HCPL-576X Datasheet, PDF(9/11 Page) Agilent(Hewlett-Packard) – AC/DC to Logic Interface Hermetically Sealed Optocouplers

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HCPL-576X Datasheet, PDF (9/11 Pages) Agilent(Hewlett-Packard) – AC/DC to Logic Interface Hermetically Sealed Optocouplers

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Electrical Considerations

The HCPL-5760, HCPL-5761,

HCPL-576K or 5962-89477

optocoupler has internal

temperature compensated,

predictable voltage and current

threshold points which allow

selection of an external resistor,

Rx, to determine larger external

threshold voltage levels. For a

desired external threshold

voltage, VÂ± , a corresponding

typical value of Rx can be

obtained from Figure 10. Specific

calculation of Rx can be obtained

from Equation (1) of Figure 11.

Specification of both V+ and V-

voltage threshold levels simulta-

neously can be obtained by the

use of Rx and Rp as shown in

Figure 11 and determined by

Equations (2) and (3).

Rx can provide over-current

transient protection by limiting

input current during a transient

condition. For monitoring

contacts with a relay or switch,

the HCPL-5760/1/K, or

5962-89477 combination with R

and R can be used to allow a

specific current to be conducted

through the contacts for cleaning

purposes (wetting current).

The choice of which input voltage

clamp level to choose depends

upon the application of this

device (see Figure 3). It is

recommended that the low clamp

condition be used when possible

to lower the input power

dissipation as well as the LED

current, which minimizes LED

degradation over time.

In applications where dVCM/dt may

be extremely large (such as static

discharge), a series resistor, RCC,

should be connected in series

with VCC and Pin 8 to protect the

Figure 9. Operating Circuit for Burn-In and Steady State Life Tests.

detector IC from destructively

high surge currents. See note 14

for determination of RCC. In

addition, it is recommended that a

ceramic disc bypass capacitor of

0.01 ÂµF to 0.1 ÂµF be placed

between Pins 8 and 5 to reduce

the effect of power supply noise.

For interfacing ac signals to TTL

systems, output low pass filtering

can be performed with a pullup

resistor of 1.5 kâ¦ and 20 ÂµF

capacitor. This application

requires a Schmitt trigger gate to

avoid slow rise time chatter

problems. For ac input applica-

tions, a filter capacitor can be

placed across the dc input

terminals for either signal or

transient filtering.

Figure 10. Typical External Threshold

Characteristic, VÂ± vs. Rx.

For two specifically selected

external threshold voltage levels,

V+ and V-, the use of Rx and Rp

will permit this selection via

equations (2), (3) provided the

following conditions are met:

Either ac (Pins 1, 4) or dc (Pins

2, 3) input can be used to

determine external threshold

levels.

For one specifically selected

external threshold voltage level

V+ or V-, Rx can be determined

without use of Rp via

V+ - VTH+

(-)

âââââââââ

ITH+

(1)

(-)

âVââ+ â¥ VââTHâ+and âVâ+ââ-âVââTHâ+< ââIâTâH+

V- VTH-

V- - VTH-

ITH-

Rx = âVââTâHâ- â(Vââ+â)â-âVââTHââ+â(âVâ-â)â (2)

ITH+ (VTH-) - ITH- (VTH+)

V (V ) - V (V )

TH- +

TH+ -

âââââââââââââââââââââââââââ (3)

ITH+ (V- - VTH-) + ITH- (VTH+ - V+)

See Application Note 1004 for

more information.

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