HCPL0630 Datasheet, PDF(9/10 Page) Agilent(Hewlett-Packard) – Dual Channel, High CMR, High Speed, TTL Compatible Optocouplers 8 Pin DIP and SOIC-8

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HCPL0630 Datasheet, PDF (9/10 Pages) Agilent(Hewlett-Packard) – Dual Channel, High CMR, High Speed, TTL Compatible Optocouplers 8 Pin DIP and SOIC-8

◁

VCC = 5.0 V

VO = 0.6 V

GND BUS (BACK)

R L = 350 Kâ¦

R L = 1 Kâ¦

R L = 4 Kâ¦

-60 -40 -20 0 20 40 60 80 100

TA â TEMPERATURE â Â°C

V BUS (FRONT)

0.1ÂµF

OUTPUT 1

OUTPUT 2

10 mm MAX (SEE NOTE 1)

Figure 15. Input Threshold Current

vs. Temperature.

Figure 16. Recommended Printed Circuit Board Layout.

Insulation Related Specifications

Parameter

Min. External Air Gap

(Clearance)

Min. External Tracking

Path (Creepage)

Min. Internal Plastic

Gap (Clearance)

Tracking Resistance

Isolation Group

(per DIN VDE 0110)

DIP

Symbol Value

L(IO1) â¥7

L(IO2) â¥7

0.08

CTI

200

IIIa

SOIC-8

Value

â¥4

Units

â¥4

0.08

200

IIIa

Conditions

Measured from input terminals

to output terminals

Measured from input terminals

to output tminals

Through insulation distance

conductor to conductor

DIN IEC 112/VDE 0303 Part 1

Material group (DIN VDE 0110)

Propagation Delay,

Pulse-Width Distortion

and Propagation Delay

Skew

Propagation delay is a figure of

merit which describes how

quickly a logic signal propagates

through a system. The propaga-

tion delay from low to high

(tPLH) is the amount of time

required for an input signal to

propagate to the output, causing

the output to change from low to

high. Similarly, the propagation

delay from high to low (tPHL) is

the amount of time required for

the input signal to propagate to

the output, causing the output

to change from high to low (see

Figure 7).

Pulse-width distortion (PWD)

results when tPLH and tPHL differ

in value. PWD is defined as the

difference between tPLH and tPHL

and often determines the

maximum data rate capability

of a transmission system. PWD

can be expressed in percent by

dividing the PWD (in ns) by the

minimum pulse width (in ns)

being transmitted. Typically,

PWD on the order of 20-30% of

the minimum pulse width is

tolerable; the exact figure

depends on the particular appli-

cation (RS232, RS422, T-1, etc.).

Propagation delay skew, tPSK, is

an important parameter to

consider in parallel data appli-

cations where synchronization

of signals on parallel data lines

is a concern. If the parallel data

is being sent through a group of

optocouplers, differences in

propagation delays will cause

the data to arrive at the outputs

of the optocouplers at different

times. If this difference in

propagation delays is large

enough, it will determine the

maximum rate at which parallel

data can be sent through the

optocouplers.

Propagation delay skew is

defined as the difference

between the minimum and

maximum propagation delays,

either tPLH or tPHL, for any given

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