A Flux Compression Generator Non-Explosive Test Bed for Explosive Opening Switches

Abstract

Helical Flux Compression Generators (HFCG) of a 50 mm form factor have been shown to produce output energies on the order of ten times the seeded value and a typical deposited energy of 3 kJ into a 3 ?H inductor. Our previous work with a non-optimized fuse has produced ~100 kV into a 15 . load, which leads into a regime relevant for High Power Microwave (HPM) systems. It is expected that ~300 kV can be achieved with the present 2-stage HFCG driving an inductive storage system with electro-exploding fuse. In order to optimize the electro-explosive wire fuse, we have constructed a non-explosive test bed which simulates the HFCG output with high accuracy. We have designed and implemented a capacitor based, magnetic switching scheme to generate the near exponential rise of the HFCG. The varying inductance approach utilizes 4 stages of inductance change and is based upon a piecewise linear regression model of the HFCG waveform. The non-explosive test bed will provide a more efficient method of component testing and has demonstrated positive initial fuse results.