BS ISO 26262-5:2018
$215.11
Road vehicles. Functional safety – Product development at the hardware level
| Published By | Publication Date | Number of Pages |
| BSI | 2018 | 102 |
This document is intended to be applied to safety-related systems that include one or more electrical and/or electronic (E/E) systems and that are installed in series production road vehicles, excluding mopeds. This document does not address unique E/E systems in special vehicles such as E/E systems designed for drivers with disabilities.
NOTE Other dedicated application-specific safety standards exist and can complement the ISO 26262 series of standards or vice versa.
Systems and their components released for production, or systems and their components already under development prior to the publication date of this document, are exempted from the scope of this edition. This document addresses alterations to existing systems and their components released for production prior to the publication of this document by tailoring the safety lifecycle depending on the alteration. This document addresses integration of existing systems not developed according to this document and systems developed according to this document by tailoring the safety lifecycle.
This document addresses possible hazards caused by malfunctioning behaviour of safety-related E/E systems, including interaction of these systems. It does not address hazards related to electric shock, fire, smoke, heat, radiation, toxicity, flammability, reactivity, corrosion, release of energy and similar hazards, unless directly caused by malfunctioning behaviour of safety-related E/E systems.
This document describes a framework for functional safety to assist the development of safety-related E/E systems. This framework is intended to be used to integrate functional safety activities into a company-specific development framework. Some requirements have a clear technical focus to implement functional safety into a product; others address the development process and can therefore be seen as process requirements in order to demonstrate the capability of an organization with respect to functional safety.
This document does not address the nominal performance of E/E systems.
This document specifies the requirements for product development at the hardware level for automotive applications, including the following:
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general topics for the product development at the hardware level;
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specification of hardware safety requirements;
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hardware design;
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evaluation of the hardware architectural metrics;
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evaluation of safety goal violations due to random hardware failures; and
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hardware integration and verification.
The requirements of this document for hardware elements are applicable to both non-programmable and programmable elements, such as ASIC, FPGA and PLD. Further guidelines can be found in ISO 26262‑10:2018 and ISO 26262‑11:2018.
Annex A provides an overview on objectives, prerequisites and work products of this document.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 2 | National foreword |
| 7 | Foreword |
| 9 | Introduction |
| 11 | 1 Scope |
| 12 | 2 Normative references 3 Terms and definitions 4 Requirements for compliance 4.1 Purpose 4.2 General requirements |
| 13 | 4.3 Interpretations of tables 4.4 ASIL-dependent requirements and recommendations 4.5 Adaptation for motorcycles |
| 14 | 4.6 Adaptation for trucks, buses, trailers and semi-trailers 5 General topics for the product development at the hardware level 5.1 Objectives 5.2 General |
| 15 | 6 Specification of hardware safety requirements 6.1 Objectives |
| 16 | 6.2 General 6.3 Inputs to this clause 6.3.1 Prerequisites 6.3.2 Further supporting information 6.4 Requirements and recommendations |
| 18 | 6.5 Work products 7 Hardware design 7.1 Objectives |
| 19 | 7.2 General 7.3 Inputs to this clause 7.3.1 Prerequisites 7.3.2 Further supporting information 7.4 Requirements and recommendations 7.4.1 Hardware architectural design |
| 20 | 7.4.2 Hardware detailed design |
| 21 | 7.4.3 Safety analyses |
| 23 | 7.4.4 Verification of hardware design 7.4.5 Production, operation, service and decommissioning |
| 24 | 7.5 Work products 8 Evaluation of the hardware architectural metrics 8.1 Objectives 8.2 General |
| 25 | 8.3 Inputs of this clause 8.3.1 Prerequisites 8.3.2 Further supporting information |
| 26 | 8.4 Requirements and recommendations |
| 29 | 8.5 Work products |
| 30 | 9 Evaluation of safety goal violations due to random hardware failures 9.1 Objectives 9.2 General 9.3 Inputs to this clause 9.3.1 Prerequisites 9.3.2 Further supporting information |
| 31 | 9.4 Requirements and recommendations 9.4.1 General |
| 32 | 9.4.2 Evaluation of Probabilistic Metric for random Hardware Failures (PMHF) |
| 34 | 9.4.3 Evaluation of Each Cause of safety goal violation (EEC) |
| 39 | 9.4.4 Verification review |
| 40 | 9.5 Work products 10 Hardware integration and verification 10.1 Objectives 10.2 General 10.3 Inputs of this clause 10.3.1 Prerequisites 10.3.2 Further supporting information 10.4 Requirements and recommendations |
| 42 | 10.5 Work products |
| 43 | Annex A (informative) Overview of and workflow of product development at the hardware level |
| 46 | Annex B (informative) Failure mode classification of a hardware element |
| 48 | Annex C (normative) Hardware architectural metrics |
| 54 | Annex D (informative) Evaluation of the diagnostic coverage |
| 76 | Annex E (informative) Example calculation of hardware architectural metrics:“single-point fault metric” and “latent-fault metric” |
| 85 | Annex F (informative) Example for rationale that objectives of Clause 9 in accordance with 4.2 are met |
| 92 | Annex G (informative) Example of a PMHF budget assignment for an item consisting of two systems |
| 96 | Annex H (informative) Example of latent fault handling |
| 99 | Bibliography |
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BS ISO 26262-5:2018 – TC:2020 Edition
Tracked Changes. Road vehicles. Functional safety – Product development at the hardware level Published By…
