Title :
Pulsed power inductive energy storage in the microsecond range
Author :
Rix, W. ; Miller, A.R. ; Thompson, J. ; Waisman, E. ; Wilkinson, M. ; Wilson, A.
Abstract :
During the past five years Maxwell has developed a series of inductive energy storage (IES) pulsed power generators; ACE 1, ACE 2, ACE 3, and ACE 4, to drive electron-beam loads. They are all based on a plasma opening switch (POS) contained in a single vacuum envelope operating at conduction times of around one microsecond. They all employ fast capacitor bank technology to match this conduction time without intermediate power conditioning. Oil or air filled transmission lines transfer capacitor bank energy to a vacuum section where the final pulse compression is accomplished. Development of the ACE series is described, emphasizing capacitor bank and the opening switch technology for delivering high voltage, multimegampere pulses to electron beam loads.
Keywords :
energy storage; inductive power transmission; power capacitors; ACE 1; ACE 2; ACE 3; ACE 4; Maxwell laboratory; Oil filled transmission lines; POS; air filled transmission lines; capacitor bank technology; electron-beam loads; final pulse compression; intermediate power conditioning; lES pulsed power generator; microsecond range; multimegampere pulses; plasma opening switch; pulsed power inductive energy storage; single vacuum envelope; Capacitors; Electron beams; Energy storage; Geometry; Inductance; Plasmas; Switches;
Conference_Titel :
High-Power Particle Beams, 1992 9th International Conference on
Conference_Location :
Washington,DC
Print_ISBN :
000-0-0000-0000-0
