Ouality Management FEV. Core processes. 1. Glossary

Transcription

1

2 3. Concept phase 1. Glossary 2. Management of functional safety 2.4 Management during complete safety lifecycle 2.5 Safety management during development 4. Product development system 2.4 Management during complete safety lifecycle 2.5 Safety management during development 2.6 Safety 3.4 management Item definition activities after SOP 4.4 Initiation of product 4.10 Product release development system 3.5 Initiation of safety lifecycle 4.9 Functional safety assessment (modification and derivates) 4.5 Specification of technical safety concept 4.8 Safety validation 3.6 Hazard analysis and 4.6 System design 4.7 Integration 3.4 Item definition risk assessment 4.4 Initiation of product 4.10 Product release 5. Product development 6. Product development S development system Functional Production safety concept 3.5 Initiation of safety lifecycle 5.4 HW requirements analysis 6.4 Initiating SW development 4.9 Functional safety assessment (modification and derivates) 4.5 Specification of technical 7.5 Operation, service 5.5 HW architecture design 6.5 SW safety requirements safety concept 4.8 Safety validation and decommissioning 5.6 Quantitative requirements specification for random HW failures 3.6 Hazard analysis and 4.6 System design 4.7 Integration 5.7 Measures for avoidance 6.6 SW architecture and design risk assessment and control of systematic HW failures 6.7 SW implementation 3.7 Functional safety concept 5.4 HW requirements analysis 6.4 Initiating SW development 5.8 Safety HW integration and verification 6.8 SW unit test 5.5 HW architecture design 5.9 Qualification of parts 6.5 SW safety requirements and components 6.9 SW integration and test 5.6 Quantitative requirements specification for random HW failures 5.10 Overall requirements for HW SW W interface 6.10 SW safety acceptance test 5.7 Measures for avoidance 6.6 SW architecture and design and control of systematic HW failures 8. Supporting processes 6.7 SW implementation 8.4 Interfaces within distributed developments 8.10 Verification activities 5.8 Safety HW integration 8.5 Overall management of safety requirements 8.11 Documentation and verification 6.8 SW unit test 8.6 Configuration management 8.12 Overall quality management 8.7 Change management 8.13 Qualification of software tools 5.9 Qualification of parts 8.8 Safety analysis 8.14 Qualification of software libraries and components 6.9 SW integration and test 8.9 Analysis of CCF, CMF, cascading failures 8.15 Proven in use argumentation 5.10 Overall requirements for HW SW W interface 6.10 SW safety acceptance test 9. Annexes 8.4 Interfaces within distributed developments 8.5 Overall management of safety requirements 8.6 Configuration management 8.7 Change management 8.8 Safety analysis 8.9 Analysis of CCF, CMF, cascading failures 8.10 Verification activities 8.11 Documentation 8.12 Overall quality management 8.13 Qualification of software tools 8.14 Qualification of software libraries 8.15 Proven in use argumentation 2.6 Safety management activities after SOP 7. Production and operation 7.4 Production 7.5 Operation, service and decommissioning Ouality Management FEV 1. Glossary 3. Concept phase 2. Management of functional safety 5. Product development 4. Product development system 6. Product development S 7. Production and operation Core processes Core processes 8. Supporting processes 9. Annexes

3

4 NSVZ NEFZ ges 300,00 ARTEMIS ges Automotive Magazine AMS 200,00 NEFZ _ECE Automotive Magazine MOT 100,00 ARTEMIS City City FTP-75 Urban Center NEFZ_EUDC Legal or Part of Legal Test Cycle (on Chassis Dyno) Semi-Official Test Cycle (on Chassis Dyno) Real World On-Road Cycle ADAC Eco ARTEMIS Road FEV Scatterband (for kg) IWC US Highway ARTEMIS Motorway FEV HECS Gen. 1 Results (IWC 1700kg) NEDC Target (2020) in 1470 kg IWC ICE Optimization LP-EGR LP-TC V3 IC 1 IC 4 DPF T2 T1 HP-TC IC 2 V1 IC 3 HP-EGR V2 B a s e lin e B a s e lin e Vehicles Measures (Weight, Resistances,.) Diesel-Hybrid Demo Electrification FEV 7H-AMT Integrated Transmission C O 2 R e du c t io n : u p t o 2 0 % C O 2 R e du c t io n : u p t o 2 0 % C O 2 R e du c t io n : u p t o 2 5 % C O 2 R e du c t io n : u p t o 2 5 % T o t a l C O 2 R e du c t io n : > 4 0 % T o t a l C O 2 R e du c t io n : > 4 0 %

5 , Differential E-Motor elektromagnetische Ordnungen 2. Gang E-Motorordnungen 3. Radordnungen

6

7

8