This paper proposes a direct flux vector control strategy with no need for regulators tuning, suitable for permanent-magnet (PM) synchronous machine drives. The controller operates in stator flux coordinates and calculates the inverter reference voltages in a model-based fashion, taking advantage of a novel equation for the explicit evaluation of the torque angle error. The inverter current and voltage limits are exploited in a parameter-independent way. The method segregates the machine parameters into a single block, to make it very easy to switch from one machine to another. Experimental results are reported for a PM-assisted synchronous reluctance motor drive example, characterized by significant saturation and cross-saturation. State-o...
The vector control of PMSM allows them to be controlled as the same manner as a separately excited D...
In an increasing number of applications highly dynamic electrical drives, characterized by high qual...
This paper proposes a novel self-learning control scheme for interior permanent magnet synchronous m...
This paper proposes a direct flux vector control strategy with no need for regulators tuning, suitab...
This paper investigates a direct flux vector control strategy with minimum need of calibration, suit...
A general-purpose control algorithm is proposed for permanent-magnet (PM) synchronous machine drives...
A novel Direct Flux Vector Control (DFVC) scheme is presented based on the real-time use of the moto...
The paper introduces a Unified Direct-Flux Vector Control scheme suitable for sinusoidal AC motor dr...
The stator-field-oriented, direct-flux vector control has been proven to be effective in terms of li...
Direct flux vector control (DFVC) has an unique advantage in facilitating flux-weakening operation d...
This paper deals with stator-flux-oriented control of permanent-magnet (PM) synchronous motors and s...
This paper presents the direct flux control of an interior permanent-magnet (IPM) motor drive in the...
Interior Permanent Magnet (IPM) drives are adapted to flux-weakening, then to constant power operati...
This thesis deals with control methods for synchronous motors with a magnetically salient rotor, suc...
The study presents the direct flux and current vector control of an induction motor (IM) drive, whic...
The vector control of PMSM allows them to be controlled as the same manner as a separately excited D...
In an increasing number of applications highly dynamic electrical drives, characterized by high qual...
This paper proposes a novel self-learning control scheme for interior permanent magnet synchronous m...
This paper proposes a direct flux vector control strategy with no need for regulators tuning, suitab...
This paper investigates a direct flux vector control strategy with minimum need of calibration, suit...
A general-purpose control algorithm is proposed for permanent-magnet (PM) synchronous machine drives...
A novel Direct Flux Vector Control (DFVC) scheme is presented based on the real-time use of the moto...
The paper introduces a Unified Direct-Flux Vector Control scheme suitable for sinusoidal AC motor dr...
The stator-field-oriented, direct-flux vector control has been proven to be effective in terms of li...
Direct flux vector control (DFVC) has an unique advantage in facilitating flux-weakening operation d...
This paper deals with stator-flux-oriented control of permanent-magnet (PM) synchronous motors and s...
This paper presents the direct flux control of an interior permanent-magnet (IPM) motor drive in the...
Interior Permanent Magnet (IPM) drives are adapted to flux-weakening, then to constant power operati...
This thesis deals with control methods for synchronous motors with a magnetically salient rotor, suc...
The study presents the direct flux and current vector control of an induction motor (IM) drive, whic...
The vector control of PMSM allows them to be controlled as the same manner as a separately excited D...
In an increasing number of applications highly dynamic electrical drives, characterized by high qual...
This paper proposes a novel self-learning control scheme for interior permanent magnet synchronous m...