Brochure/Catalogue

ManualsBrandsWeidmueller Manuals4 CO contacts / gold-plated contactsRCM580615

381

382

383

384

385

386

387

388

389

390

for EMR

for SSR

Drop-out current, typ Typical current at which previously switched on monostable electromechanical

relays and solid-state relays switch off.

This means that this is the maximum input current value that must not be

exceeded for switch-off in order to switch off the relays.

They can also switch off at currents that are signicantly higher than the

specied value, since the specied value is a typical value at which they should

be switched off.

For AC, specications are valid for 50 Hz unless otherwise indicated.

Measured at room temperature (approx. 23 °C) and an only briey energised

input (coil temperature below thermal stability).

The switching thresholds of electromechanical relays are strongly dependent

on environmental parameters such as ambient temperature, mounting position,

manufacturing tolerances (e.g. coil resistance) and the shape of the control

signal. Therefore, the values in the application may differ from the data sheet

specications.The switching thresholds of solid-state relays uctuate less, since

the electronic components are less temperature-dependent than a relay coil.

x x

Drop-out voltage, typ Typical voltage at which previously switched on monostable electromechanical

relays and solid-state relays switch off.

This means that this is the maximum input voltage value that must not be

exceeded for switch-off in order to switch off the relays.

They can also switch off at voltages that are signicantly higher than the

specied value, since the specied value is a typical value at which they should

be switched off.

For AC, specications are valid for 50 Hz unless otherwise indicated.

Measured at room temperature (approx. 23 °C) and an only briey energised

input (coil temperature below thermal stability).

The switching thresholds of electromechanical relays are strongly dependent

on environmental parameters such as ambient temperature, mounting position,

manufacturing tolerances (e.g. coil resistance) and the shape of the control

signal. Therefore, the values in the application may differ from the data sheet

specications. The switching thresholds of solid-state relays uctuate less, since

the electronic components are less temperature-dependent than a relay coil.

x x

Duty cycle, relative duty cycle Describes the ratio of the switched-on state of a relay or solid-state relay to the

total duration in intermittent, continuous or short-time operation. The duty cycle

is expressed as a percentage of the total cycle duration.

The heating of the relay can be inuenced positively or negatively by the duty

cycle.

A high duty cycle leads to increased heating of the relay due to the power loss of

the coil and the switching contacts.

Unless otherwise specied, Weidmüller relay modules and solid-state relays are

suitable for 100% duty cycle (continuous operation).

With very fast switching solid-state relays, the duty cycle also affects the

maximum switching frequency. This is then indicated in the corresponding

diagrams in the data sheet.

x x

EMR = Electromechanical relay

SSR = Solid-state relay

Glossary: Relay modules and Solid-state relays

Technical appendix/Glossary

W.22 2737920000