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Simulation and Experiments of an $S$ -Band 20-kW Power-Adjustable Phase-Locked Magnetron

2017; Institute of Electrical and Electronics Engineers; Volume: 45; Issue: 5 Linguagem: Inglês

10.1109/tps.2017.2689502

1939-9375

Heping Huang, Yu Wei, Xiaojie Chen, Kama Huang, Changjun Liu,

Metamaterials and Metasurfaces Applications

A 3-D particle-in-cell simulation model of a commercial industrial heating magnetron is developed as a guide for improving a fixed-output-power magnetron. After this improvement, the magnetron is transformed into a 20-kW power-adjustable phase-locked magnetron, which can then be injection-locked with tunable power output. For the first-time ever, the output power of the injection-locked magnetron is continuously tuned from 2 to 19 kW. This large-power magnetron is both phase and amplitude controlled, and is useful for the coherent power combining of multiple magnetrons. The magnetron frequency pushing effect, which affects the injection-locked frequency range of the phase-locked magnetron, is observed in both simulations and measurements. In the injection-locking experiments, the locking bandwidth varies from 11.7 to 2.4 MHz when the output power is tuned from 5 to 19.1 kW and the injection power is kept at 120 W. Moreover, the center frequency of the phase-locked magnetron increases with increasing output power.