HCPL-2601-300E Avago Technologies US Inc., HCPL-2601-300E Datasheet - Page 17

OPTOCOUPLER LOG-OUT 10MBD GW SMD

HCPL-2601-300E

Manufacturer Part Number

HCPL-2601-300E

Description

OPTOCOUPLER LOG-OUT 10MBD GW SMD

Manufacturer

Avago Technologies US Inc.

Datasheet

1.HCPL-0600-500E.pdf (22 pages)

Specifications of HCPL-2601-300E

Package / Case

8-SMD Gull Wing

Voltage - Isolation

3750Vrms

Number Of Channels

1, Unidirectional

Current - Output / Channel

50mA

Data Rate

10MBd

Propagation Delay High - Low @ If

50ns @ 7.5mA

Current - Dc Forward (if)

20mA

Input Type

DC

Output Type

Open Collector

Mounting Type

Surface Mount, Gull Wing

Isolation Voltage

3750 Vrms

Maximum Continuous Output Current

50 mA

Maximum Fall Time

0.01 us

Maximum Forward Diode Current

20 mA

Minimum Forward Diode Voltage

1.4 V

Output Device

Logic Gate Photo IC

Configuration

1 Channel

Maximum Baud Rate

10 MBd(Typ)

Maximum Forward Diode Voltage

1.75 V

Maximum Reverse Diode Voltage

5 V

Maximum Power Dissipation

85 mW

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

No. Of Channels

1

Optocoupler Output Type

Logic Gate

Input Current

15mA

Output Voltage

7V

Opto Case Style

SMD

No. Of Pins

8

Common Mode Ratio

5000

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Other names

516-1661-5

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Bonase Electronics (HK) Co., Limited

Part Number:

HCPL-2601-300E

Manufacturer:

AVAGO

Quantity:

30 000

Company:

Meier Automation Equipment Co., Limited

Meier Automation Equipment Co., Limited

Part Number:

HCPL-2601-300E

Manufacturer:

AVAGO/安华高

Quantity:

20 000

Current page: 17 of 22
Download datasheet (214Kb)

PULSE GEN.

t = t = 5 ns

MONITORING

f

Z

O

Figure 8. Test circuit for t

Figure 9. Typical propagation delay vs. tem-

perature.

Figure 11. Typical pulse width distortion vs.

temperature.

17

= 50 Ω

r

INPUT

NODE

100

80

60

40

20

-10

30

20

10

0

40

-60

0

-60

t

V

I

PHL

F

CC

R

-40

I

= 7.5 mA

F

-40

M

t

= 5.0 V

, R

PLH

T

A

R

T

-20

R

L

A

L

-20

– TEMPERATURE – °C

L

= 350 Ω

, R

= 350Ω

- TEMPERATURE -

= 4 kΩ

1

2

3

4

1 KΩ

4 KΩ

L

0

SINGLE CHANNEL

t

0

= 350 Ω

PLH

PHL

20

R

20

L

, R

and t

t

PLH

= 1 kΩ

40

L

40

= 1 KΩ

PLH

, R

V

I

F

60

.

CC

L

= 7.5 mA

60

GND

V

= 4 KΩ

CC

= 5.0 V

o

C

80

80

8

7

6

5

OUTPUT

100

100

INPUT

V

I

*C

F

O

0.1μF

BYPASS

L

Figure 10. Typical propagation delay vs. pulse

input current.

Figure 12. Typical rise and fall time vs. tempera-

ture.

IS APPROXIMATELY 15 pF WHICH INCLUDES

PROBE AND STRAY WIRING CAPACITANCE.

*C

105

300

290

L

60

40

20

90

75

60

45

30

+5 V

0

-60

t

5

PHL

t

R

I

V

I

PHL

F

F

V

T

L

CC

-40

CC

A

– PULSE INPUT CURRENT – mA

= 7.5 mA

OUTPUT V

MONITORING

NODE

= 25°C

T

, R

= 5.0 V

= 5.0 V

7

A

-20

t

L

– TEMPERATURE – °C

PLH

= 350 Ω

R

R

R

R

L

L

1 KΩ

4 KΩ

L

L

0

, R

= 1 kΩ

= 350 Ω

= 350 Ω, 1 kΩ, 4 kΩ

9

= 4 kΩ

O

L

20

= 350 Ω

t

t

MONITORING

t

PLH

PLH

PLH

11

40

PULSE GEN.

t = t = 5 ns

f

, R

Z

, R

O

INPUT

NODE

L

L

60

= 50 Ω

r

= 1 KΩ

= 4 KΩ

13

t

t

RISE

FALL

80

R

I

F

M

1.5 V

100

I

I

F

F

15

= 7.50 mA

= 3.75 mA

1

2

3

4

DUAL CHANNEL

GND

V

CC

7

8

6

5

0.1μF

BYPASS

+5 V

R

C

L

L

*

OUTPUT V

MONITORING

NODE

O

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