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Safety critical systems handbook: a straightforward guide to functional safety: IEC 61508 (2010 edition), IEC 61511 (2016 edition) & related guidance ; including machinery and other industrial sectors

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Vorheriger Titel:	Smith, David J. Functional savety
Hauptverfasser:	Smith, David John 1943- (VerfasserIn), Simpson, Kenneth G. L. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Amsterdam Elsevier, Butterworth-Heinemann [2016]
Ausgabe:	Fourth edition
Schlagworte:	Sicherheit Sicherheitskritisches System Norm > Normung Leittechnik Funktionssicherheit Technische Sicherheit Industrial safety > Standards > European Union countries. Process control > Standards > European Union countries. Manufacturing processes > Safety measures > Standards > European Union countries.
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXI, 307 Seiten graph. Darst.
ISBN:	9780128051214

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Datensatz im Suchindex

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adam_text	Contents A Quick Overview............ The 2010 Version of ¡EC 61508 The 2016 Version Acknowledgments............... ,.xv xvii . xix XXI PART A: THE CONCEPT OF SAFETY INTEGRITY.............................................1 Chapter 1 The Meaning and Context of Safety Integrity Targets.......................3 1.1 Risk and the Need for Safety Targets........................................3 1.2 Quantitative and Qualitative Safety Target..................................6 1.3 The Life-Cycle Approach.....................................................9 Section 7.1 of Part 1.......................................................9 1.4 Steps in the Assessment Process.............................................13 Step 1. Establish Functional Safety Capability (i.e., Management)...........13 Step 2. Establish a Risk Target.............................................13 Step 3. Identify the Safety Related Function(s).............................13 Step 4. Establish SILs for the Safety-Related Elements......................13 Step 5. Quantitative Assessment of the Safety-Related System................14 Step 6. Qualitative Assessment Against the Target SILs......................14 Step 7. Establish ALARP.....................................................14 1.5 Costs.......................................................................15 1.5.1 Costs of Applying the Standard........................................15 1.5.2 Savings from Implementing the Standard................................15 1.5.3 Penalty Costs from Not Implementing the Standard......................15 1.6 The Seven Parts of IEC 61508................................................16 1.7 HAZOP (Hazard and Operability Study)........................................19 1.7.1 Objectives of a HAZOP.................................................20 1.7.2 HAZOP Study Team......................................................20 1.7.3 Typical Information Used in the HAZOP.................................21 1.7.4 Typical HAZOP Worksheet Headings......................................22 1.7.5 Risk Ranking..........................................................23 1.7.6 Quantifying Risk......................................................23 v vi Contents Chapter 2 Meeting I EC 61508 Part 1.................................................25 2.1 Establishing Integrity Targets..............................................25 2.1.1 The Quantitative Approach..............................................25 2.1.2 Layer of Protection Analysis..........................................34 2.1.3 The Risk Graph Approach...............................................36 2.1.4 Safety Functions......................................................38 2.1.5 “Not Safety-Related”..................................................39 2.1.6 SIL 4.................................................................39 2.1.7 Environment and Loss of Production....................................40 2.1.8 Malevolence and Misuse................................................40 2.2 “As Low as Reasonably Practicable”.........................................40 2.3 Functional Safety Management and Competence................................44 2.3.1 Functional Safety Capability Assessment................................44 2.3.2 Competency............................................................44 2.3.3 Independence of the Assessment........................................48 2.3.4 Hierarchy of Documents................................................48 2.3.5 Conformance Demonstration Template....................................49 IEC 61508 Part 1..................................................................49 2.4 Societal Risk...............................................................50 2.4.1 Assess the Number of Potential Fatalities.............................50 2.4.2 It Is Now Necessary to Address the Maximum Tolerable Risk............50 2.4.3 The Propagation to Fatality...........................................51 2.4.4 Scenarios with Both Societal and Individual Implications.............52 2.5 Example Involving Both Individual and Societal Risk.........................52 2.5.1 Individual Risk Argument...............................................52 2.5.2 Societal Risk Argument................................................53 2.5.3 Conclusion............................................................55 Chapter 3 Meeting IEC 61508 Part 2...................................................57 3.1 Organizing and Managing the Life Cycle......................................57 Sections 7.1 of the Standard: Table ‘1’......................................57 3.2 Requirements Involving the Specification....................................59 Section 7.2 of the Standard: Table B1 (avoidance)............................59 3.3 Requirements for Design and Development....................................60 Section 7.4 of the Standard: Table B2 (avoidance)............................60 3.3.1 Features of the Design.................................................60 Sections 7.4.1-7.4.11 excluding 7.4.4 and 7.4.5...............................60 3.3.2 Architectures (i.e., SFF).............................................63 Section 7.4.4 Tables ‘2’ and ‘3’..............................................63 3.3.3 Random Hardware Failures..............................................66 Section 7.4.5.................................................................66 3.4 Integration and Test (Referred to as Verification)..........................66 Section 7.5 and 7.9 of the Standard Table B3 (avoidance).....................66 Contents vii 3.5 Operations and Maintenance..................................................67 Section 7.6 Table B4 (avoidance).............................................67 3.6 Validation (Meaning Overall Acceptance Test and the Close Out of Actions)....67 Section 7.3 and 7.7: Table B5................................................67 3.7 Safety Manuals..............................................................68 Section 7.4.9.3—7 and App D...................................................68 3.8 Modifications...............................................................68 Section 7.8..................................................................68 3.9 Acquired Subsystems.........................................................68 3.10 “Proven in Use” (Referred to as Route 2S in the Standard)....................69 3.11 ASICs and CPU Chips..........................................................70 (a) Digital ASICs and User Programmable ICs..................................70 Section 7.4.6.7 and Annex F of the Standard...................................70 (b) Digital ICs with On-Chip Redundancy (up to SIL 3)........................70 Annex E of the Standard......................................................70 3.12 Conformance Demonstration Template..........................................71 IEC 61508 Part 2...................................................................71 Chapter 4 Meeting IEC 61508 Part 3....................................................79 4.1 Organizing and Managing the Software Engineering.............................79 4.1.1 Section 7.1 and Annex G of the Standard Table “1”......................79 4.2 Requirements Involving the Specification.....................................83 4.2.1 Section 7.2 of the Standard: Table A1..................................83 4.3 Requirements for Design and Development......................................83 4.3.1 Features of the Design and Architecture................................83 4.3.2 Detailed Design and Coding............................................84 4.3.3 Programming Language and Support Tools................................84 4.4 Integration and Test (Referred to as Verification)..........................85 4.4.1 Software Module Testing and Integration...............................85 4.4.2 Overall Integration Testing...........................................85 4.5 Validation (Meaning Overall Acceptance Test and Close Out of Actions)....86 Paragraphs 7.3, 7.7, 7.9, Table A7...........................................86 4.6 Safety Manuals..............................................................86 (Annex D)....................................................................86 4.7 Modifications...............................................................87 Paragraph 7.6, 7.8, Table A8 and B9...........................................87 4.8 Alternative Techniques and Procedures.......................................87 4.9 Data-Driven Systems.........................................................88 4.9.1 Limited Variability Configuration, Limited Application Configurability.88 4.9.2 Limited Variability Configuration, Full Application Configurability...88 4.9.3 Limited Variability Programming, Limited Application Configurability...89 4.9.4 Limited Variability Programming, Full Application Configurability...89 v/77 Contents 4.10 Some Technical Comments.....................................................89 4.10.1 Static Analysis......................................................89 4.10.2 Use of “Formal” Methods.............................................90 4.10.3 PLCs (Programmable Logic Controllers) and their Languages...........90 4.10.4 Software Reuse......................................................91 4.10.5 Software Metrics.....................................................92 4.11 Conformance Demonstration Template.......................................92 IEC 61508 Part 3...............................................................92 Chapter 5 Reliability Modeling Techniques.........................................101 5.1 Failure Rate and Unavailability............................................101 5.2 Creating a Reliability Model...............................................101 5.2.1 Block Diagram Analysis...............................................102 5.2.2 Common Cause Failure (CCF)...........................................110 5.2.3 Fault Tree Analysis................................................115 5.3 Taking Account of Auto Test...............................................116 5.4 Human Factors............................................................119 5.4.1 Addressing Human Factors...........................................119 5.4.2 Human Error Rates....................................................121 5.4.3 A Rigorous Approach..................................................123 Chapter 6 Failure Rate and Mode Data..............................................125 6.1 Data Accuracy..............................................................125 6.2 Sources of Data............................................................127 6.2.1 Electronic Failure Rates.............................................128 6.2.2 Other General Data Collections.......................................128 6.2.3 Some Older Sources...................................................129 6.2.4 Manufacturer’s Data..................................................130 6.2.5 Anecdotal Data.......................................................130 6.3 Data Ranges and Confidence Levels..........................................130 6.4 Conclusions................................................................132 Chapter 7 Demonstrating and Certifying Conformance................................135 7.1 Demonstrating Conformance..................................................135 7.2 The Current Framework for Certification....................................135 7.3 Self-Certification (Including Some Independent Assessment).................137 7.3.1 Showing Functional Safety Capability (FSM) as Part of the Quality Management System.........................................137 7.3.2 Application of IEC 61508 to Projects/Products........................137 7.3.3 Rigor of Assessment..................................................138 7.3.4 Independence.........................................................138 Contents ix 7.4 Preparing for Assessment..............................................138 7.5 Summary...............................................................140 PART B: SPECIFIC INDUSTRY SECTORS..............................................143 Chapter 8 Second Tier Documents—Process, Oil and Gas Industries................145 8.1 IEC International Standard 61511: Functional Safety—Safety Instrumented Systems for the Process Industry Sector (Second Edition to be Published in 2016)...............................................145 8.1.1 Organizing and Managing the Life Cycle...........................147 8.1.2 Requirements Involving the Specification........................148 8.1.3 Requirements for Design and Development.........................149 8.1.4 integration and Test (Referred to as Verification)..............152 8.1.5 Validation (Meaning Overall Acceptance Test and Close Out of Actions)...................................................152 8.1.6 Modifications...................................................152 8.1.7 Installation and Commissioning..................................153 8.1.8 Operations and Maintenance......................................153 8.1.9 Conformance Demonstration Template..............................153 8.1.10 Prior Use........................................................162 8.2 Institution of Gas Engineers and Managers IGEM/SR/15: Programmable Equipment in Safety-Related Applications—5th Edition 2010..............165 8.3 Guide to the Application of IEC 61511 to Safety Instrumented Systems in the UK Process Industries...........................................165 8.4 ANSI/ISA-84.00.01 (2004)—Functional Safety, Instrumented Systems for the Process Sector.................................................166 8.5 Recommended Guidelines for the Application of IEC 61508 and IEC 61511 in the Petroleum Activities on the Norwegian Continental Shelf OLF-070—Rev 2, 2004............................................. 166 8.6 Energy Institute: Guidance on Safety Integrity Level (SIL) Determination, Expected to be Published 2016..........................................168 Chapter 9 Machinery Sector.....................................................169 9.1 ENISO 12100:2010..................................................... 169 9.2 ENISO 13849.......................................................... 171 The Assessment.........................................................174 9.2.1 Systematic Failures..............................................175 9.3 BS EN 62061...........................................................176 9.3.1 Targets..........................................................176 9.3.2 Design..........................................................177 9.3.3 Template Assessment Checklist for BS EN 62061...................178 9.4 BS EN ISO 13850: 2015 Safety of Machinery—Emergency Stop—Principles for Design.............................................186 x Contents Chapter 10 Other Industry Sectors...............................................187 10.1 Rail..................................................................187 10.1.1 European Standard EN 50126: 1999: Railway Applications—The Specification and Demonstration of Dependability, Reliability, Maintainability, and Safety (RAMS)..............................187 10.1.2 EN 50126 and EN 50128 and EN 50129.............................188 10.1.3 Engineering Safety Management (known as The Yellow Book)—Issue 4.0 2005............................................189 10.2 UK MOD Documents......................................................190 10.2.1 Defense Standard 00-56 (Issue 6.0, 2015): Safety Management Requirements for Defense Systems................................190 10.2.2 Defense Standard 00—55 (Issue 3.0, 2014): Requirements for Safety of Programmable Elements (PE) in Defense Systems.....190 10.3 Earth Moving Machinery................................................191 10.3.1 EN 474 Earth Moving Machinery—Safety...........................191 10.3.2 ISO/DIS 15998 Earth Moving Machinery—MCS Using Electronics.....191 10.4 Coding Standard.......................................................191 10.4.1 C3, Guidelines for the Use of the C Language in Critical Systems—MISRA (Motor Industries Research Association)—2013......191 10.5 Automotive............................................................192 10.5.1 ISO 26262 Road Vehicles: 2011—Functional Safety................192 10.5.2 ISO/DIS 25119 Tractors and Machinery for Agriculture...........193 10.5.3 MISRA (Motor Industry Software Reliability Association), 2007: Guidelines for Safety Analysis of Vehicle-Based Software........193 10.6 Nuclear...............................................................194 10.6.1 IEC International Standard 61513: Nuclear Power Plants—Instrumentation and Control for Systems Important to Safety—General Requirements for Systems......................194 10.7 Avionics..............................................................195 10.7.1 RTCA DO-178C; Software Considerations in Airborne Systems and Equipment Certification.....................................195 10.7.2 RTCA/DO-254 Design Assurance Guidance for Airborne Electronic Hardware....................................196 10.7.3 ARINC 653: Multiple Application Hosting........................196 10.7.4 ARINC 661 Standard Cockpit Display System Interfaces to User System..................................................197 10.8 Medical—IEC 60601 Medical Electrical Equipment, General Requirements for Basic Safety and Essential Performance 2014........................197 10.9 Stage and Theatrical Equipment........................................198 10.9.1 SR CWA 15902-1:2009 Lifting and Load-Bearing Equipment for Stages and Other Production Areas Within the Entertainment Industry........................................................198 Contents xi J 0.10 Electrical Power Drives................................................199 10.10.1 BS EN 61800-5-2:2007 Adjustable Speed Electrical Power Drive Systems............................................................199 10.11 Energy Institute (See also Section 8.6)..................................199 10.11.1 Guidance on Assessing the Safety Integrity of Electrical Supply Protection: 2006.................................................. 199 10.11.2 Guidelines for the Management of Safety Critical Elements: 2007.....................................................199 PART C: CASE STUDIES IN THE FORM OF EXERCISES AND EXAMPLES............................................................201 Chapter 11 Pressure Control System (Exercise)....................................203 11.1 The Unprotected System...................................................203 11.2 Protection System........................................................203 11.3 Assumptions..............................................................204 11.4 Reliability Block Diagram................................................205 11.5 Failure Rate Data........................................................205 11.6 Quantifying the Model....................................................206 11.7 Proposed Design and Maintenance Modifications............................207 11.8 Modeling CCF (Pressure Transmitters).....................................207 11.9 Quantifying the Revised Model............................................208 11.10 ALARP....................................................................209 11.11 Architectural Constraints................................................209 Chapter 12 Burner Control Assessment (Example)...................................211 Safety Integrity Study of a Proposed Replacement Boiler Controller...........211 Executive Summary and Recommendations....................................211 12.1 Objectives...............................................................212 12.2 Integrity Requirements...................................................215 12.3 Assumptions..............................................................215 12.3.1 Specific..........................................................215 12.3.2 General...........................................................215 12.4 Results..................................................................216 12.4.1 Random Hardware Failures..........................................216 12.4.2 Qualitative Requirements..........................................216 12.4.3 ALARP.............................................................220 12.5 Failure Rate Data........................................................220 12.6 References...............................................................221 Annex I Fault Tree Details................................................221 xii Contents Chapter 13 SIL Targeting-Some Practical Examples...............................225 ] 3. ] A Problem Involving EUC/SRS Independence.............................225 13.2 A Hand-held Alarm Intercom, Involving Human Error in the Mitigation...226 13.3 Maximum Tolerable Failure Rate Involving Alternative Propagations to Fatality..............................................................228 (a) Concentration of Gas on Site......................................228 (b) Spread of Gas to Nearby Habitation................................228 13.4 Hot/Cold Water Mixer Integrity..........................................229 13.5 Scenario Involving High Temperature Gas to a Vessel.....................231 ALARP....................................................................231 13.6 LOPA Examples...........................................................231 13.6.1 Example using the LOPA Technique (1).............................231 13.6.2 Example using the LOPA Technique (2).............................233 Chapter 14 Hypothetical Rail Train Braking System (Example).....................239 14.1 The Systems.............................................................239 14.2 The SIL Targets.........................................................240 14.3 Assumptions.............................................................241 14.4 Failure Rate Data.......................................................241 14.5 Reliability Models......................................................241 14.5.1 Primary Braking System (High Demand).............................242 14.5.2 Emergency Braking System (Low Demand)............................242 14.6 Overall Safety-Integrity................................................243 Chapter 15 Rotorcrafi Accidents and Risk Assessment.............................249 15.1 Helicopter Incidents....................................................249 15.2 Floatation Equipment Risk Assessment....................................250 15.2.1 Assessment of the Scenario.......................................251 15.2.2 ALARP............................................................252 Chapter 16 Hydroelectric Dam and Tidal Cates....................................253 16.1 Flood Gate Control System...............................................253 16.1.1 Targets..........................................................253 16.1.2 Assessment.......................................................253 16.2 Spurious Opening of Either of Two Tidal Lock Gates Involving a Trapped Vessel...........................................................259 Appendix 1 Functional Safety Management.........................................263 Appendix 2 Assessment Schedule..................................................273 Appendix 3 BETAPLUS CCF Model, Scoring Criteria.................................277 Contents xiii Appendix 4 Assessing Safe Failure Fraction and Diagnostic Coverage........281 Appendix 5 Answers to Examples............................................285 Appendix 6 References.......................................................293 Appendix 7 Quality and Safety Plan..........................................295 Appendix 8 Some Terms and Jargon oflEC 61508................................299 Index.......................................................................305
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id	DE-604.BV043756695
illustrated	Illustrated
indexdate	2024-07-10T07:34:16Z
institution	BVB
isbn	9780128051214
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-029168143
oclc_num	958415518
open_access_boolean
owner	DE-573 DE-739
owner_facet	DE-573 DE-739
physical	XXI, 307 Seiten graph. Darst.
publishDate	2016
publishDateSearch	2016
publishDateSort	2016
publisher	Elsevier, Butterworth-Heinemann
record_format	marc
spelling	Smith, David John 1943- Verfasser (DE-588)138556172 aut Safety critical systems handbook a straightforward guide to functional safety: IEC 61508 (2010 edition), IEC 61511 (2016 edition) & related guidance ; including machinery and other industrial sectors David J. Smith ; Kenneth G.L. Simpson Fourth edition Amsterdam Elsevier, Butterworth-Heinemann [2016] © 2016 XXI, 307 Seiten graph. Darst. txt rdacontent n rdamedia nc rdacarrier Sicherheit (DE-588)4054790-5 gnd rswk-swf Sicherheitskritisches System (DE-588)4767762-4 gnd rswk-swf Norm Normung (DE-588)4172022-2 gnd rswk-swf Leittechnik (DE-588)4246578-3 gnd rswk-swf Funktionssicherheit (DE-588)4760707-5 gnd rswk-swf Technische Sicherheit (DE-588)4059233-9 gnd rswk-swf Industrial safety--Standards--European Union countries. Process control--Standards--European Union countries. Manufacturing processes--Safety measures--Standards--European Union countries. Sicherheitskritisches System (DE-588)4767762-4 s Funktionssicherheit (DE-588)4760707-5 s Leittechnik (DE-588)4246578-3 s Norm Normung (DE-588)4172022-2 s Sicherheit (DE-588)4054790-5 s Technische Sicherheit (DE-588)4059233-9 s 1\p DE-604 DE-604 Simpson, Kenneth G. L. Verfasser aut Früher unter dem Titel: Smith, David J. Functional savety Digitalisierung UB Passau - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029168143&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Smith, David John 1943- Simpson, Kenneth G. L. Safety critical systems handbook a straightforward guide to functional safety: IEC 61508 (2010 edition), IEC 61511 (2016 edition) & related guidance ; including machinery and other industrial sectors Sicherheit (DE-588)4054790-5 gnd Sicherheitskritisches System (DE-588)4767762-4 gnd Norm Normung (DE-588)4172022-2 gnd Leittechnik (DE-588)4246578-3 gnd Funktionssicherheit (DE-588)4760707-5 gnd Technische Sicherheit (DE-588)4059233-9 gnd
subject_GND	(DE-588)4054790-5 (DE-588)4767762-4 (DE-588)4172022-2 (DE-588)4246578-3 (DE-588)4760707-5 (DE-588)4059233-9
title	Safety critical systems handbook a straightforward guide to functional safety: IEC 61508 (2010 edition), IEC 61511 (2016 edition) & related guidance ; including machinery and other industrial sectors
title_auth	Safety critical systems handbook a straightforward guide to functional safety: IEC 61508 (2010 edition), IEC 61511 (2016 edition) & related guidance ; including machinery and other industrial sectors
title_exact_search	Safety critical systems handbook a straightforward guide to functional safety: IEC 61508 (2010 edition), IEC 61511 (2016 edition) & related guidance ; including machinery and other industrial sectors
title_full	Safety critical systems handbook a straightforward guide to functional safety: IEC 61508 (2010 edition), IEC 61511 (2016 edition) & related guidance ; including machinery and other industrial sectors David J. Smith ; Kenneth G.L. Simpson
title_fullStr	Safety critical systems handbook a straightforward guide to functional safety: IEC 61508 (2010 edition), IEC 61511 (2016 edition) & related guidance ; including machinery and other industrial sectors David J. Smith ; Kenneth G.L. Simpson
title_full_unstemmed	Safety critical systems handbook a straightforward guide to functional safety: IEC 61508 (2010 edition), IEC 61511 (2016 edition) & related guidance ; including machinery and other industrial sectors David J. Smith ; Kenneth G.L. Simpson
title_old	Smith, David J. Functional savety
title_short	Safety critical systems handbook
title_sort	safety critical systems handbook a straightforward guide to functional safety iec 61508 2010 edition iec 61511 2016 edition related guidance including machinery and other industrial sectors
title_sub	a straightforward guide to functional safety: IEC 61508 (2010 edition), IEC 61511 (2016 edition) & related guidance ; including machinery and other industrial sectors
topic	Sicherheit (DE-588)4054790-5 gnd Sicherheitskritisches System (DE-588)4767762-4 gnd Norm Normung (DE-588)4172022-2 gnd Leittechnik (DE-588)4246578-3 gnd Funktionssicherheit (DE-588)4760707-5 gnd Technische Sicherheit (DE-588)4059233-9 gnd
topic_facet	Sicherheit Sicherheitskritisches System Norm Normung Leittechnik Funktionssicherheit Technische Sicherheit
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029168143&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT smithdavidjohn safetycriticalsystemshandbookastraightforwardguidetofunctionalsafetyiec615082010editioniec615112016editionrelatedguidanceincludingmachineryandotherindustrialsectors AT simpsonkennethgl safetycriticalsystemshandbookastraightforwardguidetofunctionalsafetyiec615082010editioniec615112016editionrelatedguidanceincludingmachineryandotherindustrialsectors

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