HCPL3120000E AVAGO TECH, HCPL3120000E Datasheet - Page 21

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HCPL3120000E

Manufacturer Part Number

HCPL3120000E

Description

Manufacturer

AVAGO TECH

Datasheet

1.HCPL3120000E.pdf (25 pages)

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Download datasheet (353Kb)

LED Drive Circuit

Considerations for Ultra

High CMR Performance.

(Discussion applies to HCPL-

3120, HCPL-J312, and

HCNW3120)

Without a detector shield, the

dominant cause of optocoupler

CMR failure is capacitive

coupling from the input side of

the optocoupler, through the

package, to the detector IC as

shown in Figure 29. The HCPL-

3120 improves CMR performance

Figure 29. Optocoupler Input to Output

Capacitance Model for Unshielded Optocouplers.

1

2

3

4

C

C

LEDP

LEDN

8

7

6

5

by using a detector IC with an

optically transparent Faraday

shield, which diverts the capaci-

tively coupled current away from

the sensitive IC circuitry. How-

ever, this shield does not

eliminate the capacitive coupling

between the LED and optocoup-

ler pins 5-8 as shown in

Figure 30. This capacitive

coupling causes perturbations in

the LED current during common

mode transients and becomes the

major source of CMR failures for

Figure 30. Optocoupler Input to Output

Capacitance Model for Shielded Optocouplers.

1

2

3

4

C

C

LEDP

LEDN

SHIELD

C

LEDO1

C

LEDO2

21

a shielded optocoupler. The main

design objective of a high CMR

LED drive circuit becomes

keeping the LED in the proper

state (on or off) during common

mode transients. For example,

the recommended application

circuit (Figure 25), can achieve

15 kV/ s CMR while minimizing

component complexity.

Techniques to keep the LED in

the proper state are discussed in

the next two sections.

8

7

6

5

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