학술논문

Tolerances in Flux Compression Generator Design: Theory
Document Type
Working Paper
Source
Subject
Physics - Accelerator Physics
Language
Abstract
A flux compression generator (FCG) is a device generating a high-power electro-magnetic pulse by compressing magnetic flux with the help of explosion. The physical properties of components and materials used for FCG manufacturing and available on the market (wires, explosives, liners (armatures), etc.) might differ from those originally used for FCG design. As a result, the output parameters of the manufactured generator (e.g. maximum output power) could deviate from the pre-calculated values. Simple formulas are derived to enable evaluation of change in output power delivered to a purely inductive load from a helical flux compression generator in case when the wire insulation thickness or the detonation velocity of explosive or load inductance $L_l$ are changed. The obtained formulas establish acceptable tolerances for FCG components produced by a third-party manufacturer. Design requirement is proposed to ensure minimal dependence of the output power delivered to the purely inductive load when its inductance is varied a bit. The proposed approach implies approximate equality of load inductance and the residual FCG inductance at the instant, when the output power is maximal.
Comment: 8 pages, 4 figures