In this paper a dual-three phase synchronous reluctance machine is optimized for fault-tolerant applications. The main objective of such a design is improving the fault-tolerant capability by means of a proper motor geometry and winding arrangement paying attention to the torque density, torque ripple, mutual magnetic coupling and the maximum short circuit currents in several operating conditions. Finally, a prototype is manufactured and tested in order to validate the simulation predictions yielding good results
Abstract – Nowadays the evolution of electrical engineering achieved a successful expansion in the a...
At the present time an important tendency in industrial automated systems is to apply equipments tha...
In aeronautical as well as in automotive environments more and more hydraulic auxiliary drives are t...
In this paper a dual-three phase synchronous reluctance machine is optimized for fault-tolerant appl...
This paper deals with the design and optimization of a synchronous reluctance machine with dual thre...
This paper deals with the design and optimization of a synchronous reluctance machine with dual thre...
This paper deals with dual three-phase winding synchronous reluctance motor designed for increasing ...
A fault tolerant machine drive based on permanent magnet (PM) assisted synchronous reluctance machin...
Fault tolerant machine drives are key enabling technologies for safety critical applications such as...
From the first approach of the fault tolerant concept till today, several proposals to improve the e...
Due to the significant advantages of cost savings, low temperature rises and high efficiency, synchr...
In recent years, synchronous reluctance (SyR) machine has been receiving an increasing interest, mai...
Abstract-The paper's goal is to compare a usual switched reluctance machine and a fault toleran...
A dual three-phase synchronous motor is considered as a fault-tolerant solution for a hybrid electri...
This study investigates the dual three-phase synchronous reluctance motor and analyzes its post-faul...
Abstract – Nowadays the evolution of electrical engineering achieved a successful expansion in the a...
At the present time an important tendency in industrial automated systems is to apply equipments tha...
In aeronautical as well as in automotive environments more and more hydraulic auxiliary drives are t...
In this paper a dual-three phase synchronous reluctance machine is optimized for fault-tolerant appl...
This paper deals with the design and optimization of a synchronous reluctance machine with dual thre...
This paper deals with the design and optimization of a synchronous reluctance machine with dual thre...
This paper deals with dual three-phase winding synchronous reluctance motor designed for increasing ...
A fault tolerant machine drive based on permanent magnet (PM) assisted synchronous reluctance machin...
Fault tolerant machine drives are key enabling technologies for safety critical applications such as...
From the first approach of the fault tolerant concept till today, several proposals to improve the e...
Due to the significant advantages of cost savings, low temperature rises and high efficiency, synchr...
In recent years, synchronous reluctance (SyR) machine has been receiving an increasing interest, mai...
Abstract-The paper's goal is to compare a usual switched reluctance machine and a fault toleran...
A dual three-phase synchronous motor is considered as a fault-tolerant solution for a hybrid electri...
This study investigates the dual three-phase synchronous reluctance motor and analyzes its post-faul...
Abstract – Nowadays the evolution of electrical engineering achieved a successful expansion in the a...
At the present time an important tendency in industrial automated systems is to apply equipments tha...
In aeronautical as well as in automotive environments more and more hydraulic auxiliary drives are t...