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OFDM电力线通信系统的自动增益控制方法 被引量:3

Automatic Gain Control for OFDM Power Line Communication Systems
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摘要 电力线信道具有噪声强、衰减大的特点,信号通过信道后变化剧烈。OFDM电力线通信系统需要有效的增益控制策略。设计了一种两级调整结构的自动增益控制(AGC,auto gain control)方法,通过采用两级环路滤波能够有效应对信号突变,保证AGC的收敛速度和稳定性。同时加入能量检测单元,有效降低系统待机功耗。仿真结果表明,两级调整结构的AGC具有更好的收敛特性,能够满足电力线通信的要求。 Due to the big impulse noise and strong attenuation of power line channel, the signals of OFDM power line communication systems are wide dynamic range and subject to large distortions, so an effective auto gain control method (AGC) is indispensable. A two-stage automatic gain control method is discussed. Two-stage AGC with two different loop filters has an upstanding performance for OFDM power line communication (PLC) systems, and has less time to achieve stable gain output. Moreover, in order to reduce the power dissipation of receivers, a power detection is set before AGC. Simulation results indicate the two-stage AGC has better performance and can satisfy the requirements of PLC systems.
出处 《科学技术与工程》 北大核心 2012年第19期4659-4662,共4页 Science Technology and Engineering
基金 国家自然科学基金项目(61102072) 国家科技重大专项项目(2009ZX01034)资助
关键词 OFDM 电力线通信 自动增益控制 能量检测 OFDM power line communication auto gain control power detection
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参考文献5

  • 1Martin S, Michael B, Wenqing L, et al. Transmission channel prop- erties of the low voltage grid for narrowband power line communica- tion. IEEE International Symposium on Power Line Communications and Its Applications, 2011:289--294.
  • 2Henfik S, Christian L. Theory and applications of OFDM and CD- MA. West Sussex, U.K. : John Wiley & Sons Ltd, 2005.
  • 3Gerd B, Lutz L Fast burst synchronization for PLC systems, IEEE International Symposium on Power Line Communications and Its Ap- plications, 2007:65--70.
  • 4Jimenez V P G, Garcia M J F G, implementation of synchronization Receivers, IEEE Transactions on 1016--1025 Serrano F J G, et al. Design and and AGC for OFDM based WLAN Consumer Electronics, 2004 , 50 :.
  • 5Goncalo T, Moises S P. High performance algorithms for digital signal processing AGC. IEEE Transactions on Circuit and Systems, 1990, 2 : 1529--1532.

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