RPBR BANNER ENGINEERING, RPBR Datasheet - Page 11

RPBR

Manufacturer Part Number

RPBR

Description

PHOLOELECTRIC SENSOR

Manufacturer

BANNER ENGINEERING

Datasheet

1.RPBR.pdf (16 pages)

Specifications of RPBR

Output Current

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CAUTION: the output switch will be destroyed if the load is shorted.

MAXI-BEAM

Hookup Diagrams for RPBA, RPBA-1, RPBB, & RPBB-1 Power Blocks

Hookup to a Simple Load

AC voltage is connected to terminals

#1 and #2 to provide power to the

MAXI-BEAM. The solid-state out-

put switch behaves as if there were a

contact between terminals #3 and #4.

L1 is most conveniently applied to

terminal #3 by jumpering terminals

#1 and #3 inside the wiring base.

Alternatively, the load could be in-

stalled between terminal #3 and L1,

with L2 connected to terminal #4 by

jumpering from #2 to #4.

Hookup in Parallel or Series with Contacts or Switches

Any number of "hard" contacts may

be wired in series or in parallel to

MAXI-BEAMs which use power

block model RPBA or RPBB.

This circuit illustrates a start-stop

function in which CR can be ener-

gized only when the MAXI-BEAM

output is energized. Once energized,

CR is latched ON by its normally

open contact. CR is reset by de-

pressing the STOP switch

Hookup in Series with other MAXI-BEAMs

MAXI-BEAMs which use RPBA or RPBB power blocks may be wired in series

for the "AND" logic function. The total voltage drop across the series will be the

sum of the individual voltage drops across each power block (approximately 3

volts per block). With most loads, 10 or more sensors may be wired together in

series.

L 1

RPBA

RPBB

(See Specifications)

V ac

RPBA

RPBB

L 1

RPBA

RPBB

START

RPBA

RPBB

(See Specifications)

Power Blocks and Wiring Base

V ac

LOAD

STOP

LOAD

Hookup in Parallel with other MAXI-BEAMs

Any number of MAXI-BEAMs

using RPBA or RPBB power

blocks may be wired together in

parallel to a load. Parallel sensor

connection is usually used to yield

"OR" logic (i.e.-if an event occurs

at any sensor, the load is ener-

gized).

The total off-state leakage current

through the load is the sum of the

leakage currents of the individual

power blocks. However, the maxi-

mum leakage current of MAXI-

BEAM RPBA or RPBB power

blocks is only 100 microamps. As

a result, the installation of an artifi-

cial load resistor in parallel with the

load is necessary only for very

large numbers of sensors wired in

parallel to a light (i.e.-high imped-

ance) load.

Hookup of an ac Emitter

Interfacing to a PLC I/O is direct with MAXI-BEAMs which use RPBA or

RPBB. The off-state leakage current is only 100 microamps (0.1 milliamp)

maximum.

Hookup to Programmable Logic Controller (PLC)

MAXI-BEAM emitter-only

sebnsor heads use ac power

block model RPBA-1 (120V

ac) or RPBB-1 (220/240V

ac) which connect directly

across the line, as shown.

AC "hot"

L 1

RPBA

RPBB

(See Specifications)

V ac

L 1

RPBA

RPBB

RPBA

RPBB

L 1

AC neutral

(See Specifications)

Hookup

8 inputs

typical

for all

V ac

neutral

RPBA-1

RPBB-1

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RPBR BANNER ENGINEERING, RPBR Datasheet - Page 11

RPBR

Specifications of RPBR

Related parts for RPBR