HCNR201-500E Avago Technologies US Inc., HCNR201-500E Datasheet - Page 19

HCNR201-500E

Manufacturer Part Number

HCNR201-500E

Description

OPTOCOUPLER, PHOTODIODE, 5000VRMS

Manufacturer

Avago Technologies US Inc.

Datasheet

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

Specifications of HCNR201-500E

No. Of Channels

Optocoupler Output Type

Photodiode

Input Current

25mA

Output Voltage

15V

Opto Case Style

SMD

No. Of Pins

Isolation Voltage

5kV

Number Of Channels

Input Type

Voltage - Isolation

5000Vrms

Current Transfer Ratio (min)

0.36% @ 10mA

Current Transfer Ratio (max)

0.72% @ 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

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

Power Dissipation

60mW

Collector-emitter Saturation Voltage

Not RequiredV

Current Transfer Ratio

Not Required%

Pin Count

Mounting

Surface Mount

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Output

Current - Output / Channel

Vce Saturation (max)

Lead Free Status / Rohs Status

Compliant

Other names

516-1773-2
HCNR201-500E

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Current page: 19 of 19
Download datasheet (416Kb)

The final circuit shown in Figure 19 isolates a bipolar

analog signal using only one optocoupler and generates

two output signals: an analog signal proportional to the

magnitude of the input signal and a digital signal cor‑

responding to the sign of the input signal. This circuit is

especially useful for applications where the output of

the circuit is going to be applied to an analog‑to‑digital

converter. The primary advantages of this circuit are very

good linearity and offset, with only a single gain adjust‑

ment and no offset or balance adjustments.

To achieve very high linearity for bipolar signals, the

gain should be exactly the same for both positive and

negative input polarities. This circuit achieves excellent

linearity by using a single optocoupler and a single input

resistor, which guarantees identical gain for both posi‑

tive and negative polarities of the input signal. This pre‑

cise matching of gain for both polarities is much more

difficult to obtain when separate components are used

for the different input polarities, such as is the previous

circuit.

The circuit in Figure 19 is actually very similar to the pre‑

vious circuit. As mentioned above, only one optocoupler

is used. Because a photodiode can conduct current in

only one direction, two diodes (D1 and D2) are used to

steer the input current to the appropriate terminal of

input photodiode PD1 to allow bipolar input currents.

Normally the forward voltage drops of the diodes would

cause a serious linearity or accuracy problem. However,

an additional amplifier is used to provide an appropriate

offset voltage to the other amplifiers that exactly cancels

the diode voltage drops to maintain circuit accuracy.

Diodes D3 and D4 perform two different functions; the

diodes keep their respective amplifiers active indepen‑

dent of the input signal polarity (as in the previous cir‑

cuit), and they also provide the feedback signal to PD1

that cancels the voltage drops of diodes D1 and D2.

Either a comparator or an extra op‑amp can be used to

sense the polarity of the input signal and drive an inex‑

pensive digital optocoupler, like a 6N139.

It is also possible to convert this circuit into a fully bipolar

circuit (with a bipolar output signal) by using the output

of the 6N139 to drive some CMOS switches to switch the

polarity of PD2 depending on the polarity of the input

signal, obtaining a bipolar output voltage swing.

For product information and a complete list of distributors, please go to our website:

Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries.

AV02-0886EN - November 18, 2008

www.avagotech.com

HCNR200/201 SPICE Model

Figure 20 is the net list of a SPICE macro‑model for the

HCNR200/201 high‑linearity optocoupler. The macro‑

model accurately reflects the primary characteristics of

the HCNR200/201 and should facilitate the design and

understanding of circuits using the HCNR200/201 opto‑

coupler.

HCNR201-500E Avago Technologies US Inc., HCNR201-500E Datasheet - Page 19

HCNR201-500E

Specifications of HCNR201-500E

Available stocks

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