TÜV SÜD Academy
Hardware Safety Analysis of Automotive Electronics
Course Introduction
1
Course Background
With the official release of ISO 26262 and the second edition of GB/T 34590 standards, the industry’s attention to functional safety of road vehicles has become more focused and broader, especially for new energy vehicles, whose core electronic controllers have higher ASIL levels. The demand for ISO 26262 has gradually become necessary in the industry, and the development trends in Europe and the USA have essentially become mandatory standards.
During the design and development process of automotive E&E systems, vehicle manufacturers and ECU component suppliers mainly focus on systematic failures and random hardware failures. Therefore, to achieve timely detection of functional failures and enter a safe state, thereby avoiding personal injury to traffic participants, ECU manufacturers must select appropriate safety design solutions and conduct thorough safety analyses during the design and development phase, in accordance with ISO 26262 standards and industry best practices, based on different levels of safety requirements.
2
Course Outline
1. Vocabulary and Definitions – Products, Systems, Components, Elements, and Hardware Components
– Faults, Errors, and Failures
– FDTI, FRTI&EOTI Fault Tolerance Time Intervals
2. Overall Activities of Hardware Development
– Overview and Objectives
– Inputs and Work Products
3. Hardware Safety Requirements Specification
4. Hardware Design
– Design Specifications
– Safety Analysis Report
– Design Confirmation Report
– Production and Operational Requirements
5. Quantitative Failure Rate of Hardware Components
– Quantitative Requirements
– Diagnostic Coverage Assessment
– Single Point Failure & Potential Failure Calculation
– Calculation of Failure Rates
6. Hardware Architecture Methods
7. Hardware Integration and Confirmation
8. Practical Exercises
3
Training Benefits
– Understand the hardware design, development, and verification requirements of ISO 26262:2018-5;
– Master how to conduct qualitative FMEA/FTA/DFA analyses and how to perform quantitative FTA and FMEDA calculations through real case studies.
4
Target Audience
– Automotive electronics and electrical systems engineers, hardware engineers, safety analysis specialists, and other related positions.
Course Schedule
Date & Location:
April 10-12, 2024, Shanghai
Price:
Please consult our colleagues.
Scan the QR code or click “Read the Original” at the end of the article to register, or contact us.
Ms. Zhang 021-6142 4472
About Us
TÜV SÜD Knowledge Services is a training and knowledge service platform created by the TÜV SÜD Group. We provide training and knowledge services to various industries through different service formats, aiming to optimize business operations and empower talent in the aforementioned fields, improving the operational capabilities of enterprises and maintaining their sustainable competitive advantages. TÜV SÜD Knowledge Services has over 500 consultants/technical experts and 2,500 trainers worldwide, always committed to providing international, yet locally informed professional advice to help clients maintain professionalism and sustained employment value, thus supporting the comprehensive development of the knowledge economy.
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