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Power Line Communication


  • Department of Electronics and Communication, Jaypee University, A-10, Sector-62, Noida, U.P., India


Power line correspondence is a progressive thought that phone correspondence is moved on another establishment. Power line correspondence (PLC) is one of the advancements that have shown accommodating for control applications. It is broadly use in home robotization, car and web access applications.Power Company have been worked the robotization framework for transferring and supervisory controls by utilizing open correspondence system. Be that as it may, these frameworks must have the strictest necessities of correspondence. Thus, there are great deals of troubles to apply to the Automation System considering the cost, area environment, and different attributes of electrical cables. Be that as it may, as of late, the current electrical cable can be utilized as correspondence media by utilizing Power Line Communication (PLC). PLC can be embraced as a primary correspondence implies, and other wired/remote can be received as second means. With a specific end goal to this, the high voltage PLC must be utilized as a long separation correspondence system.


Demodulator, Filter, Modulator, Noise, PCL.

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  • Banwell T, Gali S. A novel approach to the modelling of the indoor power line channel – Part I: Circuit analysis and companion model. IEEE Trans on Power Delivery. 2005 Apr; 20(2):655–63.
  • Zimmermann M, Dostert K. A multipath mode l for the power line channel. IEEE Trans on Communications. 2002 Apr; 50(4):553–9.
  • Hensen C, Schulz W. Time dependence of the channel characteristics of low voltage power–lines and its effects on hardware implementation. AEU Int J Electron Commun. 2000 Feb; 54(1):23–32.
  • Philipps H. Modelling of power-line communication channels. Proceedings of 3rd International Symposium Power– Line Communications Applications; Lancaster, U.K. 1999. p. 14–21.
  • Ding X, Meng J. Channel estimation and simulation of an indoor power–line network via a recursive time–domain solution. IEEE Trans on Power Delivery.
  • Negi V, Verma H, Singh I, Vikram A, Malik K, Singh A, Verma G. Network security in embedded system using TLS.
  • International Journal of Security and its Applications. 2016 Feb; 10(2):375-84.
  • Verma G, Verma H, Singh I, Vikram A, Singhal S, Kumar A, Banarwal S, Goel K. Wireless position tracking of a DTMF based mobile robot using GSM and GPS. Indian Journal of Science and Technology. 2015 Aug; 8(17):IPL0161.
  • Verma G, Mishra S, Aggarwal S, Singh S, Shekhar S, Virdi SK. Power consumption analysis of BCD adder using X power analyzer on VIRTEX FPGA. Indian Journal of Science and Technology. 2015 Aug; 8(17):IPL160.
  • Verma G, Yadav A, Sahai S, Srivastava U, Maheswari S, Singh. Hardware implementation of an eco-friendly electronic voting machine. Indian Journal of Science and Technology. 2015 Aug; 8, (17):IPL088.
  • Verma G, Kumar M, Khare V. Low power techniques for digital system design. Indian Journal of Science and Technology. 2015 Aug; 8(17):IPL063.
  • Gupta T, Verma H, Verma G, Sahoo L. A portable and cost effective human computer interface device for disabled. Proceedings of IEEE International Conference on Communication Systems and Network Technologies (CSNT); 4-6 2015 Apr. p. 1268-73.
  • Gupta T, Verma G. Area and power optimization of VPB peripheral memory for ARM7TDMI based microcontrollers. Proceedings of IEEE International Conference on Cognitive Computing and Information Processing (CCIP2015); 3-4 2015 Mar. p. 1-6.
  • Verma G, Verma V, Jhambhulkar S, Verma H. Design of a lead-lag compensator for position loop control of a Gimballed payload. Proceedings of IEEE International Conference on Signal Processing and Integrated Networks (SPIN2015); 19-20 2015 Feb. p. 394-9.


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