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Solid-State Pulsed Power Modulator for 9.3 GHz 1.7 MW X-Band Magnetron

Su-Mi Park, Seung-Ho Song, Hyun-Bin Jo, Woo-Cheol Jeong, Sung-Roc Jang, Hong-Je Ryoo

2020IEEE Transactions on Industrial Electronics24 citationsDOI

Abstract

This article describes a modification and an experiment conducted on a solid-state pulsed power modulator (SSPPM) for medical linear particle accelerator (LINAC) applications. Depending on the operating condition of the magnetron, an existing design of an insulated-gate bipolar transistor (IGBT)-based modulator is modified, from a positive pulse generator to a negative pulse generator. The design of the gate driver circuit of the pulse discharging IGBTs is also slightly changed to secure reliability against the arc condition. The developed modulator has the following maximum output-pulse voltage of -40 kV, pulse current of -100 A, pulsewidth of 5 μs, and pulse repetition rate of 250 Hz. By adapting the proposed design to the pulsed power modulator for driving the magnetron, high peak and average power densities of 43 kW/L and 48.9 W/L, respectively, can be achieved. The experimental results from various tests conducted using a resistor load, including a rated operation and an arc protection, verify the robustness and utility of the developed SSPPM for medical LINAC applications. An experiment using a 9.3-GHz 1.7-MW X-band magnetron is also conducted. The developed modulator achieved a successful arc protection operation for the arc generated in the waveguide during the magnetron drive test.

Topics & Concepts

Insulated-gate bipolar transistorMaterials sciencePulse generatorElectrical engineeringCavity magnetronPulsed powerPulse-width modulationGate driverPulse durationVoltageOptoelectronicsEngineeringOpticsPhysicsThin filmLaserSputteringNanotechnologyPulsed Power Technology ApplicationsElectrostatic Discharge in ElectronicsGyrotron and Vacuum Electronics Research
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