This paper presents sliding mode control of sensor-less parallel-connected two five-phase permanent magnet synchronous machines (PMSMs) fed by a single five-leg inverter. For both machines, the rotor speeds and rotor positions as well as load torques are estimated by using Extended Kalman Filter (EKF) scheme. Fully decoupled control of both machines is possible via an appropriate phase transposition while connecting the stator windings parallel and employing proposed speed sensor-less method. In the resulting parallel-connected two-machine drive, the independent control of each machine in the group is achieved by controlling the stator currents and speed of each machine under vector control consideration. The effectiveness of the proposed E...
This paper aims to implement an independent speed control for dual-PMSM drives fed by a single Five-...
Lien vers la version finale éditeur This paper proposes the control scheme of an original drive whic...
This paper focuses on speed control of Five-Phase interior permanent magnet synchronous motor (IPMSM...
This paper presents sliding mode control of sensor-less parallel-connected two five-phase permanent ...
This paper presents a sensorless direct torque control (DTC) combined with sliding mode approach (SM...
This paper aims to evaluate the dynamic performance of a five-phase PMSM drive using two different o...
In this paper, we study sliding mode control of series-connected five-phase two asynchronous machine...
Multiphase drives in electric vehicles are subject to various disturbances, both internal and extern...
Different control strategies have been recently proposed. In this paper, two control techniques are ...
This paper introduces a sensorless technique to drive independently dual Permanent Magnet Synchrono...
In this paper a robust vector control method based on second order Super Twisting Sliding Mode Contr...
Nowadays, A lot of industry requires Multi Motor System (MMS) applications such as propulsion and tr...
This research aims to develop and implement a combined sensorless and independent speed control for ...
This paper proposes a sensorless control strategy based on Sliding Mode Observer (SMO) for a Five-ph...
This paper introduces a design for a sensorless control of a five-phase PMSM drive working at low an...
This paper aims to implement an independent speed control for dual-PMSM drives fed by a single Five-...
Lien vers la version finale éditeur This paper proposes the control scheme of an original drive whic...
This paper focuses on speed control of Five-Phase interior permanent magnet synchronous motor (IPMSM...
This paper presents sliding mode control of sensor-less parallel-connected two five-phase permanent ...
This paper presents a sensorless direct torque control (DTC) combined with sliding mode approach (SM...
This paper aims to evaluate the dynamic performance of a five-phase PMSM drive using two different o...
In this paper, we study sliding mode control of series-connected five-phase two asynchronous machine...
Multiphase drives in electric vehicles are subject to various disturbances, both internal and extern...
Different control strategies have been recently proposed. In this paper, two control techniques are ...
This paper introduces a sensorless technique to drive independently dual Permanent Magnet Synchrono...
In this paper a robust vector control method based on second order Super Twisting Sliding Mode Contr...
Nowadays, A lot of industry requires Multi Motor System (MMS) applications such as propulsion and tr...
This research aims to develop and implement a combined sensorless and independent speed control for ...
This paper proposes a sensorless control strategy based on Sliding Mode Observer (SMO) for a Five-ph...
This paper introduces a design for a sensorless control of a five-phase PMSM drive working at low an...
This paper aims to implement an independent speed control for dual-PMSM drives fed by a single Five-...
Lien vers la version finale éditeur This paper proposes the control scheme of an original drive whic...
This paper focuses on speed control of Five-Phase interior permanent magnet synchronous motor (IPMSM...