DocumentCode
1447730
Title
Status of Genesis a 5-MA Programmable Pulsed Power Driver
Author
Glover, Steven F. ; White, Forest E. ; Foster, Peter J. ; Lucero, Diego J. ; Schneider, Larry X. ; Reed, K.W. ; Pena, Gary E. ; Davis, J. ; Hall, C.A. ; Hickman ; Hodge, K.C. ; Lemke, R.W. ; Lehr, Jane M. ; McDaniel, Dillon H. ; Puissant, J.G. ; Rudys, Jo
Author_Institution
Sandia Nat. Labs., Albuquerque, NM, USA
Volume
40
Issue
10
fYear
2012
Firstpage
2629
Lastpage
2636
Abstract
Genesis is a compact pulsed power platform designed by Sandia National Laboratories to generate precision shaped multi-MA current waves with a rise time of 200-500 ns. In this system, two hundred and forty, 200 kV, 80 kA modules are selectively triggered to produce 280 kbar of magnetic pressure (>;500 kbar pressure in high Z materials) in a stripline load for dynamic materials properties research. This new capability incorporates the use of solid dielectrics to reduce system inductance and size, programmable current shaping, and gas switches that must perform over a large range of operating conditions. Research has continued on this technology base with a focus on demonstrating the integrated performance of key concepts into a Genesis-like prototype called Protogen. Protogen measures approximately 1.4 m by 1.4 m and is designed to hold 12 Genesis modules. A fixed inductance load will allow rep-rate operation for component reliability and system lifetime experiments at the extreme electric field operating conditions expected in Genesis.
Keywords
driver circuits; programmable circuits; pulsed power supplies; Genesis; Protogen; Sandia National Laboratories; compact pulsed power platform; component reliability; current 5 MA; current 80 kA; dynamic materials properties research; extreme electric field operating conditions; fixed inductance load; gas switches; high Z materials; magnetic pressure; precision shaped multi-MA current waves; programmable current shaping; programmable pulsed power driver; rep-rate operation; rise time; size 1.4 m; solid dielectrics; stripline load; system inductance; system lifetime experiments; time 200 ns to 500 ns; voltage 200 kV; Dielectrics; Inductance; Integrated circuit modeling; Mathematical model; Power transmission lines; Solids; Current adding; current control; equation of state; genetic algorithms; isentropic compression; modeling; programmable control; pulse shaping; pulsed power;
fLanguage
English
Journal_Title
Plasma Science, IEEE Transactions on
Publisher
ieee
ISSN
0093-3813
Type
jour
DOI
10.1109/TPS.2012.2185071
Filename
6151840
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