Title :
Wire explosion fed by a 32-kJ XRAM generator switched by semiconductor elements
Author :
Dedie, Philipp ; Brommer, Volker
Author_Institution :
German-French Res. Inst. of St. Louis (ISL), St. Louis, France
Abstract :
High-energy wire explosions are used e.g. in electrothermal-chemical (ETC) loads. For the first time, a wire explosion fed by a 32-kJ four-stage XRAM generator which is switched uniquely by semiconductor elements has been achieved. The difficulty when using semiconductors is that wire explosions generate high-voltage peaks which can potentially destroy the semiconductor elements in an XRAM circuit. By using an improved version of the countercurrent commutation principle well-adapted to the switching requirements of the XRAM generator and by choosing molybdenum as the wire material, we could overcome the high-voltage difficulty and successfully explode a 4-cmlong, 250-??m-thick wire with 32 kJ of electric energy, lasting for an 18-ms plasma discharge.
Keywords :
discharges (electric); molybdenum; pulse generators; pulsed power supplies; XRAM generator; countercurrent commutation principle; energy 32 kJ; high-energy wire explosions; high-voltage peaks; plasma discharge; semiconductor elements; size 250 mum; size 4 cm; Wire explosion; XRAM generator; countercurrent commutation; semiconductor opening switch;
Conference_Titel :
Pulsed Power Conference, 2009 IET European
Conference_Location :
Geneva
Print_ISBN :
978-1-84919-144-9
