P RODUCT S PECIFICATIONS
Liquid Crystal Displays Group LQ035Q7DH06
Advanced TFT LCD Module
TFT-
Advanced TFT-
240 × RGB × 320 pixels
(Spec. No.: LCP-05020B)
Spec. Issue Date: July 15, 2005
14 Brightness Change 20,21Indicated contents of the label Change
hardness Change 2 Surface
22 Fitting CN for ROHS Change
LCP-05020-1
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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 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.
(1)Application
This specification applies to LQ035Q7DH06
(2)Overview
This module is a color active matrix LCD module incorporating amorphous silicon TFT (Thin Film Transistor), named AD-TFT (Advanced TFT). It is practicable in both transmissive-type and reflection-type modes. It is composed of a color TFT-LCD panel, driver ICs, an FPC, a back light, a touch panel and a back sealed casing. It isn’t composed control circuit. Graphics and texts can be displayed on a 240×3×320 dots panel with 262,144 colors by supplying.
Optimum view angle is 6 o’clock. An inverted display mode is selective in the vertical or the horizontal direction.
(3)Mechanical specifications
【Note 3-1】
Excluding protrusion, Including FPC cover portion
For detailed measurements and tolerances, please refer to Fig. 1.
(4)Pixel configuration
(5)Input/Output terminal
5-1)TFT-LCD panel driving section
Table 2 Recommendation CN:FH12A-50S-0.5SH(HIROSE)
Pin No. Symbol I/O Description Remarks
1 VL1 I Power supply for LED (High voltage)
2 NC -
3 VL2 I Power supply for LED (Low voltage)
4 VEE -Power supply of gate driver(low level)
5 VSHD -Power supply of digital
6 DGND -Ground(digital)
7 CLS I Clock signal of gate driver
8 DGND -Ground(digital)
9 SPS I Start signal of gate driver
10 U/L I Selection for vertical scanning direction 【Note5-1】
11 MOD I Control signal of gate driver 【Note5-2】
12 VDD -Power supply of gate driver(high level)
13 VCOM I Common electrode driving signal
14 DGND -Ground(digital)
15 SPR I/O Sampling start signal
16 DGND -Ground(digital)
17 VSHA -Power supply(analog)
18 LBR I Selection for horizontal scanning direction 【Note5-3】
19 PS I Power save signal
(Please don’t carry out use by “Low” fixation)
20 REV I reverse control signal 【Note5-4】
21 DGND -Ground(digital)
22 B5 I BLUE data signal(MSB)
23 B4 I BLUE data signal
24 B3 I BLUE data signal
25 B2 I BLUE data signal
26 B1 I BLUE data signal
27 B0 I BLUE data signal(LSB)
28 LP I Data latch signal of source driver
29 DGND -Ground(digital)
30 SPL I/O Sampling start signal
31 DGND -Ground(digital)
32 DCLK I Data sampling clock signal
33 DGND -Ground(digital)
34 G5 I GREEN data signal(MSB)
35 G4 I GREEN data signal
36 G3 I GREEN data signal
37 G2 I GREEN data signal
38 G1 I GREEN data signal
39 G0 I GREEN data signal(LSB)
Pin No. Symbol I/O Description Remarks
40 DGND -Ground(digital)
41 R5 I RED data signal(MSB)
42 R4 I RED data signal
43 R3 I RED data signal
44 R2 I RED data signal
45 R1 I RED data signal
46 R0 I RED data signal(LSB)
47 AGND-Ground(analog)
Produce REV signal with the amplitude of AGND-VSHA【Note5-4】
48 COM O
49 DGND -Ground(digital)
50 DGND -Ground(digital)
【Note5-1】Selection for vertical scanning direction
U/L Scanning direction (Pixel configuration)
Low Normal scanning ( X , 1 )
↓
( X , 320 )
High Inverted scanning ( X , 1)
↑
( X , 320)
【Note5-2】See section(7-1)-(A) ”※Cautions when you turn on or off the power supply”.
【Note5-3】Selection for horizontal scanning direction
LBR SPL SPR Scanning direction (Pixel configuration)
High Input Output Normal scanning (1,Y) → (240,Y)
Input Inverted scanning (1,Y) ← (240,Y)
Low Output
【Note5-4】
“H” “L”“H”“L”
REV(IN)
VSHA
COM(OUT)
AGND
VCOM(IN)
5-2) Touch panel driving section
Table 3 Recommendation CN:0.4(1.0)9FLH-RSM1-TB(JST)
Pin No. Symbol I/O Description Remark T1 YU -Y (12 o’clock side)
T2 XL -X (right side)
T3 YD -Y (6 o’clock side)
T4 XR -X (left side)
(6)Absolute Maximum Ratings
Table 4
Unit
Ratings
Remark
Condition
Parameter Symbol
Power supply(source/Analog) VSHA Ta=25℃ -0.3~+7.0 V
Power supply(source/Digital) VSHD Ta=25℃ -0.3~+7.0 V
Power supply (gate) VDD Ta=25℃ -0.3~+35.0 V
Power supply (gate) VDD-VEE Ta=25℃ -0.3~+35.0 V
Input voltage (Digital) VID Ta=25℃ -0.3~VSHD+0.3 V [Terminal①]
Operating temperature
Topp - -10~70 ℃【Note6-1】
(panel surface)
Storage temperature Tstg - -25~70 ℃【Note6-1】
[Terminal①] MOD,U/L,SPS,CLS,SPL,R0~R5,G0~G5,B0~B5,LP,DCLK,LBR,SPR,PS,REV
【Note6-1】Humidity: 95%RH Max.(at Ta ≦ 40℃). Maximum wet-bulb temperature is less than 39℃
(at Ta > 40℃). Condensation of dew must be avoided.
The maximum humidity in the temperature
(7)Electrical characteristics
7-1)Recommended operating conditions
A) TFT-LCD panel driving section
Table 5 GND=0V
Remarks
Unit
Typ.
Max.
Parameter Symbol Min.
VSHA+4.5 +5.0 +5.5 V
Supply voltage for source driver
(Analog)
Supply voltage for source driver
VSHD+3.0 +3.3 +3.6 V
(Digital)
Supply voltage
High voltage VDD +14.5 +15.0 +15.5 V
for gate driver
-10.5
-9.5
V
-10.0
VEE
Low
voltage
Input voltage for Source driver (Low) VILS GND - 0.2VSHD V 【Note 7-1】
Input voltage for Source driver (High) VIHS 0.8VSHD- VSHD V 【Note 7-1】
Input current for Source driver (Low) I ILS - - 30 μA 【Note 7-1】
I IHS1 - - 30 μA 【Note 7-2】
Input current for Source driver (High)
μA 【Note 7-3】
I IHS2 - - 1200
Input voltage for Gate driver (Low) VILG GND - 0.2VSHD V 【Note 7-4】
Input voltage for Gate driver (High) VIHG0.8VSHD- VSHD V 【Note 7-4】
Input current for Gate driver (Low) I ILG - - 4 μA 【Note 7-4】
Input current for Gate driver (High) I IHG - - 4 μA 【Note 7-4】
Common electrode AC component VCOMAC- ±2.5 ±2.6 Vp-p 【Note 7-5】
【Note 7-5】
driving signal DC component VCOMDC-0.8 +0.2 +1.2 V
※ C autions when you turn on or off the power supply
① Turn on or off the power supply with simultaneously or the following sequence.
② The input signal of “MOD” Terminals (Pin No.11) must be low voltage when turning on the
power supply, and it is held until more than double vertical periods after DATA are turned on
completely. After then, it must be held high voltage until turning off the power supply. (Connect
Pin No.11 terminals to the same signal.)
0≦T1
【Note 7-1】DCLK,SPL,SPR,LBR,LP,PS,REV,R0~R5,G0~G5 and B0~B5 terminals are applied.
【Note 7-2】DCLK,SPL,SPR,LBR,LP,REV,R0~R5,G0~G5 and B0~B5 terminals are applied.
【Note 7-3】PS terminal is applied.
【Note 7-4】MOD,CLS,SPS and U/L terminals are applied.
【Note 7-5】VCOMAC should be alternated on VCOMDC every 1 horizontal period and 1 vertical period.
VCOMDC bias is adjusted so as to minimize flicker or maximum contrast every each module.
B) Back light driving section
Table 6 Ta=25℃
terminal
Remarks Parameter Symbol
MIN TYP MAX
Units LED voltage V L-19.2 21.6 V
LED current I L-20 22 mA
Power consumption W L-0.384 -W 【Note 7-6】
【Note 7-6】Calculated reference value(I L×V L)
7-2) Timing Characteristics of input signals
Table 7 AC Characteristics (1) (VSHA=+5V , VSHD=+3.3V , Ta=25℃) Parameter Symbol
Min.Typ.Max. Unit Remark Clock frequency of source driver
fCK 4.5 - 6.8 MHz Rising time of clock
Tcr - - 20 ns Falling time of clock
Tcf - - 20 ns Pulse width (High level)
Tcwh 40 - - ns Pulse width (Low level)
Tcwl 40 - - ns DCLK Frequency of start pulse
fsp 16.5- 28 kHz Setup time of start pulse
Tsusp 15 - - ns Hold time of start pulse Thsp 10 - - ns Pulse width of start pulse
Twsp - - 1.5/f CK ns SPL,SPR 【Note 7-7】 Setup time of latch pulse
Tsulp 20 - - ns Hold time of latch pulse
Thlp 20 - - ns LP Pulse width of latch pulse
Twlp 60 - - ns Setup time of PS
Tsups 0 - - μs Setup time of PS
Tsulps 1 - - μs Hold time of PS
Thps 0 - - μs Source
driver Hold time of PS
Thlps 30 - - ns PS Set up time of data
Tsud 15 - - ns Hold time of data
Thd 10 - - ns R0~R5,G0~G5 ,B0~B5 Clock frequency
fcls 16.5- 28 kHz Pulse width of clock(Low)
Twlcls 5 - (1/fcls)-30 μs Pulse width of clock(High)
Twhcls 30 - - μs Rising time of clock
Trcls - - 100 ns Falling time of clock
Tfcls - - 100 ns Setup time of clock Tsucls 3 - - μs Hold time of clock
Thcls 0 - - μs CLS Frequency of start pulse
fsps 58 - 86 Hz Setup time of start pulse
Tsusps 100 - - ns Hold time of start pulse
Thsps 300 - - ns Rising time of start pulse
Trsps - - 100 ns Gate
driver Falling time of start pulse
Tfsps - - 100 ns SPS Vcom
Setup time of Vcom Tsuvcom 0 - - μs Vcom Hold time of Vcom Thvcom 1 - - μs
【Note 7-7】There must be only one up-edge of DCLK (includes Tsusp and Thsp time) in the period of SPL=”Hi”.
7-3)Power consumption
Measurement condition : SPS=60Hz,CLS=15.73kHz,SPL=15.73kHz,DCLK=6.3MHz
The term of PS=”Lo” in one horizontal period … 37μsec(234DCLK)
Ta=25℃
Table 9 when normal scan mode Parameter Sym
Conditions MIN
TYP
MAX
Unit
Remarks
Analog ISHA VSHA
=+5.0V - 3.0 6.0 mA 【Note 7-8】
Source
current Digital ISHD VSHD
=+3.3V - 1.5 3.0 mA 【Note 7-8】
High IDD
VDD
=+15.0V -0.05 0.10 mA 【Note 7-9】
Gate
current Low IEE
VEE
=-10.0V --0.05 -0.10 mA 【Note 7-9】
【Note 7-8】Vertical stripe pattern alternating 21 gray scale (GS21) with 42 gray scale (GS42) every 1 dot. 【Note 7-9】64-Gray-bar vertical pattern (GS0 ~GS63 for horizontal way)
(8)Input Signals, Basic Display Color and Gray Scale of Each Color
Table 10
Colors & Data signal
Gray scale Gray
R0 R1 R2 R3 R4 R5G0G1G2G3G4G5B0 B1 B2 B3B4B5 Scale
Black -000000000000000000
Blue -000000000000111111
Green -000000111111000000 Basic color
Cyan -000000111111111111
Red -111111000000000000 Magenta -111111000000111111 Yellow -111111111111000000 White -111111111111111111 Black GS0000000000000000000
×GS1100000000000000000 Gray Scale of red
Darker GS2010000000000000000×èèèè
?èèèèBrighter GS61101111000000000000?GS62011111000000000000
Red GS63111111000000000000 Black GS0000000000000000000
×GS1000000100000000000 Gray Scale of green
Darker GS2000000010000000000×èèèè
?èèèèBrighter GS61000000101111000000?GS62000000011111000000 Green GS63000000111111000000 Black GS0000000000000000000
×GS1000000000000100000 Gray Scale of bleu
Darker GS2000000000000010000×èèèè
?èèèèBrighter GS61000000000000101111?GS62000000000000011111 Bleu GS63000000000000111111
0 :Low level voltage 1 :High level voltage
Each basic color can be displayed in 64 gray scales from 6 bit data signals. According to the combination of total 18 bit data signals, the 262,144-color display can be achieved on the screen.
(9) Optical characteristics
9-1)Not driving the Back light condition Table 11 (VSHA=+5V, VSHD=+3.3V, VDD=+15V, VEE=-10V ,Ta=25℃) Parameter Symbol Condition Min Typ Max Unit Remarks θ21,22 35 50 - degree [Note 9-1,2] θ11 CR ≥1.5 35 50 - degree Viewing angle
range
θ12 35 50 - degree Contrast ratio
CRmax θ =0° 2 3 - [Note 9-2,4] Response Rise
τ r - 30 60 ms [Note 9-3] time Fall τ d - 50 100 ms White chromaticity
x 0.27 0.32 0.37 [Note 9-4] y θ =0° 0.30 0.35 0.40 Reflection ratio R θ =0°
2.5 4 - % [Note
9-5]
* The measuring method of the optical characteristics is shown by the following figure.
* A measurement device is Otsuka luminance meter LCD5000.(With the diffusion reflection unit.)
Center of display Measuring method (a) for optical characteristics
A beam
9-2)Driving the Back light condition
* The measuring method of the optical characteristics is shown by the following figure.
* A measurement device is TOPCON luminance meter BM-5(A).(Viewing cone 1)
Photodetector(including luminosity facter)
Touch panel
LCD module
Center
Measuring method (c) for optical characteristics
[Note 9-1] Viewing angle range is defined as follows.
6o’clock direction
Normal line
Definition for viewing angle
[Note 9-2] Definition of contrast ratio:
The contrast ratio is defined as follows:
Photodetecter output with all pixels white(GS63)
Contrast ratio(CR)=
Photodetecter output with all pixels black(GS0)
V COMAC =5.0Vp-p
[Note 9-3] 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".
0%
10%
90%
100%
Photodetecter output (arbitrary unit)
[Note 9-4] A measurement device is Minolta CM-2002.
[Note 9-5] Definition of reflection ratio
Reflection ratio =
[Note 9-6] A measurement device is ELDIM EZContrast
[Note 9-7] This is the reference value. The White-LED life time is defind as a time when brightness not to become
under 50% of the original value(at Ta=25℃)
(10) Touch panel characteristics Table 13
Parameter Min. Typ. Max. Unit Remark Input voltage
- 5.0 7.0 V Resistor between terminals(XL-XR)
200 - 640 Ω Resistor between terminals(YU-YD)
150 - 550 Ω Provisional specification Line linearity(X direction)
- - 1.5 % Line linearity(Y direction)
- - 1.5 % Insuration resistance
20 - - M Ω at DC25V Minimum tension for detecting
- - 0.79 N
(11) Display quality
The display quality of the color TFT-LCD module shall be in compliance with
the Incoming Inspection Standards for TFT-LCD..
(12) Mechanical characteristics
12-1) External appearance
See Fig. 1
12-2) FPC (for LCD panel) characteristics
(1)Specific connector
FH12A-50S-0.5SH (HIROSE)
(2) Bending endurance of the bending slits portion
No line of the FPC is broken for the bending test (Bending radius=0.6mm and
angle=90°) in 30 cycles.
12-3) Design guidance for touchpanel(T/P)
12-3-1) Example of housing design
(1)If a consumer will put a palm on housing in normal usage, care should be taken as follows.
(2)Keep the gap, for example 0.3 to 0.7mm, between bezel edge and T/P surface.
The reason is to avoid the bezel edge from contacting T/P surface that may cause a “short”
with bottom layer. (See Fig.2)
(3)Insertion a cushion material is recommended.
(4)The cushion material should be limited just on the busbar insulation paste area.
If it is over the transparent insulation paste area, a ”short” may be occurred.
(5)There is one where a resistance film is left in the T/P part of the end of the pole.
Design to keep insulation from the perimeter to prevent from mis-operation and so on.
Light detected level of the reflection by the LCD module Light detected level of the reflection by the standard white board
12-3-2) Mounting on display and housing bezel
(1)In all cases, the T/P should be supported from the backside of the Plastic.
(2)Do not to use an adhesive-tape to bond it on the front of T/P and hang it to the housing bezel.
(3)Never expand the T/P top layer (PET-film) like a balloon by internal air pressure.
The life of the T/P will be extremely short.
(4)Top layer, PET, dimension is changing with environmental temperature and humidity.
Avoid a stress from housing bezel to top layer, because it may cause “waving”.
(5)The input to the Touchpanel sometimes distorts touch panel itself.
Fig.2
Insulation Paste
Prohibition Area 0.3 ~0.7mm