This paper presents a practical method for computing the minimum capacitance required to initiate voltage build-up in a three-phase induction generator self-excited with a single capacitance and supplying a single-phase load. Attention is focused on the Steinmetz connection which gives superior performance over the plain single-phasing mode of operation. From a consideration of the input impedance of the induction generator and the self-excitation conditions, two nonlinear equations are obtained. Solution of one equation using the Secant method enables the excitation frequency to be determined, and the minimum excitation capacitance can be calculated from the second equation. This solution technique is subsequently employed in an iterative ...
The self regulating feature of a Self Excited Induction Generator (SEIG) by connecting additional ca...
For an induction generator to be self excited a capacitor with a sufficient value has to be connecte...
A methodology of selection of capacitors for optimum excitation of single-phase SEIG is explained. C...
This paper proposes a simple method of determining the size of excitation capacitance required to bu...
Advanced knowledge of the minimum capacitor value required for self-excitation of an induction gener...
The concept of a Self-Excited Induction Generator (SEIG) has introduced the concept of the placement...
Operation of an induction machine as a generator has been gaining ground in the last decades mainly ...
Induction generator is the most common generator in wind energy systems because of its simplicity, r...
This paper presents an optimization method to determine the excitation requirements of three phase s...
A series-connected induction machine is obtained when the stator and rotor windings of a conventiona...
The steady state performance of a single-phase squirrel cage induction machine operating as self exc...
A direct method to find the capacitance requirements for a three phase self-excited reluctance gener...
Abstract: This paper presents a economic technique to supply single phase power from three phase Sel...
When a three-phase induction generator (IG) supplies unbalanced loads, its terminal voltages and lin...
This paper presents a performance analysis of a three phase self excited Induction machine as a sing...
The self regulating feature of a Self Excited Induction Generator (SEIG) by connecting additional ca...
For an induction generator to be self excited a capacitor with a sufficient value has to be connecte...
A methodology of selection of capacitors for optimum excitation of single-phase SEIG is explained. C...
This paper proposes a simple method of determining the size of excitation capacitance required to bu...
Advanced knowledge of the minimum capacitor value required for self-excitation of an induction gener...
The concept of a Self-Excited Induction Generator (SEIG) has introduced the concept of the placement...
Operation of an induction machine as a generator has been gaining ground in the last decades mainly ...
Induction generator is the most common generator in wind energy systems because of its simplicity, r...
This paper presents an optimization method to determine the excitation requirements of three phase s...
A series-connected induction machine is obtained when the stator and rotor windings of a conventiona...
The steady state performance of a single-phase squirrel cage induction machine operating as self exc...
A direct method to find the capacitance requirements for a three phase self-excited reluctance gener...
Abstract: This paper presents a economic technique to supply single phase power from three phase Sel...
When a three-phase induction generator (IG) supplies unbalanced loads, its terminal voltages and lin...
This paper presents a performance analysis of a three phase self excited Induction machine as a sing...
The self regulating feature of a Self Excited Induction Generator (SEIG) by connecting additional ca...
For an induction generator to be self excited a capacitor with a sufficient value has to be connecte...
A methodology of selection of capacitors for optimum excitation of single-phase SEIG is explained. C...