International audienceWe solve the problems of set-point and tracking control of permanent-magnet synchronous motors with unknown load via linear angular-velocity-feedback control. We firstly assume that the motor parameters are known (except for the torque load) and show global exponential stability of the closed-loop system with a linear controller that uses only angular velocity measurements. Input to state stability follows as a corollary. We show how the latter may be enhanced via an additional current feedback. The controllers are also robust with respect to measurement noise and parametric uncertainty
In this paper we show that, when the rotor position is not measured in (nonsalient-pole surface) PMS...
In this work, we present a mixed sensorless strategy for Permanent Magnet Synchronous Machines, comb...
Permanent Magnet Linear Synchronous Motors are of wide use in industry in applications where actuati...
International audienceWe solve the problems of set-point and tracking control of permanent-magnet sy...
International audienceWe solve the problems of set-point and tracking control of permanent-magnet sy...
International audienceWe solve the problem of set-point (respectively, tracking) control of a perman...
International audienceWe solve the problem of set-point (respectively, tracking) control of a perman...
International audienceWe contribute with a linear time-varying controller for the permanent magnet s...
International audienceWe contribute with a linear time-varying controller for the permanent magnet s...
International audienceThis paper deals with the robust stabilization of a class of Linear Parameter ...
International audienceThis paper deals with the robust stabilization of a class of Linear Parameter ...
A master–slave synchronisation control problem is addressed for current-fed DC and permanent magnet ...
A master–slave synchronisation control problem is addressed for current-fed DC and permanent magnet ...
International audienceThis paper deals with the robust stabilization of a class of Linear Parameter ...
In this paper we show that, when the rotor position is not measured in (nonsalient-pole surface) PMS...
In this paper we show that, when the rotor position is not measured in (nonsalient-pole surface) PMS...
In this work, we present a mixed sensorless strategy for Permanent Magnet Synchronous Machines, comb...
Permanent Magnet Linear Synchronous Motors are of wide use in industry in applications where actuati...
International audienceWe solve the problems of set-point and tracking control of permanent-magnet sy...
International audienceWe solve the problems of set-point and tracking control of permanent-magnet sy...
International audienceWe solve the problem of set-point (respectively, tracking) control of a perman...
International audienceWe solve the problem of set-point (respectively, tracking) control of a perman...
International audienceWe contribute with a linear time-varying controller for the permanent magnet s...
International audienceWe contribute with a linear time-varying controller for the permanent magnet s...
International audienceThis paper deals with the robust stabilization of a class of Linear Parameter ...
International audienceThis paper deals with the robust stabilization of a class of Linear Parameter ...
A master–slave synchronisation control problem is addressed for current-fed DC and permanent magnet ...
A master–slave synchronisation control problem is addressed for current-fed DC and permanent magnet ...
International audienceThis paper deals with the robust stabilization of a class of Linear Parameter ...
In this paper we show that, when the rotor position is not measured in (nonsalient-pole surface) PMS...
In this paper we show that, when the rotor position is not measured in (nonsalient-pole surface) PMS...
In this work, we present a mixed sensorless strategy for Permanent Magnet Synchronous Machines, comb...
Permanent Magnet Linear Synchronous Motors are of wide use in industry in applications where actuati...
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