Power Management using Wireless Power Transfer and IoT
Kalaipriya R, Hindustan College of Engineering and Technology; Geetha M ,Hindustan College of Engineering and Technology; Aruna M ,Hindustan College of Engineering and Technology; Monisha S ,Hindustan College of Engineering and Technology; Mr. P. F. Khaleelur Rahiman ,Hindustan College of Engineering and Technology
Solar Power, Wireless Power Transfer, Internet of Things
Objective of this paper is to combine the concept of solar power, wireless power transfer concept used for the generation of power and Internet of Things (IoT) based power management. A solar power inverter is designed to produce AC power required for the circuit. The generated power can be used in the application of power management where the devices are controlled by the technology called Internet of Things. The proposed design concept is used to monitor and control electrical energy consuming devices like switches, bulb, television, etc., in order to effectively balance energy generation and usage. Renewable energy sources are utilized for system working to show effectiveness in design. The obtained AC power is utilized further in wireless power transfer circuit to again recharge the battery through a rectifier circuit. The hardware demonstration for home automation made in this paper will help in reducing energy wastage by continuously monitoring and controlling the electrical appliances.
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[1] Input/output Peripheral Devices Control through Serial through Serial Communication Using Micro Blaze Processor [IEEE ICDCS 2012]
[2] Sharon Panth, Mahesh Jivani, “Home Automation System Using Android for Mobile phone”, International Journal of Electronics and Computer Science Engineering.
[3] Nupur K. Sonawane, Payal D. Waghchavare, Kajal A. Patel. “Bluetooth Based Device Automation System Using Cellphone”, International Journal of Computer Applications & Information Technology.
[4] Ming Yan, Hao Shi, “SMART LIVING USING BLUETOOTHBASED ANDROID SMARTPHONE”, International Journal of Wireless & Mobile Networks (IJWMN) Vol. 5, No. 1.
[5] B. MURALIKRISHNA, P. SUJITHA, HABIBULLA KHAN, “REAL TIME EDGE DETECTION MODELLING WITH FPGA”, International Journal of VLSI and Embedded Systems-IJVES.
[6] H. C. Tadimeti and M. Pulipati, “Overview of automation systems and home appliances control using PC and microcontroller,” Int. J. Sci.Res., vol. 2, no. 4, pp. 127–131, Apr. 2013.
[7] T. Kim, H. Lee, and Y. Chung, “Advanced universal remote controller for home automation and security,” IEEE Trans. Consumer Electron., vol. 56, no. 4, pp. 2537– 2542, Nov. 2010.
[8] J. Han, H. Lee, and K.-R. Park, “Remote- controllable and energy- saving room architecture based on ZigBee communication,” IEEE Trans. Consumer Electron., vol. 55, no. 1, pp. 264–268, Feb.2009.
[9] K. Gill, S.-H. Yang, F. Yao, and X. Lu, “A ZigBee-based home automation system,” IEEE Trans. Consumer Electron., vol. 55, no. 2, pp. 422–430, May 2009.
[10] H. Erdem and A. Uner, “A multi- channel remote controller for home and office appliances,” IEEE Trans. Consumer Electron., vol. 55, no. 4, pp. 2184–2189, Nov. 2009.
[11] B.T. Ranum et al., “Development of wireless power transfer receiver for mobile charging”, in IEEE International conference on Engineering and Renewable energy (ICPERE), pp.48-51, Dec 2014.
[12] K.P. Panda, N. Behera and K.L. Biswal, “Wireless power transfer application in GSM controlled robot for home automation”, International Journal of electrical, computer, energetic, electronic and communication engineering (WASET), vol.10, no.8, pp.1101-1106, 2016
Paper ID: GRDCF007008
Published in: Conference : National Conference on Emerging Trends in Electrical, Electronics and Computer Engineering (ETEEC - 2018)
Page(s): 37 - 44
Published in: Conference : National Conference on Emerging Trends in Electrical, Electronics and Computer Engineering (ETEEC - 2018)
Page(s): 37 - 44