HCPL-0710500 Agilent(Hewlett-Packard), HCPL-0710500 Datasheet - Page 5

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HCPL-0710500

Manufacturer Part Number

HCPL-0710500

Description

40 ns Prop. Delay/ SO-8 Optocoupler

Manufacturer

Agilent(Hewlett-Packard)

Datasheet

1.HCPL-0710500.pdf (16 pages)

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Package Characteristics

Notes:

Figure 1. Typical Output Voltage vs.

Input Voltage.

1. Absolute Maximum ambient operating

2. The LED is ON when V

3. t

4. Mimimum Pulse Width is the shortest

Input-Output Momentary

Withstand Voltage

Resistance

(Input-Output)

Capacitance

(Input-Output)

Input Capacitance

Input IC Junction-to-Case

Thermal Resistance

Output IC Junction-to-Case

Thermal Resistance

Package Power Dissipation

temperature means the device will not

be damaged if operated under these

conditions. It does not guarantee

functionality.

when V

from the 50% level on the falling edge

of the V

falling edge of the V

propagation delay is measured from

the 50% level on the rising edge of the

V

edge of the V

pulse width at which 10% maximum,

Pulse Width Distortion can be guaran-

teed. Maximum Data Rate is the

inverse of Minimum Pulse Width.

Operating the HCPL-0710 at data rates

above 12.5 MBd is possible provided

PWD and data dependent jitter

increases and relaxed noise margins

5

4

3

2

1

0

PHL

I

0

signal to the 50% level of the rising

propagation delay is measured

I

Parameter

I

is high.

1

signal to the 50% level of the

O

signal.

2

V

I

(V)

O

signal. t

3

I

is low and OFF

0 °C

25 °C

85 °C

4

PLH

Symbol Min.

5

V

R

C

P

C

ISO

jco

I-O

I-O

PD

jci

I

Figure 2. Typical Input Voltage

Switching Threshold vs. Input Supply

Voltage.

5. PWD is defined as |t

6. t

7. CM

2.2

2.1

2.0

1.9

1.8

1.7

1.6

are tolerable within the application.

For instance, if the maximum

allowable variation of bit width is 30%,

the maximum data rate becomes 37.5

MBd. Please note that HCPL-0710

performance above 12.5 MBd is not

guaranteed by Hewlett-Packard.

%PWD (percent pulse width distortion)

is equal to the PWD divided by pulse

width.

worst case difference in t

t

any given temperature within the

recommended operating conditions.

voltage slew rate that can be sustained

while maintaining V

is the maximum common mode voltage

slew rate that can be sustained while

maintaining V

mode voltage slew rates apply to both

rising and falling common mode

voltage edges.

PSK

PLH

2500

4.5

H

is equal to the magnitude of the

that will be seen between units at

is the maximum common mode

4.75

Typ.

10

160

135

0 °C

25 °C

85 °C

0.6

3.0

O

12

< 0.8 V. The common

V

DD1

5

O

Max.

PHL

150

> 0.8 V

(V)

- t

PHL

PLH

5.25

and/or

DD2

|.

Units

Vrms

mW

C/W

pF

. CM

5.5

L

underside of

package

RH

T

V

f = 1 MHz

Thermocouple

located at center

A

I-O

Test Conditions

10. In accordance with UL1577, each

11. The Input-Output Momentary With-

12. C

Figure 3. Typical Propagation Delays

vs. Temperature.

= 25 C

8. Unloaded dynamic power dissipation is

9. Device considered a two-terminal

= 500 Vdc

calculated as follows: C

I

frequency in MHz.

device: pins 1, 2, 3, and 4 shorted

together and pins 5, 6, 7, and 8

shorted together.

optocoupler is proof tested by

applying an insulation test voltage

detection current limit, I

stand Voltage is a dielectric voltage

rating that should not be interpreted as

an input-output continuous voltage

rating. For the continuous voltage

rating refer to your equipment level

safety specification or HP Application

Note 1074 entitled “Optocoupler

Input-Output Endurance Voltage.”

2 (V

50%, t = 1 min.,

29

27

25

23

21

19

17

15

DD

I

3000 V

is the capacitance measured at pin

0

* V

I

).

10

DD

RMS

, where f is switching

20 30

for 1 second (leakage

T

T

PLH

PHL

T

40

A

(C)

Fig.

50

PD

I-O

* V

60

5 A).

DD2

70

9, 10,

Note

11

12

* f +

9

80

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