Functional Safety for U.S. Manufacturers (ISO 13849, IEC 62061, ISO 26262) Training by Tonex
This course provides a comprehensive overview of functional safety standards critical for U.S. manufacturers. It covers safety integrity levels, risk assessment, and OSHA alignment. Emerging cybersecurity threats necessitate integrating safety and security considerations. We will explore how these standards influence cybersecurity practices. Understanding these frameworks is vital for ensuring safe and compliant operations.
Audience:
- Safety Engineers
- Design Engineers
- Risk Assessment Professionals
- Compliance Officers
- Project Managers
- Cybersecurity Professionals
Learning Objectives:
- Understand key functional safety standards.
- Apply hazard and risk analysis methods.
- Interpret Safety Integrity Levels (SIL), PL, and ASIL.
- Align machine safety with U.S. OSHA regulations.
- Recognize the impact of cybersecurity on functional safety.
- Implement safety control system design principles.
Course Modules:
Module 1: Introduction to Functional Safety
- Overview of Functional Safety Concepts.
- Importance of Safety Standards in Manufacturing.
- Introduction to ISO 13849, IEC 62061, and ISO 26262.
- Regulatory Landscape and Compliance.
- Relationship between Safety and Cybersecurity.
- Basic Principles of Risk Reduction.
Module 2: Safety Integrity Levels (SIL), PL, and ASIL
- Understanding Safety Integrity Levels (SIL).
- Performance Levels (PL) for Machinery.
- Automotive Safety Integrity Levels (ASIL).
- Methods for Determining SIL, PL, and ASIL.
- Impact of these levels on system design.
- Practical applications and case studies.
Module 3: Hazard and Risk Analysis Methods
- Identifying Potential Hazards.
- Risk Assessment Techniques.
- Hazard and Operability Study (HAZOP).
- Failure Modes and Effects Analysis (FMEA).
- Risk Graph and Risk Matrix.
- Documentation and Reporting.
Module 4: ISO 13849: Safety of Machinery
- Principles of ISO 13849.
- Safety-Related Parts of Control Systems (SRP/CS).
- Validation and Verification Processes.
- Software Safety Considerations.
- Integration with Cybersecurity measures.
- Practical examples and implementation.
Module 5: IEC 62061: Safety of Electrical, Electronic, and Programmable Electronic (E/E/PE) Systems
- Overview of IEC 62061.
- Systematic Capability and Architectural Constraints.
- Software Development Lifecycle.
- Safety Function Implementation.
- Cybersecurity implications for E/E/PE.
- Compliance and certification.
Module 6: ISO 26262: Functional Safety for Automotive
- Introduction to ISO 26262.
- Automotive Safety Lifecycle.
- ASIL Decomposition and Management.
- Hardware and Software Safety.
- Cybersecurity in automotive safety systems.
- Verification and validation in automotive applications.
Enroll today to enhance your expertise in functional safety and ensure your products meet critical safety standards. Contact Tonex for more information.