Pepperl+Fuchs HiC5863 Manual Download Page 11

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Functional Safety K*D0-RSH-1.1E.1, HiC5863(Y1)

Planning

-1

3.2

Assumptions

The following assumptions have been made during the FMEDA:

•

Failure rates are constant, wear is not considered.

•

Failure rate based on the Siemens standard SN 29500.

•

The safety-related device is considered to be of type

device with a hardware

fault tolerance of

•

The device will be used under average industrial ambient conditions comparable

to the classification "stationary mounted" according to MIL-HDBK-217F.

Alternatively, operating stress conditions typical of an industrial field environment similar

to IEC/EN 60654-1 Class C with an average temperature over a long period of time

of 40

C may be assumed. For a higher average temperature of 60

C, the failure rates

must be multiplied by a factor of 2.5 based on experience. A similar factor must be used

if frequent temperature fluctuations are expected.

•

The nominal voltage at the digital input is 24 V. Ensure that the nominal voltage

do not exceed 30 V under all operating conditions.

•

The DO card must be able to supply a signal current of at least 100 mA.

SIL 3 application

•

To build a SIL safety loop for the defined SIL, it is assumed as an example that this device

uses 10 % of the available budget for PFD

avg

/PFH.

•

For a SIL 3 application operating in low demand mode the total PFD

avg

value

of the SIF (

afety

nstrumented

unction) should be smaller than 10

-3

hence the maximum allowable PFD

avg

value would then be 10

-4

•

For a SIL 3 application operating in high demand mode the total PFH value

of the SIF should be smaller than 10

-7

per hour, hence the maximum allowable PFH value

would then be 10

-8

per hour.

•

If the device is used in applications for high demand mode, perform a risk analysis

regarding systematic faults and implement suitable measures to control these systematic

faults. For example, this can be the following measures:

•

usage of redundant power supplies,

•

monitoring of input signal, wiring and connections for short circuits and open circuits,

•

monitoring the output for open circuits.

•

Since the safety loop has a hardware fault tolerance of

and it is a type

device,

the SFF must be > 90 % according to table 2 of IEC/EN 61508-2 for a SIL 3 (sub) system.

Summary of Contents for HiC5863

Page 1: ...ISO9001 3 Functional Safety Relay Module K D0 RSH 1 1E 1 HiC5863 Y1 Manual...

Page 2: ...ion as well as the supplementary clause Expanded reservation of proprietorship Worldwide Pepperl Fuchs Group Lilienthalstr 200 68307 Mannheim Germany Phone 49 621 776 0 E mail info de pepperl fuchs co...

Page 3: ...nction 8 2 2 Interfaces 8 2 3 Marking 8 2 4 Standards and Directives for Functional Safety 9 3 Planning 10 3 1 System Structure 10 3 2 Assumptions 11 3 3 Safety Function and Safe State 12 3 4 Characte...

Page 4: ...Functional Safety K D0 RSH 1 1E 1 HiC5863 Y1 Contents 4 2021 10...

Page 5: ...eshooting Dismounting Disposal The documentation consists of the following parts Present document Instruction manual Manual Datasheet Additionally the following parts may belong to the documentation i...

Page 6: ...ead and understood the instruction manual and the further documentation Intended Use The device is only approved for appropriate and intended use Ignoring these instructions will void any warranty and...

Page 7: ...ges are displayed in descending order as follows Informative Symbols Action This symbol indicates a paragraph with instructions You are prompted to perform an action or a sequence of actions Danger Th...

Page 8: ...The device is a relay module that is suitable for safely switching applications of a load circuit The device isolates load circuits up to 30 V and the 24 V control circuit This device mounts on a HiC...

Page 9: ...ives System specific standards and directives Functional safety IEC EN 61508 part 1 7 edition 2010 Functional safety of electrical electronic programmable electronic safety related systems manufacture...

Page 10: ...hen usually the demand rate for this safety loop is assumed to be higher than once per year The relevant safety parameters to be verified are the PFH value Probability of dangerous Failure per Hour Fa...

Page 11: ...operating conditions The DO card must be able to supply a signal current of at least 100 mA SIL 3 application To build a SIL safety loop for the defined SIL it is assumed as an example that this devic...

Page 12: ...tion according to IEC EN 62061 and EN ISO 13849 1 was carried out If you use the device in machinery safety applications assess the specific application and show that an equivalent safety level will b...

Page 13: ...L PL Y1 HiCTB16 TRX RAC PL IO16 HiCTB16 YRS RRB AK CC DO16 Y1 HiCTB16 SDC 24C SC RA HiCTB16 SCT 44C SC RA Generally Add 2 5 FIT to the overall failure rate for dangerous undetected failures Exception...

Page 14: ...20 years for devices used within industrial environments This device is designed for this lifetime Observe that the useful lifetime can be reduced if the device is exposed to the following conditions...

Page 15: ...ety instructions in the instruction manual 2 Observe the information in the manual 3 Observe the requirements for the safety loop 4 Connect the device only to devices that are suitable for this safety...

Page 16: ...en to reveal potential dangerous failures that are not detected otherwise Check the function of the subsystem at periodic intervals depending on the applied PFDavg in accordance with the characteristi...

Page 17: ...ST is flashing 2 VTest 2 24 V DC between terminals 11 and 9 ETS output terminals 2 3 shows 10 LED TST is flashing 3 VTest 3 24 V DC between terminals 12 and 9 ETS output terminals 2 3 shows 10 LED TST...

Page 18: ...5 and 6 with inverted input polarity ETS output terminals 1 2 shows 10 LED OUT is on Table 5 2 Expected test results for the proof test of KCD0 RSH 1 1E 1 Test No Input or Test Input Output mA 1 VTest...

Page 19: ...als 1a 5a shows 10 LED TST is flashing 3 VTest 24 V DC between terminals 4b and 3a ETS output terminals 1a 5a shows 10 LED TST is flashing 4 VTest 24 V DC between terminals 4a 3b 4b and 3a ETS output...

Page 20: ...is a defect always replace the device with an original device Reporting Device Failure If you use the device in a safety loop according to IEC EN 61508 it is required to inform the device manufacture...

Page 21: ...at are in the safety loop HFT Hardware Fault Tolerance MTBF Mean Time Between Failures MTTR Mean Time To Restoration PCS Process Control System PFDavg Average Probability of dangerous Failure on Deman...

Page 22: ...Pepperl Fuchs Quality Download our latest policy here www pepperl fuchs com quality www pepperl fuchs com Pepperl Fuchs Subject to modifications Printed in Germany DOCT 5086B...

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