Title :
Pulsed magnet system considerations for repetitive operation of high-power magnetrons
Author :
Bhasavanich, Daun ; Hammon, H. George, III
Author_Institution :
Phys. Int. Co., San Leandro, CA, USA
fDate :
4/1/1991 12:00:00 AM
Abstract :
A tradeoff evaluations has been performed to specify a compact, low-loss pulsed electromagnet system for a repetition rate application of high-power magnetrons. The required magnetic field is 5 to 15 kG with 1% uniformity over the magnetron volume, and the pulse repetition rate is on the order of 5 pps. To drive the magnets, a recirculating driver scheme which transfers energy back and forth between two capacitor banks has been identified as a variable low-power-loss approach. The circuit comprises a 10-kW switching power supply, a high-voltage switch network, 400-kJ capacitor banks, and magnet coils. Several recirculating drive systems operating in the voltage range of 10 to 50 kV and output currents with a pulse duration of ≈10 ms are compared relative to their power losses, system size and weight, and their limitations at high pulse repetition rates
Keywords :
electromagnets; losses; magnetrons; 10 to 50 kV; 5 to 15 kG; capacitor banks; high-power magnetrons; high-voltage switch network; low-power-loss approach; magnet coils; magnetic field; power losses; pulse repetition rates; pulsed electromagnet system; recirculating driver scheme; repetitive operation; switching power supply; Capacitors; Driver circuits; Electromagnets; Magnetic fields; Magnetic switching; Magnetrons; Performance evaluation; Pulsed power supplies; Switches; Switching circuits;
Journal_Title :
Electron Devices, IEEE Transactions on
