ISO 26262

Articles, guides, and products tagged "ISO 26262" — a combined view of every catalogue resource on this topic.

User guide

E-scooter functional safety engineering: safety integrity as the sixth cross-cutting infrastructure axis — IEC 61508:2010 (E/E/PE safety-related systems, SIL 1-4) + ISO 26262:2018 (automotive FuSa, ASIL A-D) + ISO 13849-1:2023 (safety-related parts of machinery, PLr a-e, Cat B/1/2/3/4) + IEC 62061:2021 (SIL CL for machinery E/E/PES) + EN 17128:2020 Annex G (PLEV functional safety requirements) + IEC 60812:2018 FMEA + IEC 61025:2006 FTA + IEC 61709:2017 reliability data + MISRA C:2023 software safety subset + ISO/PAS 21448:2022 SOTIF + IEC 61511 process industry + IEC 60730-1:2024 controls + UL 991 + UL 1998 + DO-178C analogy

Engineering deep-dive into e-scooter functional safety as the sixth cross-cutting infrastructure axis — parallel to [fastener/joining](@/guide/fastener-and-bolted-joint-engineering.md), [thermal management/heat-dissipation](@/guide/thermal-management-engineering.md), [EMC/EMI/interference-mitigation](@/guide/emc-emi-engineering.md), [cybersecurity/interconnect-trust](@/guide/cybersecurity-engineering.md), and [NVH/acoustic-vibration-emission](@/guide/nvh-engineering.md). Covers: 10-row standards matrix (IEC 61508, ISO 26262, ISO 13849-1, IEC 62061, EN 17128 Annex G, IEC 60812 FMEA, IEC 61025 FTA, IEC 61709, MISRA C, ISO/PAS 21448 SOTIF); SIL/ASIL/PL/SIL CL cross-mapping; 6-row hazard-by-subsystem matrix (motor controller throttle-stuck, brake actuator loss, throttle position drift, BMS thermal runaway, display HMI critical info, lighting fail-dark); FMEA worked example for BLE throttle injection scenario; FTA worked example for wheel lock at speed; FMEDA with PFD/PFH calculation, Safe Failure Fraction, Hardware Fault Tolerance; risk reduction equation R_residual = R_unmitigated × (1 - RRF); 6-row mitigation matrix; ALARP principle; software safety V-model + MISRA C:2023 + formal methods; SOTIF (ISO/PAS 21448) as extension to IEC 61508; HIL testing + fault injection; 8-row real-incidents timeline (Lime brake recall 2019, Ninebot ES2 throttle creep 2020, Apollo Pro firmware bug, Boosted board fire, Bird scooter rear-wheel hub crack, Tier scooter motor-stuck); 8-step DIY safety check; 6-step DIY remediation; industry shift 2020→2026; 16 numbered sections.

17 min read

User guide

Human factors & ergonomics engineering of an electric scooter as the 30th engineering axis: human-machine fit axis — ISO 9241 series + ISO 7250-1:2017 + ISO/TR 7250-2:2010 + ISO 11226 + ISO 11228 + ISO 14738 + ANSI/HFES 100 + ANSI/HFES 200 + DIN 33402-2 + IEC 62366-1:2015 + ISO 26262-3:2018 controllability + ISO 2631-1 WBV + ISO 7730 thermal comfort + ISO 8995 lighting + WCAG 2.2 + SAE J2944 + NHTSA Driver Distraction Guidelines

Engineering deep-dive into human factors and ergonomics as the 30th engineering axis and 13th cross-cutting infrastructure axis — describes how the fit between rider and scooter is systematically engineered: anthropometric percentile coverage (P5–P95), postural envelope for the standing rider, control reach and grip dimensions (ISO 7250-1), display glance-time and character size (ISO 9241-300 series), cognitive workload and situation awareness, controllability classification C0/C1/C2/C3 for ASIL determination (ISO 26262-3 Annex B), whole-body vibration exposure limits (ISO 2631-1), thermal comfort PMV/PPD (ISO 7730), lighting (ISO 8995), accessibility target size + contrast (WCAG 2.2), driver-distraction lexicon (SAE J2944) and the NHTSA Driver Distraction Guidelines. Covers ISO 9241 series (usability definitions + interaction principles + HCD principles + HCD process + displays + input devices); ISO 7250-1 + ISO/TR 7250-2 anthropometry; ISO 11226 static postures + ISO 11228 manual handling 4-part; ISO 14738 workstation; ANSI/HFES 100 + 200; DIN 33402-2; IEC 62366-1 medical-device usability engineering methodology (applicable beyond medical); 29-row cross-axis matrix maps the ergonomics concept onto each of the 29 prior engineering axes; 8-step DIY owner ergonomic-fit checklist; 16 numbered sections.

15 min read

User guide

Software and firmware engineering for embedded ECUs of an electric scooter as the 29th engineering axis: UN R156 SUMS + ISO/SAE 21434 + Automotive SPICE 4.0 + MISRA C:2023 + ISO 26262-6:2018 + AUTOSAR Classic R23-11 + ISO/IEC/IEEE 12207:2017 + ISO/IEC/IEEE 29148:2018 + ISO/IEC 25010:2023 + CISA SBOM Minimum Elements + CWE/CVE + CVSS v4.0

Engineering deep-dive into software & firmware engineering as the 29th engineering axis and the twelfth cross-cutting infrastructure axis — describes how firmware of e-scooter embedded ECUs (motor controller + BMS + dashboard + IoT gateway + charger MCU) is developed under MISRA C:2023, validated through the Automotive SPICE 4.0 V-model + SWE.1–SWE.6 + SYS.1–SYS.5 + HWE.1–HWE.4 + MLE.1–MLE.4, OTA-updated under UN R156 SUMS (L-category mandate: Dec 2027 new types / June 2029 existing types), traced through the ISO/IEC/IEEE 12207:2017 software lifecycle's 30 processes in 4 groups (Agreement + Organizational Project-Enabling + Technical Management + Technical), documented via SBOM per CISA Minimum Elements 2025 (Supplier + Component + Version + Unique-IDs + Dependencies + Author + Timestamp + Hash + License + Tool + Generation-Context) in SPDX 2.3 and CycloneDX 1.6 formats, versioned through the ISO/IEC 25010:2023 product quality model's 8 characteristics, qualified at the toolchain level per ISO 26262-8 Clause 11 (TCL1/TCL2/TCL3 + TD1/TD2/TD3), and monitored through CWE Top 25 + CVSS v4.0 (Base + Threat + Environmental + Supplemental). 18 numbered sections.

15 min read