Research on Low Voltage Power Line Carrier Communication Test Environment

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International Journal of Advanced Network, Monitoring and Controls

Xi'an Technological University

Subject: Computer Science, Software Engineering

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eISSN: 2470-8038

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VOLUME 2 , ISSUE 4 (December 2017) > List of articles

Research on Low Voltage Power Line Carrier Communication Test Environment

Sun Hongliang / Li songnong / Ye Jun / Hou Xingzhe / Zheng ke / Liu Dong / Zhou Quan

Keywords : Power line channel, Data signal coupling, Communication system

Citation Information : International Journal of Advanced Network, Monitoring and Controls. Volume 2, Issue 4, Pages 190-193, DOI: https://doi.org/10.1109/iccnea.2017.81

License : (CC BY-NC-ND 4.0)

Published Online: 24-April-2018

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ABSTRACT

Low voltage power line carrier communication simulation software and simulation test system is analog carrier communication channel environment in different ways, the two systems complement each other, the former design stage for communications equipment, flexible and comprehensive simulation of the channel complex transmission characteristics; the latter stages of a communication device for debugging, you can be more effective and intuitive reflect any change in the characteristics of the load. This paper describes the combination of the two respective characteristics of its ability to effectively simulate the actual channel transmission characteristics.

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REFERENCES

M. Zimmermann and K. Dostert, ―A multipath model for the powerline channel,‖ IEEE Trans. Commun., vol. 50, no. 4, pp. 553–559, Apr. 2002.

 

D. Anastasiadou and T. Antonakopoulos, ―Multipath characterization of indoor power-line networks,‖ IEEE Trans. Power Del., vol. 20, no. 1, pp. 90–99, Jan. 2005.

 

X. Ding and J. Meng, ―Channel estimation and simulation of an indoor power-line network via a recursive time-domain solution,‖ IEEE Trans. Power Del., vol. 24, no. 1, pp. 144–152, Jan. 2009.

 

X. Ding and J. Meng, ―Characterization and modeling of indoor powerline communication channels,‖ presented at the 2nd Can. Solar Buildings Conf., Calgary, AB, Canada, Jun. 2007.

 

J. Anatory, N. Theethayi, and R. Thottappillil, ―Channel characterization for indoor power-line networks,‖ IEEE Trans. Power Del., vol. 24, no. 4, pp. 1883–1888, Oct. 2009.

 

J. Anatory, N. Theethayi, R. Thottappillil, M. Kissaka, and N. Mvungi, ―The effects of load impedance, line length, and branches in the bplctransmission-line analysis for indoor voltage channel,‖ IEEE Trans. Power Del., vol. 22, no. 4, pp. 2150–2155, Oct. 2007.

 

J. Anatory, N. Theethayi, R. Thottappillil, M. Kissaka, and N. Mvungi, ―The effects of load impedance, line length, and branches in typical low-voltage channels of the bplc systems of developing countries: Transmission-line analyses,‖ IEEE Trans. Power Del., vol. 24, no. 2, pp. 621–629, Apr. 2009.

 

H. Meng, S. Chen, Y. Guan, C. Law, P. So, E. Gunawan, and T. Lie, ―Modeling of transfer characteristics for the broadband power line communication channel,‖ IEEE Trans. Power Del., vol. 19, no. 3, pp. 1057–1064, Jul. 2004.

 

S. Galli and T. Banwell, ―A novel approach to the modeling of the indoor power line channel—Part II: Transfer function and its properties,‖ IEEE Trans. Power Del., vol. 20, no. 3, pp. 1869–1878, Jul. 2005.

 

S. Barmada, A. Musolino, and M. Raugi, ―Innovative model for timevarying power line communication channel response evaluation,‖ IEEE J. Sel. Areas Commun., vol. 24, no. 7, pp. 1317–1326, Jul. 2006.

 

D. Sabolic, A. Bazant, and R. Malaric, ―Signal propagation modeling in power-line communication networks,‖ IEEE Trans. Power Del., vol. 20, no. 4, pp. 2429–2436, Oct. 2005.

 

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