In this paper, a new control strategy is proposed which is simple in structure and has the straightforward goal of minimizing the stator current amplitude for a given load torque. It is shown that the resulting induction motor efficiency is reasonably close to optimal and that the approach is insensitive to variations in rotor resistance. Although the torque response is not as fast as in field-oriented (FO) control strategies, the response is reasonably fast. In fact, if the mechanical time constant is large relative to the rotor time constant, which is frequently the case, the sacrifice in dynamic performance is insignificant relative to FO strategie
International audienceThis paper proposes a strategy to minimize the losses of an induction motor pr...
In this paper, a loss-minimizing strategy is proposed for induction motor drives to ensure maximum e...
International audienceA great deal of interest has been paid to induction machine control over the l...
The paper reports new theoretical and experimental results in vector control of induction motors. A ...
A novel maximum torque per Ampere (MTPA) controller for induction motor (IM) drives is presented. It...
New quick response and high efficiency control of an induction motor which is quite different from t...
The paper presents a novel maximum torque per Ampere (MTA) controller for induction motor (IM) drive...
The paper presents a novel maximum torque per Ampere (MTA) controller for induction motor (IM) drive...
Variable speed induction motor drives based on field oriented control are going to cover increasing ...
A new field-oriented control strategy for induction motor is proposed in the paper. It is called Max...
Abstract—Optimal control of magnetizing current for minimiz-ing induction motor power losses during ...
A new approach for controlling the speed of an inverter-fed induction motor which operates with vari...
An improved maximum torque per Ampere (MTPA) controller for induction motor (IM) drives is presented...
Induction motors are the nation's workhorse, being the motor of choice in most applications due to t...
International audienceThis paper proposes a strategy to minimize the losses of an induction motor pr...
In this paper, a loss-minimizing strategy is proposed for induction motor drives to ensure maximum e...
International audienceA great deal of interest has been paid to induction machine control over the l...
The paper reports new theoretical and experimental results in vector control of induction motors. A ...
A novel maximum torque per Ampere (MTPA) controller for induction motor (IM) drives is presented. It...
New quick response and high efficiency control of an induction motor which is quite different from t...
The paper presents a novel maximum torque per Ampere (MTA) controller for induction motor (IM) drive...
The paper presents a novel maximum torque per Ampere (MTA) controller for induction motor (IM) drive...
Variable speed induction motor drives based on field oriented control are going to cover increasing ...
A new field-oriented control strategy for induction motor is proposed in the paper. It is called Max...
Abstract—Optimal control of magnetizing current for minimiz-ing induction motor power losses during ...
A new approach for controlling the speed of an inverter-fed induction motor which operates with vari...
An improved maximum torque per Ampere (MTPA) controller for induction motor (IM) drives is presented...
Induction motors are the nation's workhorse, being the motor of choice in most applications due to t...
International audienceThis paper proposes a strategy to minimize the losses of an induction motor pr...
In this paper, a loss-minimizing strategy is proposed for induction motor drives to ensure maximum e...
International audienceA great deal of interest has been paid to induction machine control over the l...