一种Ku频段新型宽带幅相可调谐模拟预失真器

吕俊杰; 夏雷

doi:doi:10.11805/tkyda201806.1058

太赫兹科学与电子信息学报, 2018, 16 (6): 1058, 网络出版: 2019-06-10

一种Ku频段新型宽带幅相可调谐模拟预失真器

A novel balanced wideband amplitude and phase-adjustable analog predistorter for Ku band

论文大纲

吕俊杰 ^*夏雷

作者单位

电子科技大学极高频复杂系统国防重点学科实验室，四川成都 611731

模拟预失真宽带幅相可调平衡式 analog pre-distortion wideband adjustable amplitude and phase balanced

摘要

采用模拟预失真技术设计一款Ku波段预失真器，使用2个MA4E2037肖特基势垒二极管和三段无源传输线产生预失真信号，通过调节偏置电压实现幅度和相位可调；同时结合平衡式结构，改善单支路非线性器件增益扩张曲线斜率不足问题，改善输入驻波比。仿真结果表明，在14?GHz处，增益补偿和相位补偿可分别达到17?dB和60°以上；在频率12~16?GHz，增益扩张和相位扩张可达到15?dB和50°以上，整个频带内预失真器S11小于-17?dB。该预失真器适用频带宽，结构简单，功能实用。

Abstract

A Ku band predistorter based on the analog predistortion technology is presented. Two Schottky diodes and three transmission lines are employed to generate pre-distortion signal. The adjustable amplitude and phase are realized by changing the bias voltage. At the same time, the slope of amplitude characteristic together with input Voltage Standing Wave Ratio(VSWR) is improved with the help of the balanced structure. It can be concluded from the simulation results that the predistorter can provide 17?dB gain expansion and 60° phase expansion at 14?GHz. In 12-16?GHz, it provides more than 15?dB gain expansion and 50° phase expansion, and the S11 is below -17?dB. The predistorter bears the advantages of wide band, simple structure and it is practical in use.

参考文献

[1] YI Jaehyok,YANG Youngoo,PARK Myungkyu,et al. Analog predistortion linearizer for high-power RF amplifiers[J]. IEEE Transactions on Microwave Theory and Techniques 2001,48(12):2709-2713.

[2] 刘洁,胡波雄,王刚,等. 一种适用于Ku波段行波管放大器的预失真线性化器[J]. 电子与信息学报, 2014,36(10):2515- 2520. (LIU Jie,HU Boxiong,WANG Gang,et al. A predistortion linearization device for Ku band traveling wave tube amplifiers[J]. Journal of Electronics and Information, 2014,36(10):2515-2520.)

[3] ZHU R,ZHANG X,HRAIMEL B,et al. Broadband pre-distortion circuit using zero bias diodes for radio over fiber systems[J]. IEEE Photonics Technology Letters, 2013,25(21):2101-2104.

[4] CHUNG Y,DECKMAN B C,DELISIO M P. Linearization of a spatially-combined X-band 100 W GaAs FET power amplifier system with predistortion linearizer[C]// 2012 IEEE Compound Semiconductor Integrated Circuit Symposium(CSICS). La Jolla,CA,United States:IEEE, 2012:1-4.

[5] 李大伟. 毫米波预失真线性化技术研究[D]. 成都:电子科技大学, 2015. (LI Dawei. Research on millimeter wave predistortion linearization technology[D]. Chengdu,China:University of Electronic Science and Technology of China, 2015.)

[6] 邓海林,张德伟,白维达,等. 一种行波管用毫米波射频预失真线性化器[J]. 电子学报, 2017,45(7):1784-1791. (DENG Hailin,ZHANG Dewei,BAI Weida,et al. A millimeter wave radio frequency predistortion linearization apparatus for traveling wave tubes[J]. Acta Electronica Sinica, 2017,45(7):1784-1791.)

[7] 杨卅男,徐锐敏,王志刚. 一种带有温度补偿特性的模拟预失真线性化器[J]. 微波学报, 2016,32(S2):337-339. (YANG Sanan,XU Ruimin,WANG Zhigang. An analog predistortion linearization device with temperature compensation characteristics[J]. Journal of Microwave Society, 2016,32(S2):337-339.)

[8] BERA S C,SINGH R V,GARG V K,et al. Optimum bias load-line compensates temperature variation of junction diode's RF resistance[J]. IEEE Transactions on Microwave Theory & Techniques, 2007,55(2):215-221.

吕俊杰, 夏雷. 一种Ku频段新型宽带幅相可调谐模拟预失真器[J]. 太赫兹科学与电子信息学报, 2018, 16(6): 1058. LYU Junjie, XIA Lei. A novel balanced wideband amplitude and phase-adjustable analog predistorter for Ku band[J]. Journal of terahertz science and electronic information technology, 2018, 16(6): 1058.

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