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Functional Safety KFD2-UT2-(Ex)*(-1)

Planning

3.4

Characteristic Safety Values

The following tables contains no SFF data, since this value has to be calculated

with consideration of the connected field device.

KFD2-UT2-(Ex)*

The characteristic safety values like PFD, PFH, SFF, HFT and T

are taken from

the FMEDA report. Observe that PFD and T

are related to each other.

The function of the devices has to be checked within the proof test interval (T

Parameters

Characteristic values

Assessment type

FMEDA report with proven-in-use assessment

Device type

Mode of operation

Low demand mode

Safety function

Transfer of analog value

HFT

0 (acc. to IEC/EN 61511)

SIL



0 FIT



333 FIT



79.2 FIT



no effect

295 FIT



total (safety function)

706 FIT



no part

33.4 FIT

SFF

81 %

MTBF

154 years

PFD

avg

for T

= 1 year

8.33 x 10

-4

PFD

avg

for T

proof

= 2 years

1.14 x 10

-3

PFD

avg

for T

proof

= 5 years

2.08 x 10

-3

PTC

90 %

Reaction time

• for temperature input: < 1.5 s

• for potentiometer input: < 3 s

Table 3.1

For the proven-in-use demonstration, sales figures, customer returns and questionnaires filled out by customers were used

which show that no unknown systematic faults are expected. The device is based on a former device that was evaluated

for a proven-in-use statement by exida.com GmbH.

"Fail high" and "Fail low" failures are considered as dangerous detected failures



"Annunciation failures" that only influence the diagnostic function were marginal and added to the



"No effect failures" are not influencing the safety function and are therefore added to the



acc. to SN29500. This value includes failures which are not part of the safety function/MTTR = 8 h.

Since the current PTC value is < 100 % and therefore the probability of failure will increase, calculate the PFD value

according to the following formula:

PFD

avg

= (



/ 2) x (PTC x T

+ (1

–

PTC) x T

service

)

A service time T

service

of 10 years was assumed for the calculation of PFD

avg

Step response time

Содержание KFD2-UT2 Series

Страница 1: ...ISO9001 2 Functional Safety Temperature Converter KFD2 UT2 Ex 1 PROCESS AUTOMATION MANUAL...

Страница 2: ...elivery for Products and Services of the Electrical Industry published by the Central Association of the Electrical Industry Zentralverband Elektrotechnik und Elektroindustrie ZVEI e V in its most rec...

Страница 3: ...Marking 8 2 4 Standards and Directives for Functional Safety 8 3 Planning 9 3 1 System Structure 9 3 2 Assumptions 10 3 3 Safety Function and Safe State 11 3 4 Characteristic Safety Values 12 3 5 Use...

Страница 4: ...ing Dismounting Disposal The documentation consists of the following parts Present document Instruction manual Manual Datasheet Additionally the following parts may belong to the documentation if appl...

Страница 5: ...d 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 absol...

Страница 6: ...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 This symb...

Страница 7: ...ing rail according to EN 60715 KFD2 UT2 1 The device converts the signal of a resistance thermometer thermocouple or potentiometer to a proportional output voltage KFD2 UT2 Ex 1 This isolated barrier...

Страница 8: ...em specific standards and directives Note For corresponding connections see datasheet Pepperl Fuchs Group Lilienthalstra e 200 68307 Mannheim Germany Internet www pepperl fuchs com KFD2 UT2 1 KFD2 UT2...

Страница 9: ...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 Fault reaction ti...

Страница 10: ...rial 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 b...

Страница 11: ...ction of the device is fulfilled as long as the output repeats the linearized input signal with a tolerance of 2 Safe State The safe state is present when the output signal is 4 mA or 20 mA Reaction T...

Страница 12: ...g for Tproof 5 years 6 2 08 x 10 3 PTC 90 Reaction time 7 for temperature input 1 5 s for potentiometer input 3 s Table 3 1 1 For the proven in use demonstration sales figures customer returns and que...

Страница 13: ...assumed that early failures are detected to a huge percentage during the installation and therefore the assumption of a constant failure rate during the useful lifetime is valid However according to...

Страница 14: ...DP USB adapter to the device 3 Configure the device for the required safety function via the PACTware operating software see chapter 4 1 1 4 Protect the device configuration by a password against chan...

Страница 15: ...cording to IEC EN 61508 2 a recurring proof test shall be undertaken to reveal potential dangerous failures that are not detected otherwise Check the function of the subsystem at periodic intervals de...

Страница 16: ...at the input which must be configured to set the output values to 4 mA 12 mA 20 mA Equipment required Digital multimeter with an accuracy of 0 1 Use for the proof test of the intrinsic safety side of...

Страница 17: ...the output current The proof test is passed if the output values are within 2 of the output span 1 This means for the 4 mA application 3 7 mA to 4 3 mA for the 12 mA application 11 7 mA to 12 3 mA fo...

Страница 18: ...n terminals 5 and 6 channel II Check if a short circuit of the cold junction compensation is detected The red LED is flashing The output behavior in the event of a fault depends on the device configur...

Страница 19: ...tput span 1 This means for the 4 mA application 3 7 mA to 4 3 mA for the 12 mA application 11 7 mA to 12 3 mA for the 20 mA application 19 7 mA to 20 3 mA 5 Apply short circuit between terminals 2 and...

Страница 20: ...1 Operation 6 Remove the RTD simulator Check if a lead breakage is detected The red LED is flashing The output behavior in the event of a fault depends on the device configuration 7 Set the device bac...

Страница 21: ...3 7 mA to 4 3 mA for the 12 mA application 11 7 mA to 12 3 mA for the 20 mA application 19 7 mA to 20 3 mA 5 Remove the voltage source Check if a lead breakage is detected The red LED is flashing The...

Страница 22: ...to the terminals 7 and 8 channel I and 10 and 11 channel II 4 Set the simulation resistor to 0 50 and 100 of the potentiometer value 5 Measure the output current The proof test is passed if the output...

Страница 23: ...istors for 0 50 and 100 of the potentiometer value to the terminals 2 and 3 channel I and 5 and 6 channel II see figure 2 Connect the one shot input to the terminals 1 channel I and 4 channel II to th...

Страница 24: ...not work Take appropriate measures to protect personnel and equipment while the safety function is not available Secure the application against accidental restart 3 Do not repair a defective device A...

Страница 25: ...part Probability of failure of components that are not in the safety loop total safety function Probability of failure of components that are in the safety loop HFT Hardware Fault Tolerance MTBF Mean...

Страница 26: ...2019 10 26 Functional Safety KFD2 UT2 Ex 1 Notes...

Страница 27: ...Functional Safety KFD2 UT2 Ex 1 Notes 2019 10 27...

Страница 28: ...rl fuchs com Worldwide Headquarters Pepperl Fuchs Group 68307 Mannheim Germany Tel 49 621 776 0 E mail info de pepperl fuchs com For the Pepperl Fuchs representative closest to you check www pepperl f...

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