Fail-safe mode – SOR Single Point RF Level Switch User Manual

6/12

Form 830 (03.13) ©SOR Inc.

Fail-Safe Mode

The fail-safe mode on either rising or falling level can be easily changed in the field. See
procedure and chart below.

NOTE: Upon loss of power, or some component failures, the output relay is de-energized andits
contacts return to the “shelf position” NC (Normally Closed) to signal an alarm condition regard-
less of process level.



Disconnect line power supply.



Remove the housing cover.



Determine whether switched external circuit must open or close (make or break) upon

loss of power to the instrument.



Determine whether switched external circuit must open or close (make or break) at a

discrete level on rising or falling level when the instrument is powered.



High-Level Fail Safe means the output relay will de-energize under high level conditions

and alarm a high-level condition upon loss of power. Conversely, Low-Level Fail Safe
means the output relay will de-energize under low-level conditions and alarm a

low-level condition upon loss of power.



The terminal block is labeled for a de-energized relay. Connect external circuit lead wires
to terminal block for desired logic. See chart below.



Use needle-nose pliers to switch JP1 to Position A (lower) or Position B (upper) to

change fail-safe mode.



Replace housing cover.



Connect line power supply as shown on pages 4 and 5.

Electrical power must be disconnected from explosion-proof models before
the cover is removed. Failure to do so could result in severe personal injury
or substantial property damage.

Continuity Chart

Fail Safe

LO

Fail Safe

HI

NC1

C1

NO1

NO2

C2 NC2

NC1

C1

NO1

NO2

C2 NC2

NC1

C1

NO1

NO2

C2 NC2

NC1

C1

NO1

NO2

C2 NC2

Relay
de-energized
on high level

Relay
de-energized
on low level

Relay De-Energized

Relay De-Energized

Relay Energized

Switch Position

Process Level

Terminal Continuity

Relay Energized