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超宽带雷达系统中皮秒级脉冲源的研制 被引量:8

Design of Picosecond Pulser in Ultra-Wideband Radar System
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摘要 提出一种新型超宽带雷达高斯脉冲信号产生电路的设计方法,该电路利用微波三极管的开关特性和阶跃恢复二极管的阶跃特性,以及电容的充放电过程产生高斯脉冲信号,利用ADS软件对脉冲产生电路进行了仿真与分析。测量结果表明,该电路可以产生脉冲宽度400ps,重复频率1MHz,幅度4.1V的窄脉冲信号,且脉冲振铃很小,与仿真结果基本吻合,从而验证了该方法的合理性。该电路通过调节充放电电容的值实现脉冲幅度可调,当重复频率提高至10 MHz时,可得到3V~8V的幅度可调皮秒级高斯脉冲。该脉冲源能够满足超宽带雷达系统不同的应用要求。 A novel Gaussian pulse generation method for impulse uhra-wideband (UWB) radar system is presented. The uhra-short pulse generator is designed based on the switch characteristic of the microwave transistor, the transition characteristic of the step recovery diode(SRD) , and the charging and discharging process of the capacitor. The software ADS is used to simulate and analyze the pulse generator circuit. The measured results show that the circuitry can generate pulses with amplitude of 4.1V and duration of 400 ps when the pulse repetition frequency is 1 MHz, and the waveform of the output pulse has little distortion, which agrees well with that of simulation results. The amplitude of the pulse can be changed by tuning the value of the capacitor. When the pulse repetition frequency is increased to 10 MHz, the amplitude of the picosecond pulses is varied from 3V to 8V. Therefore, the novel impulse generator meets different application requirements for UWB radar systems.
作者 刘丽华 周斌 方广有
机构地区 中国科学院电子学研究所 中国科学院研究生院
出处 《微波学报》 CSCD 北大核心 2010年第1期46-49,共4页 Journal of Microwaves
基金 国家高技术研究发展计划(2007AA12Z124) 国家自然科学基金项目(60551002)
关键词 超宽带 脉冲信号发生器 窄脉冲 微波三极管 阶跃恢复:二极管 Ultra-wideband,Pulse generator,Ultra-short pulse,Microwave transistor,Step recovery diode
分类号 TN782 [电子电信—电路与系统] TN958 [电子电信—信号与信息处理]
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参考文献8

  • 1梁步阁,陈小娟,朱畅,袁乃昌.超宽带雷达实验系统中大功率纳秒级脉冲源的研制[J].微波学报,2005,21(1):26-30. 被引量:32
  • 2Lee J S, Nguyen C. Novel low-cost uhra-wideband, ultra-short pulse transmitter with MESFET impulse-shaping circuitry for reduced distortion and improved pulse repetition rate[ J]. IEEE Microwave and Wireless Component Letter, 2001,11(5): 208-210.
  • 3Reisenzahn A, Buchegger T, Kaineder G, Diskus C. A low-cost UWB radar system for sensing applications [ C ]. IEEE MTF-S, International Microwave Symposium Digest, Long Beach, CA, 2006. 299-302.
  • 4Han J W, Nguyen C. On the development of a compact sub-nanosecond tunable monocycle pulse transmitter for UWB applications [J].IEEE Trans. Microwave Theory Tech. , 2006, 54( 1 ) :285-293.
  • 5Han J W, Nguyen C. Development of a Tunable Multi-band UWB Radar Sensor and Its Applications to Subsurface Sensing [ J ]. IEEE Sensors Journal, 2007, 7 ( 1 ) : 51-58.
  • 6Fontana R. Recent system applications of short-pulse ultra-wideband(UWB) Technology [ J ]. IEEE Trans. Microwave Theory Tech. , 2004, 52(9) : 2087-2104.
  • 7Zhang J, Abhayapala T D, Kennedy R A. Role of pulses in ultra-wideband systems [ C ]. IEEE International Conference on UWB, Zurich, 2005. 110-115.
  • 8Jeong Y, Jung S, and Liu J. A CMOS impulse generator for UWB wireless communication system[ J ]. IEEE International Symposium on Circuits and Systems, 2004, 4: 129-132.

二级参考文献4

  • 1[苏]阿斯塔宁 考斯泰列夫著 杨逢春 王积勤译.超宽带雷达测量基础[M].长沙:国防科技大学出版社,2000..
  • 2Abdelhak Bennia, Sedki M Riad. An Optimization Technique for Iterative Frequency-Domain Deconvolution [ J ].IEEE Trans on Instrumentation and Measurement, 1990,39 ( 2 ) : 358 - 362.
  • 3Sedki M. Riad. The Deconvolution Problem: An Overview[J]. Proceedings of The IEEE, 1986, 74( 1 ) : 82-85.
  • 4梁步阁,袁乃昌,王建朋.宽带RCS自动测试系统设计[J].计算机测量与控制,2004,12(1):64-65. 被引量:15

共引文献31

同被引文献45

引证文献8

二级引证文献24

微波学报
2010年 第1期

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