Demonstration of a modular, repetitive-fired 1/4-MJ PFN for ETC guns

D Bhasavanich,P.R Rohr,K Nielsen,T Dasilva,R Shaw,R Ford,C.M Gilman

doi:10.1109/20.560050

Demonstration of a modular, repetitive-fired 1/4-MJ PFN for ETC guns

D Bhasavanich, P.R Rohr + Show 5 more

https://doi.org/10.1109/20.560050

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Journal: IEEE Transactions on Magnetics	Publication Date: Jan 1, 1997
Citations: 3

#Electrothermal-chemical Gun #Pulse Forming Network #Electrothermal-chemical #Low External Magnetic Fields #Computer-based Controller #Metallized Electrode #Energy Density #Low Magnetic Fields #Low Fields #Triggered Vacuum Gap

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A compact pulse forming network (PFN) storing 1/4 MJ at 16 kV has been assembled and tested to validate its performance as a driver for an electrothermal-chemical (ETC) gun. The PFN features a triggered vacuum gap output switch; shielded inductors at energy density near 10 MJ/m/sup 3/, with low external magnetic fields; 25 MJ/m/sup 3/ metallized electrode, PVDF dielectric capacitors; and it computer-based controller. The PFN was repetitively fired at 1/3 Hz in 5-shot bursts. Variability of the output energy over the burst was less than 2%. Energy density for the overall PFN module was 1.2 MJ/m/sup 3/ and the energy transfer efficiency predicted for a 12-module PFN system to an ETC gun like load was 85%.

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Demonstration of a modular, repetitive-fired 1/4-MJ PFN for ETC guns