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本振信号相位噪声对星载扩频应答机影响研究 被引量:4

Research on impact of phase noise of local oscillator signal on spaceborne spread spectrum transponder
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摘要 扩频微波统一测控系统已广泛应用于我国航天测控领域,其中扩频应答机是卫星测控系统的重要组成设备。由于扩频应答机中的本振电路需要为其中的数字基带、接收通道、发射通道提供高稳本振信号,因此扩频应答机中本振信号的好坏,尤其是其相位噪声特性的好坏,将直接影响扩频应答机的功能和性能。通过对本振信号相位噪声特性的变化对扩频应答机性能的影响进行理论和仿真分析,以及通过模拟本振信号相位噪声干扰试验验证,表明相位噪声特性变化会对扩频应答机的遥控遥测造成影响,相位噪声越大,遥控遥测通道的误码率会越高,严重时会导致上下行遥控遥测通道失锁。 The spread spectrum microwave unified TT&C system is widely used in our country space TT&C field,the spread spectrum transponder is an important component of the satellite TT&C system.Since the local oscillator circuit in the spread spectrum transponder needs to provide a high-stability local oscillator signal for the digital baseband,the receiving channel,and the transmitting channel,the local oscillator signal is good or bad,especially its phase noise,will directly affect the function and performance of the spread spectrum transponder.In this paper,the theoretical and simulation analysis of the influence of the phase noise characteristics of the local oscillator signal on the performance of the spread spectrum transponder is carried out,and the phase noise interference test of the local oscillator signal is verified.It shows that the phase noise characteristic change will influence the TT&C system,the greater the phase noise,the higher the bit error rate of the TT&C channel,which will cause the uplink and downlink TT&C channels to lose lock.
作者 何钐 王淦 窦骄 宁金枝 HE Shan;WANG Gan;DOU Jiao;NING Jinzhi(DFH Satellite Co.,Ltd,Beijing 100094,China)
机构地区 航天东方红卫星有限公司
出处 《遥测遥控》 2019年第5期28-33,共6页 Journal of Telemetry,Tracking and Command
基金 国家自然科学基金资助项目(11773004)
关键词 本振信号 相位噪声 扩频应答机 卫星 测控系统 误码率 Local oscillator signal Phase noise Spread spectrum transponder Satellite TT&C system Bit error rate
分类号 TN911.4 [电子电信—通信与信息系统]
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  • 1仇梦跃,吴涛,马宏,侯孝民.伪码测距中码跟踪环的设计与实现[J].装备指挥技术学院学报,2006,17(4):83-86. 被引量:6
  • 2Roychowdhury J, Demir A, Mehrotra A. Phase noise in oscillators: a unifying theory and numerical methods for characterization[J]. IEEE Transactions on Circuits and Systems, 2000,47(5):655-674.
  • 3Vauhkonen M, Vadasz D, Kaipio J P. Tikhonov regularization and prior information in electrical impedance tomography[J]. IEEE Trans Med Imaging, 1998,17 (2):285-293.
  • 4Lindsey W C, Simon M K. Telecommuinication systems engineering[M]. Prentice-Hall, Englewood Cliff, 1973.
  • 5Viterbi A J, Omura J K. Principles of digital communication and coding[M]. New York: McGraw- Hill, 1979:100;243.
  • 6Some Y K, Kam P Y. Bit-error probability of QPSK with noisy phase reference[J].IEEE Proc Commun, 1995,142 (5) : 292-296.
  • 7Munier F, Alpman E,Eriksson T,et al. Estimation of phase noise for QPSK modulation over AWGN Channels[C]//Proceedings Gigahertz 2003 Symposium. Linkoping, Sweden : [s. n.],2003.
  • 8Hu Fan,Zhu Lidong. Performance analysis of MPSK demodulation with different phase noise spectral shape[C]// 2009 International Conference on Communications, Circuits and Systems. 2009 : 77-80.
  • 9Li Xiaojing, Zhang Shaoliang, Yu Changyuan et al. Pilot decision-aided maximum likelihood phase estimation in coherent optical QPSK and 8PSK systems with nonlinear phase noise[C]//2009 Conference on Quantum Electronics and Laser Science Conference. CLEO/QELS 2009, 2009:1-2.
  • 10Garrison J L, Liang L. Numerical simulation of GNSS code tracking loops using Euler-Maruyama method [ J]. Electronics Letters, 2005, 41 (15) : 727-732.

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遥测遥控
2019年 第5期

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