HCPL-2602-300E Avago Technologies US Inc., HCPL-2602-300E Datasheet - Page 10

OPTOCOUPLER, TRANSISTOR, 3750VRMS

HCPL-2602-300E

Manufacturer Part Number

HCPL-2602-300E

Description

OPTOCOUPLER, TRANSISTOR, 3750VRMS

Manufacturer

Avago Technologies US Inc.

Type

Line Receiverr

Datasheet

1.HCPL-2612-000E.pdf (16 pages)

Specifications of HCPL-2602-300E

No. Of Channels

1

Optocoupler Output Type

Logic Gate

Input Current

60mA

Output Voltage

5.5V

Opto Case Style

SMD

No. Of Pins

8

Peak Reflow Compatible (260 C)

Yes

Isolation Voltage

3.75kV

Voltage - Isolation

3750Vrms

Input Type

AC, DC

Voltage - Supply

4.5 V ~ 5.5 V

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

8-SMD Gull Wing

Number Of Elements

1

Output Type

Open Collector

Baud Rate

10Mbps

Forward Voltage

2.7V

Forward Current

60mA

Output Current

50mA

Package Type

PDIP SMD

Operating Temp Range

0C to 70C

Power Dissipation

40mW

Propagation Delay Time

75ns

Pin Count

8

Mounting

Surface Mount

Reverse Breakdown Voltage

0.95V

Operating Temperature Classification

Commercial

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Bonase Electronics (HK) Co., Limited

Part Number:

HCPL-2602-300E

Manufacturer:

AVAGO

Quantity:

30 000

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Figure 10. Test circuit for t

Figure 6. Test circuit for t

10

Figure 8. Typical propagation delay vs. pulse

input current.

PULSE GEN.

t = t = 5 ns

MONITORING

f

Z

105

O

90

75

60

45

30

7.5 mA

= 50

r

PULSE GEN.

t = t = 5 ns

OUTPUT

5

I

f

INPUT

*C

NODE

Z

I

t

INPUT

PHL

I

O

V

T

I

L

CC

A

– PULSE INPUT CURRENT – mA

V

= 50

IS APPROXIMATELY 15 pF WHICH INCLUDES

PROBE AND STRAY WIRING CAPACITANCE.

V

r

E

OUTPUT

= 25°C

O

, R

= 5 V

INPUT

7

*C

R

I

t

L

I

M

PLH

L

V

1

2

3

4

= 350

I

I

O

IS APPROXIMATELY 15 pF WHICH INCLUDES

PROBE AND STRAY WIRING CAPACITANCE.

1 K

4 K

, R

MONITORING NODE

9

t

EHL

L

1

2

3

4

= 350

t

PHL

INPUT V

t

PLH

PLH

EHL

t

11

and t

PHL

and t

, R

, R

L

L

PLH

E

ELH

= 1 K

= 4 K

13

.

.

GND

V

CC

t

ELH

8

7

6

5

GND

15

V

CC

t

PLH

7

8

6

5

0.1 µF

BYPASS

Figure 9. Typical pulse width distortion vs.

temperature.

*C

-10

1.5 V

L

3.0 V

1.5 V

30

20

10

40

+5 V

0.1µF

BYPASS

0

-60

R

*C

1.5 V

L

I

I

I

I

-40

L

+5 V

OUTPUT V

MONITORING

NODE

= 7.50 mA

= 3.75 mA

R

T

R

R

A

L

-20

L

L

= 350 k

– TEMPERATURE – °C

= 4 k

OUTPUT V

MONITORING

NODE

0

O

R

20

L

= 1 k

O

40

V

I

I

CC

= 7.5 mA

60

= 5 V

80

100

Figure 7. Typical propagation delay vs.

temperature.

Figure 11. Typical enable propagation delay

vs. temperature.

100

120

80

60

40

20

90

60

30

0

0

-60

-60

t

V

I

V

V

V

I

PHL

I

I

CC

CC

EH

EL

= 7.5 mA

= 7.5 mA

-40

-40

t

= 0 V

, R

= 3 V

= 5 V

PLH

T

= 5 V

T

A

A

-20

-20

L

– TEMPERATURE – °C

– TEMPERATURE – °C

t

t

t

= 350

, R

EHL

ELH

ELH

1 K

4 K

L

0

0

, R

t

, R

, R

= 350

PLH

L

L

L

20

20

= 350

= 4 k

= 1 k

, R

t

PLH

t

ELH

40

L

40

= 1 K

, R

, R

60

1 k

60

L

L

= 4 K

= 350

80

80

4 k

100

100

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