3-D simulation of 14 vanes 5.8 GHz magnetrons in non-uniform magnetic field
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摘要: 频谱噪声的抑制问题一直是磁控管的研究重点。对14叶片5.8 GHz磁控管进行了三维建模,包括阴极、叶片、隔膜带、极靴和输出天线等。使用冷腔模拟得到了模腔体频率5.86 GHz。热腔模拟计算得到7个电子轮辐,说明管子在模正常工作。在某种极靴结构下,计算得到腔体中存在一个近似二次曲线的非均匀磁场分布。在阳极电压4.5 kV、非均匀磁场中心值0.289 T时,模拟得到输出频率5.891 GHz,阳极电流1.55 A,输出功率4.9 kW,电子效率70.3%的结果。输出频谱比较干净,抑制了非模式的工作,提高了工作效率。
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关键词:
- 14叶片5.8 GHz磁控管 /
- 电子轮辐 /
- 非均匀磁场分布 /
- 输出频谱
Abstract: The suppression of the frequency spectrum noise is the key in the magnetron research. The performance of 14-vanes 5.8 GHz strapped magnetron is modeled, including cathode, vane, straps, pole pieces and output antenna. The cavity frequency is 5.86 GHz in the cold cavity simulation. Seven electron spokes confirm the mode works in the oscillation cavity region by the hot simulation. A non-uniform magnetic field distribution is calculated as a conic section curve by the pole structure in the model. When beam voltage is 4.5 kV, the anode current is 1.55 A and the axial value of the non-uniform magnetic field is 0.289 T, the output frequency 5.891 GHz and output power 4.9 kW in the hot test simulation are obtained. The efficiency of the electron interaction is 70.3%. The remarkable improvement in the frequency spectrum and the electron efficiency are achieved by suppressing the RF harmonic content.
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