Switched reluctance motors (SRM) are a suitable and cheaper alternative for current electric vehicle (EV) powertrain topologies due to low weight, high torque/size ratio and simple construction, without permanent magnets and a minimum amount of copper. The main setback that these motors encounter is the high torque ripple, mainly due to the highly nonlinear torque generation mechanism. Torque ripple leads to mechanical vibrations that require unnecessary wear in the mechanical powertrain. In conventional torque sharing function (TSF) control, the torque produced by the machine cannot follow the expected torque for an extended speed range, mostly due to the imposed demagnetization of the outgoing phase at high speeds, resulting in poor perfo...
Electric vehicles (EVs) integrate two main power electronics systems, namely, the battery charging s...
This paper presents a new torque control function for torque ripple reduction in switched reluctance...
This study describes the direct torque control-DTC approach, based on the Sliding Mode Control (SMC)...
Electromechanical systems have a huge relevance nowadays, and seeking for improvements in efficiency a...
This work presents a study for torque ripple reduction in switched reluctance motors. The work explo...
The switched reluctance motors (SRMs) are powerful alternatives for electric vehicles (EVs). However...
This paper describes a control approach to reduce the torque ripple of the switched reluctance motor...
This paper describes a control approach to reduce the torque ripple of the switched reluctance motor...
The presented work is dedicated to the development of the control approaches with the aim to reduce ...
Due to their advantages, switched reluctance motors (SRMs) are interesting solutions for electric ve...
This Paper summarizes the study conducted on the techniques used and implemented to minimize the to...
Due to their advantages, switched reluctance motors (SRMs) are interesting solutions for electric ve...
The presented work is dedicated to the development of the control approaches with the aim to reduce ...
There exists an immense demand for efficient, robust, reliable, and cost-effective motors for propul...
Switched reluctance motors (SRMs) have been receiving great attention in electric vehicle (EV) appli...
Electric vehicles (EVs) integrate two main power electronics systems, namely, the battery charging s...
This paper presents a new torque control function for torque ripple reduction in switched reluctance...
This study describes the direct torque control-DTC approach, based on the Sliding Mode Control (SMC)...
Electromechanical systems have a huge relevance nowadays, and seeking for improvements in efficiency a...
This work presents a study for torque ripple reduction in switched reluctance motors. The work explo...
The switched reluctance motors (SRMs) are powerful alternatives for electric vehicles (EVs). However...
This paper describes a control approach to reduce the torque ripple of the switched reluctance motor...
This paper describes a control approach to reduce the torque ripple of the switched reluctance motor...
The presented work is dedicated to the development of the control approaches with the aim to reduce ...
Due to their advantages, switched reluctance motors (SRMs) are interesting solutions for electric ve...
This Paper summarizes the study conducted on the techniques used and implemented to minimize the to...
Due to their advantages, switched reluctance motors (SRMs) are interesting solutions for electric ve...
The presented work is dedicated to the development of the control approaches with the aim to reduce ...
There exists an immense demand for efficient, robust, reliable, and cost-effective motors for propul...
Switched reluctance motors (SRMs) have been receiving great attention in electric vehicle (EV) appli...
Electric vehicles (EVs) integrate two main power electronics systems, namely, the battery charging s...
This paper presents a new torque control function for torque ripple reduction in switched reluctance...
This study describes the direct torque control-DTC approach, based on the Sliding Mode Control (SMC)...