HD66206 Datasheet, PDF(14/21 Page) Hitachi Semiconductor – 80-Channel Column/Common Driver for Middle- or Large-sized Liquid Crystal Panel

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

HD66206 Datasheet, PDF (14/21 Pages) Hitachi Semiconductor – 80-Channel Column/Common Driver for Middle- or Large-sized Liquid Crystal Panel

◁

HD66206

DC Characteristics 2 (VCC = 2.7 to 4.5V, GND = 0V, VCC â VEE = 6 to 28V, and Ta = â20 to 75 Â°C,

unless otherwise stated)

Item

Input high

level voltage

Symbol

VIH

Input low level VIL

voltage

Output high VOH

level voltage

Output low VOL

level voltage

Vi-Yj on

RON1

resistance

RON2

Applicable pin Min.

Typ.

CL1, CL2, M,

SHL, (, D0L,

0.8 Ã VCC â

D1R, D2,

D3, FCS, TEST,

and ',632))

&$5, D0L, and VCCâ 0.4 â

D1R

&$5, D0L, and â

D1R

Y1 to Y80, and â

V1 to V4

Max.

VCC

Unit

0.2 Ã VCC V

0.4

2.0

kâ¦

4.0

kâ¦

Conditions

IOH = â0.4 mA

IOL = 0.4 mA

ION = 100 ÂµA

VCC â VEE = 2 8V

Note

1 and 5

1 and 4

Input leakage IIL1

current (1)

Input leakage IIL2

current (2)

Consumption IGND1

current (1)

Consumption IST

current (2)

Consumption IEE1

current (3)

Consumption IGND2

current (4)

Consumption IEE2

current (5)

CL1, CL2, M, â5

SHL, (, D0L,

D1R, D2, D3,

FCS, TEST,

and ',632))

V1 to V4

â25

â5

â 25

â 1.5

â 100

â 500

â 50

â 500

ÂµA VIN = VCC to GND

ÂµA VIN = VCC to VEE

mA fCL2 = 6.5 MHz 2 and 4

fCL1 = 40.6 kHz

fM = 1.8 kHz

ÂµA

VCC = 3.0V

2 to 4

VCC â VEE = 28V

Checker data

ÂµA FCS = high

2 and 4

ÂµA fCL1 = 40.6 kHz 2 and 5

fM = 1.8 kHz

ÂµA

VCC = 3.0V

2 and 5

V â V = 28V

FCS = low

Notes: 1. Indicates the resistance between one pin from Y1 to Y80 and another pin from the V pins V1 to

V4, when a load current is applied to the Y pin; defined under the following conditions:

In column driver operation

V1 and V3 = VCC â 2/10 (VCC â VEE)

V4 and V2 = VEE + 2/10 (VCC â VEE)

In common driver operation

V1 and V3 = VCC â 2/10 (VCC â VEE)

V4 and V2 = VEE + 2/10 (VCC â VEE)

V1 and V3 should be near the VCC level, and V4 and V2 should be near the VEE level. All these

voltage pairs should be separated by less than â V, which is the range within which RON, the

LCD drive circuitsâ output impedance, is stable. Note that â V depends on power supply voltage

VCC â VEE. See Figure 10.

159

▷