Modeling and Simulation of Class E Resonant Inverter for Induction Cooking Application
Citation
Vilas Bugade, Hemlata Joshi,Ekta Mishra "Modeling and Simulation of Class E Resonant Inverter for Induction Cooking Application", International Journal of Engineering Trends and Technology (IJETT), V60(1),51-56 June 2018. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group
Abstract
Induction cooking system for residential and commercial use is appreciated by increasing number of users. The characteristics of induction cooking amongst other heating method are fast heating, pollution free, efficient and safe for operating by a user. In induction cooking, the heat is produced inside the cooking pot only. There are some disadvantages like the loss, harmonic currents, poor efficiency and low power factor. The key parameters of induction cookware must be corrected, which can be very attractive in terms of commercial production also. In order to increase the efficiency, certainparameters need to be designed properly. Theclass E series resonant inverter is fabricatedwherean inductor coil is designed as per requirement. The paper deals with the software simulation in MATLAB and the hardware implementation of proposed high efficiency induction cooking plate designed for an operating frequency of 25 kHz frequency, 24 V supply to inverter circuit, 50 Hz line frequency and approximately 45 W output. Switching and resonant frequencies are assumed equal. The temperature and duty cycleare observed for high frequency induction cooker based on class E DC AC resonant inverter.
Reference
[1] ChainarinEkkaravarodome, PatipongCharoenwiangnuea, KamonJirasereeamornkul, “The Simple Temperature Control for Induction Cooker based on Class-E Resonant Inverter”, 10th InternationalConference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology, 13th-15th July, 2013.
[2] J.Acero, J.M. Burdio, L.A. Barrangan, D.Navarro, R.lonso “The domestic induction heating appliance: an overview of research” Twenty-Third Annual IEEE Applied Power Electronics Conference and Exposition, 2008, Pp651-657.
[3] A. Beato, C. Bocchiola, and S. Frattesi, "Modeling and design of the half- bridge resonant inverter for induction," 14thMediterranean Conference on Control and Automation, Jun. 2006, pp. 1 - 6.
[4] ElzbietaSzychta, “Analysis of class E ZVS Resonant inverter”, Electrical power quality and utilization journal, Vol XI, No.1, 2005.
[5] C. Charoenwiangnuea, I. Boonyaroonate, and S. Po-ngam, "The simple temperature control for the low cost, high efficiency and high power factor induction cooking," 9thECTI Conference, May 2012, pp. 1 - 4.
[6] M. K. Kazimierczuk, "Exact analysis of Class E tuned power amplifier with only one inductor and one capacitor in load network", IEEE Journal of Solid-State Circuits, Vol. SC-18, No. 2, Apr. 1983, pp. 214 - 221.
[7] William G. Hurley, John G. Kassakian, “Induction heating of circular ferromagnetic plates”, IEEE Transactions on Magnetics, Vol. 15, No. 3, Jul. 1979, pp. 1174 – 1181.
[8] Sreenivasperam, VaddiRamesh, J.SriRanganayakulu,“ Full bridge resonant inverter for induction heating applications”, International journal of Engineering Research and applications(IJERA), Vol3, issue1, January-february2013, pp.66-73
[9] Pablo Hernandez, Fernando Monterde, J. M. Burdio, “Power loss optimization of foil coils for induction cooking”, IEEE Transactions on Power Electronics, Vol. 20, No. 2, Mar. 2005, pp. 261 - 267.
[10] “Transformer & Inductor design handbook, 3rdedition”, by Colonel W.M. Mclyman.
[11] Vilas Bugade, Pradeepkatti “Optimal Power Flow Approach for Cognitive and Reliable Operation of Distributed Generation as Smart Grid” SGRE, Scientific Research Publications, 2017, Vol.8, 87-98.
Keywords
Inductor coil, Class E resonant inverter, Pulse width modulation, Capacitor, Inductor