Circuit overview, Application considerations c–2, Input terminals – Rockwell Automation 1771-VHSC , D17716.5.74 Very High S User Manual

Application Considerations

C–2

Circuit Overview

To make sure your signal source and the 1771-VHSC module are
compatibility, you need to understand the electrical characteristics of
your output driver and its interaction with the 1771-VHSC input
circuit.

Refer to Figure C.1. The most basic circuit would consist of R1, R2,
JPR4, JPR5, the photodiode and associated circuitry around half of
the opto-isolator. The resistors provide first-order current limiting to
the photodiodes of the dual high speed opto-isolator. With JPR4
closed, and JPR5 open, the total limiting resistance is R1 + R2 =
1150 ohms. This jumper position is designated “12 to 24 Volt
Range.” Assuming a 2V drop across the photodiode and R97 and
R98, you would have 8.7-19mA demanded from the driving circuit
as the applied voltage ranged from 12 to 24V.

Figure C.1

Example Circuits for 5V Differential and +12 to +24V SingleĆEnded

Drivers

R1

R2

C41

JPR4 JPR5

JPR6

JPR7

JPR8 JPR9

JPR10

JPR11

R3

R4

R97

R98

C43

Q2

Q3

D2

D3

D5

D6

R100

R101

R31

R36

C38

C42

+5V

C3

C4

1

2

3

4

5V DIFFERENTIAL

LINE DRIVER

+12 TO 24V

INPUT

HIGH

LOW

DRIVE

DRIVE

150

1K

R

150

1K

22 ohm

Input Terminals

Voltage Jumpers

Voltage Jumpers

Filter Jumpers

10691ĆI

Drive

Circuit

D1

D4

40.2

40.2

40.2

40.2

+12 TO 24V

SINGLEĆENDED

DRIVER

In the “5 Volt” position (JPR4 open; JPR5 closed), R1 is shorted and
the limiting resistance is 250 ohms. If 5.0V was applied at the input,
the current demanded would be (5.0 - 2.0)/150 = 20mA.

The above type of calculation is necessary to the user since the
driving device must cause a minimum of 5mA to flow through the
photodiode regardless of which jumper position is selected.