Wireless universal transmitter

RF I/O SW922-4E-BU-2,2Ah LBT

Article no.: on request

This product is only available on request, please contact our sales team. contact us

Product features

Thermoplastic enclosure
4 x Socket M8
sWave^® wireless technology
No wiring and cable laying required
Power supply by Lithium battery
Output signal can be individually configured at the receiver
LBT - Listen before Talk Firmware

Notes

The RF I/O BU may be used in combination with wireless inductive sensor RF IS M… FL.

Technical data

General technical data

Applied standards

EN IEC 60947-5-1, EN 301 489-3, EN IEC 61000-6-2, EN IEC 61000-6-3, EN IEC 63000

Enclosure

ABS, UL 94 HB, RAL 9005

Antenna

internal antenna

Tightening torque

enclosure mounting screws: max. 1.5 Nm
cover screws: max. 1.5 Nm

Degree of protection

IP65 (IEC/EN 60529), only with plugged cables and/or with closed protective caps

Safety class

III

Ambient temperature

–20 °C … +80 °C

Type of installation

mount on an even surface

Mounting position

any

Mounting

screw connection

Connection

4 x socket M8 x 1, 4-pole

Switching thresholds

max. switch-on threshold: 2.05 V,
min. switch-off threshold: 0.95 V

Switch-on delay t_on

max. 0.94 ms

Switch-off delay t_off

max. 94.7 ms

Actuating time

min. 80 ms

Switching frequency

max. 5 Hz

Standby current

60 µA

Note

transmission of battery voltage and switching condition

Wireless technology

General

Frequency

916.5 MHz (Japan)

Data rate

66 kbps

Channel bandwidth

520 kHz

Modulation type

2-FSK

Protocol

sWave®

Wireless approvals

Japan: ? ARIB STD-T108: 204-610002

Function

Telegram rate

max. 1440 telegrams with repetitions/h

Transmission power

< 1 mW

Wireless range

max. 150 m outdoors, max. 20 m indoors

Note

status signal – can be individually configured via radio receiver (delivery state: without status signal)

Voltage supply

Voltage source

lithium battery Tadiran SL-760 (AA), replaceable

System

Li/SOCl₂

Nominal voltage

3.6 V

Nominal capacity

2.2 Ah

Battery life

depending on operation cycles and number and type of sensors for 1,000 transfers/day and one inductive sensor FL approx. 1,900 days; for 1,000 transfers/day and one mechanical switch about 10 years
Inductive sensor FL 1 x
10 s: approx. 3.9 years; 100 s: approx. 5.1 years; 1,000 s: approx. 5.1 years
Inductive sensor FL 4 x
10 s: approx. 1.7 years; 100 s: approx. 1.9 years; 1,000 s: approx. 1.9 years

Battery life – external contact / magnetic sensor 1 x

mainly activated
10 s: approx. 6.9 years; 100 s: >10 years
mainly inactivated
10 s: approx. 7.9 years; 100 s: >10 years

Battery life – external contact / magnetic sensor 4 x

mainly activated
10 s: approx. 5.2 years; 100 s: approx. 7.4 years; 1,000 s: >10 years
mainly inactivated
10 s: ca. 7,9 years: 100 s: >10 years