Power supply is crucial equipment in coaxial induction coil launcher. Configuration of the driving circuit directly influences the efficiency of the coil launcher.This paper gives a detailed analysis of the properties of the driving circuit construction based on the capacitor source. Three topologies of the driving circuit are compared including oscillation, crowbar and half-wave circuits. It is proved that which circuit has the better efficiency depends on the detailed parameters of the experiment, especially the crowbar resistance. Crowbar resistor regulates not only efficiency of the system, but also temperature rise of the coil. Electromagnetic force (EMF) applied on the armature will be another problem which influences service condition of the driving circuits. Oscillation and crowbar circuits should be applied to both of the synchronous and asynchronous induction coil launchers, respectively. Half-wave circuit is seldom used in the experiment. Although efficiency of the half-wave circuit is very high, the speed of the armature is low. A simple independent half-wave circuit is proposed in this paper. In general, the comprehensive property of crowbar circuit is the most practical in the three typical circuits. Conclusions of the paper could provide guidelines for practice.

W Ying, RA Marshall, C Shukang. Physics of Electric Launch. Beijing, China: Science Press, 2004.

RJ Kaye. Operational requirements and issues for coilgun electromagnetic launchers. IEEE Transactions on Magnetics. 2005: 41(1): 194–199.

Shun-Shou Gao, Cheng-Wei Sun. The Test and Analysis of a 3-Stage Reconnection Coilgun. IEEE Transactions on Magnetics.1999; 35(1): 142 – 147.

Zhao Keyi, Cheng Shukang, Zhang Ruiping. Influence of Driving Current’s Wave on Accelerative Performance of Induction Coil Launcher. Electromagnetic Launch Technology, 14th Symposium. Victoria, BC. 2008: 1-4.

Munir Achmad, Bharata Endon, Self oscillating mixer with dielectric resonator for low noise block application. TELKOMNIKA. 2011; 9(2): 351-356.

Yadong Zhang, Jiangjun Ruan, Ying Wang, Yujiao Zhang, Bao Shouliu, Armature Performance Comparison of an Induction Coil Launcher. IEEE Transactions on Plasma Science. 2011; 39(1): 471–475.

Yadong Zhang, Jiangjun Ruan, Ying Wang, Zhiye Du, Shoubao Liu, and Yujiao Zhang. Performance Improvement of a Coil Launcher. IEEE Transactions on Plasma Science. 2011; 39(1): 210–214.

Yadong Zhang, Jiangjun Ruan, Ying Wang. Capacitor-driven Coil gun Scaling Relationships. IEEE Trans on Plasma Science. 2011; 39(1): 220-224.

Tao, Huang Jiangjun Ruan, Yujiao Zhang. Winding of a multi-phase induction machine magneto-structural coupling field analysis on the end. TELKOMNIKA. 2012; 10(5): 933-939.

Z Zabar, Y Naot, L Birenbaum, E Levi, PN Joshi. Design and power conditioning for the coil-gun. IEEE Transactions on Magnetics. 1989; 25(1): 627- 631.

A Balikci, Z Zabar, L Birenbaum, D Czarkowski. On the Design of Coilguns for Super-Velocity Launchers. IEEE Transactions on Magnetics. 2007; 43(1): 107-110.

BD Skurdal, RL Gaigler. Multimission Electromagnetic Launcher. IEEE Transactions on Magnetics. 2009; 45(1): 458–461.