Microcontroller Based Automatic Phase Changer by using Zigbee

International Journal of Electrical and Electronics Engineering
© 2018 by SSRG - IJEEE Journal
Volume 5 Issue 7
Year of Publication : 2018
Authors : Anbuchezhian.P, Dr.R.Sankarganesh and Dr.P.Selvam
pdf
How to Cite?

Anbuchezhian.P, Dr.R.Sankarganesh and Dr.P.Selvam, "Microcontroller Based Automatic Phase Changer by using Zigbee," SSRG International Journal of Electrical and Electronics Engineering, vol. 5,  no. 7, pp. 1-4, 2018. Crossref, https://doi.org/10.14445/23488379/IJEEE-V5I7P101

Abstract:

Every system is automated in order to look latest challenges in the modern day situation. Automated systems have the reliabilities, flexibilities are high and precise because less manual operation so that each field desires automated control system. Particularly in the field of electrical and electronics automated systems are responsibility of superior performance. Now a day in electrical field, they change one phase (three phases) to other phase (single phase) manually. If there is low down voltage in any two phases and want to change over the phase from three phases into single phase automatically. So we proposed a system, which solve this problem and used to monitor and change over the phase by using wireless technology. This paper Embedded based automatic phase change and monitoring by using ZIGBEE maintain security, provide high reliability and are susceptible to a lot of error. The system has transmitter and receiver section which are controlled by microcontroller. The communications between those sections are made by ZIGBEE transmitter and receiver section. The present monitored phase is displayed in PC. If there is low voltage in any two phases and want to change over the phase from three phases into single phase automatically.

Keywords:

automated, PIC16F877A, WSN, ZIGBEE, LCD

References:

[1] Fang Duan and Rastko Zivanovic. Condition Monitoring of an Induction Motor Stator Windings via Global Optimization based on the Hyperbolic Cross Points. IEEE Transactions on Industrial Electronics, Vol 62, No.3, March 2015 
[2] R.R Patil, T.N Date and B.E Khushare. Zigbee Based Parameter Monitoring System for Induction Motor, IEEE Students Conference on Electrical, Electronics & Computer Science. Bhopal, March 2014. 
[3] Arun Nadh and Lakshmi Praba.N.Automatic Speed and Torque Monitoring in Induction ting, Motors using Zigbee and SMS.International Conference on Emerging Trends in Computing, Communication & Nanotechnology, Tirunelveli, March 2013. 
[4] Abel C. Lima-Filho, Ruan D. Gomes, Marceu O. Adissi, Tassio Alessandro Borges da Silva, Francisco A.Belo and Marco A. Spohn, “Embedded system Integrated into a wireless sensor network for online dynamic torque and efficiency monitoring in induction motors,” IEEE/ASME Transactions on Mechatronics, vol. 17, No. 3, June 2012. 
[5] The ZigBee protocol Alliance, Zigbee Specification, http://www.zigbee.org, June 2005. Madhavi L. Mhaisgawali, “Induction Motor Speed Control using PID Controller,” International Jouranl of Technology and Engineering Science., vol. 1(2), pp 151-155., Jan 2012. 
[6] Nuno D. Simoes, Joao L. Goncalves, Maria L. Caeiro, Miguel J. Boavida, Fillipe D. Cardosco,a“ZigBee/GPS Tracking System for Rowing Races,”aInternational Conference on Advances in Mobile Computing and Multimedia, Paris, France, Nov.2010. 
[7] Ramazan Bayindir, Ibrahim Sefa, Ilhami Colak, Aslin Bektas, “Fault Detection and Protection of Induction Motors Using Sensors,” IEEE Transactions on Energy Conversion, vol. 23, No. 3, September 2008.