BECKHOFF TwinSAFE User Manual

Circuit examples

Application Guide TwinSAFE

111

The following assumptions have to be made now:

The door switches S1/S2 are always actuated in opposite directions. Since the switches have different
values, but the complete protective door switch consists of a combination of break and make contacts
and both switches must function, the poorer of the two values (S1) can be taken for the combination!

Relays K1 and K2 are both connected to the safety function. The non-functioning of a relay does not lead
to a dangerous situation, but it is discovered by the feedback. Furthermore, the B10d values for K1 and
K2 are identical.

There is a coupling coefficient between the components that are connected via two channels. Examples
are temperature, EMC, voltage peaks or signals between these components. This is assumed to be the
worst-case estimation, where ß =10%. EN 62061 contains a table with which this ß-factor can be
precisely determined. Further, it is assumed that all usual measures have been taken to prevent both
channels failing unsafely at the same time due to an error (e.g. overcurrent through relay contacts, over
temperature in the control cabinet).

This produces for the calculation of the PFH value for block 1:

PFH

tot

= β* (PFH(S1)+ PFH(S2))/2+ PFH(EL1904) + PFH(EL6900) + PFH(EL2904) + β*

(PFH(K1)+ PFH(K2))/2 + PFH(EL1904)

to:

PFH

PFH

PFH

PFH

tot

tot

tot

tot

=

==

=

10%*

(8.40E-10+8.40E-10) / 2 +1.11E-09 + 1.03E-09 + 1.25E-09 + 10%*(6.46E-

10+6.46E-10)

/

2 +1.11E-09 = 4.65E

4.65E

4.65E

4.65E----09

09

09

09

The MTTF

d

value for block 1 (based on the same assumption) is calculated with:

1

ܯܶܶܨ

ௗ ௧௢௧

= ෍

1

ܯܶܶܨ

ௗ ௡

௡

௜ୀଵ

as:

1

ܯܶܶܨ

ௗ ௧௢௧

=

1

ܯܶܶܨ

ௗ

(ܵ1) +

1

ܯܶܶܨ

ௗ

(ܧܮ1904) +

1

ܯܶܶܨ

ௗ

(ܧܮ6900) +

1

ܯܶܶܨ

ௗ

(2904)

+

1

(ܯܶܶܨ

ௗ

(ܭ1)) +

1

ܯܶܶܨ

ௗ

(ܧܮ1904)

with:

ܯܶܶܨ

ௗ

(S1) =

ܤ10

ௗ

(ܵ1)

0.1 כ ݊

௢௣

ܯܶܶܨ

ௗ

(S2) =

ܤ10

ௗ

(ܵ2)

0.1 כ ݊

௢௣

ܯܶܶܨ

ௗ

(K1) =

ܤ10

ௗ

(ܭ1)

0.1 כ ݊

௢௣