Fig. 1, Fig. 2 – Flowserve NRS 1-50 For TWO Electrodes User Manual

6

Functional Safety acc. to IEC 61508

Safety characteristics of the subsystem NRG 1...-50 / NRS 1-50

The level switch NRS -50 is certified acc. to IEC 6508 if used in combination with level electrode

NRG ...-50 / NRG 6-36 .
The combination NRG ...-50 / NRG 6-36 / NRS -50 corresponds to a type B subsystem with Safety

Integrity Level (SIL) 3. Type B means that the behaviour under fault conditions of the used components

cannot be completely determined. The functional safety of the equipment combination refers to the

detection and evaluation of the water level and, as a consequence, the contact position of the output

relays.
The design of the equipment combination NRG ...-50 / NRG 6-36 / NRS -50 corresponds to the

architecture oo D.

This architecture consists of two channels that detect and diagnose faults in each other. If a fault is

detected, the equipment combination NRG ...-50 / NRG 6-36 / NRS -50 will go to the safe state,

which means that the contacts of both output relays will open the safety circuit.

Safety characteristics

SIL

Architecture

Lifetime

(a)

Proof Test

Interval (a)

General

3

oo D

0

0

SFF

PFD

av

PFH

av

λ

DU

Level switch NRS -50 alone

98.54 %

.8 x 0

-4

3.73 x 0

-8

7.33 x 0

-8

/h

Level switch NRS -50 in conjunction with one

level electrode NRG ...-50, NRG 6-36

98.7 %

.69 x 0

-4

4.54 x 0

-8

9.33 x 0

-8

/h

Level switch NRS -50 in conjunction with two

level electrodes NRG ...-50

97.80 %

.7 x 0

-4

3.76 x 0

-8

7.38 x 0

-8

/h

Fig. 1

Terms and abbreviations

Terms

Abbreviations

Description

Safety Integrity Level

SIL

Classification of the Safety Integrity Level acc. to IEC 6508

Lifetime (a)

Functional safety: Lifetime in years

Safe Failure Fraction

SFF

Percentage of failures without the potential to put the safety-related system into a

dangerous state

Probability Failure per

Demand (Low Demand) PFD

av

Average probability of failure on demand for low demand mode (once a year)

Probability Failure per Hour

PFH

av

Probability of failure per hour

λ

DU

Failure rate for all dangerous undetected failures (per hour) of a channel of a subsystem

Fig. 2