HCNR200#300 Avago Technologies US Inc., HCNR200#300 Datasheet - Page 10

Photodiode-Output Optocoupler,1-CHANNEL,5kV ISOLATION,DIP

HCNR200#300

Manufacturer Part Number

HCNR200#300

Description

Photodiode-Output Optocoupler,1-CHANNEL,5kV ISOLATION,DIP

Manufacturer

Avago Technologies US Inc.

Datasheet

1.HCNR201-500E.pdf (19 pages)

Specifications of HCNR200#300

Number Of Channels

1

Input Type

DC

Voltage - Isolation

5000Vrms

Current Transfer Ratio (min)

0.25% @ 10mA

Current Transfer Ratio (max)

0.75% @ 10mA

Current - Dc Forward (if)

25mA

Output Type

Linear Photovoltaic

Mounting Type

Surface Mount, Gull Wing

Package / Case

8-SMD Gull Wing

Output Device

Linear Photovoltaic

Number Of Elements

1

Reverse Breakdown Voltage

2.5V

Forward Voltage

1.95V

Forward Current

25mA

Collector-emitter Voltage

Not RequiredV

Package Type

PDIP W SMD

Collector Current (dc) (max)

Not RequiredA

Isolation Voltage

5000Vrms

Power Dissipation

60mW

Collector-emitter Saturation Voltage

Not RequiredV

Current Transfer Ratio

Not Required%

Pin Count

8

Mounting

Surface Mount

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Voltage - Output

-

Current - Output / Channel

-

Vce Saturation (max)

-

Lead Free Status / Rohs Status

Not Compliant

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Figure 2. Normalized K3 vs. input I

Figure 5. NL

Figure 8. Typical photodiode leakage vs.

temperature.

10

1.06

1.04

1.02

1.00

0.98

0.96

0.94

0.035

0.025

0.015

0.005

10.0

0.03

0.02

0.01

0.00

8.0

6.0

4.0

2.0

0.0

0.0

-55

-55

I

PD1

NORMALIZED TO BEST-FIT K3 AT T

10.0

– INPUT PHOTODIODE CURRENT – µA

BF

-25

-25

vs. temperature.

T

= NORM K3 MEAN

= NORM K3 MEAN ± 2 • STD DEV

T

A

A

20.0

= NL

= NL

– TEMPERATURE – °C

– TEMPERATURE – °C

5 nA < I

5

HCNR200 fig 2

0 V < V

0 V < V

5

CNR200 fig 8

HCNR200 fig 5

BF

BF

V

PD

30.0

50TH PERCENTILE

90TH PERCENTILE

PD

35

PD

= 15 V

PD

35

< 15 V

< 50 µA

< 15 V

40.0

65

65

PD

.

50.0

A

95

= 25°C,

95

60.0

125

125

Figure 3. K3 drift vs. temperature.

Figure 6. NL

Figure 9. LED input current vs. forward voltage.

0.0001

-0.005

-0.015

-0.005

-0.015

0.015

0.005

0.015

0.005

0.001

-0.01

-0.02

-0.01

-0.02

0.02

0.01

0.02

0.01

0.01

100

0.0

0.0

0.1

10

1

1.20

-55

-55

BF

V

-25

-25

drift vs. temperature.

F

– FORWARD VOLTAGE – VOLTS

= DELTA NL

= DELTA NL

1.30

T

T

= DELTA K3 MEAN

= DELTA K3 MEAN ± 2 • STD DEV

A

A

– TEMPERATURE – °C

– TEMPERATURE – °C

5 nA < I

0 V < V

5

5

HCNR200 fig 6

HCNR200 fig 3

CNR200 fig 9

1.40

PD

BF

BF

35

PD

35

0 V < V

T

< 50 µA

MEAN

MEAN ± 2 • STD DEV

< 15 V

A

= 25°C

PD

65

65

1.50

< 15 V

95

95

1.60

125

125

Figure 4. I

Figure 7. Input photodiode CTR vs. LED input

current.

Figure 10. LED forward voltage vs. temperature.

-0.01

-0.02

-0.03

1.2

1.1

1.0

0.9

0.8

0.7

0.6

0.5

0.4

0.3

0.2

0.03

0.02

0.01

0.00

1.8

1.7

1.6

1.5

1.4

1.3

1.2

0.0

-55

0.0

I

PD1

PD2

2.0

-25

10.0

I

– INPUT PHOTODIODE CURRENT – µA

error vs. input I

F

– LED INPUT CURRENT – mA

NORMALIZED TO K1 CTR

4.0

T

AT I

T

A

A

= ERROR MEAN

= ERROR MEAN ± 2 • STD DEV

= 25 °C, 0 V < V

– TEMPERATURE – °C

0 V < V

20.0

F

5

HCNR200 fig 7

HCNR200 fig 10

6.0

= 10 mA, T

HCNR200 fig 4

I

F

= 10 mA

PD1

8.0 10.0

30.0

35

-55°C

-40°C

< 15 V

PD

A

(see note 4).

PD

= 25°C

25°C

40.0

65

< 15 V

12.0

100°C

85°C

50.0

95

14.0 16.0

60.0

125

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