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17 

V01.00 | 2021/10 

Terms and Abbreviations

DC

Diagnostic Coverage

FIT

1 FIT is 1 failure per 10E09 hours

FMEDA

Failure Modes, Effects and Diagnostic Analysis

HFT

Hardware failure tolerance

λ

AU

Undetected Annunciation failure rate (per hour) 
Annunciation failures do not directly impact safety but impact the ability to detect a future 
fault (such as a fault in diagnostic circuit).

λ

DD

 

Detected dangerous failure rate (per hour)

λ

DU

 

Undetected dangerous failure rate (per hour)

λ

SD

 

Detected safe failure rate (per hour)

λ

SU 

Undetected safe failure rate (per hour)

MTTR

Mean time to restoration (hour)

PFDavg

Average probability of dangerous failure on demand

PFH

Probability of dangerous failure per hour

SFF

Safe Failure Fraction

SIL

Safety Integrity Level

T1

Proof test interval (hour)

Type A

„Non-complex” element (all failure modes are well defined); for details see 7.4.4.1.2 of 
IEC 61508-2

Type B

„Complex” element (using micro controlllers or programmable logic); for details see 7.4.4.1.3 
of IEC 61508-2

Proof Tests

Proof tests shall be undertaken to reveal dangerous faults which are undected by diagnostic 

tests. This means that it is necessary to specify how dangerous undetected faults which have 

been noted during the FMEDA can be detected during proof testing.

Ensure that the proof test is only carried out by qualified personnel.

A suggested proof test consists of the following steps:

Step Action
1.

Bypass the safety functions and take appropriate action to avoid a false trip.

2.

Provide appropriate input-/control signals to the interface modules and verify the expected 
signal input/output conditions for the interfaces.

3.

Verify if internal fault detection is working in case it is activated.

4.

Provide appropriate input-/control signals to the interface modules and verify that the safety 
function is carried out correctly.

5.

Remove the bypass and otherwise restore normal operation.

Once the test has been completed, document and archive the results.

The proof test coverage is 98.94 %

Содержание 100030003

Страница 1: ...Your Global Automation Partner Safety Manual IM X 18 DI03 4S 4T1R Isolating Switching Amplifier...

Страница 2: ...2 Hans Turck GmbH Co KG T 49 208 4952 0 F 49 208 4952 264 more turck com www turck com Contents...

Страница 3: ...8 5 2 Assumptions 8 5 2 1 FMEDA results 9 5 3 Examples of using this results 10 5 3 1 Probability of dangerous failure per hour High Demand Mode 10 5 3 2 Average probability of dangerous failure on de...

Страница 4: ...4 Hans Turck GmbH Co KG T 49 208 4952 0 F 49 208 4952 264 more turck com www turck com...

Страница 5: ...any uncertainty in its interpretation Always refer to the English version of the safety manual or contact Turck directly 2 Scope This safety manual is valid for the following devices ID Productname Nu...

Страница 6: ...puts SIL2 1oo1 Ex Ax Depending on the input signal and according to the configuration line monitoring effective direction the output assumes the safe state within 20 ms This leads to the opening of th...

Страница 7: ...vice is granted a share of 10 of the respective failure limit value 10 100 IM Actuator Sensor This means that the failure limit value must be less than or equal 100 FIT PFH 10 7 h 1 4 4 PFD Average pr...

Страница 8: ...safety related system with regard to the requirements of IEC 61508 Safety planning must only be carried out by trained and qualified personnel If there is any doubt contact Turck directly 5 1 Archite...

Страница 9: ...The following safety characteristic are the results of the FMEDA According to the configuration inversion mode line monitoring the results of the FMEDA vary In this case the worst case configuration i...

Страница 10: ...e http www turck com SIL or with the supplied SIL registration card This must be filled in with all required information upon receipt and sent to Turck The device must only be carried out fitted insta...

Страница 11: ...st IP20 according to IEC 60529 at the mounting location Ensure that the electromagnetic stress does not exceed the requirements of IEC 61326 3 1 If there is a visible error e g defective housing the d...

Страница 12: ...and Wiring Diagrams on page 16 Use cables with the following terminal cross section rigid 0 2 mm2 to 2 5 mm2 or flexible 0 2 mm2 to 2 5 mm2 When wiring with stranded wires Fix the wiring ends with fe...

Страница 13: ...ll the screwdriver to fix the cable ends Fig 3 Connection with spring type terminals Make sure that only suitable equipment e g sensors are connected to the device see 7 Connection and Wiring Diagrams...

Страница 14: ...output 1 2 3 and 4 The following table describes the cases for the execution of the safety function The relay output is within 20 ms de energized depending on the input signal and the parameterizsatio...

Страница 15: ...g The proof test shall be executed each time after installation and parameterization in order to check the requested function The LED State is not part of the safety function The device must not param...

Страница 16: ...U NAMUR BN BU BN BU NAMUR NAMUR BN BU 13 14 16 17 15 18 20 21 19 22 7 8 R1 R2 R1 R2 R1 R2 R1 R2 A1 A2 A3 A4 AErr E1 E2 E3 E4 GN Pwr 30 VDC 100 mA 30 VDC 100 mA 30 VDC 100 mA 30 VDC 100 mA 8 2 V 8 2 V...

Страница 17: ...ex element using micro controlllers or programmable logic for details see 7 4 4 1 3 of IEC 61508 2 9 Proof Tests Proof tests shall be undertaken to reveal dangerous faults which are undected by diagno...

Страница 18: ...turck com Certificate 10 Certificate These products are certified by SGS Saar for the use in safety related applications The certifi cate can be found under the following Link www turck com 11 Docume...

Страница 19: ...19 V01 00 2021 10...

Страница 20: ...100034219 2021 10 100034219 Over 30 subsidiaries and over 60 representations worldwide www turck com...

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