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GB 28526-2012: Electrical safety of machinery -- Functional safety of safety-related electrical, electronic and programmable electronic control systems
GB 28526-2012
Electrical safety of machinery. Functional safety of safety-related electrical, electronic and programmable electronic control systems
ICS 29.020
K09
National Standards of People's Republic of China
Electrical safety of machinery safety-related electrical, electronic and
Functional safety of programmable electronic control systems
(IEC 62061.2005, Safetyofmachinery-Functionalsafetyofsafety-related
electrical, electronicandprogrammableelectroniccontrolsystems, IDT)
Issued on. 2012-06-29
2013-05-01 implementation
Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China
Standardization Administration of China released
Table of Contents
Introduction Ⅴ
Introduction Ⅳ
1 Scope 1
2 Normative references 2
3 Terms and definitions, abbreviations 3
3.1 Definitions Table 3 Alphabetically
3.2 Terms and definitions 4
3.3 11 Acronym
4 12 Functional Safety Management
4.1 Objective 12
4.2 Requirements 12
5 safety-related control function specifications (SRCF) 13
5.1 Objective 13
5.2 SRCF Requirements Specification 13
6 safety-related electrical control system design and integration (SRECS) 14
6.1 Objective 14
6.2 General requirements 15
6.3 Behavior (SRECS) is detected SRECS failure of claim 15
6.4 SRECS systematic safety integrity requirements 16
6.5 safety-related electrical control system selection 17
6.6 safety-related electrical control system (SRECS) design and development 17
6.7 subsystem enables 21
6.8 diagnostic functions to achieve 32
6.9 SRECS hardware 33
Software safety requirements specification 33 6.10
Software design and development 34 6.11
6.12 safety-related electrical control system integration and testing 39
6.13 SRECS installation 40
7 SRECS usage information 40
7.1 Objective 40
7.2 installation, use and maintenance of documents 40
8 safety-related electrical control system to confirm 41
8.1 Objective 41
41 8.2 General Requirements
8.3 SRECS systematic safety integrity Claim 41
9 Amendment 42
9.1 Objective 42
9.2 modify the program 42
9.3 configuration management program 43
10 File 44
Appendix A (Informative Appendix) SIL assignment 46
Annex B (informative) safety-related electrical control system (SRECS) design concepts and requirements of the Terms of Use example 5, 6
Annex C (informative) Embedded Software Design and Development Guide 57
Annex D (informative) Failure mode of electrical/electronic components 63
Appendix E (normative) in accordance with GB/T 17799.2-2003 for industrial environments SRECS electromagnetic phenomena (EM) and
Raise the level of immunity 67
Annex F (informative) common cause failures (CCF) Sensitivity Evaluation 69
Figure 1 IEC 62061 and other relevant standard relational Ⅶ
Figure 2 SRECS design and development process workflow 19
Figure 3 subsystem modules configured security requirements (see 6.6.2.1.1) 20
4 subsystem design and development process (see Figure 6B Box 2) 23
Figure 5 is decomposed into functional blocks redundancy block elements and their associated sub-elements 24
Figure 6 represents a logical subsystem A 28
Figure 7 represents a logical subsystem B 29
Figure 8 represents a logic subsystem C 29
9 D subsystem logical representation 30
Figure A.1 workflow SIL assignment process 46
Figure A.2 parameters for risk assessment 47
Figure A.3 SIL assignment process in the form of example 51
Figure B.1 functional decomposition of the term 52
Figure B.2 machine Example 53
Figure B.3 SRCF asked for clarification 53
Figure B.4 decomposition function block structure 53
B.5 SRECS preliminary conceptual diagram of the structure 54
Figure B.6 subsystem (SS1 to SS4) embedded diagnostics capability SRECS architecture 55
B.7 subsystem SS3 embedded diagnostic functions SRECS architecture 55
Figure B.8 For the SRECS PFHD assessment 56
Table 1 IEC 62061 and ISO 13849-1 Recommended for (revision) Ⅷ
Table 2 Overview of standards and targets 1
Table 3 Safety Integrity Level. SRCF target failure value 14
Table 1 Characteristics of four subsystems and subsystems used in Example 2 (see note 6.6.3.3) 21
Table 5 subsystem architecture restrictions. the use of this subsystem SRCF may require the maximum SIL 25
Table 6 architectural limitations. Classification related SILCL 26
Table 7 the probability of dangerous failure 27
Table 8 SRECS information and documents 45
Table A.1 Severity (Se) classification 48
Frequency (Fr) and duration of exposure classification 48 Table A.2
Table A.3 Probability (Pr) Category 49
Table A.4 avoid or limit the probability of harm (Av) Level 50
Table A.5 used to determine the probability of injury level parameters (CI) 50
Table A.6 SIL assignment matrix 50
Table D.1 electrical/electronic failure mode rate Example 63
Table E.1 SRECS electromagnetic phenomena (EM) and improve immunity 67
Table E.2 RF field test to select the frequency 68
Table E.3 conducting RF field to select the frequency 68
Table F.1 CCF assessment guidelines 69
Table F.2 CCF factor (β) Assessment 70
Foreword
5,6.4,6.6.3,6.10,6.12 this standard are mandatory, the rest are recommended.
This standard was drafted in accordance with GB/T 1.1-2009 given rules.
This standard uses the translation method identical with IEC 62061.2005 "Safety of machinery safety-related electrical, electronic and programmable electronic control
System security features. "
The editorial changes made the following standard.
--- Standard name changed to "Electrical safety of machinery safety-related electrical, electronic and programmable electronic control systems safety function";
--- Delete international standards foreword.
The standard proposed by China Machinery Industry Federation.
The standard mechanical and electrical systems by the National Standardization Technical Committee (SAC/TC231) centralized.
This standard is drafted by. National Machine Products Quality Supervision and Inspection Center, Chinese Academy of Sciences Institute of Computing Technology Co., Ltd.
Participated in the drafting of this standard. Solid Technology (Shenzhen) Co., Ltd., Beijing KND CNC Technology Co., Ltd., Jinan Lingkang number
Control Technology Co., Ltd., Suzhou City, measuring Detection Technology Co., Ltd., Zhejiang Kaida Machine Tool Group Co., Ltd.
The main drafters of this standard. Cho Kwong, Yin Zhenyu, Zhao Qin Zhi, Yang Jingyan, Huang Lin, in the East, Gong Xiaoyun, Zhang Chengrui, Yang Hongli, Zhu Ping,
He Yujun, Hu Yi.
introduction
Since the result of automation required to increase production and reduce operating staff strength, machinery safety-related electrical control system (hereinafter referred to as
SRECS) play an increasingly important role in achieving the overall machine safety. In addition, it SRECS themselves increasingly using sophisticated electronic technology.
In the absence of standards before, people are less reluctant to accept SRECS safety-related functions to deal with major machine dangerous, because such technologies
Performance uncertainty.
This standard mechanical designers, and other personnel control system manufacturers and integrators and norms involved, SRECS design and validation
Personnel. It is required to achieve the stated performance methods and requirements.
This standard describes the specific application within the frame of the machine in the field of IEC 61508. It is mainly the major danger in order to improve the machine in the event (see
Specifications for safety-related electrical control system under ISO 12100-1 section 3.8) conditions.
This standard provides the mechanical part of the machine-specific features SRECS security framework. It includes only security lifecycle from the safety requirements with
Set to confirm the safety related aspects of processes. Requirements to provide information about the safe use of SRECS of machines, it
After phase SRECS life related.
SRECS when used as part of the safety assessment, in many cases, the machine may lead to lower risk. Typical case
Using interlocking guards, when it is open, meaning that the danger zone is accessed, then the initiative to send a signal to the electrical control system, stop
Dangerous machine operation. Similarly, in automation, the electrical control system generally used to achieve proper machining operations can often
Failure by reducing the risk of a direct result of the control system in order to achieve security. This standard provides the following methods and requirements.
--- Specify each safety-related control functions performed by the SRECS required safety integrity levels;
--- Make SRECS designed for specific safety-related control functions;
--- Designed integrated security related subsystems comply with ISO 13849;
--- Confirmation SRECS.
The standard is expected to reduce systemic risk within the framework for ISO 12100-1 described and in accordance with ISO 14121 (EN1050) description
Principles referred to, in conjunction with the risk assessment. Safety Integrity Level (SIL) assignment method recommended in information provided in Appendix A.
Taking into account the internal control system of random electrical failure or system failure probability and results, the performance and coordination SRECS expected risk
Reducing measures.
Figure 1 shows the relationship between this standard and other relevant standards.
Table 1 summarizes the application of this standard and ISO 13849-1 revision proposals.
IEC 62061 and ISO 13849-1 (under revision) provides mechanical safety-related control system design and implementation requirements. In the standard range
Inside, use any of them, it can be presumed to meet the relevant basic safety requirements. Table 1 summarizes the IEC 62061 and ISO 13849-1 (Amendment
In) range.
NOTE. ISO 13849-1 is currently being developed by ISO TC199 and CEN.TC114 making.
Diagram 1 IEC 62061 and other relevant standards
Table 1 IEC 62061 and ISO 13849-1 Recommended for (revision)
Perform safety-related control techniques ISO 13849-1 (under revision) IEC 62061
A non-electrical, such as hydraulic X are not included
B electromechanical, such as relays or limit specified complex electronic structure (see Note 1) and reach PL = e all structures and achieve SIL3
C Complex electronics, such as a programmable limit specified structure (see Note 1) and reach PL = d All structure and achieve SIL3
DA and limit the assigned structure B combination (see Note 1) and reach PL = e X See Note 3
EC limits specified structure and composition B (see Note 1) and reach PL = d All structure and achieve SIL3
FC in combination with A, B or C with A and X combination See Note See Note 2 X 3
"X" indicates that the item is processed by the column headings shown in this standard.
Note 1. The specified structure ENISO 13849-1 (Rev.) specified in appendix B, provides a simplified method to quantify performance levels.
Note 2. For complex electronics. According ENISO 13849-1 (revision) using the assigned structure, to PL = d or in accordance with any IEC 62061
structure.
Note 3. For non-electrical technology, in accordance ENISO 13849-1 (revision) as specified in part subsystem.
Electrical safety of machinery safety-related electrical, electronic and
Functional safety of programmable electronic control systems
1 Scope
This standard machinery safety-related electrical and electronic and programmable electronic control systems (SRECS) design, integration and validation requirements
And give advice (see Notes 1 and 2).
This standard applies to individual or combined way to use a control system to enable non-portable working machine to perform safety-related
Control functions, including a group of machines working together in a coordinated manner, does not apply to portable working machine.
Note 1. In this standard, the "electrical control system," the term means "electrical, electronic and programmable electronic (E/E/PE) control system", "SRECS" represents
"Safety related electrical, electronic and programmable electronic control systems."
Note 2. In this standard, the design assumptions complex programmable electronic subsystems or subsystem elements related to IEC 61508 requirements. This standard provides consumers
Law, not of such elements as SRECS subsystem and subsystem components development.
This standard is applicable standards do not restrict or impede technological progress. It does not include the desired or required by other standards or regulations for the protection of personal
From danger all the requirements (for example protection, non-electrical or non-electrical interlock control). Each type of machine has unique requirements to meet the needs,
To provide adequate security.
This standard.
--- Relates only expected to reduce the risk of personal injury or health hazards of direct access to the machine or use the machine directly caused by safety features
Wide requirements;
--- Limited risk of the machine itself or dangerous machine groups to work together in a coordinated manner arising directly;
Note 3. reduce the risk caused by other hazards require related fields in the standard. For example, the machine is part of the processing activities, the mechanical and electrical
Control system functional safety requirements should meet other requirements (such as GB/T 21109), as long as the safety-related processing.
--- Does not provide non-electrical machinery (for example, hydraulic, pneumatic) control elements of the performance requirements;
Note 4. Although this standard specifically for electrical control system, but the provisions of the framework and methodology can be applied to other art control system security
Related components.
Electrical Hazard --- does not include electrical control equipment itself caused (eg electric shock, see GB 5226.1).
The objective of this standard specific provisions in Table 2.
Table 2 Overview of standards and objectives
Terms target
Functional Safety Management
To achieve SRECS functional safety requirements, provide for the necessary management and technical activities
Safety-related control function specifications
Establish procedures, requirements relating to safety ...
Need delivered in 3-second? USA-Site: GB 28526-2012
Get Quotation: Click GB 28526-2012 (Self-service in 1-minute)
Historical versions (Master-website): GB 28526-2012
Preview True-PDF (Reload/Scroll-down if blank)
GB 28526-2012: Electrical safety of machinery -- Functional safety of safety-related electrical, electronic and programmable electronic control systems
GB 28526-2012
Electrical safety of machinery. Functional safety of safety-related electrical, electronic and programmable electronic control systems
ICS 29.020
K09
National Standards of People's Republic of China
Electrical safety of machinery safety-related electrical, electronic and
Functional safety of programmable electronic control systems
(IEC 62061.2005, Safetyofmachinery-Functionalsafetyofsafety-related
electrical, electronicandprogrammableelectroniccontrolsystems, IDT)
Issued on. 2012-06-29
2013-05-01 implementation
Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China
Standardization Administration of China released
Table of Contents
Introduction Ⅴ
Introduction Ⅳ
1 Scope 1
2 Normative references 2
3 Terms and definitions, abbreviations 3
3.1 Definitions Table 3 Alphabetically
3.2 Terms and definitions 4
3.3 11 Acronym
4 12 Functional Safety Management
4.1 Objective 12
4.2 Requirements 12
5 safety-related control function specifications (SRCF) 13
5.1 Objective 13
5.2 SRCF Requirements Specification 13
6 safety-related electrical control system design and integration (SRECS) 14
6.1 Objective 14
6.2 General requirements 15
6.3 Behavior (SRECS) is detected SRECS failure of claim 15
6.4 SRECS systematic safety integrity requirements 16
6.5 safety-related electrical control system selection 17
6.6 safety-related electrical control system (SRECS) design and development 17
6.7 subsystem enables 21
6.8 diagnostic functions to achieve 32
6.9 SRECS hardware 33
Software safety requirements specification 33 6.10
Software design and development 34 6.11
6.12 safety-related electrical control system integration and testing 39
6.13 SRECS installation 40
7 SRECS usage information 40
7.1 Objective 40
7.2 installation, use and maintenance of documents 40
8 safety-related electrical control system to confirm 41
8.1 Objective 41
41 8.2 General Requirements
8.3 SRECS systematic safety integrity Claim 41
9 Amendment 42
9.1 Objective 42
9.2 modify the program 42
9.3 configuration management program 43
10 File 44
Appendix A (Informative Appendix) SIL assignment 46
Annex B (informative) safety-related electrical control system (SRECS) design concepts and requirements of the Terms of Use example 5, 6
Annex C (informative) Embedded Software Design and Development Guide 57
Annex D (informative) Failure mode of electrical/electronic components 63
Appendix E (normative) in accordance with GB/T 17799.2-2003 for industrial environments SRECS electromagnetic phenomena (EM) and
Raise the level of immunity 67
Annex F (informative) common cause failures (CCF) Sensitivity Evaluation 69
Figure 1 IEC 62061 and other relevant standard relational Ⅶ
Figure 2 SRECS design and development process workflow 19
Figure 3 subsystem modules configured security requirements (see 6.6.2.1.1) 20
4 subsystem design and development process (see Figure 6B Box 2) 23
Figure 5 is decomposed into functional blocks redundancy block elements and their associated sub-elements 24
Figure 6 represents a logical subsystem A 28
Figure 7 represents a logical subsystem B 29
Figure 8 represents a logic subsystem C 29
9 D subsystem logical representation 30
Figure A.1 workflow SIL assignment process 46
Figure A.2 parameters for risk assessment 47
Figure A.3 SIL assignment process in the form of example 51
Figure B.1 functional decomposition of the term 52
Figure B.2 machine Example 53
Figure B.3 SRCF asked for clarification 53
Figure B.4 decomposition function block structure 53
B.5 SRECS preliminary conceptual diagram of the structure 54
Figure B.6 subsystem (SS1 to SS4) embedded diagnostics capability SRECS architecture 55
B.7 subsystem SS3 embedded diagnostic functions SRECS architecture 55
Figure B.8 For the SRECS PFHD assessment 56
Table 1 IEC 62061 and ISO 13849-1 Recommended for (revision) Ⅷ
Table 2 Overview of standards and targets 1
Table 3 Safety Integrity Level. SRCF target failure value 14
Table 1 Characteristics of four subsystems and subsystems used in Example 2 (see note 6.6.3.3) 21
Table 5 subsystem architecture restrictions. the use of this subsystem SRCF may require the maximum SIL 25
Table 6 architectural limitations. Classification related SILCL 26
Table 7 the probability of dangerous failure 27
Table 8 SRECS information and documents 45
Table A.1 Severity (Se) classification 48
Frequency (Fr) and duration of exposure classification 48 Table A.2
Table A.3 Probability (Pr) Category 49
Table A.4 avoid or limit the probability of harm (Av) Level 50
Table A.5 used to determine the probability of injury level parameters (CI) 50
Table A.6 SIL assignment matrix 50
Table D.1 electrical/electronic failure mode rate Example 63
Table E.1 SRECS electromagnetic phenomena (EM) and improve immunity 67
Table E.2 RF field test to select the frequency 68
Table E.3 conducting RF field to select the frequency 68
Table F.1 CCF assessment guidelines 69
Table F.2 CCF factor (β) Assessment 70
Foreword
5,6.4,6.6.3,6.10,6.12 this standard are mandatory, the rest are recommended.
This standard was drafted in accordance with GB/T 1.1-2009 given rules.
This standard uses the translation method identical with IEC 62061.2005 "Safety of machinery safety-related electrical, electronic and programmable electronic control
System security features. "
The editorial changes made the following standard.
--- Standard name changed to "Electrical safety of machinery safety-related electrical, electronic and programmable electronic control systems safety function";
--- Delete international standards foreword.
The standard proposed by China Machinery Industry Federation.
The standard mechanical and electrical systems by the National Standardization Technical Committee (SAC/TC231) centralized.
This standard is drafted by. National Machine Products Quality Supervision and Inspection Center, Chinese Academy of Sciences Institute of Computing Technology Co., Ltd.
Participated in the drafting of this standard. Solid Technology (Shenzhen) Co., Ltd., Beijing KND CNC Technology Co., Ltd., Jinan Lingkang number
Control Technology Co., Ltd., Suzhou City, measuring Detection Technology Co., Ltd., Zhejiang Kaida Machine Tool Group Co., Ltd.
The main drafters of this standard. Cho Kwong, Yin Zhenyu, Zhao Qin Zhi, Yang Jingyan, Huang Lin, in the East, Gong Xiaoyun, Zhang Chengrui, Yang Hongli, Zhu Ping,
He Yujun, Hu Yi.
introduction
Since the result of automation required to increase production and reduce operating staff strength, machinery safety-related electrical control system (hereinafter referred to as
SRECS) play an increasingly important role in achieving the overall machine safety. In addition, it SRECS themselves increasingly using sophisticated electronic technology.
In the absence of standards before, people are less reluctant to accept SRECS safety-related functions to deal with major machine dangerous, because such technologies
Performance uncertainty.
This standard mechanical designers, and other personnel control system manufacturers and integrators and norms involved, SRECS design and validation
Personnel. It is required to achieve the stated performance methods and requirements.
This standard describes the specific application within the frame of the machine in the field of IEC 61508. It is mainly the major danger in order to improve the machine in the event (see
Specifications for safety-related electrical control system under ISO 12100-1 section 3.8) conditions.
This standard provides the mechanical part of the machine-specific features SRECS security framework. It includes only security lifecycle from the safety requirements with
Set to confirm the safety related aspects of processes. Requirements to provide information about the safe use of SRECS of machines, it
After phase SRECS life related.
SRECS when used as part of the safety assessment, in many cases, the machine may lead to lower risk. Typical case
Using interlocking guards, when it is open, meaning that the danger zone is accessed, then the initiative to send a signal to the electrical control system, stop
Dangerous machine operation. Similarly, in automation, the electrical control system generally used to achieve proper machining operations can often
Failure by reducing the risk of a direct result of the control system in order to achieve security. This standard provides the following methods and requirements.
--- Specify each safety-related control functions performed by the SRECS required safety integrity levels;
--- Make SRECS designed for specific safety-related control functions;
--- Designed integrated security related subsystems comply with ISO 13849;
--- Confirmation SRECS.
The standard is expected to reduce systemic risk within the framework for ISO 12100-1 described and in accordance with ISO 14121 (EN1050) description
Principles referred to, in conjunction with the risk assessment. Safety Integrity Level (SIL) assignment method recommended in information provided in Appendix A.
Taking into account the internal control system of random electrical failure or system failure probability and results, the performance and coordination SRECS expected risk
Reducing measures.
Figure 1 shows the relationship between this standard and other relevant standards.
Table 1 summarizes the application of this standard and ISO 13849-1 revision proposals.
IEC 62061 and ISO 13849-1 (under revision) provides mechanical safety-related control system design and implementation requirements. In the standard range
Inside, use any of them, it can be presumed to meet the relevant basic safety requirements. Table 1 summarizes the IEC 62061 and ISO 13849-1 (Amendment
In) range.
NOTE. ISO 13849-1 is currently being developed by ISO TC199 and CEN.TC114 making.
Diagram 1 IEC 62061 and other relevant standards
Table 1 IEC 62061 and ISO 13849-1 Recommended for (revision)
Perform safety-related control techniques ISO 13849-1 (under revision) IEC 62061
A non-electrical, such as hydraulic X are not included
B electromechanical, such as relays or limit specified complex electronic structure (see Note 1) and reach PL = e all structures and achieve SIL3
C Complex electronics, such as a programmable limit specified structure (see Note 1) and reach PL = d All structure and achieve SIL3
DA and limit the assigned structure B combination (see Note 1) and reach PL = e X See Note 3
EC limits specified structure and composition B (see Note 1) and reach PL = d All structure and achieve SIL3
FC in combination with A, B or C with A and X combination See Note See Note 2 X 3
"X" indicates that the item is processed by the column headings shown in this standard.
Note 1. The specified structure ENISO 13849-1 (Rev.) specified in appendix B, provides a simplified method to quantify performance levels.
Note 2. For complex electronics. According ENISO 13849-1 (revision) using the assigned structure, to PL = d or in accordance with any IEC 62061
structure.
Note 3. For non-electrical technology, in accordance ENISO 13849-1 (revision) as specified in part subsystem.
Electrical safety of machinery safety-related electrical, electronic and
Functional safety of programmable electronic control systems
1 Scope
This standard machinery safety-related electrical and electronic and programmable electronic control systems (SRECS) design, integration and validation requirements
And give advice (see Notes 1 and 2).
This standard applies to individual or combined way to use a control system to enable non-portable working machine to perform safety-related
Control functions, including a group of machines working together in a coordinated manner, does not apply to portable working machine.
Note 1. In this standard, the "electrical control system," the term means "electrical, electronic and programmable electronic (E/E/PE) control system", "SRECS" represents
"Safety related electrical, electronic and programmable electronic control systems."
Note 2. In this standard, the design assumptions complex programmable electronic subsystems or subsystem elements related to IEC 61508 requirements. This standard provides consumers
Law, not of such elements as SRECS subsystem and subsystem components development.
This standard is applicable standards do not restrict or impede technological progress. It does not include the desired or required by other standards or regulations for the protection of personal
From danger all the requirements (for example protection, non-electrical or non-electrical interlock control). Each type of machine has unique requirements to meet the needs,
To provide adequate security.
This standard.
--- Relates only expected to reduce the risk of personal injury or health hazards of direct access to the machine or use the machine directly caused by safety features
Wide requirements;
--- Limited risk of the machine itself or dangerous machine groups to work together in a coordinated manner arising directly;
Note 3. reduce the risk caused by other hazards require related fields in the standard. For example, the machine is part of the processing activities, the mechanical and electrical
Control system functional safety requirements should meet other requirements (such as GB/T 21109), as long as the safety-related processing.
--- Does not provide non-electrical machinery (for example, hydraulic, pneumatic) control elements of the performance requirements;
Note 4. Although this standard specifically for electrical control system, but the provisions of the framework and methodology can be applied to other art control system security
Related components.
Electrical Hazard --- does not include electrical control equipment itself caused (eg electric shock, see GB 5226.1).
The objective of this standard specific provisions in Table 2.
Table 2 Overview of standards and objectives
Terms target
Functional Safety Management
To achieve SRECS functional safety requirements, provide for the necessary management and technical activities
Safety-related control function specifications
Establish procedures, requirements relating to safety ...
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