82.031.0101.0 WIELAND ELECTRIC, 82.031.0101.0 Datasheet - Page 443

82.031.0101.0

Manufacturer Part Number

82.031.0101.0

Description

COUPLING MODULE

Manufacturer

WIELAND ELECTRIC

Datasheet

1.07.311.6655.0.pdf (900 pages)

Specifications of 82.031.0101.0

Connector Type

Modular

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Endurance

A distinction is made in relay modules

between mechanical and electrical

endurance. The mechanical endurance

defines the maximum number of

operating cycles without contact loading

while the electrical endurance describes

the switching frequency at a maximum

switching capacity for resistive load. A low

switching capacity increases these values

considerably. The following diagram

indicates the typical waveform between

the switching current and endurance of a

relay. Figures for each relay module is

shown on the relevent catalogue data

page.

Typical endurance curve of a relay

Safety separation – VDE 0106

The safety separation of coupled

switching circuits in the relay modules

means that the isolating voltage between

the control and load circuit is retained

even in the event of a mechanical failure

(bent soldered pin, broken coil winding or

spring). When using solid-state relays or

electronic relays, this requirement is met

using double or reinforced insulation. The

norms DIN 50178, VDE 0106 and 109

form the basis for safety separation. VDE

0884 also applies to solid-state relays.

All Wieland modules meet these

requirements.

Timer relay modules

Wieland timer relays are

electromechanical relays with an

integrated time response. The time

response is defined according to VDE

0435 section 201/5.83. The respective

time range is either fixed or set via a DIP

switch depending on the type. Fine-tuning

within the time range can also be carried

out via a potentiometer. An integrated

LED indicates the switching state of the

relay.

Definition of the time response

On delay

Operating voltage is applied; the relay

switches to operating position after a set

delay.

Operating voltage is applied; the relay

remains in normal position

Off delay with control voltage

Control voltage is applied; the relay

switches to operating position

Control voltage is interrupted; time delay

is activated; the relay drops out after the

period has elapsed.

Single Shot

Operating voltage is applied; the relay

switches to operating position and drops

out after the set period

Cycle On – ”pulsing”

Operating voltage is applied; relay starts

clock pulse operation over the set period;

relationship between pulse and pause is

1:1

Cycle Off – ”pulsing delay“

Operating voltage is applied; relay starts

clock pause operation over the set period;

relationship between pulse and pause is

1:1

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82.031.0101.0 WIELAND ELECTRIC, 82.031.0101.0 Datasheet - Page 443

82.031.0101.0

Specifications of 82.031.0101.0

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