PS9402-AX Datasheet PS9402-V-E3-AX, PS9402-AX | P13-P15

PS9402 Chapter Title

R08DS0014EJ0100 Rev.1.00 Page 13 of 22

Jun 22, 2012

Output Supply Voltage V

CC

2 (V)

PROPAGATION DELAY TIME,

PULSE WIDTH DISTORTION

vs. OUTPUT SUPPLY VOLTAGE

Propagation Delay Time t

PHL

, t

PLH

(ns),

Pulse Width Distortion (PWD) t

PHL

– t

PLH

(ns)

Propagation Delay Time t

PHL

, t

PLH

(ns),

Pulse Width Distortion (PWD) t

PHL

– t

PLH

(ns)

15 20 25 30

V

EE

= GND, I

F

= 10 mA,

R

g

= 10 Ω, C

g

= 10 nF,

f = 10 kHz, Duty cycle = 50%

200

150

100

50

0

t

PHL

PWD

t

PLH

PROPAGATION DELAY TIME,

PULSE WIDTH DISTORTION

vs. LOAD CAPACITANCE

Load Capacitance C

g

(nF)

01020

30 40 50

V

CC

2 = 30 V, V

EE

= GND,

I

F

= 10 mA, R

g

= 10 Ω,

f = 10 kHz, Duty cycle = 50%

t

PHL

t

PLH

PWD

PROPAGATION DELAY TIME,

PULSE WIDTH DISTORTION

vs. LOAD RESISTANCE

V

CC

2 = 30 V, V

EE

= GND,

I

F

= 10 mA, C

g

= 10 nF,

f = 10 kHz, Duty cycle = 50%

t

PHL

PWD

t

PLH

Load Resistance R

g

(Ω)

Propagation Delay Time t

PHL

, t

PLH

(ns),

Pulse Width Distortion (PWD) t

PHL

– t

PLH

(ns)

Propagation Delay Time t

PHL

, t

PLH

(ns),

Pulse Width Distortion (PWD) t

PHL

– t

PLH

(ns)

PROPAGATION DELAY TIME,

PULSE WIDTH DISTORTION

vs. AMBIENT TEMPERATURE

Ambient Temperature T

A

(°C)

0−40 −20 20

40 60 80

V

CC

2 = 30 V, V

EE

= GND,

I

F

= 10 mA,

R

g

= 10 Ω, C

g

= 10 nF,

f = 10 kHz, Duty cycle = 50%

t

PHL

t

PLH

100

PWD

200

150

100

50

0

01020

30 40 50

200

150

100

50

0

200

150

100

50

0

Low Level Output Current I

OL

(A)

Low Level Output Voltage V

OL

(V)

LOW LEVEL OUTPUT VOLTAGE vs.

LOW LEVEL OUTPUT CURRENT

0.0

5.0

4.0

3.0

2.0

1.0

0 0.5 1.0 1.5 2.52.0

V

CC

= 30 V,

V

EE

= GND,

I

F

= 0 mA

−40°C

25°C

T

A

= 110°C

Forward Current I

F

(mA)

PROPAGATION DELAY TIME,

PULSE WIDTH DISTORTION

vs. FORWARD CURRENT

Propagation Delay Time t

PHL

, t

PLH

(ns),

Pulse Width Distortion (PWD) t

PHL

– t

PLH

(ns)

7101316

V

CC

2 = 30 V, V

EE

= GND,

R

g

= 10 Ω, C

g

= 10 nF,

f = 10 kHz, Duty cycle = 50%

200

150

100

50

0

t

PHL

PWD

t

PLH

Remark The graphs indicate nominal characteristics.

PS9402 Chapter Title

R08DS0014EJ0100 Rev.1.00 Page 14 of 22

Jun 22, 2012

Ambient Temperature T

A

(°C)

High Level Output Voltage – Output

Supply Voltage V

OH

– V

CC

2 (V)

HIGH LEVEL OUTPUT VOLTAGE –

OUTPUT SUPPLY VOLTAGE vs.

AMBIENT TEMPERATURE

−20 0 20 40 8060−40

0.0

−3.0

−2.5

−2.0

−1.5

−1.0

−0.5

100

−20 0 20 40 8060−40 100

V

CC

2 = 30 V, V

EE

= GND,

I

F

= 10 mA

Ambient Temperature T

A

(°C)

High Level Output Current I

OH

(A)

HIGH LEVEL OUTPUT CURRENT vs.

AMBIENT TEMPERATURE

Ambient Temperature T

A

(°C)

Low Level Output Voltage V

OL

(V)

LOW LEVEL OUTPUT VOLTAGE vs.

AMBIENT TEMPERATURE

0.5

0

0.1

0.2

0.3

0.4

V

CC

2 = 30 V, V

EE

= GND,

I

F

= 10 mA, I

O

= 100 mA

Ambient Temperature T

A

(°C)

Low Level Output Current I

OL

(A)

LOW LEVEL OUTPUT CURRENT vs.

AMBIENT TEMPERATURE

−20 0 20 40 8060−40 100

0

−1

−7

−6

−5

−4

−3

−2

V

CC

2 = 30 V, V

EE

= GND,

I

F

= 10 mA

−20 0 20 40 8060−40

100

5

0

1

2

3

4

V

CC

2 = 30 V, V

EE

= GND,

I

F

= 10 mA

–100 mA

I

O

= –650 A

V

O

= V

CC

2

−4 V

V

O

= V

EE

+15 V

V

EE

+2.5 V

V

CC

2

−15 V

μ

Ambient Temperature T

A

(°C)

HIGH LEVEL SUPPLY CURRENT,

LOW LEVEL SUPPLY CURRENT vs.

AMBIENT TEMPERATURE

High Level Supply Current I

CCH

(mA),

Low Level Supply Current I

CCL

(mA)

−20 0 20 40 8060−40

3.0

2.5

2.0

1.5

1.0

0.5

100

V

CC

2 = 30 V,

V

EE

= GND,

V

O

= OPEN

I

CC2H

(I

F

= 10 mA)

I

CC2L

(I

F

= 0 mA)

Output Supply Voltage V

CC

2 (V)

HIGH LEVEL SUPPLY CURRENT,

LOW LEVEL SUPPLY CURRENT vs.

OUTPUT SUPPLY VOLTAGE

High Level Supply Current I

CCH

(mA),

Low Level Supply Current I

CCL

(mA)

15 20 3025

V

EE

= GND,

V

O

= OPEN

I

CC2H

(I

F

= 10 mA)

I

CC2L

(I

F

= 0 mA)

3.0

2.5

2.0

1.5

1.0

0.5

Remark The graphs indicate nominal characteristics.

PS9402 Chapter Title

R08DS0014EJ0100 Rev.1.00 Page 15 of 22

Jun 22, 2012

Ambient Temperature T

A

(°C)

Blanking Capacitor Discharging Current I

DSCHG

(mA)

BLANKING CAPACITOR DISCHARGING

CURRENT vs. AMBIENT TEMPERATURE

−20 0 20 40 8060−40 100

60

20

30

40

50

V

CC

2 = 30 V, V

EE

= V

E

= GND,

I

F

= 0 mA, V

DESAT

= 7 V

Ambient Temperature T

A

(°C)

DESAT Threshold V

DESATth

(V)

DESAT THRESHOLD vs.

AMBIENT TEMPERATURE

−20 0 20 40 8060−40 100

7.5

6.0

6.3

6.9

6.6

7.2

V

EE

= V

E

= GND,

V

CC

2 > V

UVLO−

, V

O

< 5 V,

I

F

= 10 mA

Ambient Temperature T

A

(°C)

DESAT Sense to 90% V

O

Delay t

DESAT (90%)

(ns)

−20 0 20 40 8060−40 100

500

0

100

300

200

400

DESAT SENSE TO 90% VO DELAY vs.

AMBIENT TEMPERATURE

V

EE

= V

E

= GND, R

g

= 10 Ω,

C

g

= 10 nF, R

F

= 2.1 kΩ,

C

DESAT

= 100 pF, V

CC

1 = 5 V

V

CC

2 = 30 V

15 V

Ambient Temperature T

A

(°C)

DESAT Sense to 10% V

O

Delay t

DESAT (10%)

( s)

−20 0 20 40 8060−40 100

3.0

0.0

1.0

0.5

2.0

1.5

2.5

DESAT SENSE TO 10% VO DELAY vs.

AMBIENT TEMPERATURE

V

CC

1 = 5 V, V

EE

= V

E

= GND, R

g

= 10 Ω,

C

g

= 10 nF, R

F

= 2.1 kΩ, C

DESAT

= 100 pF

V

CC

2 = 30 V

15 V

μ

Ambient Temperature T

A

(°C)

Clamp Low Level Sinking Current I

CL

(A)

CLAMP LOW LEVEL SINKING CURRENT

vs. AMBIENT TEMPERATURE

−20 0 20 40 8060−40 100

4

0

1

2

3

V

CC

2 = 30 V,

V

EE

= V

E

= GND,

V

t

Clamp = 2.5 V

Ambient Temperature T

A

(°C)

Blanking Capacitor Charging Current I

CHG

(mA)

BLANKING CAPACITOR CHARGING

CURRENT vs. AMBIENT TEMPERATURE

−20 0 20 40 8060−40 100

−0.10

−0.35

−0.30

−0.20

−0.25

−0.15

V

CC

2 = 30 V, V

EE

= V

E

= GND,

I

F

= 10 mA, V

DESAT

= 2 V

Remark The graphs indicate nominal characteristics.

PS9402-AX

PS9402-AX

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