Abstract
A new concept for constructing compact autonomous pulsed power systems is presented. This concept utilizes a high-voltage explosive-driven shock-wave ferromagnetic generator (FMG) as a charging source for capacitive energy storage. It has been experimentally demonstrated that miniature FMGs (22–25cm3 in size and 84–95g in mass) developed for these experiments can be successfully used to charge capacitor banks. The FMGs, containing Nd2Fe14B energy-carrying elements, provided pulsed powers of 35–45kW in times ranging from 10to15μs. A methodology was developed for digital simulation of the operation of the transverse FMG. Experimental results that were obtained are in a good agreement with the results of digital simulations.
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