DPP

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

User guide

Scooter lithium-ion battery lifecycle and recycling engineering: cross-cutting sustainability axis — EU Battery Regulation 2023/1542 (Battery Passport DPP + recycled content + due diligence + carbon footprint declaration) + WEEE Directive 2012/19/EU + UN ST/SG/AC.10/11/Rev.7 Manual of Tests and Criteria 38.3 (T.1-T.8 transport) + IEC 62902:2019 marking + ISO 12405-4:2018 state-of-health + IEC 62660-3:2022 abuse tolerance + ISO 14040:2006/14044:2006 LCA + EN 15804:2012+A2:2019 EPD + hydrometallurgical/pyrometallurgical/direct recycling processes + second-life ESS applications

Engineering deep-dive into the lifecycle and recycling of e-scooter lithium-ion batteries as the seventh cross-cutting infrastructure axis (sustainability axis), parallel to [fastener engineering as joining axis](@/guide/fastener-and-bolted-joint-engineering.md), [thermal management as heat-dissipation axis](@/guide/thermal-management-engineering.md), [EMC/EMI as interference-mitigation axis](@/guide/emc-emi-engineering.md), [cybersecurity as interconnect-trust axis](@/guide/cybersecurity-engineering.md), [NVH as acoustic-vibration-emission axis](@/guide/nvh-engineering.md), and [functional safety as safety-integrity axis](@/guide/functional-safety-engineering.md). Covers: 10-row regulatory matrix (EU Battery Reg 2023/1542, WEEE 2012/19/EU, UN 38.3, IEC 62902, ISO 12405-4, IEC 62660-3, ISO 14040/14044, EN 15804, Basel Convention, EPR schemes); EU Battery Regulation phased timeline 2024-2031; Battery Passport (DPP) data points per Annex XIII; recycled content targets 2031 and 2036; due diligence on Co/Li/Ni/natural graphite per Annex X; carbon footprint declaration per PEFCR; LMT collection rates 51% by 2028 / 61% by 2031; UN 38.3 T.1-T.8 transport tests; SoH assessment per ISO 12405-4; 4-row recycling process comparison (pyro vs hydro vs direct vs mechanical); material recovery Annex XII (Co 90→95%, Li 50→80%, Ni 90→95%); 6-row second-life matrix (home ESS, peak shaving, EV charging buffer, off-grid solar, frequency regulation, streetlight reserve); 4-row recyclers timeline (Umicore, Northvolt Revolt, Li-Cycle, Redwood Materials); 8-step DIY end-of-life check; 6-step DIY pre-recycle prep; industry shift 2020→2026; 16 numbered sections.

20.05.2026 17 min read

User guide

E-scooter cybersecurity engineering: ETSI EN 303 645 V3.2.0:2024-12 baseline (13 provisions for consumer IoT — no default password, vulnerability disclosure RFC 9116, secure update, secure storage, secure communication), ISO/SAE 21434:2021 road-vehicle cybersecurity engineering (TARA threat analysis + risk assessment), ISO/SAE 24089:2023 software update engineering, UNECE R155 CSMS (Cybersecurity Management System) mandatory for new vehicle type-approvals from 07-2022, UNECE R156 SUMS (Software Update Management System), EU Cyber Resilience Act 2024/2847 (Regulation 2024-10-23, applicability 2027-12-11 + reporting obligations 2026-09-11), NIST SP 800-193:2018 Platform Firmware Resilience Guidelines (Protection-Detection-Recovery RoT), NIST SP 800-183 IoT Networks of Things, IEC 62443-4-1/-4-2 secure product development lifecycle, Bluetooth Core 5.4 LE Secure Connections with ECDH P-256 (replacing Just Works as baseline), IEEE 802.11i WPA3-Personal SAE Dragonfly key exchange, RFC 9116 security.txt responsible-disclosure, attack surface (BLE pairing Just Works/Numeric Comparison/Passkey Entry/OOB, Bluetooth protocol attacks KNOB CVE-2019-9506 + BIAS CVE-2020-10135 + BLURtooth CVE-2020-15802 + BLESA CVE-2020-9770, firmware via JTAG/SWD/USB DFU, motor controller CAN bus, mobile app↔cloud TLS, OTA update channel signing, GPS spoofing, smart-battery BMS handshake, hardware UART debug eFuse), mitigation (LE Secure Connections ECDH P-256 + mutual TLS certificate pinning + secure boot signed bootloader + signed firmware AES-256 + anti-rollback monotonic counter + HSM/secure element ATECC608B/NXP A1006/SE050 + SBOM SPDX CycloneDX + RFC 9116 security.txt + Coordinated Vulnerability Disclosure ISO/IEC 29147:2018 + penetration testing ISTQB), incidents (Xiaomi M365 BLE anti-lock bypass 2019 Zimperium Rani Idan, Lime BLE replay attack 2019, Bird/Lime API IDOR 2020, Ninebot ES1/ES2/ES4 BLE pwd 888888 vulnerability, Tier/Voi unauthorized unlock 2022, hoverboard CVE catalogue 2018)

Engineering deep-dive into e-scooter cybersecurity as the fourth cross-cutting infrastructure axis — parallel to [fastener engineering as joining-axis](@/guide/fastener-and-bolted-joint-engineering.md), [thermal management as heat-dissipation axis](@/guide/thermal-management-engineering.md), and [EMC/EMI as interference-mitigation axis](@/guide/emc-emi-engineering.md). Covers: 10-row standards matrix (ETSI EN 303 645 V3.2.0:2024-12 consumer IoT baseline, ISO/SAE 21434:2021 road-vehicle TARA, ISO/SAE 24089:2023 SW update engineering, UNECE R155 CSMS, UNECE R156 SUMS, EU CRA 2024/2847, NIST SP 800-193 firmware RoT, IEC 62443-4-1 secure SDLC, Bluetooth Core 5.4 LE Secure Connections, IEEE 802.11i WPA3-SAE); 7-row attack-surface matrix (BLE pairing methods + KNOB/BIAS/BLURtooth/BLESA + firmware JTAG/SWD/DFU + mobile↔cloud TLS + OTA signing + GPS spoofing + smart-battery handshake); 6-row mitigation matrix (LE Secure Connections + mutual TLS + secure boot + signed firmware + anti-rollback + HSM/SE); 6-row real-incident matrix (Xiaomi M365 2019 + Lime BLE 2019 + Bird IDOR 2020 + Ninebot pwd 888888 + Tier/Voi 2022 + hoverboard catalogue); 8-step DIY security check; 6-step DIY remediation; EU Cyber Resilience Act timeline (2024-12-10 entry into force, 2026-09-11 reporting obligations, 2027-12-11 full applicability); 16 numbered sections.

20.05.2026 17 min read

User guide

E-scooter repair and reparability engineering: cross-cutting repairability-axis — EU Right to Repair Directive (EU) 2024/1799 + EU Ecodesign for Sustainable Products Regulation (EU) 2024/1781 ESPR + EN 45554:2020 7-parameter scoring framework + EN 45556:2019 reused-components + EN 45552:2020 durability + Article 11 Regulation 2023/1542 battery removability + France Indice de Réparabilité (Decree 2020-1757) + iFixit Repairability Score + US R2R laws (NY Digital Fair Repair Act 2022 + Minnesota HF 1337 2023 + Massachusetts Question 1 2020 automotive)

Engineering deep-dive into e-scooter reparability as the eighth cross-cutting infrastructure axis (repairability-axis) — parallel to [fastener engineering as joining-axis](@/guide/fastener-and-bolted-joint-engineering.md), [thermal management as heat-dissipation axis](@/guide/thermal-management-engineering.md), [EMC/EMI as interference-mitigation axis](@/guide/emc-emi-engineering.md), [cybersecurity as interconnect-trust axis](@/guide/cybersecurity-engineering.md), [NVH as acoustic-vibration-emission axis](@/guide/nvh-engineering.md), [functional safety as safety-integrity axis](@/guide/functional-safety-engineering.md) and [battery lifecycle as sustainability axis](@/guide/battery-lifecycle-recycling-engineering.md). Covers: 10-row regulatory matrix (R2R Directive 2024/1799, ESPR 2024/1781, EN 45554, EN 45556, EN 45552, EN 45553, EN 45557, Article 11 Battery Reg, France Indice, US R2R laws); EU R2R phased timeline 2024-2026; ESPR delegated acts and Digital Product Passport; EN 45554 7-parameter scoring framework (disassembly depth + tools + fasteners + diagnostic + spare parts + information + software); France Indice de Réparabilité methodology (5 criteria × 100 points); iFixit Score 0-10 methodology; Article 11 removability «removable and replaceable by independent professional»; 6-row repairability comparison matrix; 4-row diagnostic protocol matrix; spare parts availability matrix per Annex VII ESPR; 6-row real failure-to-repair timeline (Boosted shutdown, Bird non-removable battery, Xiaomi proprietary firmware, Apollo regional service, Hiley Tiger modular pack, Segway-Ninebot certified service); 8-step DIY repairability check; 6-step DIY pre-repair prep; industry shift 2020→2026; 16 numbered sections.

20.05.2026 17 min read