AZDISPLAYS AGM3224I

AZ DISPLAYS, INC.
COMPLETE LCD SOLUTIONS
SPECIFICATIONS FOR
LIQUID CRYSTAL DISPLAY
PART NUMBER:
DATE:
AGM3224I SERIES
MAR. 13, 2007
LCD Module
Main Data
No.
Item
Contents
Unit
(1) Module size
167.0(W) x 109.0(H) x 8.5 (D)
mm
(2) Viewing area
120.0 (W) x 90.0 (H)
mm
x 3 (R.G.B) (W) x 240 (H)
dots
(3) Dot Number
320
(4) Dot Size
0.10(W) x 0.34(H)
mm
(5) Dot pitch
0.12(W) x 0.36(H)
mm
(6) LCD type
•Color-STN (Negative & transmissive type)
• with Anti glare upper polarizer .
(7) Contrast ratio
-
40
-
1/242
-
(9) Viewing direction
6 O clock
-
(10) Operating temperature
0
~ +50
!C
-20
~ +60
!C
(8) Duty
(11) Storage temperature
(12) Backlight
(13) Power Supply Voltage
LED x 16
VDD=5.0 V
or 3.3 V
Vcon=1.8 V
(14) Weight
AZ DISPLAYS, INC.
200 (Approx.)
pcs
V
g
PAGE 01
0.1
AZ DISPLAYS, INC.
0.34
R
R
1
CN1
16
320X 3(RGB)X 240 DOTS
V IEWING DIRECTION
G B
G B
0.12
0.02
P0.12x320x(RGB)-0.02=115.18 ( LCD AA )
(MITSUMI)
1
CN2
4
M63-M83-04
R ed
Black
Outline Dimension
0.02
0.36
PAGE 02
Interface Pin Connection
CN1
FFC Pitch 1.0mm, width 17.0mm.
Pin No.
Signal
1
FLM
First Line Marker
2
CL1
Input data latch signal ( LOAD )
3
CL2
Data shift clock ( CP )
4
DISP OFF
5
VDD
Power supply for Logic
6
VSS
GND
7
VCON
8
D0
Display data
9
D1
Display data
10
D2
Display data
11
D3
Display data
12
D4
Display data
13
D5
Display data
14
D6
Display data
15
D7
Display data
16
VSS
CN2
Pin Function
Display control signal H:ON
L:OFF
Contrast adjust
GND
M63-M83-04 ( MITSUMI )
Pin No.
Signal
1
LED(+)
Power supply voltage for LED
2
LED(-)
LED GND
Pin No.
Signal
1
LED(+)
2
-
-----------------------
3
-
-----------------------
4
LED(-)
AZ DISPLAYS, INC.
Function
Function
Power supply voltage for LED
LED GND
PAGE 03
Block Diagram
Timing
Circuit
CL1
CL2
DISP
D0~D7
Driving Circuit
Circuit
Y1
Y960
Column
Row Driving
FLM
VDD
Power
VSS
Supply
VCON
CN2
X1
COLOR
LCD
PANEL
320" RGB" 240 DOTS
X240
Circuit
LED
VLED(+)
VLED(-)
AZ DISPLAYS, INC.
PAGE 04
Power supply for Logic
VDD-VSS
-0.3
7.0
Contrast Adjustment Voltage
VCON-VSS
0
VDD
Input voltage (Note 1)
Vi
-0.3
VDD+0.3
Note 1. FLM,CL1,CL2,DISP,D0~D7.
Note 2. Ta=25! C
Note 3. Make certain you are grounded when handling LCM.
Environmental Absolute Maximum Ratings
Operating
Item
MIN.
MAX.
Ambient Temperature
0! C
50! C
Humidity
Note 4
Vibration
-
2.45m/s
Shock
-
29.4m/s
Storage
MIN.
MAX.
-20! C
60! C
Note 4
11.76 m/s
Note 5
490 m/s
Note 5
V
V
V
Remark
Note1,2,3
No Condensation
1h max Note 6
XYZ directions 11ms
Note 1. Ta at -20! C --------<48hours, at 60! C --------<120 hours.
Note 2. Background color changes slightly depending on ambient temperature.
The phenomenon is reversible.
Note 3. Ta<=40! C : 85%RH MAX.
Ta> 40! C : Absolute humidity must be lower than the humidity of 85% RH at 40! C.
Note 4. The module should be operated normally after the test is finished.
Note 5. 5Hz ~ 100Hz (Except resonance frequency).
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PAGE 05
Electrical Characteristics
Electrical Characteristics of LCD
Item
Symbol
Power Supply for Logic
VDD
Input Signal Voltage
VIH
Note (2)
VIL
Power supply current Note (4)
IDD
Icon Note(5)
Input Leak Current
IIN Note(2)
Contrast Adjustment Voltage
Note (1) Note (6)
Frame Frequency
Note (7)
Vcon
fFLM
Condition
VDD-VSS
#H$ Level
#L$ Level
VDD=3.3V
VCON=0.8~2.8V
VIN=VDD or VSS
Ta=0! C, φ=0°
Ta=25! C, φ=0°
Ta=40! C, φ=0°
!
MIN.
3.15
0.8VDD
0
!
!
!
0.3
1.3
!
Typ.
3.3
!
!
95
0.5
!
!
1.8
!
130
150
Max. Unit
5.5
V
VDD
V
0.2VDD
160
mA
1.0
mA
+/- 1.0 µA
!
V
2.3
3.3
170
Hz
Note (1) In proportion as the VCON voltage decrease the brightness will increase.
Note (2) FLM,CL1,CL2,DISPOFF,D0~D7.
RGB
RGB
Note (3) fFLM=150Hz,Ta=25! C,Display pattern is Black/White
cross pattern as below.
Note (4) At all Q pattern.
Note (5) VCON
Note (6) Recommended Contrast Adjustment Voltage fluctuates about " 0.5V by each module.
Note (7) Need to make sure of flickering and rippling of display when setting the Frame
Frequency in your set.
Electrical Characteristics of Backlight
Item
Symbol
Min.
Typ.
Max.
Unit
Voltage
VLED
(4.2)
(4.3)
(4.4)
V
Current
ILED
288.0
mA
Number of LED
16
EA
Power Consumption
1.24
W
Note (1): VLED = VLED(+) %VLED(-) .
Note (2): The current of LED is 18 mA for each one.
LED driving in constant current mode is recommended .
Note (3): LED power consumption is around 0.0775W for each one.
AZ DISPLAYS, INC.
Condition
Note 1
Note 2
Note 3
PAGE 06
Optical Characteristics
Optical Characteristics of LCD
Item
Symbol
Condition
Viewing Angle Range φ1, φ2
θ=0°K&2
Contrast Ratio
Response Time
Rise
tr
Fall
tf
G
B
W
Note 1.
θ=0°,φ=0°
x
y
x
y
x
y
x
R
Color Tone
(CIE Coordinate)
θ=0° φ=0°
θ=0°,φ=0°
K
θ=0°,φ=0°
y
Definition of q and f
φ2
Y(θ=180°)
Typ.
(40)
20
40
-
(250)
-
ms
-
(200)
-
ms
(0.44)
(0.26)
(0.26)
(0.49)
(0.10)
(0.07)
(0.22)
(0.27)
(0.49)
(0.31)
(0.31)
(0.54)
(0.15)
(0.12)
(0.27)
(0.32)
(0.54)
(0.36)
(0.36)
(0.59)
(0.20)
(0.17)
(0.32)
(0.37)
-
Note 2
-
Definition of Viewing angle f 1 and f 2
CR
Eye from (θ,φ2)
φ1
X
X
θ
Y(θ=0°)
AZ DISPLAYS, INC.
Min.
-
Note 2.
Eye from (θ,φ1)
Ta= 25! C.(Backlight On)
Max.
Unit
Remark
Deg.
Note 1,2
Note 2
2.0
φ1<0°<φ2
φ1
φ2
CR vs Viewing and φ
PAGE 07
Definition of Contrast Ratio CR!
CR=
Sensor
Brightness at selected dot (B1)
Brightness at non-selected dot (B2)
B1
φ
Brightness
B1
B2
LCD
Backlight
B2
Sensor : BM-7
Aperture : 1!
Operation voltage
Note 4.
Distance : 50 cm
Definition of CR! and VOP!
CR
VOP
Note 5.
Operation Voltage
Definition of optical response time
Selected state
10%
Non-selected state
90%
100%
Brightness
Non-selected state
tr
Rise time
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tf
Fall time
PAGE 08
Optical Characteristics of Backlight
Item
Min,
Brightness
100
Brightness Uniformity
-
Typ.
150
-
Max.
' 30
Unit
2
cd/m
%
Remark
Note 1,2,3
Note 2,3,4
Note 1. Measurement Condition:
• Display data should be all #ON$ (D0~D7=HIGH).
• VDD=5.0V, VLED=4.3V, ILED=288mA,VCON should be adjusted at the voltage where
the peak contrast is obtained by naked eyes as the #All Q$ pattern.
Note 2. Measurement of the following 5 points on the display.
Y=160 Y=480
Y=800
dots
Active area
X=60
X=120
X=180
P1
P4
P3
P2
P5
dots
Note3. The brightness shall be the average of P1~P5 point.
Note 4. Definition of the brightness Uniformity
(
Max brightness or Min brightness %Average brightness
AZ DISPLAYS, INC.
Average brightness
)
x100%
PAGE 09
Interface Timing Chart
Timing
Chart
CL1
(240+n)xT
FLM
D0~D7
X1
X2
X239 X240
Dummy data
T
CL1
CL2
X2
X1
D7
R0
B2
G5
B314
G317
D6
G0
R3
B5
R315
B317
D5
B0
G3
R6
G315
R318
D4
R1
B3
G6
B315
G318
D3
G1
R4
B6
R316
B318
D2
B1
G4
R7
G316
R319
D1
R2
B4
G7
B316
G319
D0
G2
R5
B7
R317
B319
AZ DISPLAYS, INC.
PAGE 10
Electrical Characteristics
(MODE1)
(VDD=3.0~4.5V , V0= +10.0~ +42.0V, Ta=+0! C~50! C)
Item
Symbol
Min.
Typ.
Max.
Unit
Shift clock period
tWCK
66
ns
Shift clock #H$ pulse wide
tWCKH
23
ns
Shift clock #L$ pulse wide
tWCKL
23
ns
Data setup time
tDS
10
ns
Data hold time
tDH
25
ns
Latch pulse #H$ pulse wide
tWLPH
30
ns
Shift clock rise to latch pulse rise time
tLD
10
ns
Shift clock fall to latch pulse fall time
tSL
30
ns
Latch pulse rise to shift clock rise time
tLS
30
ns
Latch pulse fall to shift clock fall time
tLH
30
ns
Enable setup time
tTS
12
ns
Input signal rise time
tR
50
ns
Input signal fall time
tF
50
ns
Output delay time
tD
44
ns
FLM setup time
tFS
30
ns
FLM hold time
tFH
50
ns
Note 1: (tWCK - tWCKH - tWCKL)/2 is maximum in the case of high speed operation
tWLPH
VIH
CL1
CL2
tLD
tR
D0~D7
tLS
tSL
VIL
tLH
tWCKH
tWCKL
VIH
VIL
tF
tWCK
tDS
VIH
VIL
LAST DATA
tDH
TOP DATA
Horizontal retrace period
VIH
VIL
CL1
tDS
tDH
1
2
..
20
CL2
tFS
tFH
FLM
AZ DISPLAYS, INC.
PAGE 11
(MODE2)
(VDD=4.5~5.5V , V0= +10.0~ +42.0V, Ta=+0! C~50! C)
Item
Symbol
Min.
Typ.
Max.
Unit
Shift clock period
tWCK
40
ns
Shift clock #H$ pulse wide
tWCKH
12
ns
Shift clock #L$ pulse wide
tWCKL
14
ns
Data setup time
tDS
5
ns
Data hold time
tDH
15
ns
Latch pulse #H$ pulse wide
tWLPH
15
ns
Shift clock rise to latch pulse rise time
tLD
5
ns
Shift clock fall to latch pulse fall time
tSL
25
ns
Latch pulse rise to shift clock rise time
tLS
25
ns
Latch pulse fall to shift clock fall time
tLH
25
ns
Enable setup time
tTS
5
ns
Input signal rise time (Note 1)
tR
50
ns
Input signal fall time (Note 1)
tF
50
ns
Output delay time
tD
28
ns
FLM setup time
tFS
30
ns
FLM hold time
tFH
50
ns
Note 1: (tWCK - tWCKH - tWCKL)/2 is maximum in the case of high speed operation
AZ DISPLAYS, INC.
PAGE 12
Power Supply and Signal Sequence
Do not apply DC voltage to the LCD panel because that induces the electrochemical
reaction and reduces its life time. Please follow the power supply ON/OFF sequence
to prevent DC driving of LCD or latch-up of COMS LSI, as shown below.
max 1ms
VDD
VDD
VSS
Sig
VSS
(FRM, CL1, CL2, DATA)
VCON
VCON
VSS
min0
min0 V I
VSS
VI
VI
VI
min0
VSS
min0
VI
VI
VCON
VI
VI
min 1FRM
DISPOFF
VDD
VI
VI
min0
VI
VSS
VSS
VI
VSS
min 1ms
POWER ON
POWER OFF
Note 1. Please keep the specified sequence because wrong sequence may cause
permanent damage to the LCD panel.
Note 2. Please use DISPOFF function. Switching by other than the DISPOFF
function may cause display deterioration.
Note 3. VCON voltage should be set up to adjusted voltage before DISPOFF signal
arises. Otherwise, when DISPOFF signal arises, adjusted contrast image
may not be generated.
Note 4. Please keep the specified sequence of DISPOFF signal because if the
signal is short enough, LCD panel may not be restarted. (min. 1ms)
AZ DISPLAYS, INC.
PAGE 13
Input Data Allocation Table
D D D D D
Data Signal
7 6 5 4 3
Y
1
X
1
2
3
4
5
6
7
8
9
10
|
|
|
238
239
240
R
R
R
R
R
R
R
R
R
R
|
|
|
R
R
R
2
G
G
G
G
G
G
G
G
G
G
|
|
|
G
G
G
3
B
B
B
B
B
B
B
B
B
B
|
|
|
B
B
B
4
R
R
R
R
R
R
R
R
R
R
|
|
|
R
R
R
5
G
G
G
G
G
G
G
G
G
G
|
|
|
G
G
G
D
2
6
B
B
B
B
B
B
B
B
B
B
|
|
|
B
B
B
D
1
7
R
R
R
R
R
R
R
R
R
R
|
|
|
R
R
R
D
0
8
G
G
G
G
G
G
G
G
G
G
|
|
|
G
G
G
D
7
9
B
B
B
B
B
B
B
B
B
B
|
|
|
B
B
B
D
6
D
4
D
4
D
3
D
2
D
1
D
0
10 11 12
9
5
6
9
5
7
9
5
8
9
5
9
9
6
0
G
G
G
G
G
G
G
G
G
G
|
|
|
G
G
G
B
B
B
B
B
B
B
B
B
B
|
|
|
B
B
B
R
R
R
R
R
R
R
R
R
R
|
|
|
R
R
R
G
G
G
G
G
G
G
G
G
G
|
|
|
G
G
G
B
B
B
B
B
B
B
B
B
B
|
|
|
B
B
B
R
R
R
R
R
R
R
R
R
R
|
|
|
R
R
R
D
5
G
G
G
G
G
G
G
G
G
G
|
|
|
G
G
G
B
B
B
B
B
B
B
B
B
B
|
|
|
B
B
B
-------
R : RED
G : GREEN
B : BLUE
AZ DISPLAYS, INC.
PAGE 14