国防科技大学学报

引用本文:	王永明,邓凯,王世练,等.基于数字信道化的极微弱信号载波频率引导模块设计与实现.[J].国防科技大学学报,2009,31(3):43-47.[点击复制]
	WANG Yongming,DENG Kai,WANG Shilian,et al.Design and Implementation of Digital Channelization-based Carrier Guide Module for Very Weak Signal[J].Journal of National University of Defense Technology,2009,31(3):43-47[点击复制]

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基于数字信道化的极微弱信号载波频率引导模块设计与实现

王永明^1,2, 邓凯³, 王世练¹, 张尔扬¹

(1.国防科技大学电子科学与工程学院，湖南长沙 410073;2.94973部队，浙江杭州 310021;3.空军驻京津地区军事代表室，天津 300192)

摘要:

针对深空探测中常规点数的FFT无法对极微弱信号进行精确的频率引导，而超长点数的FFT无法用现有器件实现，提出一种基于数字信道化的并行FFT频率引导方法。接收信号先经过数字信道化处理，均匀划分为若干窄带信号，然后分别对各子带信号进行FFT运算，最后通过对各子带有效谱线的联合检测完成载波频率的精确估计。在等效2¹⁹点FFT的频率引导模块FPGA实现中，通过FFT模块的复用节约了硬件资源开销。测试结果表明：在8MHz采样率下该模块的测频精度小于10Hz。

关键词: 深空探测极微弱信号高精度测频数字信道化

DOI：

投稿日期：2008-11-21

基金项目:国家部委预研基金资助项目(113030401)

Design and Implementation of Digital Channelization-based Carrier Guide Module for Very Weak Signal

WANG Yongming^1,2, DENG Kai³, WANG Shilian¹, ZHANG Eryang¹

(1.College of Electronic Science and Engineering, National Univ. of Defense Technology, Changsha 410073, China;2. 2.Unit 94973, Hangzhou 310021, China;3.Air force Military Representative Office in Beijing-Tianjin Region, Tianjin 300192, China)

Abstract:

In deep space exploration, normal points FFT cannot exactly fulfill the frequency guide for very weak signals while very large size FFT cannot be computed by COTS. A parallel FFT method based on digital channelization is proposed to fulfill the frequency guide. The input signal is first divided into several narrow bands and FFT is computed in every sub-band. Then frequency estimation is performed by jointly detecting the valid sub-band spectrum lines. In FPGA implementation of the module equivalent to 29 points FFT，the FFT module is reused for resource saving. The test results show that the resolution is less than 10Hz when the sampling rate is 8MHz.

Keywords: deep-space exploration very weak signal high resolution frequency estimation digital channelization