Calculations for 1715 i/o modules – Rockwell Automation 1715-OF8I Redundant I/O System User Manual User Manual

290

Rockwell Automation Publication 1715-UM001C-EN-P - March 2014

Appendix E

PFD and PFH Calculations for a SIL 2 System

Calculations for 1715 I/O

Modules

For the calculations presented in this chapter, these values were used as the two

application-dependent variables:

• Proof test interval (T

1

) is listed for each table

• Mean time to repair (MTTR) is listed for each section
• PFDde = Probability of failure on demand for de-energize to action

systems

• PFDe = Probability of failure on demand for energize to action systems
• SFFde = Safe failure fraction for de-energize to action systems
• SFFe = Safe failure fraction for energize to action systems
• PFHde = Probability of failure per hour for de-energize to action systems
• PFHe = Probability of failure per hour for energize to action systems

PFD and PFH values in this manual are calculated with formulas explained in

IEC 61508, Part 6, Annex B. Refer to IEC 61508, Part 6, for more information

about calculating PFD values for your system.

Common Terms
λ = failure rate = 1/MTBF

λ

s

= rate of safe failures

λ

d

= rate of dangerous failures = (λ

du

+ λ

dd

)

λ

dd

= dangerous, detected failure rate = λ

d

x DC

λ

du

= dangerous, undetected failure rate = λ

d

x (1-DC)

SFF = safe failure fraction =(λ

s

+

λ

dd

)/(λ

s

+

λ

du

+λ

dd

)

T

CE1oo1

= channel equivalent down time = λ

du

/λ

d

x (T

1

/2 + MRT) + (λ

dd

/λ

d

x MTTR)

DC = diagnostic coverage
1oo1 Configuration

STR

1oo1

= Spurious Trip Rate = λ

s +

λ

dd

PFD

1oo1

= (λ

dd

+

λ

du

) x T

ce

PFH

1oo1

= λ

du

1oo2 Configuration

STR

1oo2

= Spurious Trip Rate = 2 x (λ

s +

λ

dd

)

T

GE1oo2

= system equivalent down time = λ

du/

λ

d

x (T

1

/3 + MRT) + (λ

dd/

λ

d

x MTTR)

PFD

1oo2

= 2 x [(1-ß

D

) x λ

dd

+ (1-ß) x λ

du

]

2

x T

CE

x T

GE

+ (ß

D

x λ

dd

x MTTR) + ß x λ

du

x (T

1

/2 + MRT)

PFH

1oo2

= 2 x [(1-ß

D

) x λ

dd

+ (1-ß) x λ

du

] x (1-ß) x λ

du

x T

CE

+ ß x λ

du

2oo2 Configuration

PFD

2oo2

= 2 x (λ

du

+ λ

dd

)

x T

CE

PFH

2oo2

= 2 x λ

du

x T

CE

1oo2D Configuration

T

CE

' = (λ

du

x (T

1

/2 + MRT) + ((λ

dd

+

λ

s

d

)

x MTTR)) / (λ

du

+ λ

dd

+ λ

s

d

)

TGE' = (λ

du

x (T1/3 + MRT) + ((λ

dd

+ λ

s

d

) x MTTR)) / (λ

du

+ λ

dd

+ λ

s

d

)

PFD

1oo2D

= 2 x ((1-ß) x λ

du

) x

((1-ß

D

) x λ

dd

+ (1-ß) x λ

du

+

λ

s

d

)

x T

CE

x T

GE

+ (ß

D

x λ

dd

x MTTR) + (ß x λ

du

x (T

1

/2 + MRT))

PFH

1oo2D

= 2 x (1-ß) x λ

du

x

((1-ß

D

) x λ

dd

+ (1-ß) x λ

du

+

λ

s

d

) x T

CE

'

+ ß x λ

du