Title :
Battery–Inductor Parametric System Analysis for Electromagnetic Guns
Author :
Dierks, Eric ; McNab, Ian R. ; Mallick, John A., Sr. ; Fish, Scott
Author_Institution :
Inst. for Adv. Technol., Univ. of Texas at Austin, Austin, TX, USA
Abstract :
Growing interest in battery performance and cost reduction for hybrid and electric vehicles has restimulated interest in the United States in the use of high-power batteries as a potential source of pulsed power. Recent progress in high-power density lithium-ion batteries and high-power semiconducting switches has suggested that a battery-inductor-based pulsed power system could become a viable option to pulsed alternators for electromagnetic (EM) launchers and other pulsed loads in the megajoule range. Approximate system sizing and a parametric study are presented, showing the effects of battery and inductor parameters on the overall efficiency and system size for a conceptual 2-MJ muzzle energy EM launch system utilizing the STRETCH circuit topology. The results show the relationship between potential increases in future component performance on overall system size reduction and efficiency.
Keywords :
alternators; electromagnetic launchers; hybrid electric vehicles; load (electric); power inductors; power semiconductor switches; pulsed power supplies; secondary cells; STRETCH circuit topology; battery inductor parametric system analysis; electromagnetic guns; electromagnetic launchers; high power density lithium ion battery; high power semiconducting switch; hybrid electric vehicles; inductor parameter; muzzle energy EM launch system; pulsed alternators; pulsed load; Batteries; Capacitors; Inductance; Inductors; Magnetic cores; Railguns; Resistance; Battery–inductor; STRETCH; parametric study; pulsed power supply; system sizing;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2010.2082569
