Factors in inductive storage system design

Author

Kanter, M. ; Pokrvailo, A. ; Shaked, N. ; Kaplan, Z.

Author_Institution

Propulsion Phys. Lab., Yavne, Israel

Volume

1

fYear

1995

fDate

3-6 July 1995

Firstpage

186

Abstract

The practical implementation of an inductive pulsed power supply depends on its size and EMI with neighboring environment. Parametric trade-off is made for the prime power battery and the coil. It is shown that the minimal volume of the battery-coil system with a Brooks coil is achieved at a ratio of their volumes 3:2, respectively. For such systems, a jellyroll coil is preferable to a pancake one in view of a higher transfer efficiency. At very high battery power density, a pancake coil may be a right choice due to a lower mechanical stress. The fringe field of cylindrical and quasitoroidal coils was calculated using dipole approximation. Measurements of the discharge efficiency and fringe field are in a good agreement with the theoretical analysis.

Keywords

coils; inductive energy storage; power inductors; power supplies to apparatus; pulse generators; pulsed power technology; secondary cells; Brooks coil; battery-coil system; dipole approximation; discharge efficiency; fringe field; inductive pulsed power supply; inductive storage system design; jellyroll coil; mechanical stress; pancake coil; parametric trade-off; prime power battery; Batteries; Coils; Energy storage; Inductors; Plasma temperature; Propulsion; Pulsed power supplies; Switches; Tensile stress; Voltage;

fLanguage

English

Publisher

ieee

Conference_Titel

Pulsed Power Conference, 1995. Digest of Technical Papers., Tenth IEEE International

Conference_Location

Albuquerque, NM, USA

Print_ISBN

0-7803-2791-8

Type

conf

DOI

10.1109/PPC.1995.596478

Filename

596478