Title :
Development of a medium-bore high-efficiency helical coil electromagnetic launcher
Author :
Engel, Thomas G. ; Nunnally, William C. ; Neri, Jesse M.
Author_Institution :
Phys. Electron. Group, Univ. of Missouri-Columbia, Columbia, MO, USA
Abstract :
The design, development, and testing of a medium-bore helical coil electromagnetic launcher (HCEL) that can accelerate a 500-gram mass to 100 m/s with an efficiency of 13.2% is presented and discussed. The HCEL has a bore size of 40 mm and a length of 750 mm. The measured HCEL inductance gradient of 150 mH/m is more than a 100 times larger than a conventional railgun. The HCEL is powered by a sequentially fired pulse forming network consisting of four 15-kJ electrolytic capacitor banks. Typical PFN V-I characteristics are approximately 15-kA peak current at 550 V for 8-ms pulse length. A computer model of the HCEL launcher is constructed in PSPICE and accurately predicts launcher performance within 25%. Theoretical and numerical predictions of launcher performance are compared with experimental measurements, including projectile velocity, launcher voltage, launcher current, and inductance gradient.
Keywords :
electrolytic capacitors; electromagnetic launchers; projectiles; pulsed power supplies; 100 m/s; 13.2 percent; 15 kJ; 40 mm; 500 g; 550 V; 750 mm; 8 ms; conventional railgun; electrolytic capacitor banks; inductance gradient; launcher current; launcher voltage; medium-bore helical coil electromagnetic launcher; projectile velocity; sequentially fired pulse forming network; Boring; Capacitors; Coils; Electromagnetic launching; Electromagnetic measurements; Inductance measurement; Life estimation; Predictive models; Railguns; Testing; Coilguns; electromagnetic launching; pulse power systems;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2004.835487
