SHARP LS060S2UD01

Technical Document
LCD Specification
LCD Group
LS060S2UD01 LCD Module
Product Specification
March 2010
SVGA (Portrait) Monochrome HR-TFT
Transflective Memory LCD featuring FPC
connector, 16% reflectivity with 15:1 contrast.
LCP-1310002-1
RECORDS OF REVISION
MODEL No : LS060S2UD01
SPEC No.
LCP-1310002
Date
NO.
PAGE
SUMMARY
NOTE
2010.03.03
-
-
-
1st Issue
LCP-1310002-2
NOTICE
This publication is the proprietary of SHARP and is copyrighted, with all rights reserved. Under the copyright laws,
no part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical
for any purpose, in whole or in part, without the express written permission of SHARP. Express written permission is
also required before any use of this publication may be made by a third party.
The application circuit examples in this publication are provided to explain the representative applications of
SHARP's devices and are not intended to guarantee any circuit design or permit any industrial property right or
other rights to be executed. SHARP takes no responsibility for any problems related to any industrial property right
or a third party resulting from the use of SHARP's devices, except for those resulting directly from device
manufacturing processes.
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that
occur in equipment using any of SHARP's devices, shown in catalogs, data books, etc. Contact SHARP in order to
obtain the latest device specification sheets before using any SHARP's device.
SHARP reserves the right to make changes in the specifications, characteristics, data, materials, structures and
other contents described herein at any time without notice in order to improve design or reliability. Contact SHARP
in order to obtain the latest specification sheets before using any SHARP's device. Manufacturing locations are also
subject to change without notice.
Observe the following points when using any device in this publication. SHARP takes no responsibility for damage
caused by improper use of the devices.
The devices in this publication are designed for use in general electronic equipment designs, such as:
•Personal computers
•Office automation
•Telecommunication equipment
•Test and measurement equipment
•Industrial control
•Personal digital assistant
•Audio visual and multimedia equipment
•Consumer electronics
•Smart phone
・e-book
The appropriate design measures should be taken to ensure reliability and safety when SHARP's devices are used
for equipment such as:
•Transportation control and safety equipment (i.e., aircraft, trains, automobiles, etc.)
•Traffic signals
•Gas leakage sensor breakers
•Alarm equipment
•Various safety devices etc.
SHARP's devices shall not be used for equipment that requires extremely high level of reliability, such as:
•Military and space applications
•Nuclear power control equipment
•Medical equipment for life support
Contact a SHARP representative, in advance, when intending to use SHARP's devices for any "specific"
applications other than those recommended by SHARP.
Contact and consult with a SHARP representative if there are any questions about the contents of this
publication.
LCP-1310002-3
1. Applicable Scope
This specification is applicable to TFT-LCD Module “LS060S2UD01”.
2. Mechanical (Physical) Specifications
Table2-1
Item
Specifications
Unit
Screen size
15.30 (6.02” type) Diagonal
cm
Active area
91.8(H)×122.4(V)
mm
600(H)×800(V)
pixel
1 Pixel =2 dots
-
Pixel pitch
0.153(H)×0.153(V)
mm
Display mode
Normally White
-
Unit outline dimensions
96.8(W)× 132.8(H)× 1.23(D)
mm
Mass
36
g
Remarks
Pixel format
Panel module part
【Note2-1】The above-mentioned table indicates module sizes without some projections and FPC.
For detailed measurements and tolerances, please refer to Fig.1 Outline Dimensions.
3. Pixel Configuration
(1, 1)
(600, 1)
B&W
Display area
(1, 800)
(600, 800)
LCD FPC
32pin
1pin
LCP-1310002-4
4. Input Terminal Names and Functions
Table4-1 (FPC: connector [HIROSE]FH19SC-32S-0.5)
Pin No.
Symbol
I/O
Description
1
GND
Ground
2
N.C.(VPP)
No Connection
3
BUSSEL
I
Data bas selection signal
4
RESETB
I
Reset signal(Active Low)
5
CSB
I
Chip select signal
6
RS
I
Display Data/Command selection signal
7
WR
I
Wite Enable
8
RD
I
Read Enable
9
D00
I/O
Data bus 0
10
D01
I/O
Data bus 1
11
D02
I/O
Data bus 2
12
D03
I/O
Data bus 3
13
D04
I/O
Data bus 4
14
D05
I/O
Data bus 5
15
D06
I/O
Data bus 6
16
D07
I/O
Data bus 7
17
D08
I/O
Data bus 8
18
D09
I/O
Data bus 9
19
D10
I/O
Data bus 10
20
D11
I/O
Data bus 11
21
D12
I/O
Data bus 12
22
D13
I/O
Data bus 13
23
D14
I/O
Data bus 14
24
D15
I/O
Data bus 15
25
ACK
O
ACK signal output
26
OVSYNC
O
Vertical synchronizing signal output
27
N.C.(OTPTEST)
No Connection
Power supply generation circuit enable
28
VDDL_EN
I
(Active High)
29
VDDIO
Power Supply
30
VDD
Power Supply
31
GND
Ground
32
GND
Ground
※1:Recommendation Circuit
LCD Modul
User side
VDDIO
25pin
100k
ACK
VDDIO
28pin
VDDL_EN
Note
※1
※1
LCP-1310002-5
5.Absolute Maximum Ratings
Item
Symbol
Condition
Rated value
Unit
Remarks
Logic I/O power supply voltage
VCCIO
Ta = 25°C
-0.3 to +7.0
V
Note 1
Analog power supply voltage
VCI
Ta = 25°C
-0.3 to +7.0
V
Note 1
Temperature for storage
Tstg
-
-30 to +80
Temperature for operation
Topr
Note 2
deg.
-
-20 to +70
deg.
Note 1) If used beyond the absolute maximum ratings, the LSI may permanently be damaged. It is strongly
recommended to use the LSI under the condition within the electrical characteristics in normal operation.
If exposed to the condition not within the electrical characteristics, it may affect the reliability of the
device.
Note 2) Humidity: 80%RH Max. (Ta≤40°C)
Maximum bulb temperature under 39°C (Ta>40°C) See to it that no dew will be condensed.
6. Electrical Characteristics
6-1. DC characteristic
Table6-1
VDD=2.7~3.6V,VDDIO=1.65~3.6V,Ta=25℃
Item
Symbol
Input H Voltage
Input L Voltage
Input H Leak
Current
Input L Leak
Current
Host Interface Voltage
Driver driving
voltage
VIH
VIL
Condition
Min.
Typ.
Max.
Unit
Note
0.7×VDDIO
0
―
―
VDDIO
0.3×VDDIO
V
V
*1
*1
IIH
VIN=VDDIO
-10
―
10
μA
*1
IIL
VIN=VSS
-10
―
10
μA
*1
VDDIO
1.65
3.3
3.6
V
VDD
2.7
3.3
3.6
V
*2
mW
mW
mW
mW
*3,4
*3
*3
*3
Power Consumption
Standy Mode
Still image
1Re-write/30s
30fps Movie
0.1
2.1
2.2
24
*1:Application terminal RESETB, CSB, RS, WR, RD, D[15:00]
*2:When voltage is Typ. 2.7~3.3V at “start Sequence”, it is necessary to input “the following Command”
before input “Normal Command”.
Command:68h
*3:VDD=VDDIO=3.3V,Ta=25℃
*4:Displey OFF,Memory keep
Parameter:00h
LCP-1310002-6
7. Timing characteristics of input signals
7-1 AC Timing
Table7-1
Item
RS
CSB
WR
RD
D[15:00]
Symbol
RS,CSB setup time
RS,CSB hold time
write cycle
tAS
tAH
tCYCW
write cycle
(High-speed writing mode)
tCYCW
Control pulse "L" Width
Control pulse "H" Width
Read cycle
Control pulse "L" Width
Control pulse "H" Width
Data setup time
Data hold time
Read access time
Read access time
tCPLW
tCPHW
tCYCR
tCPLR
tCPHR
tDS
tDH
tACC
tOD
VDD=2.7~3.6V,VDDIO=1.65~3.6V,Ta=25℃
Condition
Min.
Typ.
Max.
Unit
Note
50
―
―
ns
10
―
―
ns
250
―
―
ns
16bit bus,2bit/pixel
250
―
―
ns
8bit bus,2bit/pixel
125
―
―
ns
16bit bus,2bit/pixel
8bit bus,4bit/pixel
62.5
―
―
ns
40
―
―
ns
40
―
―
ns
250
―
―
ns
40
―
―
ns
125
―
―
ns
30
―
―
ns
10
―
―
ns
―
―
60
ns
CL=30pF (max.)
10
―
―
ns
LCP-1310002-7
7-2 Reset Input Timing
Table 7-2
Parameter
Reset low-level width
Reset cansel time
Symbol
tRST
TRST_C
Min.
1.5
-
Typ.
-
Max.
0.3
Unit
us
us
Remark
30%
30%
tRST
8. Power Sequence
tON1
ON Sequence
tON2
OFF Sequence
tOFF1
tOFF2
tON3
VDD
VDDA
RESET
NORMAL
STBY
Command
Table 8-1
Symbol
Min.
Typ.
Max.
Unit
tON1
100
―
―
μs
tON2
―
5
―
ms
tON3
―
24+1V
―
ms
tOFF1
―
32+1V
―
ms
tOFF2
0
―
―
ms
LCP-1310002-8
9. Optical Characteristics
9-1 Driving the Back Light Condition
Table 9-1
Ta=+25°C
Parameter
Symbol
Viewing Angle Range
θ21,
Condition
Min.
Typ.
Max.
55
Unit
Remark
degree
θ22
[Note1,2]
CR>2
θ11,
55
degree
θ12
Contrast Ratio
Response
Rise
CR
θ=0°
τr
15
-
10
ms
20
ms
0.31
-
0.33
-
16
%
θ=0°
Time
Decay
[Note3,4]
τd
x
White Chromaticity
θ=0°
[Note4,5]
y
Reflection ratio
R
θ=0°
*The measuring method of the optical characteristics is shown by the following figure.
* A measurement device is Minolta luminance meter CM2002. (With the diffusion reflection unit.)
Normal line
Photo detector
(with luminosity correction system)
Chemical coated surface
(Optical diffusion treatment)
A diffusion beam
[Note2,4,5]
A diffusion beam
A beam
(through an optical fiber)
Module
Center of display
Optical characteristics measuring
measuring method (b
(b)
[Note6]
LCP-1310002-9
[Note 1] Definitions of viewing angle range
Normal Line
θ21
θ12
θ22
θ11
[Note 2] Definition of contrast ratio
The contrast ratio is defined as the following:
Luminance (brightness) with all pixels white
Contrast ratio (CR) =
Luminance (brightness) with all pixels black
[Note 3] Definition of response time
The response time is defined as the following figure and shall be measured by switching
the input signal for “black” and “white”
Black
Photo detector output
(Relative value)
Black
90%
90%
10%
10%
White
τr
τd
Time
[Note 4] This shall be measured at center of the screen.
[Note 5] A measurement device is Minolta CM-2002.
[Note 6] Definition of reflection ratio
The contrast ratio is defined as the following:
Contrast ratio (R) =
Light detected level of the reflection by the LCD module
Light detected level of the reflection by the standard white board
White
LCP-1310002-10
10. Explanation of Function
10.1. Basic Operation
This IC stores image data input from HOST in internal RAM and outputs the image from source terminal S [160:1] accordingly to
source output configuration.
We will call the operation of HOST inputting image data to this IC (writing into internal RAM) “RAM
Write”, and host reading image data from internal RAM “RAM Read”, and outputting image data from this IC to the panel “Panel
Transfer”.
Timing of each of these operations is accordingly to command from the HOST (Detail is in latter page.).
data input only is transferred to the panel.
Primarily, image
Aside from image data transmitting, registers can be set up to control each function.
By
reading the register, condition of inside the IC can be checked.
Data bus width can be set either 16bit or 8bit by setting up BUSSEL terminal.
16bitbus transmits image data with terminal D [15:0] to and from HOST.
For command receiving from HOST and register access, use
terminal D [7:0].
8bitbus uses terminal D [7:0] for image data transmitting, receiving command from HOST and register access.
RAM Write
There are two kinds of RAM Write:
RAM Write
All screen RAM
Write
Partial RAM Write
Operation
Command
Inputs data of once screen panel size set in register (PSIZEX and PSIZEY)
LDIMG
Inputs image data equal partial area set up in register (PTLAREA).
LDIMGPTL
RAM Read
There are two kinds of RAM Read:
RAM Read
All screen RAM Read
Partial RAM Read
Operation
Reads data of once screen panel size set in register (PSIZEX and PSIZEY)
Reads image data equal partial area set up in register (PTLAREA).
Command
RDIMG
RDIMGPTL
Panel Transfer
There are two kinds of Panel Transfer:
Panel Transfer
All screen Panel
Transfer
Partial Panel
Transfer
Operation
Command
Transfers data of once screen panel size set in register (PSIZEX and PSIZEY) to the panel
DISP
Transfers image data equal partial area set up in register (PTLAREA) to the panel
DISPPTL
10.2. Command Transfer
Data control from HOST uses two way data bus (D[15:0].
Control Signal
CSB
WR
RD
RS
The control signals are CSB, WR, RD and RS.
Function
Chip Select
When L, this input interface is active
When H, inactive
Write enable
Reads data D by WR rise
Read enable
Reads data D by RD fall. At the time of write operation, it should be fixed at H.
Recognition of input data D
When WR rises and RS=L, recognizes D{7:0} as command.
When WR rises and RS=H, recognizes D[15:0] as data.
LCP-1310002-11
10.2.1. Write Operation
An example of write cycle (WR goes from H→L→H) is shown below.
Make sure to input command first. After that, write data as necessary. Until new command is input, it will continue
operation accordingly to the original command.
Command
Data
Data
Command
Command setting only:
Command
Setting command and parameter:
Command
+ Parameter1
…
ParameterN
Setting command and image data:
Command
+ Image data
…
Image data
The Period of “Transfer Command (DISP, DISPPTL) writing” to “500ns”, please do not write as followings
10.2.2. Read Oepration
An example of read cycle (RD goes H→L→H) is shown below.
Command
Data
Data
Command setting:
Command (Output is Dummy Data)
Setting command and parameter:
Command , Parameter1
Setting command and image data:
Command , Dummy Data , Image data
…
Data
ParameterN
…
Image data
LCP-1310002-12
10.3. Data Protocol
Data protocol for transmission of data (image, command, register) with HOST is supported as shown below.
Data protocol is decided by register PRTCLSEL. Along with protocol, terminal BUSSEL also needs to be set up.
Terminal BUSSEL designates data bus width on hardware. Width is 8bit when L and 16 bit when H.
Same protocol is applied regardless of data transmission.
Table 10-1
BUSSEL
Data bus
L
8
H
16
Register
PRTCLSEL[2:0]
000
001
010
000
001
010
101
110
Bit/Pixel
1bit
2bit
4bit
1bit
2bit
4bit
2bit
4bit
note
D[15:8] is fixed at ”L”
When RAM write, D[15:8] inputs “L”
When RAM read, D[15:8] outputs “L”
①
②
③
④
⑤
⑥
⑦
⑧
Virtual location on RAM (with panel upper left as original point)
Data
[3]
Pixel(1,1)[P1]
Data Data Data
[2]
[1]
[0]
Data
[3]
Pixel(2,1)[P2]
Data Data Data
[2]
[1]
[0]
Data
[3]
Pixel(3,1)[P3]
Data Data Data
[2]
[1]
[0]
Data
[3]
Pixel(4,1)[P4]
Data Data Data
[2]
[1]
[0]
…
…
…
…
8bit bus(BUSSEL:”L”)
①1bit/pixel(PRTCLSEL:000)
1st
2nd
3rd
…
D7
D6
D5
D4
D3
D2
D1
D0
P0
Data
[3]
P1
Data
[3]
P2
Data
[3]
P3
Data
[3]
P4
Data
[3]
P5
Data
[3]
P6
Data
[3]
P7
Data
[3]
P8
Data
[3]
P9
Data
[3]
P10
Data
[3]
P11
Data
[3]
P12
Data
[3]
P13
Data
[3]
P14
Data
[3]
P15
Data
[3]
P16
Data
[3]
P17
Data
[3]
P18
Data
[3]
P19
Data
[3]
P20
Data
[3]
P21
Data
[3]
P22
Data
[3]
P23
Data
[3]
②2bit/pixel(PRTCLSEL:001)
1st
2nd
3rd
…
…
D7
…
D6
…
D5
…
D4
…
D3
…
D2
…
D1
…
D0
P0
Data
[3]
P0
Data
[2]
P1
Data
[3]
P1
Data
[2]
P2
Data
[3]
P2
Data
[2]
P3
Data
[3]
P3
Data
[2]
P4
Data
[3]
P4
Data
[2]
P5
Data
[3]
P5
Data
[2]
P6
Data
[3]
P6
Data
[2]
P7
Data
[3]
P7
Data
[2]
P8
Data
[3]
P8
Data
[2]
P9
Data
[3]
P9
Data
[2]
P10
Data
[3]
P10
Data
[2]
P11
Data
[3]
P11
Data
[2]
③4bit/pixel(PRTCLSEL:010)
1st
2nd
3rd
…
…
D7
…
D6
…
D5
…
D4
…
D3
…
D2
…
D1
…
D0
P0
Data
[3]
P0
Data
[2]
P0
Data
[1]
P0
Data
[0]
P1
Data
[3]
P1
Data
[2]
P1
Data
[1]
P1
Data
[0]
P2
Data
[3]
P2
Data
[2]
P2
Data
[1]
P2
Data
[0]
P3
Data
[3]
P3
Data
[2]
P3
Data
[1]
P3
Data
[0]
P4
Data
[3]
P4
Data
[2]
P4
Data
[1]
P4
Data
[0]
P5
Data
[3]
P5
Data
[2]
P5
Data
[1]
P5
Data
[0]
…
…
…
…
…
…
…
…
LCP-1310002-13
16bit bus (BUSSEL:”H”)
④1bit/pixel(PRTCLSEL:000)
1st
2nd
3rd
…
⑤2bit/pixel(PRTCLSEL:001)
1st
2nd
3rd
…
⑥4bit/pixel(PRTCLSEL:010)
1st
2nd
3rd
…
D15
L
L
L
…
D15
L
L
L
…
D15
L
L
L
…
D14
L
L
L
…
D14
L
L
L
…
D14
L
L
L
…
D13
L
L
L
…
D13
L
L
L
…
D13
L
L
L
…
D12
L
L
L
…
D12
L
L
L
…
D12
L
L
L
…
D11
L
L
L
…
D11
L
L
L
…
D11
L
L
L
…
D10
L
L
L
…
D10
L
L
L
…
D10
L
L
L
…
D9
L
L
L
…
D9
L
L
L
…
D9
L
L
L
…
D8
L
L
L
…
D8
L
L
L
…
D8
L
L
L
…
P0
Data
[3]
P1
Data
[3]
P2
Data
[3]
P3
Data
[3]
P4
Data
[3]
P5
Data
[3]
P6
Data
[3]
P7
Data
[3]
P8
Data
[3]
P9
Data
[3]
P10
Data
[3]
P11
Data
[3]
P12
Data
[3]
P13
Data
[3]
P14
Data
[3]
P15
Data
[3]
P16
Data
[3]
P17
Data
[3]
P18
Data
[3]
P19
Data
[3]
P20
Data
[3]
P21
Data
[3]
P22
Data
[3]
P23
Data
[3]
…
D7
…
D6
…
D5
…
D5
…
D4
…
D4
…
D3
…
D3
…
D2
…
D2
…
D1
…
D1
…
D0
P8
Data
[3]
P8
Data
[2]
P9
Data
[3]
P9
Data
[2]
P10
Data
[3]
P10
Data
[2]
P11
Data
[3]
P11
Data
[2]
D7
D6
P4
Data
[3]
P4
Data
[2]
P5
Data
[3]
P5
Data
[2]
P6
Data
[3]
P6
Data
[2]
P7
Data
[3]
P7
Data
[2]
…
…
P0
Data
[3]
P0
Data
[2]
P1
Data
[3]
P1
Data
[2]
P2
Data
[3]
P2
Data
[2]
P3
Data
[3]
P3
Data
[2]
…
D0
P0
Data
[3]
P0
Data
[2]
P0
Data
[1]
P0
Data
[0]
P1
Data
[3]
P1
Data
[2]
P1
Data
[1]
P1
Data
[0]
P2
Data
[3]
P2
Data
[2]
P2
Data
[1]
P2
Data
[0]
P3
Data
[3]
P3
Data
[2]
P3
Data
[1]
P3
Data
[0]
P4
Data
[3]
P4
Data
[2]
P4
Data
[1]
P4
Data
[0]
P5
Data
[3]
P5
Data
[2]
P5
Data
[1]
P5
Data
[0]
D7
D6
D5
D4
D3
D2
D1
D0
…
…
…
…
…
…
…
…
LCP-1310002-14
16bit bus(BUSSEL:”H”)
⑦2bit/pixel(PRTCLSEL:101)
1st
2nd
3rd
…
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
P0
Data
[3]
P0
Data
[2]
P1
Data
[3]
P1
Data
[2]
P2
Data
[3]
P2
Data
[2]
P3
Data
[3]
P3
Data
[2]
P4
Data
[3]
P4
Data
[2]
P5
Data
[3]
P5
Data
[2]
P6
Data
[3]
P6
Data
[2]
P7
Data
[3]
P7
Data
[2]
P8
Data
[3]
P8
Data
[2]
P9
Data
[3]
P9
Data
[2]
P10
Data
[3]
P10
Data
[2]
P11
Data
[3]
P11
Data
[2]
P12
Data
[3]
P12
Data
[2]
P13
Data
[3]
P13
Data
[2]
P14
Data
[3]
P14
Data
[2]
P15
Data
[3]
P15
Data
[2]
P16
Data
[3]
P16
Data
[2]
P17
Data
[3]
P17
Data
[2]
P18
Data
[3]
P18
Data
[2]
P19
Data
[3]
P19
Data
[2]
P20
Data
[3]
P20
Data
[2]
P21
Data
[3]
P21
Data
[2]
P22
Data
[3]
P22
Data
[2]
P23
Data
[3]
P23
Data
[2]
⑧4bit/pixel(PRTCLSEL:110)
1st
2nd
3rd
…
…
D15
…
D14
…
D13
…
D12
…
D11
…
D10
…
D9
…
D8
…
D7
…
D6
…
D5
…
D4
…
D3
…
D2
…
D1
…
D0
P0
Data
[3]
P0
Data
[2]
P0
Data
[1]
P0
Data
[0]
P1
Data
[3]
P1
Data
[2]
P1
Data
[1]
P1
Data
[0]
P2
Data
[3]
P2
Data
[2]
P2
Data
[1]
P2
Data
[0]
P3
Data
[3]
P3
Data
[2]
P3
Data
[1]
P3
Data
[0]
P4
Data
[3]
P4
Data
[2]
P4
Data
[1]
P4
Data
[0]
P5
Data
[3]
P5
Data
[2]
P5
Data
[1]
P5
Data
[0]
P6
Data
[3]
P6
Data
[2]
P6
Data
[1]
P6
Data
[0]
P7
Data
[3]
P7
Data
[2]
P7
Data
[1]
P7
Data
[0]
P8
Data
[3]
P8
Data
[2]
P8
Data
[1]
P8
Data
[0]
P9
Data
[3]
P9
Data
[2]
P9
Data
[1]
P9
Data
[0]
P10
Data
[3]
P10
Data
[2]
P10
Data
[1]
P10
Data
[0]
P11
Data
[3]
P11
Data
[2]
P11
Data
[1]
P11
Data
[0]
…
…
…
…
…
…
…
…
…
…
…
…
…
…
…
…
10.4. ACK Terminal
During panel transfer (ACTIVE) and when CSB is “L”, output from ACK terminal is “L”.
Panel transfer
status
―
―
ACTIVE
WAIT
RESETB
CSB
ACK OUTPUT
L
H
H
H
―
H
L
L
H
L
L
H
When ACK is “L” (ACTIVE), Do not use any command input other than RAM Write.
(It is not a problem in case of RAM Write setting, however, the forwarding command cannot be input.)
LCP-1310002-15
11. Command
11-1 Command explanation
NORMAL[02h]
Executes power ON sequence automatically and switches to NORMAL mode.
STBY[04h]
Executes power OFF sequence automatically and switches to STANDBY mode.
RDIMG[16h]
Enables RAM data read.
By reading data following this command, RAM data for entire display is sequentially read.
(Read protocol is the same as write protocol.)
RDIMGPTL[18h]
Enables RAM data read (rectangular wave access).
By reading data following this command, RAM data for area set in PTLAREA is sequentially read.
(Read protocol is the same as write protocol.)
LDIMG[20h]
Enables data write to RAM.
By writing data following this command, data is sequentially written to RAM area for entire display.
LDIMGPTL[22h]
Enables data write (rectangular wave access) to RAM.
By writing data following this command, data is sequentially written to RAM area for area set in PTLAREA.
PTLAREA[27h]
Sets area for rectangular wave access.
XSTARTL [D7-D0]: Starting address for rectangular wave access (X coordinate low 8bit)※
XSTARTH [D1,D0]: Starting address for rectangular wave access (X coordinate high 2bit)※
YSTARTL [D7-D0]: Starting address for rectangular wave access (Y coordinate low 8bit)
YSTARTH [D1,D0] : Starting address for rectangular wave access (Y coordinate high 2bit)
WIDTHL [D7-D0] : Width of rectangular wave access (low 8 bit)※
WIDTHH [D1,D0] : Width of rectangular wave access (high 2 bit)※
HEIGHTL [D7-D0] : Height of rectangular wave access (low 8 bit)
HEIGHTH [D1,D0] : Height of rectangular wave access (high 2 bit)
※ X coordinate and area width of rectangular wave access starting address should be in pixel unit which can
be transmitted in one data protocol. However, in high speed write mode, it should be set in multiple of 8
regardless of data protocol.
Eg.) In case of 8bitbus 1bit/pixel, data that can be transmitted in one time is 8 pixel worth of data, therefore,
each setting value should be in multiple of 8.
In case of 16bitbus 4bit/pixel, data that can be transmitted in one time is 4 pixel worth of data, therefore,
each setting value should be in multiple of 4.
DISPDIR[28h]
Set up the display.
ROTATION [D1,D0]: [00] none [01] 90 degree turn [10] 180 degree turn [11] 270 degree turn
DITHER[2Bh]
Set up On/Off of dithering function.
This dithers data 4bit/pixel read from RAM. 4 gray scale display dithered 16 gray scale display
DITHER [D0]
: [0]OFF [1]ON
LCP-1310002-16
PRTCLSEL[2Ch]
Select image data protocol.
9.3. Refer to Data Protocol.
MOVIE[2Dh]
Set up ON/OFF of movie mode.
Continues automatic transfer at about 30Hz without using transfer command.
MOVIE
[D0]
: [0]OFF [1]ON
FLOAD[2Eh]
Set up ON/OFF of high speed mode (at 8pixel unit).
FLOAD
[D0]
: [0]OFF [1]ON
DISP[33h]
Transfer RAM data of entire display to the panel.
DISPPTL[35h]
Transfer RAM data of area set up in PTLAREA to the panel.
11-2. Command List
Address
Command R/W/C
(Hex)
02h
NORMAL
C
04h
STBY
C
16h
RDIMG
C
18h
RDIIMGPTL
C
20h
LDIMG
C
22h
LDIMGPTL
C
27h
PTLAREA
D7
D6
D5
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
R/W
28h
DISPDIR
R/W
2Bh
DITHER
R/W
2Ch
PRTCLSEL
R/W
2Dh
MOVIE
R/W
2Eh
FLOAD
R/W
33h
DISP
C
35h
DISPPTL
C
R=Read, W=Write, C=Command D15~D8=Low
Parameter
D4
D3
XSTARTL
L
L
YSTARTL
L
L
WIDTHL
L
L
HEIGHTL
L
L
L
L
L
L
L
L
L
L
L
L
D2
D1
D0
L
XSTARTH
L
YSTARTH
L
WIDTHH
L
L
L
L
HEIGHTH
ROTATION
L
DITHER
PRTCLSEL
L
MOVIE
L
FLOAD
Default
(Hex)
00h
00h
00h
00h
00h
00h
00h
00h
00h
00h
01h
00h
00h
LCP-1310002-17
12. Handling of modules
12-1. Connecting the FPC by the ACF
1) Be sure to turn off the power supply and the signals when connecting the FPC
2) Please connect for too much stress not to join FPC in the case of connection of FPC.
12-2. About handling of FPC
1) Do not dangle the LCD module by holding the FPC, or do not give any stress to it.
11-3. Mounting of the module
1) The module should be held on to the plain surface. Do not give any warping or twisting stress to the
module.
11-4. Cautions in assembly / Handling pre cautions
As the polarizer can be easily scratched, be most careful in handling it.
1) Work environments in assembly.
Working under the following environments is desirable:
a) Implement more than 1MΩ conductive treatment (by placing a conductive mat or applying
conductive paint) on the floor or tiles.
b) No dusts come in to the working room. Place an adhesive, anti-dust mat at the entrance of the room.
c) Humidity of 50 to 70% and temperature of 15 to 27°C are desirable.
d) All workers wear conductive shoes, conductive clothes, conductive fingerstalls and grounding belts
without fail.
e) Use a blower for electrostatic removal. Set it in a direction slightly tilt downward so that each Module
can be well subjected to its wind. Set the blower at an optimum distance between the blower and the
module.
2) How the remove dust on the polarizer
a) Blow out dust by the use of an N² blower with antistatic measures taken. Use of an ionized air gun
is recommendable.
b) When the panel surface is soiled, wipe it with soft cloth.
3) If water dropped, etc. remains stuck on the polarizer for a long time, it is apt to get discolored or cause
stains. Wipe it immediately.
4) As a glass substrate is used for the TFT-LCD panel, if it is dropped on the floor or hit by something
hard, it may be broken or chipped off.
5) Since CMOS LSI is used in this module, take care of static electricity and take the human earth into
consideration when handling.
12-5. Others
1) If stored at temperatures below the rated values, the inner liquid crystal may freeze, causing cell
destruction. At temperatures exceeding the rated values for storage, the liquid crystal may become
isotropic liquid, making it no longer possible to come back to its original state in some cases.
2) If the LCD is broken, do not drink liquid crystal in the mouth. If the liquid crystal adheres to a hand or
foot or to clothes, immediately cleanse it with soap.
3) If a water drop or dust adheres to the polarizer, it is apt to cause deterioration. Wipe it immediately.
4) Be sure to observe other caution items for ordinary electronic parts and components.
5) Epoxy resin (amine series curing agent), silicone adhesive material (dealcoholization series and
oxime series), tray forming agent (azo compound) etc, in the cabinet or the packing materials may
induce abnormal display with polarizer film deterioration regardless of contact or noncontact to
polarizer film.
Be sure to confirm the component of them.
LCP-1310002-18
13. Outline Dimensions
Technical Document
LCD Specification
LCD Group
NORTH AMERICA
Sharp Microelectronics of the Americas
5700 NW Pacific Rim Blvd.
Camas, WA 98607, U.S.A.
Phone: (1) 360-834-8700
Fax: (1) 360-834-8903
www.sharpsma.com
TAIWAN
Sharp Electronic Components
(Taiwan) Corporation
8F-A, No. 16, Sec. 4, Nanking E. Rd.
Taipei, Taiwan, Republic of China
Phone: (886) 2-2577-7341
Fax: (886) 2-2577-7326/2-2577-7328
CHINA
Sharp Microelectronics of China
(Shanghai) Co., Ltd.
28 Xin Jin Qiao Road King Tower 16F
Pudong Shanghai, 201206 P.R. China
Phone: (86) 21-5854-7710/21-5834-6056
Fax: (86) 21-5854-4340/21-5834-6057
Head Office:
No. 360, Bashen Road,
Xin Development Bldg. 22
Waigaoqiao Free Trade Zone Shanghai
200131 P.R. China
Email: [email protected]
EUROPE
Sharp Microelectronics Europe
Division of Sharp Electronics (Europe) GmbH
Sonninstrasse 3
20097 Hamburg, Germany
Phone: 49 (0)180 507 35 07
Fax: (49) 40-2376-2232
www.sharpsme.com
JAPAN
Sharp Corporation
Electronic Components & Devices
22-22 Nagaike-cho, Abeno-Ku
Osaka 545-8522, Japan
Phone: (81) 6-6621-1221
Fax: (81) 6117-725300/6117-725301
www.sharp-world.com
SINGAPORE
Sharp Electronics (Singapore) PTE., Ltd.
438A, Alexandra Road, #05-01/02
Alexandra Technopark,
Singapore 119967
Phone: (65) 271-3566
Fax: (65) 271-3855
HONG KONG
Sharp-Roxy (Hong Kong) Ltd.
Level 26, Tower 1, Kowloon Commerce Centre,
No. 51, Kwai Cheong Road, Kwai Chung,
New Territories, Hong Kong
Phone: (852) 28229311
Fax: (852) 28660779
www.sharp.com.hk
Shenzhen Representative Office:
Room 602-603, 6/F.,
International Chamber of Commerce Tower,
168 Fuhua Rd. 3, CBD,
Futian District, Shenzhen 518048,
Guangdong, P.R. China
Phone: (86) 755-88313505
Fax: (86) 755-88313515
KOREA
Sharp Electronic Components
(Korea) Corporation
RM 501 Geosung B/D, 541
Dohwa-dong, Mapo-ku
Seoul 121-701, Korea
Phone: (82) 2-711-5813 ~ 8
Fax: (82) 2-711-5819
SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE.
Suggested applications (if any) are for standard use; See Important Restrictions for
limitations on special applications. See Limited Warranty for SHARP’s product warranty.
The Limited Warranty is in lieu, and exclusive of, all other warranties, express or implied. ALL EXPRESS AND IMPLIED WARRANTIES, INCLUDING THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR USE AND FITNESS FOR A PARTICULAR PURPOSE,
ARE SPECIFICALLY EXCLUDED. In no event will SHARP be liable, or responsible in
any way, for any incidental or consequential economic or property damage.