High Contrast LCD Display

High contrast lcd display
High contrast lcd display ADG16064A0
Model No.ADG16064A0
► High contrast lcd display 160x64, Display LCD160x64
► Monochrome Graphic LCD
► Built-in controller ST7525i-G4.
► 1/65 Duty, 1/9 Bias

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Product Details

High contrast lcd display

High contrast lcd display ADG16064A0

Model No.ADG16064A0

► High contrast lcd display 160x64, Display LCD160x64

► Monochrome Graphic LCD

► Built-in controller ST7525i-G4.

► 1/65 Duty, 1/9 Bias

Description of High contrast lcd display ADG16064A0

High contrast lcd display ADG16064A0 is a dot matrix graphic LCD module which is fabricated by low power COMS technology. It can display160Dots × 64 dots graphic LCD panel. The High contrast lcd display ADG16064A0 combines FSTN /GRAY, Positive, Transflective with RGB backlight.

1. FEATURES

The features of LCD are as follows

* Display mode : FSTN /GRAY, Positive, Transflective

* Color : Display dot :Blue-Black

Background: GRAY

* Display Format : 160Dots × 64Dots graphic

* IC : ST7525i-G4.

* Interface Input Data:I2C

* Driving Method : 1/65 Duty, 1/9 Bias

* Viewing Direction : 6 O’clock

* Backlight : LED(Red-Green-Blue)

2. MECHANICAL SPECIFICATIONS

Item

Specification

Unit

Module Size

44.54(W) X25.4(H) X5(T)

mm

Viewing Area

41.54(W) X 17.6(H)

mm

Effective Display Area

39.5(W) X15.98(H)

mm

Number of Dots

160 X 64 Dots

-

Dot Size

0.227(W) X 0.223(H)

mm

Dot Pitch

0.247(W) X 0.25(H)

mm

3. ELECTRICAL SPECIFICATIONS
3-1. Absolute Maximum Ratings (Vss=0V)

Item

Symbol

Standard Value

Unit

Min.

Typ.

Max.

Supply Voltage For Logic

VDD

-0.3

-

4.0

V

Supply Voltage For LCD Drive

V0-XV0

-0.3

-

+13.5

V

Operating Temp.

TOP

-20

-

+70

°C

Storage Temp.

TST

-30

-

+80

°C

Static Electricity

Be sue that you are ground when handing LCM

3. ELECTRICAL SPECIFICATIONS
3-2-1.Electrical Characteristics

Item

Symbol

Test
 Condition

Min.

Typ.

Max.

Unit

Supply Voltage For Logic

VDD – VSS

Ta=25℃

2.7

3.1

3.3

V

Supply Voltage For LCD

V0 – XV0

Ta=25℃

9.3

9.5

9.7

V

Input Voltage

“H” Level

V IH

Ta=25℃

0.8VDD

-

VDD

V

“L” Level

V IL

VSS

-

0.2VDD

V

Output Voltage

“H” Level

V OH

IOUT= -0.5mA

0.8VDD

-

VDD

V

“L” Level

V OL

IOUT= 0.5mA

VSS

-

0.2VDD

V

Current Consumption

IDD

VIN = VDD

-

1.6

2.0

mA

NOTE: 1) Duty ratio=1/65, Bias=1/9
2) Measured in Dots ON-state

3-3. BACKLIGHT
3-3-1. Absolute Maximum Ratings

Item

Symbol

Condition

Min.

Typ.

Max

Unit

Forward Current

IF

Ta= 25℃

-

-

30

mA

Reverse Voltage

VR

-

-

5

V

Power Dissipation

PD

Ta= 25℃

-

-

-

mW

3-3-2. Opto-electronic Characteristics

Item

Symbol

Condition

Min.

Typ.

Max

Unit

Forward Voltage(Ta= 25℃)

VF(RED)

IF=30mA

1.9

-

2.2

V

VF(GREEN)

IF=45mA

2.8

-

3.2


VF(BLUE)

IF=45mA

2.8

-

3.2


Luminous

-

-

-

-

-

cd/m²

4. Interface Pin Function

Pin NO.

Symbol

I / O

Functions

1

VG

p

LCD driving voltage for segments.
Be aware that: 1.8 ≤ VG < VDD2-0.4V.

2

XVO

p

LCD driving voltage for commons at positive frame.
XV0O is the output of XV0 regulator. XV0S is the feedback of XV0 regulator.
XV0I is the XV0 input of common circuits.
XV0O, XV0I & XV0S should be connected together by ITO.

3

VO

p

LCD driving voltage for commons at negative frame.
V0O is the output of V0 regulator. V0S is the feedback of V0 Regulator.
V0I is the V0 input of common circuits.
Be aware that: V0 ≥ VG > VM > VSS ≥ XV0 (under operation).
V0O, V0I & V0S should be connected together by ITO.

4

VDDA

p

Digital power. If VDD1=VDD2, connect to VDD2 by ITO.
For select pins that are set to be “H”, connect them to this power (use VDD1 for “H”).

5

VDDI

p

Analog power. If VDD1=VDD2, connect to VDD1 by ITO.

6

VSS

p

POWER GROUND

7

VSS

p

POWER GROUND

8

RST

I

Reset input pin.
When RST is “L”, internal initialization is executed.

9

SCL

I/O

When using I2C interface
D[0] : SCL, serial clock input.
D[1] : SDA_IN, serial input data.
D[3:2] : SDA_ OUT, serial data acknowledge for the I2C interface.
D[4] : SCL, serial clock input.
D[7:5] : fix to “H” by VDD1.
D0 and D4 must be connected together for SCL.
D1 to D3 must be connected together for SDA.
Note : SA[1:0] = CS[1:0], I2C slave address bits of ST7525. Must connect to VDD1 or VSS1.

10

SDA

I/O

11

A+

p

POWER FOR  BACKLIHT(ANODE)

12

K-(R)

p

POWER FOR BACKLIHT(CATHODE) Red

13

K-(R)

p

POWER FOR BACKLIHT(CATHODE) greed

14

K-(R)

p

POWER FOR BACKLIHT(CATHODE) blue

FAQ

1.What is RAM Interface

Answer :The external RAM is used to store display data( text, graphic and external CG data ). It can be freely allocated to the memory area( 8 K byte max ).

2.Can graphic LCD module display characters?

A graphic LCD display module is typically required when the display of more than just text is required. Many of the LCD controllers on board also include a CGROM (character generator ROM) to be able to easily use character as well as graphics.

3.What can graphic LCD display ?

This Graphic LCD display module is 160x64 graphic mode --or-- Character Generator mode (Character font) optional.

4.What are the precautions in use of LCD Modules?

(1)Avoid applying excessive shocks to the module or making any alterations or modifications to it.

(2)Don’t make extra holes on the printed circuit board, modify its shape or change the components of LCD module.

(3)Don’t disassemble the LCM.

(4)Don’t operate it above the absolute maximum rating.

(5)Don’t drop, bend or twist LCM.

(6)Soldering: only to the I/O terminals.

图片53_副本.png

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