This paper presents an optimization method to determine the excitation requirements of three phase self-excited induction generator under single phase mode of operation. A single phase load is connGcted to the generator through two excitation capacitors. The values of these capacitors are chosen to ensure minimum self-excitation of the machine in addition to minimization of the unbalaqce between the stator voltages. The problem is formulated as a multidimensional optimization problem. A sequential genetic (GA)/gradient optimizer is used to minimize a cost function of the summation oftheequivalent impedance of the generator plus the ratio of the negative to the positive sequence voltages, to obtain the values of the frequency and the excitat...
The steady state performance of a single-phase squirrel cage induction machine operating as self exc...
A methodology of selection of capacitors for optimum excitation of single-phase SEIG is explained. C...
Due to the wide utilization of a 3-phase, squirrel-cage, self-excitation generator in renewable ener...
This paper presents a performance analysis of a three phase self excited Induction machine as a sing...
This paper proposes a scheme for a steady state analysis of a three phase self-excited induction gen...
This paper presents a steady state analysis of three phase self-excited induction generator. The pro...
This paper presents a steady state analysis of three phase self-excited induction generator. The pro...
This paper presents a practical method for computing the minimum capacitance required to initiate vo...
When a three-phase induction generator (IG) supplies unbalanced loads, its terminal voltages and lin...
Abstract — This paper analyzes the steady state performance of an isolated 3-phase self excited indu...
Abstract—This paper presents a steady state analysis of three phase self-excited induction generator...
This paper proposes a simple method of determining the size of excitation capacitance required to bu...
The voltage and frequency of three-phase self-excited induction generator (SEIG) depend upon various...
Squirrel-cage induction machine is widely used as workhorse motor in industrial due to its simple an...
The self-excited induction generator (SEIG) shows drooping voltage with the load and thus exhibits p...
The steady state performance of a single-phase squirrel cage induction machine operating as self exc...
A methodology of selection of capacitors for optimum excitation of single-phase SEIG is explained. C...
Due to the wide utilization of a 3-phase, squirrel-cage, self-excitation generator in renewable ener...
This paper presents a performance analysis of a three phase self excited Induction machine as a sing...
This paper proposes a scheme for a steady state analysis of a three phase self-excited induction gen...
This paper presents a steady state analysis of three phase self-excited induction generator. The pro...
This paper presents a steady state analysis of three phase self-excited induction generator. The pro...
This paper presents a practical method for computing the minimum capacitance required to initiate vo...
When a three-phase induction generator (IG) supplies unbalanced loads, its terminal voltages and lin...
Abstract — This paper analyzes the steady state performance of an isolated 3-phase self excited indu...
Abstract—This paper presents a steady state analysis of three phase self-excited induction generator...
This paper proposes a simple method of determining the size of excitation capacitance required to bu...
The voltage and frequency of three-phase self-excited induction generator (SEIG) depend upon various...
Squirrel-cage induction machine is widely used as workhorse motor in industrial due to its simple an...
The self-excited induction generator (SEIG) shows drooping voltage with the load and thus exhibits p...
The steady state performance of a single-phase squirrel cage induction machine operating as self exc...
A methodology of selection of capacitors for optimum excitation of single-phase SEIG is explained. C...
Due to the wide utilization of a 3-phase, squirrel-cage, self-excitation generator in renewable ener...