RPBR BANNER ENGINEERING, RPBR Datasheet - Page 10

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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RPBR2

INPUT: 12 to 30V dc, 40mA, exclusive of load current

(at 30V dc); or 12 to 250V ac, 50/60Hz.

OUTPUT: SPDT electromechanical relay contacts.

Contact rating: 250V ac max., 30V dc max., 5 amps

max. (resistive load); install MOV across contact if

switching inductive load. Contact response: 20ms

open and close (NOTE: add to sensor head response).

Mechanical life: 10,000,000 operations.

OPERATING TEMPERATURE: -40 to +50 de-

grees C (-40 to +122 degrees F).

RPBB

INPUT: 210 to 250V ac, 50/60Hz; 2 watts exclusive of

load.

OUTPUT: SPST solid-state switch for ac, 3/4 amp

maximum (derated to 1/2 amp at 70 degrees C). Maxi-

mum inrush 10 amps for one second or 30 amps for one

ac cycle (non-repeating). On-state voltage drop of less

than 2.5V ac at full load. Off-state leakage current less

than 100 microamps.

NOTE: ac loads require up to 8.3 milliseconds to turn

OFF in addition to the response time of the sensor head

and delay logic (if any).

R2PBA

INPUT: 105 to 130V ac, 50/60Hz; 2 watts exclusive of

load

R2PBB

INPUT: 210 to 250V ac, 50/60Hz; 2 watts exclusive of

load.

3- and 4-wire operation

RPBA

INPUT: 105 to 130V ac, 50/60Hz; 2 watts exclusive of

load.

RPBA-1

For RSBE, RSBESR, and RSBEF emitters

INPUT: 105 to 130V ac, 50/60Hz; 2 watts.

RPBB-1

For RSBE, RSBESR, and RSBEF emitters

INPUT: 210 to 250V ac, 50/60Hz; 2 watts.

OUTPUT: SPST solid-state switch for ac, 3/4 amp

maximum (derated to 1/2 amp at 70 degrees C). Maxi-

mum inrush 10 amps for one second (non-repeating).

On-state voltage drop: 5.2V rms at a 1/2 amp load;

14V rms at a load of 10 milliamps.

Off-state leakage current less than 1.7 milliamp (re-

sistive or inductive load).

MAXI-BEAM

2-wire operation

AC Models

Power Blocks and Wiring Base

RPBR2 is an SPDT output version of model RPBR, with both contacts common to terminal #1. Terminal

#3 is normally open; terminal #4 is normally closed. See application caution, page 9.

Power block models R2PBA and R2PBB both offer the simplicity of wiring which is

associated with 2-wire sensor design. They wire directly in series with an ac load, exactly

like a limit switch. Use of a 2-wire power block requires programming of the sensor head

to the "2W" (2-wire) operating mode. As a result, MAXI-BEAM sensing response time is

fixed at 10 milliseconds for 2-wire operation. There are some hookup considerations which

are unique to 2-wire interfaces. See hookup information on page 12 for details.

Power block models RPBA and RPBB are the most commonly used for ac MAXI-BEAM

operation. As the typical hookup shows, they are intended to switch the same ac voltage as is used

to power the MAXI-BEAM. However, both can switch any ac voltage that is lower than the

supply voltage, as long as both ac circuits share a common neutral. Observe local codes whenever

mixing ac voltages in a common wiring chamber.

These blocks are designed to handle the inrush current of ac inductive loads like motor starters

and solenoids. There is no mimimum load requirement, and they will interface directly to inputs

of all ac programmable logic controllers (PLCs). Special order models RPBAT (120V ac) and

RPBBT (240V ac) are available for interfacing to dc loads of up to 100 milliamps.

Voltage

Supply

R2PBA: 105 to 130V ac

R2PBB: 210 to 250V ac

RPBB: 210 to 250V ac

RPBA-1: 105 to 130V ac

RPBB-1: 210 to 250V ac

RPBA: 105 to 130V ac

Voltage

Supply

Voltage

Supply

Connections

LOAD

Jumper

LOAD

Functional Schematic

RPBA

RPBR BANNER ENGINEERING, RPBR Datasheet - Page 10

RPBR

Specifications of RPBR

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