Title :
Transportable High-Energy High-Current Inductive Storage GW Generator
Author :
Novac, Bucur M. ; Smith, Ivor R. ; Senior, Peter ; Parker, Michael ; Louverdis, Gerry ; Pecastaing, L. ; De Ferron, Antoine Silvestre ; Pignolet, Pascal ; Souakri, Sonia
Author_Institution :
Sch. of Electron., Electr. & Syst. Eng., Loughborough Univ., Loughborough, UK
Abstract :
A number of high-power applications require a transportable high-energy, high-current GW generator to drive a pulsed power system at the output. A first prototype, based on exploding wire technology and using an H-bridge circuit configuration, was developed at Loughborough University a few years ago and has been previously reported. The present stage of the work has necessitated the development of a more powerful and energetic source, and this is now based on inductive storage technology. A 400 kJ capacitor bank is connected by a high-Coulomb explosively driven closing switch with an air-cored 0.6 MV transformer, an exploding wire array, and a high-power diode based on a polarity-dependent spark-gap completing the arrangement. The GW generator, including the command and control module, is accommodated in two ISO containers. The various components of the generator are described in this paper, together with results obtained from full-scale tests.
Keywords :
electric generators; inductive energy storage; power capacitors; power semiconductor diodes; pulsed power supplies; H-bridge circuit configuration; capacitor bank; command and control module; energy 400 kJ; exploding wire array; high-current inductive storage GW Generator; high-power diode; polarity-dependent spark-gap; pulsed power system; transportable high-energy GW Generator; voltage 0.6 MV; wire technology; Capacitors; Containers; Copper; Generators; Switches; Windings; Wires; Closing switches; exploding wires; high-voltage (HV) technology; inductive storage; opening switches; pulse transformers;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2014.2340014
