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YY/T 0708-2009: Medical electrical equipment. Part 1-4: General requirements for safety. Collateral standard: Programmable electrical medical systems
YY/T 0708-2009
Medical electrical equipment-Part 1-4. General requirements for safety.Collateral standard. Programmable electrical medical systems
ICS 11.040.01
C30
People's Republic of China Pharmaceutical Industry Standard
Medical electrical equipment. Part 1-4. General safety requirements
Parallel Standard. Programmable Medical Electrical System
Released on.2009-11-11
2010-12-12-01 implementation
Published by the State Food and Drug Administration
Foreword
This collateral standard is equivalent to IEC 60601-1-4..2000 "Medical Electrical Equipment Part 1-4. General requirements for safety.
Programmable Medical Electrical System.
This collateral standard is GB 97.16.1-2007 "Medical Electrical Equipment Part 1. General Safety Requirements" (IEC 60601-1. 1988,
IDT) A juxtaposition of common standards.
Appendix AAA of this collateral standard is a normative appendix, Appendix BBB, Appendix CC, Appendix DDD, Appendix EEE, Appendix FFF are all
It is an informative appendix.
This collateral standard is under the jurisdiction of the National Medical Electrical Equipment Standardization Technical Committee (SAC/TC10).
This juxtaposed standard was drafted by. State Food and Drug Administration Hangzhou Medical Device Quality Supervision and Inspection Center, National Wuhan Medical Supervision
Acoustic Instrument Quality Supervision and Testing Center.
The main drafters of this collocated standard. Du Yan, Ma Li, He Anshi, Zheng Jian.
introduction
Computers are increasingly used in medical electrical equipment and often play a role closely related to safety. Computer Application Technology in
The use of medical electrical equipment makes the complexity of the system second only to the diagnosis and/or treatment of medical equipment --- the patient's physiology department
System. This complexity means that systemic failures may exceed the ability to be judged by practically acceptable test limits. Accordingly, intrinsic safety
The full standard goes beyond the traditional testing and evaluation of existing medical electrical equipment; this safety standard includes requirements for the medical device development process.
The finished product test itself cannot fully explain the safety of complex medical electrical equipment.
This document is a juxtaposition of common standards. It requires following a process and producing a record of the process to support the
Sub-system safety of medical electrical equipment. The concepts of risk management and development life cycle are the foundation of the standard, and these concepts
It is also valuable to develop medical electrical equipment without programmable electronic subsystems.
For the task to be handled, the effective application of this standard requires the following capabilities.
--- Safety factors that should be considered in specific medical electrical equipment applications;
--- The development process of medical electrical equipment;
--- security guarantee method;
--- Risk analysis and risk control skills.
Medical electrical equipment. Part 1-4. General safety requirements
Parallel Standard. Programmable Medical Electrical System
First overview
1 Scope, purpose, and relationship with other standards
1.2001 range
This collateral standard applies to medical electrical equipment and medical electrical systems with programmable electronic subsystems (PESS) [hereinafter referred to as
Programming Medical Electrical Systems (PEMS)] safety requirements.
Note. Some systems with software for medical purposes are beyond the scope of this collateral standard, for example. many medical information systems. Identification elements (criteria)
For. Does the system meet the definition of medical electrical equipment in GB 2.706.1-2.07 or 2.2.1 in GB 2.706.15-2008?
Definition of medical electrical systems.
1.202 Purpose
This collateral standard specifies requirements in the design of programmable medical electrical systems. This collateral standard is also used as the basis for the requirements of specific standards.
Foundations, including guidance on security requirements for risk reduction and management purposes. This collateral standard addresses.
a) certification body;
b) the manufacturer;
c) Special standard preparation staff.
This standard covers.
d) requirements specifications;
e) architecture;
f) detailed design and implementation, including software development;
g) modification;
h) verification and validation;
i) Marking and random files.
This standard does not cover.
ii) hardware manufacturing;
k) software replication;
l) installation and delivery;
m) operation and maintenance;
n) Exit use.
1.203 Relationship with other standards
1.203.1 GB 970.1
For medical electrical equipment, this collateral standard is a supplement to GB 97.16.1.
When quoting GB 9706.1 or this juxtaposed standard separately or jointly, it is clear as follows.
--- "This General Standard" refers only to GB 976.1;
--- "This juxtaposed standard" refers only to YY/T 0708-2009;
--- "This standard" refers to the general standard and this juxtaposed standard.
1.203.2 Special standards
The requirements in the dedicated standard take precedence over the corresponding requirements in this collateral standard.
1.203.3 Normative references
The clauses in the following documents have been incorporated into the clauses of this standard by reference. For dated references, their
All subsequent amendments (excluding the content of errata) or revisions are not applicable to this collateral standard, however, it is encouraged that
The parties to the agreement study whether the latest versions of these documents are available. For undated references, the latest edition applies to this document.
Tied standards.
GB 970.1-2007 Medical electrical equipment Part 1. General requirements for safety (IEC 60601-1. 1988, IDT)
GB 9706.15-2008 Medical electrical equipment. Part 1-1. General requirements for safety. Collateral standard. Safety for medical electrical systems.
Requirements (IEC 60601-1-1..2000, IDT)
GB/T.1990-2000 Quality Management System Requirements (idt ISO 9001..2000)
IEC 60878. 1984 Medical Radiology Terminology
2.2001 Terms and Definitions
The following terms and definitions apply to this collateral standard. In this juxtaposed standard, terms used in bold typeface and common standards,
GB 9706.15 is consistent with the definitions in this collateral standard or IEC 60878. 1984.
This collateral standard gives an index of terms in Appendix AAA (normative appendix).
2.201.1.1
Necessary activities from the conceptual design phase of the project to the completion of the verification of the programmable medical electrical system (PEMS).
2.201.2
Identification of hazards and causes.
Note. Quantification of hazards is not part of the hazard analysis.
2.201.3
Specify the maximum acceptable amount of risk.
Note. The amount of risk can be either the regulation of the entire hazard of a programmable medical electrical system, or the regulation of a specific hazard.
2.201.4
Medical electrical equipment or medical electrical system containing one or more programmable electronic subsystems.
2.201.5
Systems based on one or more central processing units, including their software and interfaces.
2.201.6
After implementing risk management, the remaining risks are derived from the hazard analysis.
2.201.7
Probability of harm causing harm and severity of harm.
2.201.8
The part of the quality record required by this standard.
2.201.9
Provide traceability documentation for the cause of each hazard in the hazard and risk analysis, and verification that the risk has been controlled.
Note. Documents can be stored on paper or electronic media.
2.201.10
Avoiding unacceptable risks.
2.201.11
Potentially harmful effects on patients, other persons, animals, or the environment caused directly by medical electrical equipment.
2.201.12
Not adopted.
2.201.13
A qualitative measure of the possible consequences of a hazard.
2.201.14
The process of evaluating a programmable medical electrical system or its components during or at the end of the development process to determine whether it meets expectations
Use requirements.
2.201.15
The process of evaluating a programmable medical electrical system or its components to determine whether a product at the development stage meets the requirements for development at that stage.
Specific requirements from the beginning.
2.202 required degree and other terminology
In this juxtaposed standard, certain words have the following special meanings.
--- "shall" means a mandatory requirement that must be met.
--- "Should" means strongly suggested but not necessarily achieved.
--- "May (may)" means a permissible method adopted in order to comply with the requirements or avoid the need to comply.
--- "Specific" is used to indicate certain information quoted in this juxtaposed standard or other standards, usually about specific
Operating conditions, test arrangements, or standards related to compliance.
--- "Required" Limits stated by the manufacturer in a random document or other document under consideration related to PEMS
Qualitative information, usually related to its intended purpose or parameters, or conditions related to its use or tests used to determine compliance.
6 Identification, marking and documentation
6.8 Random files
6.8.2001 All information related to significant residual risks, including a description of the hazard and what the operator or user is trying to avoid (reduce)
The measures to be taken for hazards should be recorded in the instruction manual and risk management documents.
6.8.202 The random file of the programmable medical electrical system should at least identify the manufacturer and a unique identifier, such as the version number and release of the file.
(Publication) date.
Note. Information applicable to certain specific devices intended to be used with the software, as well as the manufacturer's contact information, should be located in the outer packaging or user manual
Medium, so that the user can operate independently of the software.
Chapter IX Abnormal Operation and Failure State; Environmental Test
52 Abnormal operation and fault conditions
52.2001 Documents
52.2.11.1 The documents formed by the application of this standard shall be maintained and made part of the quality record; see Figure.201. Should follow
The requirements of 4.2 in GB/T.1990-2000 are implemented.
52.201.2 These documents (hereinafter referred to as risk management documents) shall be approved, released and changed in accordance with the prescribed configuration management mechanism.
It should be implemented in accordance with the requirements of 4.2.3 in GB/T 19001-2000.
52.201.3 Throughout the development life cycle, a risk management profile should be formed and used as part of the risk management document. Its content
Should include.
a) identified hazards and their causes;
b) risk estimation;
c) proof of security measures taken to eliminate or control the risk of hazards;
d) evaluation of the effectiveness of risk control;
e) proof of verification;
Check compliance by checking risk management documents.
52.202 Risk Management Plan
52.202.1 The manufacturer shall establish a risk management plan.
52.2.2 The plan shall include the following.
a) the scope of the plan, identifying the project or product and the stages of the development life cycle to which the plan applies;
b) applicable development life cycle (see 52.203), including verification plans and validation plans;
c) Management responsibilities in accordance with 5.1 of GB/T 12001-2000;
d) risk management processes;
e) audit requirements.
52.202.3 If changes are planned during development, records of the changes shall be maintained.
Check compliance by checking risk management documents.
52.203 Development Life Cycle
52.203.1 A development life cycle shall be defined for the design and development of programmable medical electrical systems.
52.203.2 The development life cycle should be broken down into phases and tasks. For each phase and task, inputs and outputs should be clearly defined to
And activities.
52.203.3 The development life cycle shall include the entire process of risk management.
52.203.4 The development life cycle shall include requirements for documentation.
52.203.5 Risk management activities shall be properly implemented throughout the development life cycle, see 52.204.
Note. An example of a development life cycle is given in Appendix DDD (Informative).
Check compliance by checking risk management documents.
52.203.6 A clear set of problem solutions shall be established and maintained at all stages of the development life cycle and where applicable within or between tasks.
Decision system as part of the risk management documentation. According to the problem, the system can have the following characteristics.
--- Defined as part of the development life cycle;
--- Allows reporting of potential or existing security and/or performance issues;
--- Include an assessment of the risks associated with each issue;
--- determine the criteria for the end of the problem analysis [security and/or performance aspects];
--- Determine the measures taken to resolve various issues;
--- determine the method of confirmation of each measure;
--- Determine the steps to verify continued compliance.
52.204 Risk Management Process
52.204.1 Elements
A risk management process that includes the following elements should be used.
---Risk Analysis;
---risk control.
52.204.2 Requirements
The risk management process should run through the entire development life cycle.
52.204.3 Risk analysis
52.20.3.1 Hazard analysis
52.204.3.1.1.1 Hazards shall be identified in accordance with the risk management plan, see 52.202.
52.20.4.3.1.2 Hazard identification shall be performed for all reasonably foreseeable situations, including.
--- Under normal use;
--- Incorrect use.
52.20.4.3.1.3 Appropriate hazard conditions shall be considered, including.
--- the harm to patients;
--- Harm to the operator;
Need delivered in 3-second? USA-Site: YY/T 0708-2009
Get Quotation: Click YY/T 0708-2009 (Self-service in 1-minute)
Historical versions (Master-website): YY/T 0708-2009
Preview True-PDF (Reload/Scroll-down if blank)
YY/T 0708-2009: Medical electrical equipment. Part 1-4: General requirements for safety. Collateral standard: Programmable electrical medical systems
YY/T 0708-2009
Medical electrical equipment-Part 1-4. General requirements for safety.Collateral standard. Programmable electrical medical systems
ICS 11.040.01
C30
People's Republic of China Pharmaceutical Industry Standard
Medical electrical equipment. Part 1-4. General safety requirements
Parallel Standard. Programmable Medical Electrical System
Released on.2009-11-11
2010-12-12-01 implementation
Published by the State Food and Drug Administration
Foreword
This collateral standard is equivalent to IEC 60601-1-4..2000 "Medical Electrical Equipment Part 1-4. General requirements for safety.
Programmable Medical Electrical System.
This collateral standard is GB 97.16.1-2007 "Medical Electrical Equipment Part 1. General Safety Requirements" (IEC 60601-1. 1988,
IDT) A juxtaposition of common standards.
Appendix AAA of this collateral standard is a normative appendix, Appendix BBB, Appendix CC, Appendix DDD, Appendix EEE, Appendix FFF are all
It is an informative appendix.
This collateral standard is under the jurisdiction of the National Medical Electrical Equipment Standardization Technical Committee (SAC/TC10).
This juxtaposed standard was drafted by. State Food and Drug Administration Hangzhou Medical Device Quality Supervision and Inspection Center, National Wuhan Medical Supervision
Acoustic Instrument Quality Supervision and Testing Center.
The main drafters of this collocated standard. Du Yan, Ma Li, He Anshi, Zheng Jian.
introduction
Computers are increasingly used in medical electrical equipment and often play a role closely related to safety. Computer Application Technology in
The use of medical electrical equipment makes the complexity of the system second only to the diagnosis and/or treatment of medical equipment --- the patient's physiology department
System. This complexity means that systemic failures may exceed the ability to be judged by practically acceptable test limits. Accordingly, intrinsic safety
The full standard goes beyond the traditional testing and evaluation of existing medical electrical equipment; this safety standard includes requirements for the medical device development process.
The finished product test itself cannot fully explain the safety of complex medical electrical equipment.
This document is a juxtaposition of common standards. It requires following a process and producing a record of the process to support the
Sub-system safety of medical electrical equipment. The concepts of risk management and development life cycle are the foundation of the standard, and these concepts
It is also valuable to develop medical electrical equipment without programmable electronic subsystems.
For the task to be handled, the effective application of this standard requires the following capabilities.
--- Safety factors that should be considered in specific medical electrical equipment applications;
--- The development process of medical electrical equipment;
--- security guarantee method;
--- Risk analysis and risk control skills.
Medical electrical equipment. Part 1-4. General safety requirements
Parallel Standard. Programmable Medical Electrical System
First overview
1 Scope, purpose, and relationship with other standards
1.2001 range
This collateral standard applies to medical electrical equipment and medical electrical systems with programmable electronic subsystems (PESS) [hereinafter referred to as
Programming Medical Electrical Systems (PEMS)] safety requirements.
Note. Some systems with software for medical purposes are beyond the scope of this collateral standard, for example. many medical information systems. Identification elements (criteria)
For. Does the system meet the definition of medical electrical equipment in GB 2.706.1-2.07 or 2.2.1 in GB 2.706.15-2008?
Definition of medical electrical systems.
1.202 Purpose
This collateral standard specifies requirements in the design of programmable medical electrical systems. This collateral standard is also used as the basis for the requirements of specific standards.
Foundations, including guidance on security requirements for risk reduction and management purposes. This collateral standard addresses.
a) certification body;
b) the manufacturer;
c) Special standard preparation staff.
This standard covers.
d) requirements specifications;
e) architecture;
f) detailed design and implementation, including software development;
g) modification;
h) verification and validation;
i) Marking and random files.
This standard does not cover.
ii) hardware manufacturing;
k) software replication;
l) installation and delivery;
m) operation and maintenance;
n) Exit use.
1.203 Relationship with other standards
1.203.1 GB 970.1
For medical electrical equipment, this collateral standard is a supplement to GB 97.16.1.
When quoting GB 9706.1 or this juxtaposed standard separately or jointly, it is clear as follows.
--- "This General Standard" refers only to GB 976.1;
--- "This juxtaposed standard" refers only to YY/T 0708-2009;
--- "This standard" refers to the general standard and this juxtaposed standard.
1.203.2 Special standards
The requirements in the dedicated standard take precedence over the corresponding requirements in this collateral standard.
1.203.3 Normative references
The clauses in the following documents have been incorporated into the clauses of this standard by reference. For dated references, their
All subsequent amendments (excluding the content of errata) or revisions are not applicable to this collateral standard, however, it is encouraged that
The parties to the agreement study whether the latest versions of these documents are available. For undated references, the latest edition applies to this document.
Tied standards.
GB 970.1-2007 Medical electrical equipment Part 1. General requirements for safety (IEC 60601-1. 1988, IDT)
GB 9706.15-2008 Medical electrical equipment. Part 1-1. General requirements for safety. Collateral standard. Safety for medical electrical systems.
Requirements (IEC 60601-1-1..2000, IDT)
GB/T.1990-2000 Quality Management System Requirements (idt ISO 9001..2000)
IEC 60878. 1984 Medical Radiology Terminology
2.2001 Terms and Definitions
The following terms and definitions apply to this collateral standard. In this juxtaposed standard, terms used in bold typeface and common standards,
GB 9706.15 is consistent with the definitions in this collateral standard or IEC 60878. 1984.
This collateral standard gives an index of terms in Appendix AAA (normative appendix).
2.201.1.1
Necessary activities from the conceptual design phase of the project to the completion of the verification of the programmable medical electrical system (PEMS).
2.201.2
Identification of hazards and causes.
Note. Quantification of hazards is not part of the hazard analysis.
2.201.3
Specify the maximum acceptable amount of risk.
Note. The amount of risk can be either the regulation of the entire hazard of a programmable medical electrical system, or the regulation of a specific hazard.
2.201.4
Medical electrical equipment or medical electrical system containing one or more programmable electronic subsystems.
2.201.5
Systems based on one or more central processing units, including their software and interfaces.
2.201.6
After implementing risk management, the remaining risks are derived from the hazard analysis.
2.201.7
Probability of harm causing harm and severity of harm.
2.201.8
The part of the quality record required by this standard.
2.201.9
Provide traceability documentation for the cause of each hazard in the hazard and risk analysis, and verification that the risk has been controlled.
Note. Documents can be stored on paper or electronic media.
2.201.10
Avoiding unacceptable risks.
2.201.11
Potentially harmful effects on patients, other persons, animals, or the environment caused directly by medical electrical equipment.
2.201.12
Not adopted.
2.201.13
A qualitative measure of the possible consequences of a hazard.
2.201.14
The process of evaluating a programmable medical electrical system or its components during or at the end of the development process to determine whether it meets expectations
Use requirements.
2.201.15
The process of evaluating a programmable medical electrical system or its components to determine whether a product at the development stage meets the requirements for development at that stage.
Specific requirements from the beginning.
2.202 required degree and other terminology
In this juxtaposed standard, certain words have the following special meanings.
--- "shall" means a mandatory requirement that must be met.
--- "Should" means strongly suggested but not necessarily achieved.
--- "May (may)" means a permissible method adopted in order to comply with the requirements or avoid the need to comply.
--- "Specific" is used to indicate certain information quoted in this juxtaposed standard or other standards, usually about specific
Operating conditions, test arrangements, or standards related to compliance.
--- "Required" Limits stated by the manufacturer in a random document or other document under consideration related to PEMS
Qualitative information, usually related to its intended purpose or parameters, or conditions related to its use or tests used to determine compliance.
6 Identification, marking and documentation
6.8 Random files
6.8.2001 All information related to significant residual risks, including a description of the hazard and what the operator or user is trying to avoid (reduce)
The measures to be taken for hazards should be recorded in the instruction manual and risk management documents.
6.8.202 The random file of the programmable medical electrical system should at least identify the manufacturer and a unique identifier, such as the version number and release of the file.
(Publication) date.
Note. Information applicable to certain specific devices intended to be used with the software, as well as the manufacturer's contact information, should be located in the outer packaging or user manual
Medium, so that the user can operate independently of the software.
Chapter IX Abnormal Operation and Failure State; Environmental Test
52 Abnormal operation and fault conditions
52.2001 Documents
52.2.11.1 The documents formed by the application of this standard shall be maintained and made part of the quality record; see Figure.201. Should follow
The requirements of 4.2 in GB/T.1990-2000 are implemented.
52.201.2 These documents (hereinafter referred to as risk management documents) shall be approved, released and changed in accordance with the prescribed configuration management mechanism.
It should be implemented in accordance with the requirements of 4.2.3 in GB/T 19001-2000.
52.201.3 Throughout the development life cycle, a risk management profile should be formed and used as part of the risk management document. Its content
Should include.
a) identified hazards and their causes;
b) risk estimation;
c) proof of security measures taken to eliminate or control the risk of hazards;
d) evaluation of the effectiveness of risk control;
e) proof of verification;
Check compliance by checking risk management documents.
52.202 Risk Management Plan
52.202.1 The manufacturer shall establish a risk management plan.
52.2.2 The plan shall include the following.
a) the scope of the plan, identifying the project or product and the stages of the development life cycle to which the plan applies;
b) applicable development life cycle (see 52.203), including verification plans and validation plans;
c) Management responsibilities in accordance with 5.1 of GB/T 12001-2000;
d) risk management processes;
e) audit requirements.
52.202.3 If changes are planned during development, records of the changes shall be maintained.
Check compliance by checking risk management documents.
52.203 Development Life Cycle
52.203.1 A development life cycle shall be defined for the design and development of programmable medical electrical systems.
52.203.2 The development life cycle should be broken down into phases and tasks. For each phase and task, inputs and outputs should be clearly defined to
And activities.
52.203.3 The development life cycle shall include the entire process of risk management.
52.203.4 The development life cycle shall include requirements for documentation.
52.203.5 Risk management activities shall be properly implemented throughout the development life cycle, see 52.204.
Note. An example of a development life cycle is given in Appendix DDD (Informative).
Check compliance by checking risk management documents.
52.203.6 A clear set of problem solutions shall be established and maintained at all stages of the development life cycle and where applicable within or between tasks.
Decision system as part of the risk management documentation. According to the problem, the system can have the following characteristics.
--- Defined as part of the development life cycle;
--- Allows reporting of potential or existing security and/or performance issues;
--- Include an assessment of the risks associated with each issue;
--- determine the criteria for the end of the problem analysis [security and/or performance aspects];
--- Determine the measures taken to resolve various issues;
--- determine the method of confirmation of each measure;
--- Determine the steps to verify continued compliance.
52.204 Risk Management Process
52.204.1 Elements
A risk management process that includes the following elements should be used.
---Risk Analysis;
---risk control.
52.204.2 Requirements
The risk management process should run through the entire development life cycle.
52.204.3 Risk analysis
52.20.3.1 Hazard analysis
52.204.3.1.1.1 Hazards shall be identified in accordance with the risk management plan, see 52.202.
52.20.4.3.1.2 Hazard identification shall be performed for all reasonably foreseeable situations, including.
--- Under normal use;
--- Incorrect use.
52.20.4.3.1.3 Appropriate hazard conditions shall be considered, including.
--- the harm to patients;
--- Harm to the operator;
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