MT8812 데이터 시트보기 (PDF) - Mitel Networks

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MT8812

8 x 12 Analog Switch Array

Mitel Networks 

MT8812 ISO-CMOS

Absolute Maximum Ratings*- Voltages are with respect to VSS unless otherwise stated.

Parameter

Symbol

Min

Max

Units

1 Supply Voltage

2 Analog Input Voltage

3 Digital Input Voltage

4 Current on any I/O Pin

VDD

VSS

VINA

VIN

I

-0.3

-0.3

-0.3

VSS-0.3

16.0

V

VDD+0.3

V

VDD+0.3

V

VDD+0.3

V

±15

mA

5 Storage Temperature

TS

-65

+150

°C

6 Package Power Dissipation

PLASTIC DIP

PD

CERDIP

PD

0.6

W

1.0

W

* Exceeding these values may cause permanent damage. Functional operation under these conditions is not implied.

Recommended Operating Conditions - Voltages are with respect to VSS unless otherwise stated.

Characteristics

Sym Min Typ Max Units

Test Conditions

1 Operating Temperature

2 Supply Voltage

3 Analog Input Voltage

4 Digital Input Voltage

TO

0

25

70

°C

VDD 4.5

14.5

V

VINA VSS

VDD

V

VIN

VSS

VDD

V

DC Electrical Characteristics†- Voltages are with respect to VSS=0V, VDD =14V unless otherwise stated.

Characteristics

Sym Min Typ‡ Max Units

Test Conditions

1 Quiescent Supply Current

IDD

2 Off-state Leakage Current

IOFF

(See G.9 in Appendix)

1

100

µA All digital inputs at VIN=VSS or

VDD

7

15

mA All digital inputs at VIN=2.4V

±1

±500

nA IVXi - VYjI = VDD - VSS

See Appendix, Fig. A.1

3 Input Logic “0” level

VIL

0.8

V

4 Input Logic “1” level

VIH

2.4

V

5 Input Leakage (digital pins) ILEAK

0.1

10

µA All digital inputs at VIN = VSS

or VDD

† DC Electrical Characteristics are over recommended temperature range.

‡ Typical figures are at 25°C and are for design aid only; not guaranteed and not subject to production testing.

DC Electrical Characteristics- Switch Resistance - VDC is the external DC offset applied at the analog I/O pins.

Characteristics

Sym 25°C

60°C

70°C Units

Test Conditions

Typ Max Typ Max Typ Max

1 On-state VDD=14V RON 45 65

75

Resistance VDD=12V

60 85

95

VDD=10V

65 95

110

VDD= 5V

145 220

260

(See G.1, G.2, G.3 in

Appendix)

2 Difference in on-state ∆RON 5 10

10

10

resistance between two

switches

(See G.4 in Appendix)

Ω VSS=0V,VDC=VDD/2,

Ω IVXi-VYjI = 0.4V

Ω See Appendix, Fig. A.2

Ω

Ω VDD=14V, VSS=0,

VDC=VDD/2,

IVXi-VYjI = 0.4V

See Appendix, Fig. A.2

3-30

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