Open Access Journal

ISSN : 2394 - 6849 (Online)

International Journal of Engineering Research in Electronics and Communication Engineering(IJERECE)

Monthly Journal for Electronics and Communication Engineering

Open Access Journal

International Journal of Engineering Research in Electronics and Communication Engineering(IJERECE)

Monthly Journal for Electronics and Communication Engineering

ISSN : 2394-6849 (Online)

Subterranean CAVO delinquency DISTANZA Locator

Author : Nethravathi B M 1 Gouthami B 2 Pillai Chandralekha M 3 Bhagyashree N M 4 Dhanya G S 5

Date of Publication :7th June 2016

Abstract: This paper proposes delinquency location model for subterranean power CAVO using microcontroller. The aim of this project is to determine the distanza of subterranean CAVO delinquency from base station in kilometers. This project uses the simple concept of ohm’s law. When any delinquency like short circuit occurs, vg drop will vary depending on the length of delinquency in CAVO, since the flow of current also varies. A set of resistors are therefore used to represent the CAVO and a dc voltage that is fed at one end and the delinquency is detected by detecting the change in voltage using a analog to voltage converter and a microcontroller is used to make the necessary calculations so that the delinquency distanza is displayed on the LCD display.

Reference :

  1. [1] Qinghai Shi, Troeltzsch U, Kanoun O. Detection and localization of cable faults by time and frequency domain measurements. Conf. Systems and Signals and Devices, 7th International conference, Amman. 2010; 1-6

    [2] B. Clegg, Underground Cable Fault Location. New York: McGraw- Hill, 1993.

    [3] M.-S. Choi, D.-S. Lee, and X. Yang, “A line to ground fault location algorithm for underground cable system,” KIEE Trans. Power Eng., pp. 267– 273, Jun. 2005.

    [4] E. C. Bascom, “Computerized underground cable fault location expertise, ”in Proc. IEEE Power Eng. Soc.General Meeting, Apr. 10–15,1994, pp. 376– 382.J. Clerk Maxwell, A Treatise on Electricity and Magnetism, 3rded., vol. 2. Oxford: Clarendon, 1892, pp.68–73.

    [5] K.K. Kuan, Prof. K. Warwick, “ Real-time expert system for fault location on high voltage underground distribution cables”,

    [6] J. Densley, “Ageing mechanisms and diagnostics for power cables—an overview,” IEEE Electr. Insul. Mag., vol. 17, no. 1, pp. 14–22, Jan./Feb. 2001.

    [7] T. S. Sidhu and Z. Xu, “Detection of incipient faults in distribution underground cables”, IEEE Trans. Power Del., vol. 25, no. 3, pp. 1363–1371, Jul. 2010.

    [8] Tarlochan S. Sidhu, Zhihan Xu, “Detection of Incipient Faults in Distribution Underground Cables”, IEEE Transactions on Power Delivery, Vol. 25, NO. 3, JULY 2010.

    [9] Md. Fakhrul Islam, Amanullah M T Oo, [10] Salahuddin. A. Azad1 , “Locating Underground Cable Faults: A Review and Guideline for New Development” , 2013 IEEE

    [11] http://ecmweb.com/content/locating- undergroundcable-faul


  2. [1] Qinghai Shi, Troeltzsch U, Kanoun O. Detection and localization of cable faults by time and frequency domain measurements. Conf. Systems and Signals and Devices, 7th International conference, Amman. 2010; 1-6

    [2] B. Clegg, Underground Cable Fault Location. New York: McGraw- Hill, 1993.

    [3] M.-S. Choi, D.-S. Lee, and X. Yang, “A line to ground fault location algorithm for underground cable system,” KIEE Trans. Power Eng., pp. 267– 273, Jun. 2005.

    [4] E. C. Bascom, “Computerized underground cable fault location expertise, ”in Proc. IEEE Power Eng. Soc.General Meeting, Apr. 10–15,1994, pp. 376– 382.J. Clerk Maxwell, A Treatise on Electricity and Magnetism, 3rded., vol. 2. Oxford: Clarendon, 1892, pp.68–73.

    [5] K.K. Kuan, Prof. K. Warwick, “ Real-time expert system for fault location on high voltage underground distribution cables”,

    [6] J. Densley, “Ageing mechanisms and diagnostics for power cables—an overview,” IEEE Electr. Insul. Mag., vol. 17, no. 1, pp. 14–22, Jan./Feb. 2001.

    [7] T. S. Sidhu and Z. Xu, “Detection of incipient faults in distribution underground cables”, IEEE Trans. Power Del., vol. 25, no. 3, pp. 1363–1371, Jul. 2010.

    [8] Tarlochan S. Sidhu, Zhihan Xu, “Detection of Incipient Faults in Distribution Underground Cables”, IEEE Transactions on Power Delivery, Vol. 25, NO. 3, JULY 2010.

    [9] Md. Fakhrul Islam, Amanullah M T Oo,

    [10] Salahuddin. A. Azad1 , “Locating Underground Cable Faults: A Review and Guideline for New Development” , 2013 IEEE

    [11] http://ecmweb.com/content/locating- undergroundcable-fault


  3. [1] CONCEPT AND EXTENT OF DISABILITY IN INDIA from Census 2011 and 2001.

    [2] Q. Munib, et al, “American Sign language (ASL) recognition based on Hough Transform and neural Networks”, Expert Systems with Applications, 2007.

    [3] P.S Rajan and G. Balakrishnan, “Real time Indian Sign language recognition system to aid deaf-dumb people”, IEEE 13th International Conference on Communication Technologies, 2011, pp 737-742.

    [4]J. Kim et.al, “Bi-channel sensor fusion for an automatic sign language recognition”, in the 8th IEEE International Conference on Automatic Face and Gesture Recognition, Amsterdam, 2008, pp 1-6.

    [5]T. Kuroda, et al, “Consumer price data glove for sign language recognition”, in the International conference on disability, Virtual Reality and Associated technologies, Oxford, UK, 2004, pp 253-258.


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