O. Lucía, P. Maussion, E. Dede, and J. M. Burdío, Induction heating technology and its applications: Past developments, current technology, and future challenges, IEEE Trans. Ind. Electron, vol.61, issue.5, 2014.

H. Sarnago, O. Lucia, A. Mediano, and J. Burdio, A class-e direct ac-ac converter with multi-cycle modulation for induction heating systems, IEEE Trans. Ind. Electron, vol.61, issue.5, 2014.

T. Mishima, C. Takami, and M. Nakaoka, A new current phasorcontrolled ZVS twin half-bridge high-frequency resonant inverter for induction heating, IEEE Trans. Ind. Electron, vol.61, issue.5, 2014.

H. Sarnago, O. Lucia, A. Mediano, and J. M. Burdio, A class-E direct ac-ac converter with multicycle modulation for induction heating systems, IEEE Trans. Ind. Electron, vol.61, issue.5, 2014.

A. Namadmalan and J. S. Moghani, Tunable self-oscillating switching technique for current source induction heating systems, IEEE Trans. Ind. Electron, vol.61, issue.5, 2014.

V. Esteve, J. Jordán, E. Sanchis-kilders, E. J. Dede, E. Maset et al., Improving the reliability of series resonant inverters for induction heating applications, IEEE Trans. Ind. Electron, vol.61, issue.5, 2014.

M. W. Kennedy, S. Akhtar, J. A. Bakken, and R. E. Aune, Empirical verification of a short-coil correction factor, IEEE Trans. Ind. Electron, vol.61, issue.5, 2014.

F. Mach, V. ?tarman, P. Karban, I. Dole?el, and P. K?s, Finite-element 2-D model of induction heating of rotating billets in system of permanent magnets and its experimental verification, IEEE Trans. Ind. Electron, vol.61, issue.5, 2014.

C. Chen, C. Tai, S. Huang, Y. Chen, and C. Lin, Thermotherapy induction heating apparatus with new magnetic-wrapped coil design, IEEE Trans. Ind. Electron, vol.61, issue.5, 2014.

O. Jimenez, O. Lucia, I. Urriza, L. A. Barragan, and D. Navarro, Design and evaluation of a low-cost high-performance ??? ADC for embedded control systems in induction heating appliances, IEEE Trans. Ind. Electron, vol.61, issue.5, 2014.

A. Dominguez, L. A. Barragan, A. Otin, D. Navarro, and D. Puyal, Inverse-based power control in domestic induction-heating applications, IEEE Trans. Ind. Electron, vol.61, issue.5, 2014.

E. Imaz, R. Alonso, C. Heras, I. Salinas, E. Carretero et al., Infrared thermometry system for temperature measurement in induction heating appliances, IEEE Trans. Ind. Electron, vol.61, issue.5, 2014.

B. Saha, K. S. Kurl, N. A. Ahmed, H. Omori, and M. Nakaoka, Commercial frequency AC to high frequency AC converter with boostactive clamp bridge single stage ZVS-PWM inverter, IEEE Trans. Power Electron, vol.23, issue.1, pp.412-419, 2008.

J. M. Leisten, A. K. Lefedjiev, and L. Hobson, Single ended resonant power supply for induction heating, Electron. Lett, vol.26, issue.12, pp.814-816, 1990.

H. Omori and M. Nakaoka, New single-ended resonant inverter circuit and system for induction-heating apparatus, Int. J. Electron, vol.67, issue.2, pp.277-296, 1989.

H. Sarnago, O. Lucía, A. Mediano, and J. M. Burdío, Design and implementation of a high-efficiency multiple-output resonant converter for induction heating applications featuring wide bandgap devices, IEEE Trans. Power Electron

J. Millan, P. Godignon, X. Perpinya, A. Perez-tomas, and J. Rebollo, A survey of wide band gap power semiconductor devices, IEEE Trans. Power Electron

O. Lucía, J. M. Burdío, I. Millán, J. Acero, and D. Puyal, Load-adaptive control algorithm of half-bridge series resonant inverter for domestic induction heating, IEEE Trans. Ind. Electron, vol.56, issue.8, pp.3106-3116, 2009.

H. Pham, H. Fujita, K. Ozaki, and N. Uchida, Phase angle control of high-frequency resonant currents in a multiple inverter system for zonecontrol induction heating, IEEE Trans. Power Electron, vol.26, issue.11, pp.3357-3366, 2011.

J. M. Burdío, L. A. Barragán, F. Monterde, D. Navarro, and J. Acero, Asymmetrical voltage-cancelation control for full-bridge series resonant inverters, IEEE Trans. Power Electron, vol.19, issue.2, pp.461-469, 2004.

H. Sarnago, A. Mediano, and O. Lucía, Design and implementation of a class-E self-oscillating inverter for cost-effective induction heating systems, EPE J, vol.22, pp.11-16, 2012.

W. Huai, M. Liserre, and F. Blaabjerg, Toward reliable power electronics: Challenges, design tools, and opportunities, IEEE Ind. Electron. Mag, vol.7, issue.2, pp.17-26, 2013.

I. Millán, J. M. Burdío, J. Acero, O. Lucía, and S. Llorente, Series resonant inverter with selective harmonic operation applied to all-metal domestic induction heating, IET Power Electron, vol.4, issue.5, pp.587-592, 2011.

P. R. Stauffer, T. C. Cetas, and R. C. Jones, Magnetic induction heating of ferromagnetic implants for inducing localized hyperthermia in deep-seated tumors, IEEE Trans. Biomed. Eng, issue.2, pp.235-251, 1984.

M. Souley, S. Caux, J. Egalon, O. Pateau, Y. Lefevre et al., Optimization of the settings of multiphase induction heating system, IEEE Trans. Ind. Appl
URL : https://hal.archives-ouvertes.fr/hal-00949268

H. N. Pham, H. Fujita, K. Ozaki, and N. Uchida, Estimating method of heat distribution using 3-D resistance matrix for zone-control induction heating systems, IEEE Trans. Power Electron, vol.27, issue.7, pp.3374-3382, 2012.

H. Sarnago, O. Lucía, A. Mediano, and J. M. Burdío, Modulation scheme for improved operation of a RB-IGBT based resonant inverter applied to domestic induction heating, IEEE Trans. Ind. Electron, vol.60, issue.5, pp.2066-2073, 2013.

V. Esteve, E. Sanchis-kilders, J. Jordan, E. J. Dede, C. Cases et al., Improving the efficiency of IGBT seriesresonant inverters using pulse density modulation, IEEE Trans. Ind. Electron, vol.58, issue.3, pp.979-987, 2011.

O. Jiménez, O. Lucia, I. Urriza, L. A. Barragán, P. Mattavelli et al., FPGA-based gain-scheduled controller for resonant converters applied to induction cooktops, IEEE Trans. Power Electron

O. Lucía, L. A. Barragán, J. M. Burdío, O. Jiménez, D. Navarro et al., A versatile power electronics test-bench architecture applied to domestic induction heating, IEEE Trans. Ind. Electron, vol.58, issue.3, pp.998-1007, 2011.

E. Monmasson, L. Idkhajine, and M. W. Naouar, FPGA-based controllers, IEEE Ind. Electron. Mag, vol.5, issue.11, pp.14-26, 2011.
URL : https://hal.archives-ouvertes.fr/hal-01654202

C. Buccella, C. Cecati, and H. Latafat, Digital control of power converters: A survey, IEEE Trans. Ind. Informat, vol.8, issue.3, pp.437-447, 2012.

H. N. Pham, H. Fujita, K. Ozaki, and N. Uchida, Dynamic analysis and control for resonant currents in a zone-control induction heating system, IEEE Trans. Power Electron, vol.28, issue.3, pp.1297-1307, 2013.

O. Jiménez, O. Lucía, L. A. Barragán, D. Navarro, J. I. Artigas et al., FPGA-based test-bench for resonant inverter load characterization, IEEE Trans. Ind. Informat, vol.9, issue.3, pp.1645-1654, 2013.

N. A. Ahmed, High-frequency soft-switching ac conversion circuit with dual-mode PWM/PDM control strategy for high-power IH applications, IEEE Trans. Ind. Electron, vol.58, issue.4, pp.1440-1448, 2011.

J. Egalon, S. Caux, P. Maussion, M. Souley, and O. Pateau, Multiphase system for metal disc induction heating: Modeling and RMS current control, IEEE Trans. Ind. Appl, vol.48, issue.5, pp.1692-1699, 2012.

O. Lucía, J. Acero, C. Carretero, and J. M. Burdío, Induction heating appliances: Towards more flexible cooking surfaces, IEEE Ind. Electron. Mag, vol.7, issue.3, pp.35-47, 2013.