100%

t

t

50% to 25%

t

t

50% to 75%

50% to 100%

t

50% to 0%

t

t

75% to 0%

75% to 25%

t

75% to 50%

75% to 100%

t

t

t

Luminance

Y: 0%, 25%, 50%, 75%,

Brighter State

100%

90%

t

X to Y

100% to 0%

100% to 25%

100% to 50%

t

100% to 75%

10%

Darker state

0%

X: 0%, 25%, 50%, 75%, 100%

Fig. 6.4 The definition of t

X to Y

Time

All the transition time is measured at the center point of the LCD module by ELDIM OPTI Scope-SA.

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(4) Definition of center Transmittance (T %):

The transmittance is measured with full white pattern (Gray 255)

ST5461B02-1 Product Specification

Luminance of LCD module

Static Contrast Ratio (CR) =

Luminance of backlight

(5) Definition of color chromaticity:

Each chromaticity coordinates (x, y) are measured in CIE1931 color space when full-screen displaying primary color R, G,

B and white. The color gamut is defined as the fraction in percent of the area of the triangle bounded by R, G, B

coordinates and the area is defined by NTSC 1953 color standard in the CIE color space. Chromaticity coordinates are

measured by CS2000 and the standard setup of measurement is shown in Fig. 6.5.

Colors

LMD

LCD Module

Fig. 6.5 The standard setup of color chromaticity measurement

(6) Definition of viewing angle coordinate system (θH, θV):

The contrast ratio is measured at the center point of the LCD module. The viewing angles are defined at the angle that the

contrast ratio is larger than 10 at four directions relative to the perpendicular direction of the LCD module (two vertical

angles: up θ

and down θV-; and two horizontal angles: right θH+ and left θH-) as illustrated in Fig. 6.6. The contrast ratio

V+

is measured by ELDIM EZ Contrast.

Y

X

θ

H+

θ

θ

H-

θ

V+

V-

Z

Fig. 6.6 Viewing angle coordination system

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7. Mechanical Characteristics

7.1 Mechanical Specification

ST5461B02-1 Product Specification

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7.2 Packing

7.2.1 Packing Specifications

Item

ST5461B02-1 Product Specification

Specification

Quantity Dimension (mm) Weight (kg)

Packing Box 6 pcs/box 1380 (L) x 1080 (W) x 131 (H)

Net Weight: 21 (Max.)

Gross Weight: 27.26 (Max.)

Pallet 1 1420 (L) x 1120 (W) x 150 (H) Net Weight: 32

Stack Layer 9

Boxes per Pallet 9

Pallet after Packing 54 pcs/pallet 1420 (L) x 1120 (W) x 1049 (H) Gross Weight: 280

7.2.2 Packing Method

Box_d

EPE Spacer (7pcs)

LCD Panel (6pcs)

Pallet

Box_u

PE Sheet

PE Film

Pallet Label (2pcs)

PP Belt

(Plastic: 1420 * 1120 * 150mm)

Pallet

Carton Label (2pcs)

9 Layers

Fig. 7.1 Packing method (protector film stick on the front of the LCD module)

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8. Definition of Labels

Week

r

8.1 Open Cell Label

XXXXXXXXXXXXXXXXXXXX XXXX ST5461B02-1 Ver. X.X

ST5461B02-1 Product Specification

Serial Number: XXXXXXXXXXXX XXXXXXXX

CSOT Internal Use

Panel ID

Week Code: XX XX

Ye a

Year: 2010 =10, 2011 = 11 …2020= 20, 2021= 21…

Week: 01, 02, 03 …

Model Name: ST5461B02-1

Ver.X.X: Version, for example: 0.1, 0.2, … , 1.1, 1.2, …, 2.1, 2.2, …

8.2 Carton Label

Model Version Code

Model Name

Week Code

Serial Number

For RoHS compliant products, CSOT will add RoHS for identification.

Serial Number: XXXXXXXX XX XXXXX XXXXX

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CSOT Internal Use

Year, Month, Date

Model Version Code

CSOT Internal Use

Manufactured Date:

Year: 2010 = 10, 2011 = 11…2020 = 20, 2021 = 21…

Month: 1~9, A~C, for Jan. ~ Dec.

Date: 01~31, for 1st to 31st

Model Version Code: Version of product, for example: 01, 02, 11, 12…

8.3 Pallet Label

ST5461B02-1 Product Specification

Model Name: ST5461B02-1

Serial Number: XXXXXX XX XXXXX XXXXX

CSOT Internal Use

Year, Month, Date

Model Version Code

CSOT Internal Use

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Optoelectronics Technology Co., Ltd.
Any unauthorized use is prohibited.

ST5461B02-1 Product Specification

9. Precautions

9.1 Assembly and Handling Precautions

(1) Do not apply rough force such as bending or twisting to the open cell during assembly.

(2) It is recommended to assemble or install a open cell into the user’s system in clean working areas. The dust and oil

may cause electrical shorter damage the polarizer.

(3) Do not apply pressure or impulse to the open cell to prevent the damage to the open cell.

(4) Always follow the correct power-on sequence. This can prevent the damage and latch-up to the LSI chips.

(5) Do not plug in or pull out the interface connector while the open cell is in operation.

(6) Use soft dry cloth without chemicals for cleaning because the surface of polarizer is very soft and easily be

scratched.

(7) Moisture can easily penetrate into the open cell and may cause the damage during operation.

(8) High temperature or humidity may deteriorate the performance of the open cell. Please store open cell in the

specified storage conditions.

(9) When ambient temperature is lower than 10 ºC, the display quality might be deteriorated. For example, the

response time will become slow.

9.2 Safety Precautions

(1) If the liquid crystal material leaks from the panel, it should be kept away from the eyes or mouth. In case of

contact with hands, skin or clothes, it has to be washed away thoroughly with soap.

(2) After the open cell end of life, it is not harmful in case of normal operation and storage.

The copyright belongs to Shenzhen China Star 22 / 22 Ver.1.1
Optoelectronics Technology Co., Ltd.
Any unauthorized use is prohibited.