|
|
- 2018
过模同轴-2路矩形波导功分器的设计与实验
|
Abstract:
为了在高功率微波系统中实现过模同轴波导到2路矩形波导的高效率模式转换,研究了一种过模同轴-2路矩形波导功分器.该功分器将径向线作为同轴波导到矩形波导的模式转换过渡结构,先将过模同轴波导TEM模分为4路矩形波导TE10模,再将4路矩形波导合成为2路,有效抑制了过模波导中高阶模式的产生,实现了较高功率容量和传输效率.设计和实验结果表明:该功分器在中心频率2.88 GHz下驻波系数为1.04,传输损耗为0.15 dB,输出不平衡度为0.15 dB,设计功率容量为4.52 GW,满足高功率应用需求.
:To achieve the high-efficiency mode conversion of an overmoded coaxial waveguide to a two-way rectangular waveguide in high power microwave systems, an overmoded coaxial waveguide for two-way rectangular waveguide power divider is researched. The divider uses the radial line as a mode transition structure from a coaxial waveguide to a rectangular waveguide. First, the coaxial waveguide TEM mode is divided into four rectangular waveguide TE10 modes; then the four rectangular waveguides are combined into two paths, which effectively inhibit the generation of high-order modes in the overmoded waveguide and achieve a high power-handling capacity and transmission efficiency. The design and experiment results show that at a central frequency of 2.88 GHz, the VSWR of the power divider is approximately 1.04, the corresponding transmission loss of the TEM mode to the TE10 mode is 0.15 dB, the output imbalance is approximately 0.15 dB, and the power capacity of the design is 4.52 GW, which can satisfy the needs of high-power applications
| [1] | 罗雄,廖成,孟凡宝. 同轴虚阴极振荡器微波输出模式[J]. 西南交通大学学报,2007,42(2):186-189. LUO Xiong, LIAO Cheng, MENG Fanbao. Microwave output patterns of coaxial vircators[J]. Journal of southwest Jiaotong University, 2007, 42(2):186-189. |
| [2] | 张健穹,刘庆想,李相强,等. 高功率16路功率分配器的设计[J]. 西南交通大学学报,2012,47(1):121-126. ZHANG Jianqiiong, LIU Qingxiang, LI Xiangqiang, et al. Design of 16-way high power divider[J]. Journal of Southwest Jiaotong University, 2012, 47(1):121-126. |
| [3] | 门满洲,李相强,张健穹,等. 高功率1分32路功率分配网络的设计[J]. 电子元件与材料,2013,32(1):45-49. MEN Manzhou, LI Xiangqiang, ZHANG Jianqiong, et al. Design of 32-way high power distribution network[J]. Electronic Components and materials, 2013, 32(1):45-49. |
| [4] | WU L, SUN Z, YILMAZ H, et al. A dual-frequency wilkinson power divider[J]. IEEE Transactions on Microwave Theory & Techniques, 2006, 54(1):278-284. |
| [5] | ZAKERIFAR H, KHALEGHI A, ALIAKBARIAN H. A compact multiple-way double ring-cavity power divider[J]. Microwave & Optical Technology Letters, 2017, 59(8):2006-2012. |
| [6] | DUPUY A, GUMMALLA A, ACHOUR M. Power combiners and dividers based on composite right and left handed metamaterial structures:US, US 7839236 B2[P]. 2010. |
| [7] | ROBERT J B, EDL S. High-power microwave sources and technologies[M]. New York:The Institute of Electrical and Electronics Engineer, 2001:25-28. |
| [8] | PARAD L I, MOYNIHAN R L. Split-tee power divider[J]. IEEE Transactions on Microwave Theory & Techniques, 1965, 13(1):91-95. |
| [9] | BIALKOWSKI M E, WARIS V P. Analysis of an n-way radial cavity divider with a coaxial central port and waveguide output ports[J]. IEEE Trans. Microwave Theory Tech., 1996, 44(11):2000-2016. |
| [10] | 徐刚,陈世韬,廖勇. L波段紧凑型高功率微波功率分配器优化设计[J]. 微波学报,2014,30(增刊1):341-343. XU Gang, CHEN Shitao, LIAO Yong. Optimized design of an L-band high compact power microwave power divider algorithm[J]. Journal of Microwaves, 2014, 30(Sup.1):341-343. |
| [11] | 余川,刘庆想,崔学芳. 同轴TEM-矩形TE10模式变换器的优化设计[J]. 强激光与粒子束,2000,12(1):79-82. YU Chuan, Liu Qingxiang, Cui Xuefang. Optimum design of an overmoded TEM coaxial to TE10 rectangular waveguide mode converter[J]. High Power Laser and Particle Beams, 2000, 12(1):79-82. |
| [12] | 吴峰涛,张光甫,梁步阁,等. 同轴高功率超宽带功率分配器研究[J]. 强激光与粒子束,2006,18(7):1126-1128. WU Fengtao, ZHANG Guangfu, LIANG Buge, et al. Research on high power divider with ultra-wide-band[J]. High Power Laser and Particle Beams, 2006, 18(7):1126-1128. |
| [13] | KAUL R. Microwave engineering[M].[S.l.]:Publishing House of Elec, 2011:324-332. |
