RPBR BANNER ENGINEERING, RPBR Datasheet - Page 12

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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MAXI-BEAM

Hookup Diagrams for R2PBA and R2PBB Power Blocks

Basic 2-wire Hookup

Hookup of 2-wire MAXI-BEAMs to a Programmable Logic Controller

(PLC)

MAXI-BEAM sensors using power block R2PBA or R2PBB wire in

series with an appropriate load. This combination, in turn, wires directly

across the ac line. A 2-wire sensor may be connected exactly like a

mechanical limit switch.

The MAXI-BEAM remains powered when the load is OFF by a residual

current which flows through the load. This off-state leakage current is

always less than 1.7 milliamps. The effect of this leakage current

depends upon the characteristics of the load. The voltage which appears

across the load in the OFF state is equal to the leakage current of the

sensor multiplied by the resistance of the load:

If this resultant OFF state voltage is less than the guaranteed turn-off

voltage of the load, then the interface is direct. If the OFF state voltage

causes the load to stay ON, then an artificial load resistor must be

connected in parallel with the load to lower its effective resistance. Most

loads, including most programmable logic controller (PLC) inputs, will

interface to 2-wire sensors with 1.7mA leakage current, without the need

for an artificial load resistor.

There is no polarity requirement. Either wire may be connected to

terminal #3, and the other to terminal #4.

CAUTION: all components of a MAXI-BEAM 2-wire sensor assembly

will be destroyed if the load becomes a short circuit.

MAXI-BEAM 2-wire sensors operate with

low (1.7mA) off-state leakage current. As a

result, they will interface directly to most

PLCs without the need for an artificial load

resistor. If the off-state voltage (1.7mA x

input resistance of PLC) is higher than the

PLC sensing threshold, install a 10K

15K , 5 watt resistor for each 2-wire sensor.

The resistor connects between the input ter-

minal and ac neutral.

If you have a question on hookup to a spe-

cific brand of PLC, contact the Banner Ap-

plications Department during normal busi-

ness hours.

L 1

R2PBA

R2PBB

(See Specifications)

V (off) = 1.7mA x R(load).

V ac

AC "hot"

L 1

LOAD

R2PBA

R2PBB

(See Specifications)

Power Blocks and Wiring Base

V ac

AC neutral

2-wire MAXI-BEAMs with

Parallel Contacts

2-wire MAXI-BEAMs in Parallel

2-wire MAXI-BEAM sensors may be wired in

parallel with mechanical switch or relay con-

tacts. The load will energize when either a

contact closes or the sensor output is energized.

When a contact is closed, it shunts the operating

current away from the MAXI-BEAM. As a

result, when all of the contacts open, the

MAXI-BEAMs 0.1 second power-up delay

may cause a momentary drop-out of the load.

Multiple 2-wire MAXI-BEAMs may be wired together in

parallel to a load for "OR" or "NAND" logic functions.

When sensors are wired in parallel, the off-state leakage

current through the load is equal to the sum of the leakage

currents of the individual sensors. Consequently, loads

with high resistance like small relays and electronic cir-

cuits may require artificial load resistors.

MAXI-BEAM sensors have a 100 millisecond power-up

delay for protection against false outputs. When 2-wire

MAXI-BEAMs are wired together in parallel, any power

block which has an energized output will rob all other 2-

wire power blocks of the voltage needed to operate the

sensor. When the energized output drops, there will be a

0.1 second delay before any other MAXI-BEAM can

energize. As a result, the load may momentarily drop out.

2-wire MAXI-BEAM sensors cannot wire in series with

other 2-wire sensors. If series connection of 2-wire AC

sensors is required, consider models within the VALU-

BEAM or MINI-BEAM sensor families. 4-wire ac power

blocks can wire in series (see RPBA, RPBB).

L 1

Hookup

8 inputs

typical

R2PBA

R2PBB

for all

(See Specifications)

neutral

V ac

LOAD

Photoelectric Latch with

Manual Reset

1CR relay will latch ON whenever the 2-wire MAXI-

BEAM output is energized. 1CR is reset when the

normally-closed pushbutton switch is pressed.

2-wire MAXI-BEAMs with

Series Contacts

When 2-wire MAXI-BEAM sensors are con-

nected in series with mechanical switch or relay

contacts, the sensor will receive power to oper-

ate only when all of the contacts are closed. The

false-pulse protection circuit of the MAXI-

BEAM will cause a 0.1 second delay between

the time that the last contact closes and the time

that the load can energize.

R2PBA

R2PBB

R2PBA

R2PBB

1CR

L 1

RESET

R2PBA

R2PBB

R2PBA

R2PBB

(See Specifications)

V ac

(See Specifications)

V ac

LATCH

V ac

1CR

LOAD

RPBR BANNER ENGINEERING, RPBR Datasheet - Page 12

RPBR

Specifications of RPBR

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