The parts of electric motors which should be duplicated in order to provide maximum reliability in spacecraft application are identified. Various common types of redundancy are described. The advantages and disadvantages of each are noted. The principal types are illustrated by reference to specific examples. For each example, constructional details, basic performance data and failure modes are described, together with a discussion of the suitability of particular redundancy techniques to motor types
Modular power conversion systems for space application, thanks to their flexibility, can be easily a...
This study discusses the research, simulation and analysis of electrical motors for utilization in t...
Copyright © 2007 IEEEFault-tolerant motor drives are required in a range of safety-critical applicat...
Some of the recent research activities in the area of electric motor drives for critical application...
An attempt is made to show that redundancies in some aerospace mechanisms do not generally improve t...
How much redundancy should be built into a subsystem such as a space power subsystem. How does a rel...
This paper evaluates a fault-tolerant electric motor drive with redundancy for a potential all-elect...
The Saturn launch vehicle's guidance and control system is so complex that the reliability of a simp...
Non-serviceable systems are often constrained by three requirements that address the need to reliabl...
Reliability of redundant electrical generating system configurations for use in SNAP-2 AND SNAP-
Reliability and maintainability requirements for reusable space vehicles are more nearly those for a...
Stepping motors are highly preferred in spacecraft applications because of their simple structure, c...
The ability of man to function safely both inside and out of his spacecraft will become even more cr...
Reliability is a fundamental requirement in electric propulsion systems, involving a particular appr...
The more electric aircraft concept aims to improve the fuel consumption, the weight, and both the ma...
Modular power conversion systems for space application, thanks to their flexibility, can be easily a...
This study discusses the research, simulation and analysis of electrical motors for utilization in t...
Copyright © 2007 IEEEFault-tolerant motor drives are required in a range of safety-critical applicat...
Some of the recent research activities in the area of electric motor drives for critical application...
An attempt is made to show that redundancies in some aerospace mechanisms do not generally improve t...
How much redundancy should be built into a subsystem such as a space power subsystem. How does a rel...
This paper evaluates a fault-tolerant electric motor drive with redundancy for a potential all-elect...
The Saturn launch vehicle's guidance and control system is so complex that the reliability of a simp...
Non-serviceable systems are often constrained by three requirements that address the need to reliabl...
Reliability of redundant electrical generating system configurations for use in SNAP-2 AND SNAP-
Reliability and maintainability requirements for reusable space vehicles are more nearly those for a...
Stepping motors are highly preferred in spacecraft applications because of their simple structure, c...
The ability of man to function safely both inside and out of his spacecraft will become even more cr...
Reliability is a fundamental requirement in electric propulsion systems, involving a particular appr...
The more electric aircraft concept aims to improve the fuel consumption, the weight, and both the ma...
Modular power conversion systems for space application, thanks to their flexibility, can be easily a...
This study discusses the research, simulation and analysis of electrical motors for utilization in t...
Copyright © 2007 IEEEFault-tolerant motor drives are required in a range of safety-critical applicat...