IC-DL 参数 Datasheet PDF下载

iC-DL

3-CHANNEL DIFFERENTIAL LINE DRIVER

Rev B1, Page 4/9

ELECTRICAL CHARACTERISTICS

Operating Conditions: VB1...3 = 4.5...32 V, VCC = 4...5.5 V, Tj = -40...140 °C, unless otherwise noted

input level lo = 0...0.45 V, hi = 2.4 V...VCC, timing diagram see fig. 1

Item

No.

001

002

003

004

005

006

007

008

009

010

Symbol

Parameter

Conditions

Min.

VBx

I(VBx)

I(VBx)

I(VBx)

I(VBx)

IO(Ax)

VCC

I(VCC)

I(VCC)

Vc()lo

Supply Voltage Range (Driver)

Supply Current in VB1...3

Supply Current in VB1...3

Supply Current in VB1,

Outputs A1...2 Tri-State

Supply Current in VB2...3, Out-

puts A3...6 Tri-State

Output Leakage Current

Supply Voltage Range (Logic)

Supply Current in VCC

Supply Current in VCC

Clamp Voltage low at pins

VB1...3, A1...6, E1...6, DIFF,

ENA TNER, NER, VCC

Clamp Voltage high at Vcc

Clamp Voltage high at pins

VB1...3, A1...6, E1...6, DIFF,

ENA TNER, NER

Supply Current in VB1...3

Saturation Voltage low

Saturation Voltage low

Short circuit current low

Short circuit current low

Output resistance

Slew Rate low

Free Wheel Clamp Voltage low

Saturation Voltage high

Saturation Voltage high

Short circuit current high

Short circuit current high

Output resistance

Slew Rate high

Free Wheel Clamp Voltage high

ENA = hi, Ax = lo

ENA = hi, Ax = hi

I() = -10 mA, all other pins open

-1.2

Ax = lo

Ax = hi

ENA = lo,

V(A1...2) = -0.3...(VB + 0.3 V)

ENA = lo,

V(A3...6) = -0.3...(VB + 0.3 V)

ENA = lo, V(Ax) = 0 ... VB

-20

4

5

1.5

4

Typ.

Max.

32

1.5

3

1.2

1

20

5.5

10

5

-0.4

V

mA

mA

mA

mA

µA

V

mA

mA

V

Unit

General (x=1..6)

011

012

Vc()hi

Vc()hi

I() = 10 mA

I()

≤

2 mA, all other pins open

5.6

40

7

64

V

V

013

101

102

103

104

105

106

107

201

202

203

204

205

206

207

I(VBx)

Vs(Ax)lo

Vs(Ax)lo

Isc(Ax)lo

Isc(Ax)lo

Rout(Ax)

SR(Ax)lo

Vc(Ax)lo

Vs(Ax)hi

Vs(Ax)hi

Isc(Ax)hi

Isc(Ax)hi

Rout(Ax)

SR(Ax)hi

Vc(Ax)hi

ENA = hi, f(E1...6) = 1 MHz

I(Ax) = 10 mA, Ax = low

I(Ax) = 30 mA, Ax = low

V(Ax) = 1.5 V

V(Ax) = VB, Ax = low

VB = 10...40 V, V(Ax) = 0.5 * VB

VB = 40 V, Cl(Ax) = 100 pF

I(Ax) = -100 mA

Vs(Ax)hi = VB - V(Ax),

I(Ax) = -10 mA

Vs(Ax)hi = VB - V(Ax),

I(Ax) = -30 mA, Ax = hi

V(Ax) = VB - 1.5 V, Ax = hi

V(Ax) = 0 V, Ax = hi

VB = 10...40 V, V(Ax) =0.5 * VB

VB= 40 V, Cl(Ax) = 100 pF

I(Ax) = 100 mA,

VB = VCC = GND

-90

-800

40

200

0.5

40

200

-1.3

40

3

10

0.2

0.4

mA

V

V

mA

mA

Ω

V/µs

V

V

V

mA

mA

Ω

V/µs

V

Driver Outputs A1...6, Low-Side-action (x = 1...6)

60

75

600

90

800

100

-0.5

0.2

0.4

Driver Outputs A1...6, High-Side-action (x = 1...6)

-60

75

400

-40

100

1.3

Inputs E1...6, DIFF, ENA, TNER

601

602

603

604

605

701

Vt()hi

Vt()lo

Vt()hys

Ipd()

Ipd()

VBon

Threshold Voltage high

Threshold Voltage low

Input Hysteresis

Pull-Down-Current

Pull-Down-Current

Threshold Value at VB1 for Un-

dervoltage Detection on

(NER

⇒

low)

Threshold Value at VB1 for Un-

dervoltage Detection off

(NER

⇒

high)

Vt()hys = Vt()hi - Vt()lo

V() = 0.8 V

V()

≤

40 V

|VB1

- VB2| &

|VB2

- VB3| &

|VB1

- VB3| <

0.75 V

|VB1

- VB2| &

|VB2

- VB3| &

|VB1

- VB3| <

0.75 V

3

0.8

200

10

400

800

80

160

3.95

2

V

V

mV

µA

µA

V

Supply Voltage Control VB

702

VBoff

V