More Electrical Aircraft (MEA) which replaces the hydraulic and pneumatic power by electrical power leads to reducing emissions and fuel consumption. The MEA concept has led to a growing use of the starter/generator (S/G) system. Permanent magnet (PM) machines have been gaining interests for aircraft S/G system application over the last few years. This is mainly due to the several advantages, including high power density, high efficiency and high speed ability. The shortcoming of the PM machines is the de-excitation problem in case of a failure, which is a main issue for the aircraft application. However, by using a PM machine with high reactance or multiphase configuration, the fault-tolerant ability can be improved. In terms of the aircra...
This thesis investigates several aspects of the behaviour of permanent magnet machines under fault c...
This paper presents the design of a 150-kVA 24,000-rpm high-speed permanent-magnet generator with co...
More electric aircraft is an electrification scheme of aircraft system with high technical feasibili...
The paper presents control analysis and design for a Permanent Magnet Machine (PMM) operated in Flux...
The future aircraft electrical power system is expected to be more efficient, safer, simpler in serv...
Starting an aircraft engine with an electrical machine has been one of the major trends for future a...
The implementation of a permanent magnet electrical machine is a very attractive candidate for aircr...
A control approach for aircraft Starter/Generator (S/G) with Permanent Magnet Machine (PMM) operatin...
Safety-critical power conversion systems play a major role in the paradigm shift towards more electr...
More-electric aircraft (MEA) has become a dominant trend for modern aircraft. On-board MEA, many fun...
This paper presents control analysis and design for an aircraft electric starter-generator system ba...
This paper presents a comparative design study on Permanent Magnet (PM) rotor topologies for high sp...
Based on the analysis and mathematical models of synchronous electric machines (motor/generator), ba...
This thesis investigates several aspects of the behaviour of permanent magnet machines under fault c...
This paper presents the design of a 150-kVA 24,000-rpm high-speed permanent-magnet generator with co...
More electric aircraft is an electrification scheme of aircraft system with high technical feasibili...
The paper presents control analysis and design for a Permanent Magnet Machine (PMM) operated in Flux...
The future aircraft electrical power system is expected to be more efficient, safer, simpler in serv...
Starting an aircraft engine with an electrical machine has been one of the major trends for future a...
The implementation of a permanent magnet electrical machine is a very attractive candidate for aircr...
A control approach for aircraft Starter/Generator (S/G) with Permanent Magnet Machine (PMM) operatin...
Safety-critical power conversion systems play a major role in the paradigm shift towards more electr...
More-electric aircraft (MEA) has become a dominant trend for modern aircraft. On-board MEA, many fun...
This paper presents control analysis and design for an aircraft electric starter-generator system ba...
This paper presents a comparative design study on Permanent Magnet (PM) rotor topologies for high sp...
Based on the analysis and mathematical models of synchronous electric machines (motor/generator), ba...
This thesis investigates several aspects of the behaviour of permanent magnet machines under fault c...
This paper presents the design of a 150-kVA 24,000-rpm high-speed permanent-magnet generator with co...
More electric aircraft is an electrification scheme of aircraft system with high technical feasibili...