This paper presents a magnetic saliency-based position estimation approach for a permanent magnet (PM) motor fed by a voltage-source pulse width modulation (PWM) inverter. The proposed real-time estimation algorithm detects motor current harmonics and calculates the inductance matrix, including rotor position information. Position estimation can be performed every period of PWM or carrier cycle. An experimental system using an interior permanent magnet (IPM) synchronous motor has been constructed. Experimental results verify that position estimation within 10° in electrical angle is obtained at standstill and at speeds as low as 1 r/min by the proposed approach</p
This paper describes position estimation based on magnetic saliency of an interior permanent magnet ...
This paper describes position-sensorless control of an interior permanent magnet synchronous motor (...
This thesis provides rotor position estimation and online inductance estimation using the PWM signal...
This paper presents a magnetic saliency-based position estimation approach for a permanent magnet (P...
This paper presents a magnetic saliency based position estimation approach for a PM motor fed by a v...
This paper presents a magnetic saliency based position estimation approach for a PM motor fed by a v...
This paper presents a magnetic saliency-based position estimation approach for a permanent magnet (P...
This paper presents a magnetic saliency based position estimation approach for a PM motor fed by a v...
This paper describes position-sensorless control of an interior permanent magnet synchronous (IPM) m...
This paper describes position-sensorless control of an interior permanent magnet synchronous (IPM) m...
This paper describes position-sensorless control of an interior permanent magnet synchronous motor (...
This paper describes position-sensorless control of an interior permanent magnet synchronous motor (...
This paper describes position estimation based on magnetic saliency of an interior permanent magnet ...
This paper describes position estimation based on magnetic saliency of an interior permanent magnet ...
Abstract—This paper presents a position and speed estimation algorithm based on magnetic saliency of...
This paper describes position estimation based on magnetic saliency of an interior permanent magnet ...
This paper describes position-sensorless control of an interior permanent magnet synchronous motor (...
This thesis provides rotor position estimation and online inductance estimation using the PWM signal...
This paper presents a magnetic saliency-based position estimation approach for a permanent magnet (P...
This paper presents a magnetic saliency based position estimation approach for a PM motor fed by a v...
This paper presents a magnetic saliency based position estimation approach for a PM motor fed by a v...
This paper presents a magnetic saliency-based position estimation approach for a permanent magnet (P...
This paper presents a magnetic saliency based position estimation approach for a PM motor fed by a v...
This paper describes position-sensorless control of an interior permanent magnet synchronous (IPM) m...
This paper describes position-sensorless control of an interior permanent magnet synchronous (IPM) m...
This paper describes position-sensorless control of an interior permanent magnet synchronous motor (...
This paper describes position-sensorless control of an interior permanent magnet synchronous motor (...
This paper describes position estimation based on magnetic saliency of an interior permanent magnet ...
This paper describes position estimation based on magnetic saliency of an interior permanent magnet ...
Abstract—This paper presents a position and speed estimation algorithm based on magnetic saliency of...
This paper describes position estimation based on magnetic saliency of an interior permanent magnet ...
This paper describes position-sensorless control of an interior permanent magnet synchronous motor (...
This thesis provides rotor position estimation and online inductance estimation using the PWM signal...