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GB 28526-2012 English Version, GB 28526-2012 Electrical safety of machinery - Functional safety of safety-related electrical, electronic and programmable electronic control systems (English Version) - Code of China
Position: Chinese Standard in English/GB 28526-2012
GB 28526-2012 Electrical safety of machinery - Functional safety of safety-related electrical, electronic and programmable electronic control systems (English Version)
Standard No.: GB 28526-2012 Status: valid remind me the status change
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Detail of GB 28526-2012
Introduction of GB 28526-2012
Contents of GB 28526-2012
Standard No.: GB 28526-2012
English Name: Electrical safety of machinery - Functional safety of safety-related electrical, electronic and programmable electronic control systems
Chinese Name: 机械电气安全 安全相关电气、电子和可编程电子控制系统的功能安全
Issued on: 2012-06-29
1 Scope This Standard specifies requirements and makes recommendations for the design, integration and validation of safety-related electrical, electronic and programmable electronic control systems (SRECS) for machines (see Notes 1 and 2). It is applicable to control systems used, either singly or in combination, to carry out safety-related control functions on machines that are not portable by hand while working, including a group of machines working together in a co-ordinated manner. Note 1: In this standard, the term “electrical control systems” is used to stand for “Electrical, Electronic and Programmable Electronic (E/E/PE) control systems” and “SRECS” is used to stand for “safety-related electrical, electronic and programmable electronic control systems”. Note 2: In this standard, it is presumed that the design of complex programmable electronic subsystems or subsystem elements conforms to the relevant requirements of IEC 61508. This standard provides a methodology for the use, rather than development, of such subsystems and subsystem elements as part of a SRECS. This Standard is an application standard and is not intended to limit or inhibit technological advancement. It does not cover all the requirements (e.g. guarding, non-electrical interlocking or non-electrical control) that are needed or required by other standards or regulations in order to safeguard persons from hazards. Each type of machine has unique requirements to be satisfied to provide adequate safety. This Standard: — is concerned only with functional safety requirements intended to reduce the risk of injury or damage to the health of persons in the immediate vicinity of the machine and those directly involved in the use of the machine; — is restricted to risks arising directly from the hazards of the machine itself or from a group of machines working together in a co-ordinated manner; Note 3: Requirements to mitigate risks arising from other hazards are provided in relevant sector standards. For example, where a machine(s) is part of a process activity, the machine electrical control system functional safety requirements should, in addition, satisfy other requirements (e.g. GB/T 21109) insofar as safety of the process is concerned. — does not specify requirements for the performance of non-electrical (e.g. hydraulic, pneumatic) control elements for machines; Note 4: Although the requirements of this standard are specific to electrical control systems, the framework and methodology specified can be applicable to safety-related parts of control systems employing other technologies. — does not cover electrical hazards arising from the electrical control equipment itself (e.g. electric shock, see GB 5226.1). The objectives of specific Clauses in this Standard are as given in Table 2. ... ... ... ... 2 Normative References The following referenced documents are indispensable for the application of this document. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies. GB 5226.1-2008	Electrical safety of machinery — Electrical equipment of machines — Part 1: General requirements (IEC 60204-1:2005, IDT) GB/T 15706.1-2007	Safety of machinery — Basic concepts, general principles for design — Part 1: Basic terminology, methodology (ISO 12100-1:2003, IDT) GB/T 15706.2-2007	Safety of machinery — Basic concepts, general principles for design — Part 2: Technical principles (ISO 12100-2:2003, IDT) GB/T 16855.1-2008	Safety of machinery — Safety related parts of control systems — Part 1: General principles for design (ISO 13849-1:2006, IDT) GB/T 16855.2-2007	Safety of machinery — Safety-related parts of control systems — Part 2: Validation (ISO 13849-2:2003, IDT) GB/T 16856.1-2008	Safety of machinery — Principles of risk assessment (ISO 14121-1:2007, IDT) GB/T 16856.2-2008	Safety of machinery — Safety-related parts of control systems — Part 2: Validation (ISO/TR 14121-2:2007, IDT) GB/T 17799.2-2003	Electromagnetic compatibility — Generic standards — Immunity for industrial environments (IEC 61000-6-2:1999, IDT) GB 18209.1-2010	Electrical safety of machinery — Indication, marking and actuation — Part 1: Requirements for visual, acoustic and tactile signals (IEC 61310-1:2007, IDT) GB 18209.2-2010	Electrical safety of machinery — Indication marking and actuation — Part 2: Requirements for marking (IEC 61310-2:2007, IDT) GB 18209.3-2010	Electrical safety of machinery — Indication, marking and actuation — Part 3: Requirements for the location and operation of actuators (IEC 61310-3:2007, IDT) GB/T 20438.2-2006	Functional safety of electrical/electronic/programmable electronic safety-related systems ― Part 2: Requirements for electrical/electronic/programmable electronic safety-related systems (IEC 61508-2:2000, IDT) GB/T 20438.4-2006	Functional safety of electrical/electronic/programmable electronic safety-related systems ― Part 4: Definitions and abbreviations (IEC 61508-4:1998, IDT) GB/T 21109.1-2007	Functional safety — Safety instrumented systems for the process industry sector — Part 1: Framework definitions system hardware and software requirements (IEC 61511-1:2003, IDT) IEC 61508-3	Functional safety of electrical/electronic/programmable electronic safety-related systems — Part 3: Software requirements
Foreword	IV Introduction	V 1 Scope 2 Normative References 3 Terms, Definitions and Abbreviations 3.1 Alphabetical list of definitions 3.2 Terms and definitions 3.3 Abbreviations 4 Management of Functional Safety 4.1 Objective 4.2 Requirements 5 Requirements for the Specification of Safety-Related Control Functions (SRCF) 5.1 Objective 5.2 Specification of requirements for SRCF 6 Design and Integration of the Safety-related Electrical Control System (SRECS) 6.1 Objective 6.2 General requirements 6.3 Requirements for behaviour (of the SRECS) on detection of a fault in the SRECS 6.4 Requirements for systematic safety integrity of the SRECS 6.5 Selection of safety-related electrical control system 6.6 Safety-related electrical control system (SRECS) design and development 6.7 Realization of subsystems 6.8 Realization of diagnostic functions 6.9 Hardware implementation of the SRECS 6.10 Software safety requirements specification 6.11 Software design and development 6.12 Safety-related electrical control system integration and testing 6.13 SRECS installation 7 Information for Use of the SRECS 7.1 Objective 7.2 Documentation for installation, use and maintenance 8 Validation of the Safety-related Electrical Control System 8.1 Objective 8.2 General requirements 8.3 Validation of SRECS systematic safety integrity 9 Modification 9.1 Objective 9.2 Modification procedure 9.3 Configuration management procedures 10 Documentation Appendix A (Informative) SIL Assignment Appendix B (Informative) Example of Safety-related Electrical Control System (SRECS) Design Using Concepts and Requirements of Clauses 5 and Appendix C (Informative) Guide to Embedded Software Design and Development Appendix D (Informative) Failure Modes of Electrical/Electronic Components Appendix E (Informative) Electromagnetic (EM) Phenomenon and Increased Immunity Levels for SRECS Intended for Use in an Industrial Environment According to GB/T 17799.2- Appendix F (Informative) Methodology for the Estimation of Susceptibility to Common Cause Failures (CCF) Figure 1 Relationship of IEC 62061 to other relevant standards	VI Figure 2 Workflow of the SRECS design and development process Figure 3 Allocation of safety requirements of the function blocks to subsystems (see 6.6.2.1.1) Figure 4 Workflow for subsystem design and development (see box 6B of Figure 2) Figure 5 Decomposition of a function block into redundant function block elements and their associated subsystem elements Figure 6 Subsystem A logical representation Figure 7 Subsystem B logical representation Figure 8 Subsystem C logical representation Figure 9 Subsystem D logical representation Figure A.1 Workflow of SIL assignment process Figure A.2 Parameters used in risk estimation Figure A.3 Example proforma for SIL assignment process Figure B.1 Terminology used in functional decomposition Figure B.2 Example machine Figure B.3 Specification of requirements for an SRCF Figure B.4 Decomposition to a structure of function blocks Figure B.5 Initial concept of an architecture for a SRECS Figure B.6 SRECS architecture with diagnostic functions embedded within each subsystem (SS1 to SS4) Figure B.7 SRECS architecture with diagnostic functions embedded within subsystem SS Figure B.8 Estimation of PFHD for a SRECS Table 1 Recommended application of IEC 62061 and ISO 13849-1 (under revision)	VII Table 2 Overview and objectives of this Standard Table 3 Safety integrity levels: target failure values for SRCF Table 4 Characteristics of subsystems 1 and 2 used in this example (see Note of 6.6.3.3) Table 5 Architectural constraints on subsystems: maximum SIL that can be claimed for a SRCF using this subsystem Table 6 Architectural constraints: SILCL relating to categories Table 7 Probability of dangerous failure Table 8 Information and documentation of a SRECS Table A.1 Severity (Se) classification Table A.2 Frequency and duration of exposure (Fr) classification Table A.3 Probability (Pr) classification Table A.4 Probability of avoiding or limiting harm (Av) classification Table A.5 Parameters used to determine class of probability of harm (Cl) Table A.6 SIL assignment matrix Table D.1 Examples of the failure mode ratios for electrical/electronic components Table E.1 EM phenomenon and increased immunity levels for SRECS Table E.2 Selected frequencies for RF field tests Table E.3 Selected frequencies for conducted RF tests Table F.1 Criteria for estimation of CCF Table F.2 Estimation of CCF factor (β)
*GB/T 16855.2-2007 Safety of machinery－ Safety-related parts of control systems－ Part 2: Validation
*GB/T 16856.2-2008 Safety of machinery - Risk assessment - Part 2: Practical guidance and examples of methods
*GB/T 17799.2-2003 Electromagnetic compatibility--Generic standars--Immunity for industrial environments
*GB 18209.1-2010 Electrical safety of machinery—Indication,marking and actuation—Part 1:Requirements for visual,acoustic and tactile signals
*GB 18209.2-2010 Electrical safety of machinery—Indication marking and actuation—Part 2:Requirements for marking
*GB 18209.3-2010 Electrical safety of machinery - Indication,marking and actuation - Part 3: Requirements for the location and operation of actuators
*GB/T 20438.2-2006 Functional safety of electrical/electronic/programmable electronic safety-related systems - Part 2: Requirements for electrical/electronic/programmable electronic safety-related syst
*GB/T 20438.4-2006 Functional safety of electrical/electronic/programmable electronic safety-related systems - Part 4: Definitions and abbreviations
*GB/T 21109.1-2007 Functional safety—Safety instrumented systems for the process industry sector—Part 1:Framework definitions system hardware and software requirements
Referred in GB 28526-2012:
GB 28526-2012 is referred in:
Standard No. GB 28526-2012
GB 28526-2012, GB/T 28526-2012, GBT 28526-2012, GB28526-2012, GB 28526, GB28526, GB/T28526-2012, GB/T 28526, GB/T28526, GBT28526-2012, GBT 28526, GBT28526