论文信息 - Transient Performance of the Selectively Passive Compulsator

Transient Performance of the Selectively Passive Compulsator

Shorted compensating windings or non-uniform conductive shield can be used in a selectively passive compulsator to compensate the field produced by the armature winding, thus to reduce the impedance and increase the amplitude of the output current. The compensating effect on the inductance of the armature winding changes while the rotor rotates, so it is possible for selective compensation to output a flat top current pulse. A finite element analytical model is proposed in this paper. The electromotive force is firstly calculated. The losses in the rotor core and the eddy current induced in the compensating are analyzed under different frequencies. A flat top current pulse is provided in the armature winding to analyze the transient characteristics including inductance, eddy current and loss.

[1] D. Putley,et al. Simulation of selective passive compensation (railguns) , 1991 .

[2] J. H. Gully. Power supply technology for electric guns , 1991 .

[3] A. Arkkio,et al. Finite-Element Analysis for a Rolling-Rotor Electrical Machine , 2010, IEEE Transactions on Magnetics.

[4] I. McNab. Pulsed power for electric guns , 1997 .

[5] S. B. Pratap,et al. Assessment of losses in the field coil of the compulsator under dynamic conditions , 2003 .

[6] M. D. Werst,et al. Compulsator research at The University of Texas at Austin-an overview , 1989 .

[7] M. Crawford,et al. Use of SABER circuit simulation software for the modeling of compensated pulsed alternators driving a railgun load , 2003 .