IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0238668
(2002-09-10)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- Breed Automotive Technology, Inc.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
2 |
초록
▼
The implementation of dual-stage inflators in some production vehicles is quickly becoming a common reality. A dual-stage inflator has two firing squibs that can fire independently, simultaneously or in a delayed mode. This tailorability provides the ability to fire a low level, high level or staged
The implementation of dual-stage inflators in some production vehicles is quickly becoming a common reality. A dual-stage inflator has two firing squibs that can fire independently, simultaneously or in a delayed mode. This tailorability provides the ability to fire a low level, high level or staged delay level depending on the impact velocity or other means. For each restraint condition, the inflator output threshold speeds are identified. A biomechanical gray zone, for each injury assessment reference value, is defined based on occupant performance. The upper and lower bound of each biomechanical gray zone is associated with a type of occupant, inflator output, belt restraint and injury parameter.
대표청구항
▼
The implementation of dual-stage inflators in some production vehicles is quickly becoming a common reality. A dual-stage inflator has two firing squibs that can fire independently, simultaneously or in a delayed mode. This tailorability provides the ability to fire a low level, high level or staged
The implementation of dual-stage inflators in some production vehicles is quickly becoming a common reality. A dual-stage inflator has two firing squibs that can fire independently, simultaneously or in a delayed mode. This tailorability provides the ability to fire a low level, high level or staged delay level depending on the impact velocity or other means. For each restraint condition, the inflator output threshold speeds are identified. A biomechanical gray zone, for each injury assessment reference value, is defined based on occupant performance. The upper and lower bound of each biomechanical gray zone is associated with a type of occupant, inflator output, belt restraint and injury parameter. al. "Magnetic Properties of Amorphous Iron (III) Oxide Thin Films." Journal de Physique. Mar., 1979. pp. C2-153-154. Domke, et al. "Magnetic and Electronic Properties of Thin Iron Oxide Films." Surface Science. Aug., 1982. pp. 727-732. Ouchi, et al. "High Rate Deposition of Iron-Oxide Thin Film by Reactive Sputtering." IEEE Transactions on Magnetics. Sep., 1983. pp. 1980-1982. Kaito, et al. "Structure of Iron Oxide Films Prepared by Evaporating Various Iron Oxide Powders." Applications of Surface Science. Oct., 1984. pp. 621-630. Lin, et al. "Properties of RF Sputtered Iron Oxide Thin Films with CoCr and Nb as Dopants." IEEE Transactions on Magnetics. Sep., 1985, pp. 1462-1464. Joshi, et al. "Pulsed Laser Deposition of Iron Oxide and Ferrite Films." Journal of Applied Physics. Nov., 1988. pp. 5647-5649. Li, et al. "Preparation of Amorphous Iron-containing and Crystalline Iron Oxide Films by Glow Discharge and Their Properties." Materials Science and Engineering. 1990. pp. 5-13. Dubin, Valery M. "Formation Mechanism of Porous Silicon Layers Obtained by Anodization of Monocrystalline N-type Silicon in HF Solutions." Surface Science. Feb., 1992. pp. 82-92. Dhara. et al. "Direct Deposition of Highly Coercive Gamma Iron Oxide Thin Films for Magnetic Recording." Journal of Applied Physics. Dec., 1993. pp. 7019-7021. Fujii, et al. "Low-Temperature Preparation and Properties of Spinel-Type Iron Oxide Films by ECR Plasma-Enhanced Matalorganic Chemical Vapor Deposition." Japanese Journal of Applied Physics. Oct., 1993. pp. L1527-L1529. Seki, et al. "Pressure/Photo Sensor Utilizing Polymer Magnetic Composite." IEEE Transactions on Magnetics. Nov., 1993. pp. 3189-3191. Gokturk, et al. "Electric and Magnetic Properties of a Thermoplastic Elastomer Incorporated with Ferromagnetic Powders." IEEE Transactions on Magnetics. Nov., 1993. pp. 4170-4176. Nedkov, et al. "Microwave Polymer-Ferroxide Film Absorbers." IEEE Transactions on Magnetics. Nov., 1994. pp. 4545-4547. Itoh, et al. "Ferrite Plating of Ba-Containing Iron Oxide Films Using Chelated Highly Alkaline (pH=11-13) Aqueous Solutions." Japanese Journal of Applied Physics. Mar., 1995. pp. 1534-1536. Craciun, et al. "On the Morphology of Porous Silicon Layers Obtained by Electrochemical Method." 1995 International Semiconductor Conference Proceedings. Oct., 1995. pp. 331-334. Lagorce, et al. "Micromachined Polymer Magnets." IEEE Abstract. 1996. pp 85-90. Hong, et al. "Granular Magnetic Cobalt Metal/Polymer Thin Film System." IEEE Transactions on Magnetics. Sep., 1996. pp. 4475-4477. Savin, et al. "Properties of Laser Ablated Porous Silicon." Applied Physics Letter. Nov., 1996. pp. 3048-3050. Wan, et al. "A Composite of Polyaniline with Both Conducting and Ferromagnetic Functions." Journal of Polymer Science. 1997. pp. 2129-2136. Vadera, et al. "Preparation and Study of Finely Dispersed Magnetic Oxide in Polymer Matrix." Journal de Physique IV. Mar., 1997. pp. C1-549-C1-550. Kim, et al. "Surface Micromachined Solenoid Inductors for High Frequency Applications." 1997 Internationsl Symposium on Microelectronics Proceedings. pp. 1-8. Ouyang, et al. "Structure and Magnetic Properties of Iron Oxide Films Deposited by Excimer Laser Ablation of a Metal-Containing Polymer." Materials Research Bulletin. 1997. pp. 1099-1107. Baba, et al. "Ferromagnetic Particle Composite Polymer Films for Glass and Semiconductor Substrates." Optics Communications. Jun., 1997, pp. 35-38. Liu, et al. "Layer-by-Layer electrostatic Self-assembly of Nanoscale Fe3O4Particles and Polymide Precursor on Silicon and Silica Surfaces." Applied Physics Letter. Oct., 1997. pp. 2265-2267. Nam, et al. "High-Performance Planar Inductor on Thick Oxidized Porous Silicon (OPS) Substrate." IEEE Microwave and Guided Wave Letters. Aug., 1997. pp. 236-238. Park, et al. "Ferrite-based Integrated Planar Inductors and Transformers Fabricated at Low Temperature." IEEE Transactions on Magnetics. Sep
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