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The novel feed forward and decision feedback equalizer structures and improved variable step algorithm

Hao Xue-Yuan Yan Xiao-Hong Qian Li-Xia

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The novel feed forward and decision feedback equalizer structures and improved variable step algorithm

Hao Xue-Yuan, Yan Xiao-Hong, Qian Li-Xia
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  • Skin effect and dielectric loss in super-long cable will cause nonlinear attenuation at different signal frequency, and in addition, coupling noise and thermal noise also cause signal distortion at the receiver end. These factors seriously affect the signal transmission speed in the super-long cable. Especially, in the field of exploration of shale gas and bed methane, the transmission cable is also used to transport high-precision synchronization pulse signal, and the synchronization pulse must reach the microsecond accuracy, which is used for data phase calibration. A synchronization signal is a high frequency signal, which suffers more severe attenuation and noise interference. At the receiving end, the sync pulse signal will be drowned in the noise environment, and so it is difficult to restore the original signal.#br#Although fiber can achieve a high transfer rate, but the fiber cable cannot transmit power energy; in addition, the tensile strength and heat resistance of the fiber are much worse than copper cable, these weaknesses limit its application in such industry. Therefore, an effective balancing algorithm is necessary to overcome the propagation effects and interference in a super-long copper cable. However, conventional equalization techniques have well-balanced effect for the short-range communications, but for the long-distance communication, they often have poorly balanced results. In order to solve the above problem and improve the long cable signal transmission speed, this paper presents a new balanced portfolio structure; the new structure uses feed-forward equalizer (FFE) as the pre-stage, and decision-feedback equalizer (DFE) as the post stage to form a new structure. The combination structures can effectively utilize the flexibility of FFE and overcome the problem of error diffusion in DFE. By mathematical modeling and simulation, this paper gives the best combination factors. Furthermore, based on the improved structure, a new convergence algorithm is proposed, which uses the arc tangent function combined with three error converge factors to form a converging function, and it has the advantages of fast convergence and steady-state error. Simulation results show that the FFE-DFE combination equalizer has low computational complexity, fast convergence, and strong channel tracking capability; in addition, it can speed up the data processing speed, and better respond to the real variation of the channel. Simulation results show also that the performance is improved by 50% by eliminating inter-symbol interference and noise.#br#The real circuit board based on the new algorithm have been tested in the East China Petroleum Bureau, the test results show that the algorithm can rectify 160 dB signal distortion, and the transmission speed can reach 5 Mbps in 6 dB signal to noise ratio.
      Corresponding author: Hao Xue-Yuan, haoxy@njupt.edu.cn
    • Funds: Project supported by the National Science and Technology major projects, (Grant No. 2011ZX05035-003-003), and the College Graduate Research and Innovation Projects in Jiangsu Province, China (Grant No. CXZZ13_0472).
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    Sun H J, Yan X H, Hao X Y 2015 Acta Phys. Sin. 64 018402 (in Chinese) [孙华娟, 颜晓红, 郝学元 2015 物理学报 64 018402]

    [2]

    Zhang J X, Lu T, Li Q, Zhang Y, Li Q, Chen W, Gu Q S, Wu R Q 2009 Well Logging Technology 33 84 (in Chinese) [张菊茜, 卢涛, 李群, 张艺, 李谦, 陈伟, 顾庆水, 伍瑞卿 2009 测井技术 3384]

    [3]

    Yin J W, Hui J Y, Guo L X 2008 Acta Phys. Sin. 57 1753 (in Chinese) [殷敬伟, 惠俊英, 郭龙祥 2008 物理学报 57 1753]

    [4]

    M Syed Ali, R Saravanakumar 2014 Chin. Phys. B 23 120201

    [5]

    Huang J W, Feng J C 2014 Chin. Phys. B 23 070504

    [6]

    Zhang Z M, Wang B Z, Liang M S, Ji Q, Song G B 2014 Chin. Phys. B 23 048403

    [7]

    Zhao H Q, Zhang J S 2008 Acta Phys. Sin. 57 3996 (in Chinese) [赵海全, 张家树 2008 物理学报 57 3996]

    [8]

    Kudoh Y, Fukaishi M, Mizuno M 2003 IEEE J. Solid-State Circuits 38 741

    [9]

    Ali W AE, Mohamed D A E, Hassan A, H, G 2013 Antennas and Propagation Conference on Loughborough, 2013 p624

    [10]

    Shuqi Wang, Yin Shi 2009 Industrial and Information Systems, International Conference on Haikou 2009 p293

    [11]

    R Arablouei, K Dogancay 2011 Electronics Letters 47 1101

    [12]

    Li H Y, Wan J W, Zhou L Z 1999 Journal of National University of Defense Technology 21 94 (in Chinese) [李盈颖, 万建伟, 周良柱 1999 国防科技大学学报 21 94]

    [13]

    Gu H Y, Chen L P 2006 Journal of Data Acquisition & Processing 21 15 (in Chinese) [顾海燕, 陈黎平 2006 数据采集与处理 21 15]

    [14]

    Luo X D, Jia Z H, Wang Q 2006 Chinese Journal of Electronics 34 1123 (in Chinese) [罗小东, 贾振红 2006 电子学报 34 1123]

    [15]

    W Y Chen, R A Haddad, 2008 Circuits and Systems 1 423

    [16]

    Xueli Wu, Liang Gao, Zizhong Tan 2013 Measurement, Information and Control 1 533

  • [1]

    Sun H J, Yan X H, Hao X Y 2015 Acta Phys. Sin. 64 018402 (in Chinese) [孙华娟, 颜晓红, 郝学元 2015 物理学报 64 018402]

    [2]

    Zhang J X, Lu T, Li Q, Zhang Y, Li Q, Chen W, Gu Q S, Wu R Q 2009 Well Logging Technology 33 84 (in Chinese) [张菊茜, 卢涛, 李群, 张艺, 李谦, 陈伟, 顾庆水, 伍瑞卿 2009 测井技术 3384]

    [3]

    Yin J W, Hui J Y, Guo L X 2008 Acta Phys. Sin. 57 1753 (in Chinese) [殷敬伟, 惠俊英, 郭龙祥 2008 物理学报 57 1753]

    [4]

    M Syed Ali, R Saravanakumar 2014 Chin. Phys. B 23 120201

    [5]

    Huang J W, Feng J C 2014 Chin. Phys. B 23 070504

    [6]

    Zhang Z M, Wang B Z, Liang M S, Ji Q, Song G B 2014 Chin. Phys. B 23 048403

    [7]

    Zhao H Q, Zhang J S 2008 Acta Phys. Sin. 57 3996 (in Chinese) [赵海全, 张家树 2008 物理学报 57 3996]

    [8]

    Kudoh Y, Fukaishi M, Mizuno M 2003 IEEE J. Solid-State Circuits 38 741

    [9]

    Ali W AE, Mohamed D A E, Hassan A, H, G 2013 Antennas and Propagation Conference on Loughborough, 2013 p624

    [10]

    Shuqi Wang, Yin Shi 2009 Industrial and Information Systems, International Conference on Haikou 2009 p293

    [11]

    R Arablouei, K Dogancay 2011 Electronics Letters 47 1101

    [12]

    Li H Y, Wan J W, Zhou L Z 1999 Journal of National University of Defense Technology 21 94 (in Chinese) [李盈颖, 万建伟, 周良柱 1999 国防科技大学学报 21 94]

    [13]

    Gu H Y, Chen L P 2006 Journal of Data Acquisition & Processing 21 15 (in Chinese) [顾海燕, 陈黎平 2006 数据采集与处理 21 15]

    [14]

    Luo X D, Jia Z H, Wang Q 2006 Chinese Journal of Electronics 34 1123 (in Chinese) [罗小东, 贾振红 2006 电子学报 34 1123]

    [15]

    W Y Chen, R A Haddad, 2008 Circuits and Systems 1 423

    [16]

    Xueli Wu, Liang Gao, Zizhong Tan 2013 Measurement, Information and Control 1 533

Metrics
  • Abstract views:  4934
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  • Cited By: 0
Publishing process
  • Received Date:  12 March 2015
  • Accepted Date:  17 August 2015
  • Published Online:  05 December 2015

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