4-day training - limited participation to 12 persons

Schedule

Target Group

Developers, project leaders, quality managers and tester who are mainly engaged in the development of safety-related systems for use in cars on the basis of the draft international standard ISO 26262. This training imparts basic knowledge, which enables developers to transfer the requirements of the standard ISO/DIS 26262 most effectively.

Contents

• Functional safety of electric, electronic and programmable systems

• Definition of risk, principle of risk reduction
• Introduction to various classification systems (categories, SIL, ASIL)
• Comparison and relation of classification systems to each other

• Homologation rules
• Product liability laws

• General methods and requirements
• Consideration of life cycle aspects of safety-related systems and components
• Requirements concerning Management of Functional Safety
• Requirements for the evaluation/judgement of Functional Safety
• Definition of requirements according to the chosen ASIL
• Meaning of Automotive Safety Integrity Level (ASIL)
• Consideration of faults and fault models
  
  • Fault: random fault, systematic fault, fault caused by handling, fault during operation
  • Fault models: stuck-at, DC and extended DC-fault model
• Definition of measures against faults
  • Fault avoidance
  • Fault detection and fault control

• Consideration during design, development and production phase
  • Safety requirement specification
  • Verification and validation plan
  • Examples of :
    • hardware design and verification
    • Software design and verification
    • model-based software design

• Calculation of the probability of violation of the safety goal
  • Derivation of Reliability Block Diagram for different systems
  • Architectural metrics, diagnostic coverage, single point faults metric, latent faults
  • Influence of diagnostic-test-interval on probability figures
  • Dependent failures, cascading failures, common cause failures
  • Redundant systems and common cause factors
  • Example calculation

• Constraints and conditions for the phases
  • Commissioning, implementation, operation, maintenance
  • Operation

• Qualification of hardware components

• Safety elements out of context (SEooC)

• Use of proven-in-use argument

Course Agenda

1st Day

1. Introduction, overview of the TÜV Functional Safety Program

2. Introduction into safety engineering

3. Application of the international standard ISO 26262

4. Management of Functional Safety

5. Hazard analysis and risk assessment

2nd Day

1. Product development at system level

2. Product development at hardware level

3. Supporting processes for hardware development

4. Discussion

3rd Day

1. Product development on the software level

2. Software design and development

3. Software implementation

4. Software testing and analysis

5. Hardware-software integration

6. Additional topics

7. Release for production, operation

8. Discussion

4th Day

1. Summary of training - Questions and answers

2. Exam

    Duration approx. 3,5 - 4 hours, Start: 11 am, End: approx. 3 pm

Costs

€ 2.250
Includes exam, training proceedings, lunch and refreshments

€ 1.980
without exam, including training proceedings, lunch and refreshments

Registration