ISO 17546 Space systems - Lithium ion battery for space vehicles - Design and verification requirements - First Edition
Данный раздел/документ содержится в продуктах:
- Техэксперт: Машиностроительный комплекс
- Картотека зарубежных и международных стандартов
- IEC 60079-11 CORR 1 Explosive atmospheres – Part 11: Equipment protection by intrinsic safety “I” - Edition 6.0
- BSI BS EN 60079-6 Explosive atmospheres - Part 6: Equipment protection by oil immersion “o” - AMD: June 30, 2008
- BSI BS EN 13922 Tanks for transport of dangerous goods - Service equipment for tanks - Overfill prevention systems for liquid fuels
- BSI BS EN 60079-6 Explosive atmospheres - Part 6: Equipment protection by oil immersion “o” - AMD: June 30, 2008
- 29
- IEC 60079-11 CORR 1 Explosive atmospheres – Part 11: Equipment protection by intrinsic safety “I” - Edition 6.0
- BSI BS EN 60079-6 Explosive atmospheres - Part 6: Equipment protection by oil immersion “o” - AMD: June 30, 2008
- BSI BS EN 13922 Tanks for transport of dangerous goods - Service equipment for tanks - Overfill prevention systems for liquid fuels
- BSI BS EN 60079-6 Explosive atmospheres - Part 6: Equipment protection by oil immersion “o” - AMD: June 30, 2008
- 29.260
- IEC 60079-11 CORR 1 Explosive atmospheres – Part 11: Equipment protection by intrinsic safety “I” - Edition 6.0
- BSI BS EN 60079-6 Explosive atmospheres - Part 6: Equipment protection by oil immersion “o” - AMD: June 30, 2008
- BSI BS EN 13922 Tanks for transport of dangerous goods - Service equipment for tanks - Overfill prevention systems for liquid fuels
- BSI BS EN 60079-6 Explosive atmospheres - Part 6: Equipment protection by oil immersion “o” - AMD: June 30, 2008
- 29.260.20
- IEC 60079-11 CORR 1 Explosive atmospheres – Part 11: Equipment protection by intrinsic safety “I” - Edition 6.0
- BSI BS EN 60079-6 Explosive atmospheres - Part 6: Equipment protection by oil immersion “o” - AMD: June 30, 2008
- BSI BS EN 13922 Tanks for transport of dangerous goods - Service equipment for tanks - Overfill prevention systems for liquid fuels
- BSI BS EN 60079-6 Explosive atmospheres - Part 6: Equipment protection by oil immersion “o” - AMD: June 30, 2008
- IEC 60079-11 CORR 1 Explosive atmospheres – Part 11: Equipment protection by intrinsic safety “I” - Edition 6.0
- IEC 60079-11 CORR 1 Explosive atmospheres – Part 11: Equipment protection by intrinsic safety “I” - Edition 6.0
- IEC 60079-11 CORR 1 Explosive atmospheres – Part 11: Equipment protection by intrinsic safety “I” - Edition 6.0
- BSI BS EN 60079-6 Explosive atmospheres - Part 6: Equipment protection by oil immersion “o” - AMD: June 30, 2008
- BSI BS EN 13922 Tanks for transport of dangerous goods - Service equipment for tanks - Overfill prevention systems for liquid fuels
- BSI BS EN 13922 Tanks for transport of dangerous goods - Service equipment for tanks - Overfill prevention systems for liquid fuels
- BSI BS EN 60079-10-1 Explosive atmospheres - Part 10-1: Classification of areas - Explosive gas atmospheres
- IEC 61960 Secondary cells and batteries containing alkaline or other non-acid electrolytes – Secondary lithium cells and batteries for portable applications - Edition 2.0
- IEC 60079-11 CORR 1 Explosive atmospheres – Part 11: Equipment protection by intrinsic safety “I” - Edition 6.0
- Картотека зарубежных и международных стандартов
International Organization for Standardization
Space systems - Lithium ion battery for space vehicles - Design and verification requirements - First Edition
N 17546
Annotation
This International Standard specifies design and minimum verification requirements for lithium ion rechargeable (including lithium ion polymer) batteries for space vehicles.
Lithium ion secondary electrochemical systems use intercalation compounds (intercalated lithium exists in an ionic or quasi-atomic form within the lattice of the electrode material) in the positive and in the negative electrodes.
The focus of this International Standard is on “battery assembly” and cell is described as “component cells” to be harmonized with other industrial standards and regulations.
“Performance”,” safety”, and “logistics” are the main points of view to specify.
This International Standard does not address “disposal” or “recycle”; however, some recommendations regarding disposal are suggested.
Life cycle
The service life of a battery starts at cell activation and continues through all subsequent fabrication, acceptance testing, handling, storage, transportation, testing preceding launch, launch and mission operation.
The scope of this International Standard addresses the shelf life, from cell activation to launch, although the life design and evaluations of the battery on the ground need to accommodate to the whole mission life in space.
Each article in this International Standard addresses “performance”, “safety”, and “logistics”, according to the each stage of lifecycle.
