ZETTLER AGM2464B1

DISPLAYTRONIC
XIAMEN ZETTLER ELECTRONICS CO., LTD.
SPECIFICATIONS FOR
LIQUID CRYSTAL DISPLAY
AGM2464B1 SERIES GRAPHIC MODULE VER1.2
CUSTOMER APPROVAL
※ PART NO. :
APPROVAL
COMPANY
CHOP
CUSTOMER
COMMENTS
DISPLAYTRONIC ENGINEERING APPROVAL
DESIGN BY
CHECKED BY
APPROVED BY
AGM2464B1 SERIES GRAPHIC MODULE VER1.2
REVISION RECORD
REVISION
REVISION DATE
VER1.1
2006-09-13
VER1.2
8/3-2007
DISPLAYTRONIC
PAGE
CONTENTS
FIRST ISSUE
9
ADD
BL CONTROL CIRCUIT DIAGRAM
XIAMEN ZETTLER ELECTRONICS CO., LTD.
1
AGM2464B1 SERIES GRAPHIC MODULE VER1.2
※ CONTENTS
1.0 MECHANICAL DIAGRAM
2.0 MECHANICAL SPECS
3.0 ABSOLUTE MAXIMUM RATINGS
4.0 ELECTRICAL CHARACTERISTICS
5.0 OPTICAL CHARACTERISTICS
6.0 BLOCK DIAGRAM
7.0 PIN ASSIGNMENT
8.0 APPLICATION
9.0 TIMING CHARACTERISTICS
10.0 RELIABILITY TEST
11.0 DISPLAY CONTROL INSTRUCTION
12.BL CONTROL CIRCUIT DIAGRAM
13.0 PRECAUTION FOR USING LCM
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AGM2464B1 SERIES GRAPHIC MODULE VER1.2
1.0
MECHANICAL DIAGRAM
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3
2.0
AGM2464B1 SERIES GRAPHIC MODULE VER1.2
MECHANICAL SPECS
1. Overall Module Size
2.
3.
4.
5.
6.
7.
8.
9.
180.0mm(W) x 65.0mm(H) x max 14.5mm(D) for LED
backlight version
0.49mm(W) x 0.49mm(H)
0.53mm(W) x 0.53mm(H)
1/64
T6963C
STN FSTN
REFLECTIVE TRANSFLECTIVE TRANSMISSIVE
LED
Wide (-20ºC ~ 70ºC)
Dot Size
Dot Pitch
Duty
Controller IC
LC Fluid Options
Polarizer Options
Backlight Options
Temperature Range Options
3.0 ABSOLUTE MAXIMUM RATINGS
Item
Symbol
Min
Typ
Max
Unit
Operating temperature (Wide temperature)
Top
-20
-
70
ºC
Storage temperature (Wide temperature)
Tst
-30
-
80
ºC
Input voltage
Vin
-0.3
-
Vdd+0.3
V
Vdd- Vss
-0.3
-
7.0
V
Vdd- VLCD
6
-
28
V
Supply voltage for logic
Supply voltage for LCD drive
4.0 ELECTRICAL CHARACTERISTICS
Item
Symbol
Condition
Min
Typ
Max
Unit
Input voltage (high)
Vih
H level
Vdd-2.2
-
Vdd
V
Input voltage (low)
Vil
L level
0
-
0.8
V
Recommended LC Driving
Voltage
Vdd -VLCD
-20ºC
13.3-
0ºC
12.8
25ºC
11.8
70ºC
11.5
Idd
Vdd=5.0V
LED Power Supply Voltage
Vop=(Vp9-Vp20)
-
LED Power Supply Current
Iled(WHITE)
LED Power Supply Current
Iled(Y-G)
Power Supply Current
DISPLAYTRONIC
V
12.0
12.2
-
24.5
35.0
-
5.0
RL=27Ω
-
90
120
mA
RL=2Ω
-
450
600
mA
XIAMEN ZETTLER ELECTRONICS CO., LTD.
mA
V
4
AGM2464B1 SERIES GRAPHIC MODULE VER1.2
5.0 OPTICAL CHARACTERISTICS
Item
Mode
R
S
Cr (Contrast Ratio)
θ (Viewing Angle)
φ (Viewing Angle)
25ºC
25ºC
25ºC
MIN.
TYP.
MIN
TYP.
MIN
TYP.
A
2.8
3.05
80°
85°
-
35°
B
7.10
7.70
80°
85°
-
35°
C
-
-
-
-
-
-
A
2.49
2.99
80°
85°
-
35°
B
7.05
7.55
80°
85°
-
35°
C
-
-
-
-
-
-
Note:
R: Reflective S: Transflective
A: STN Gray
B: STN Yellow
C: FSTN
At: φ =0°, θ =0°
Item
Symbol
Condition
Min
Typ
Max
Unit
Response time (rise)
Tr
25 ºC
-
150
250
ms
Response time (fall)
Tf
25ºC
-
150
250
ms
6.0
BLOCK DIAGRAM
C1
0086
BIAS
C64
S1 - S80
S81 - S160
S160 - S240
0086
0086
0086
LED
Backlight
T6963
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AGM2464B1 SERIES GRAPHIC MODULE VER1.2
7.0
8.0
PIN ASSIGNMENT
Pin No.
Symbol
Function
1
FGND
Frame Ground
2
VSS
Ground
3
VDD
+5V
4
VLCD
5
/WR
6
/RD
Enable signal
7
/CE
Chip Enable
8
C/D
Command/Data
9
LED+
BACKLIGHT LED+(5.0V)
10
/RES
Reset
11
Data bit 0
12
DB0
DB1
13
DB2
Data bit 2
14
DB3
Data bit 3
15
DB4
Data bit 4
16
DB5
Data bit 5
17
DB6
Data bit 6
18
DB7
Data bit 7
19
20
FS
Font Select
LED-
BACKLIGHT LED-(0V)
Power supply for LCD driving
H: Data read
L: Data write
Data bit 1
APPLICATION
D0-D7
P0
DECODE
CS#
Negative
voltage
Generator
(-12V~-15V)
AGM2464B1
51 SERIES MCU
DISPLAYTRONIC
C/D
P3.0
P2
VLCD
WR
WR#
RD
RD#
VLCD
RST
RST#
VSS
XIAMEN ZETTLER ELECTRONICS CO., LTD.
6
AGM2464B1 SERIES GRAPHIC MODULE VER1.2
9.0 TIMING CHARACTERISTICS
Tah
C/D
Tcyc
Taw
Tcc
RD#
WR#
Tds
Tdh
Data
Write
Tacc
Toh
Data
Read
ITEM
Address Setup Time
Address Hold Time
RD#,WR# Cycle
RD#,WR# Pulse Width
Data Setup Time
Data Hold Time (Write)
Data Access Time
Data Hold Time (Read)
SYMBLE
Taw
Tah
Tcyc
Tcc
Tds
Tdh
Tacc
Toh
MIN
10
10
200
80
80
40
MAX
150
50
10
UNIT
ns
ns
ns
ns
ns
ns
ns
ns
10.0 RELIABILITY TEST
Evaluations and Assessment*
Content
Current
Consumption
Oozing
Contrast
Other
Appearances
40ºC,90%
RH,240hrs
Twice initial
value or less
none
More than 80% of
initial value
No abnormality
60ºC,
240hrs
-20ºC,
240hrs
Twice initial
value or less
Twice initial
value or less
none
More than 80% of
initial value
No abnormality
More than 80% of
initial value
No abnormality
Storage Condition
Operation at high
temperature and
humidity
High temperature
storage
Low temperature
storage
*Evaluations and assessment to be made two hours after returning to room temperature (25ºC±5ºC).
*The LCDs subjected to the test must not have dew condensation.
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AGM2464B1 SERIES GRAPHIC MODULE VER1.2
11.0 DISPLAY CONTROL INSTRUCTION
The display control instructions control the internal state of the T6963c.
COMMAND
Control State
CD
RD WR
Code
D7
D6
D5
D4
D3
D2
D1
D0
DESCRIPTION
N2 N1 N0
0 0 1 Set Cursor Pointer
0 1 0 Set Offset Register
1 0 0 Set address Pointer
N1 N0
0 0 Set Text Home Address
1 1 Set Text Area
2 0 Set Graphic Home Address
1
1 Set Graphic Area
CG=0: Internal CG ROM Mode
CG=1: Internal CG ROM Mode
N2 N1 N0 Graphic & Text
0 0 0 OR Mode
0 0 1 Exor Mode
0 1 1 And Mode
1 0 0 Text Attribute Mode
N3=0: Display Off
N3=1: Display On
N2=0:Text Off
N2=1: Text On
N1=0: Cursor Off
N1=1: Cursor On
N0=0: Blink Off
N0=1: Blink On
N2,N1,N0 Line Number of Cursor
N2 N1 N0
0 0 0 1-Line Cursor (Bottom
Line)
1 1 1 8-Line Cursor (8x8Dots)
N1 N0
0
0 Data Auto Write
0
1 Data Auto Read
1
* Auto Reset
N2=0: ADP Variable
N2=1: ADP Nonvariable
N1=0: Increment ADP
N1 =1: Decrement ADP
N0=0: Data Write
N0=1: Data Read
REGISTERS
SETTIBG
1
1
0
0
0
1
0
0
N2
N1
N0
SET
CONTROL
WORD
1
1
0
0
1
0
0
0
0
N1
N0
MODE SET
1
1
0
1
0
0
0
C
G
N2
N1
N0
DISPLAY
MODE
1
1
0
1
0
0
1
N3
N2
N1
N0
CURSOR
PATTERN
SELECT
1
1
0
1
0
1
0
0
N2
N1
N0
DATA AUTO
READ/WRITE
1
1
0
1
0
1
1
0
0
N1
N0
DATA
READ/WRITE
1
1
0
1
1
0
0
0
N2
N1
N0
1
1
0
1
1
1
0
0
0
0
0
Screan Peek
1
1
0
1
1
1
0
1
0
0
0
Screen Copy
BIT
SET/RESET
1
1
0
1
1
1
1
N3
N2
N1
N0
DATA WRITE
0
1
0
Write Data
DATA READ
0
0
1
Read Data
SCREEN
PEEK
SCREEN
COPY
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N3=0: Bit Reset
N3=1: Bit Set
N2, N1, N0 Bit Address
000-D0, 111-D7
Writes data DB0~DB7 into display
data RAM. After writing instruction
Reads data DB0~DB7 from
display data RAM to the data bus.
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AGM2464B1 SERIES GRAPHIC MODULE VER1.2
12.0 BL CONTROL CIRCUIT
13.0 RECAUTION FOR USING LCM
1. When design the product with this LCD Module, make sure the viewing angle matches to its purpose of usage.
2. As LCD panel is made of glass substrate, Dropping the LCD module or banging it against hard objects may
cause cracking or fragmentation. Especially at corners and edges.
3. Although the polarizer of this LCD Module has the anti-glare coating, always be careful not to scratch its
surface. Use of a plastic cover is recommended to protect the surface of polarizer.
4. If the LCD module is stored at below specified temperature, the LC material may freeze and be deteriorated. If
it is stored at above specified temperature, the molecular orientation of the LC material may change to Liquid
state and it may not revert to its original state. Excessive temperature and humidity could cause polarizer peel
off or bubble. Therefore, the LCD module should always be stored within specified temperature range.
5. Saliva or water droplets must be wiped off immediately as those may leave stains or cause color changes if
remained for a long time. Water vapor will cause corrosion of ITO electrodes.
6. If the surface of LCD panel needs to be cleaned, wipe it swiftly with cotton or other soft cloth. If it is not still
clean enough, blow a breath on the surface and wipe again.
7. The module should be driven according to the specified ratings to avoid malfunction and permanent damage.
Applying DC voltage cause a rapid deterioration of LC material. Make sure to apply alternating waveform by
continuous application of the M signal. Especially the power ON/OFF sequence should be kept to avoid latchup of driver LSIs and DC charge up to LCD panel.
8. Mechanical Considerations
a) LCM are assembled and adjusted with a high degree of precision. Avoid excessive shocks and do not
make any alterations or modifications. The following should be noted.
b) Do not tamper in any way with the tabs on the metal frame.
c) Do not modify the PCB by drilling extra holes, changing its outline, moving its components or modifying its
pattern.
d) Do not touch the elastomer connector; especially insert a backlight panel (for example, EL).
e) When mounting a LCM makes sure that the PCB is not under any stress such as bending or twisting.
Elastomer contacts are very delicate and missing pixels could result from slight dislocation of any of the
elements.
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AGM2464B1 SERIES GRAPHIC MODULE VER1.2
f)
Avoid pressing on the metal bezel, otherwise the elastomer connector could be deformed and lose
contact, resulting in missing pixels.
9. Static Electricity
a) Operator
Ware the electrostatics shielded clothes because human body may be statically charged if not ware shielded clothes.
Never touch any of the conductive parts such as the LSI pads; the copper leads on the PCB and the interface terminals
with any parts of the human body.
b) Equipment
There is a possibility that the static electricity is charged to the equipment, which has a function of peeling or
friction action (ex: conveyer, soldering iron, working table). Earth the equipment through proper resistance
(electrostatic earth: 1x108 ohm).
Only properly grounded soldering irons should be used.
If an electric screwdriver is used, it should be well grounded and shielded from commutator sparks.
The normal static prevention measures should be observed for work clothes and working benches; for the latter
conductive (rubber) mat is recommended.
c) Floor
Floor is the important part to drain static electricity, which is generated by operators or equipment.
There is a possibility that charged static electricity is not properly drained in case of insulating floor. Set the
electrostatic earth (electrostatic earth: 1x108 ohm).
d) Humidity
Proper humidity helps in reducing the chance of generating electrostatic charges. Humidity should be kept over
50%RH.
e) Transportation/storage
The storage materials also need to be anti-static treated because there is a possibility that the human body or storage
materials such as containers may be statically charged by friction or peeling.
The modules should be kept in antistatic bags or other containers resistant to static for storage.
f) Soldering
Solder only to the I/O terminals.Use only soldering irons with proper grounding and no leakage.
Soldering temperature : 280°C ± 10°C
Soldering time: 3 to 4 sec.
Use eutectic solder with resin flux fill.
If flux is used, the LCD surface should be covered to avoid flux spatters. Flux residue should be removed
afterwards.
g) Others
The laminator (protective film) is attached on the surface of LCD panel to prevent it from scratches or stains. It should
be peeled off slowly using static eliminator.
Static eliminator should also be installed to the workbench to prevent LCD module from static charge.
10. Operation
a) Driving voltage should be kept within specified range; excess voltage shortens display life.
b) Response time increases with decrease in temperature.
c) Display may turn black or dark blue at temperatures above its operational range; this is (however not
pressing on the viewing area) may cause the segments to appear “fractured”.
d) Mechanical disturbance during operation (such as pressing on the viewing area) may cause the
segments to appear “fractured”.
11. If any fluid leaks out of a damaged glass cell, wash off any human part that comes into contact with soap and
water. The toxicity is extremely low but caution should be exercised at all the time.
12. Disassembling the LCD module can cause permanent damage and it should be strictly avoided.
13. LCD retains the display pattern when it is applied for long time (Image retention). To prevent image retention,
do not apply the fixed pattern for a long time. Image retention is not a deterioration of LCD. It will be removed
after display pattern is changed.
14. Do not use any materials, which emit gas from epoxy resin (hardener for amine) and silicone adhesive agent
(dealcohol or deoxym) to prevent discoloration of polarizer due to gas.
15. Avoid the exposure of the module to the direct sunlight or strong ultraviolet light for a long time.
The brightness of LCD module may be affected by the routing of CCFL cables due to leakage to the chassis
through coupling effect. The inverter circuit needs to be designed taking the level of leakage current into
consideration. Thorough evaluation is needed for LCD module and inverter built into its host equipment to
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10