A dual three-phase synchronous motor is considered as a fault-tolerant solution for a hybrid electric vehicle. The study presented here compares the characteristics of the motor under nominal and flux-weakening operations in different operating conditions such as healthy, half control, and post-fault conditions. The post-fault characteristics are analyzed under open-circuit faults of a three-phase system and short-circuit faults of a three-phase system. All the results are validated by experimental tests
A six-phase motor with a high degree of freedom can be converted into a three-phase motor in order t...
This paper focus on the analysis and design of a dual 3-phase machine. The possibility to adopt diff...
A five-phase fault-tolerant combined star-pentagon synchronous reluctance machine (SynRM) can provid...
This study investigates the dual three-phase synchronous reluctance motor and analyzes its post-faul...
This paper deals with dual three-phase winding synchronous reluctance motor designed for increasing ...
In this paper a dual-three phase synchronous reluctance machine is optimized for fault-tolerant appl...
This study investigates experimental test on 8-pole 36-slot dual three-phase synchronous reluctance ...
This paper describes a set of experimental tests on a dual three-phase induction machine for fault-t...
This study investigates experiment-based performance of 8-pole 36-slot dual three-phase synchronous ...
Double three-phase winding is one of the best solutions to improve the fault tolerance of an electri...
The paper is focused on the experimental performance analysis of 8-pole 48-slot dual three-phase syn...
Fault tolerant machine drives are key enabling technologies for safety critical applications such as...
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...
The growth of electrification transportation systems is an opportunity for delving into new feasible...
A six-phase motor with a high degree of freedom can be converted into a three-phase motor in order t...
This paper focus on the analysis and design of a dual 3-phase machine. The possibility to adopt diff...
A five-phase fault-tolerant combined star-pentagon synchronous reluctance machine (SynRM) can provid...
This study investigates the dual three-phase synchronous reluctance motor and analyzes its post-faul...
This paper deals with dual three-phase winding synchronous reluctance motor designed for increasing ...
In this paper a dual-three phase synchronous reluctance machine is optimized for fault-tolerant appl...
This study investigates experimental test on 8-pole 36-slot dual three-phase synchronous reluctance ...
This paper describes a set of experimental tests on a dual three-phase induction machine for fault-t...
This study investigates experiment-based performance of 8-pole 36-slot dual three-phase synchronous ...
Double three-phase winding is one of the best solutions to improve the fault tolerance of an electri...
The paper is focused on the experimental performance analysis of 8-pole 48-slot dual three-phase syn...
Fault tolerant machine drives are key enabling technologies for safety critical applications such as...
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...
The growth of electrification transportation systems is an opportunity for delving into new feasible...
A six-phase motor with a high degree of freedom can be converted into a three-phase motor in order t...
This paper focus on the analysis and design of a dual 3-phase machine. The possibility to adopt diff...
A five-phase fault-tolerant combined star-pentagon synchronous reluctance machine (SynRM) can provid...