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References (27)
-
Design, performance evaluation, fabrication and testing of a SiC MOSFET gate driver
-
S Pasko, M Kazimierczuk, B Grzesik (2015)
Self-capacitance of coupled toroidal inductors for EMI filtersIEEE Trans. Electromagn. Compat., 57
-
Optimal Design of Single-Layer Solenoid Air-Core Inductors for High Frequency Applications
-
P Biringer, P Burke, R Segsworth (1969)
Inductance of magnetically shielded aircore coils of circular cross sectionIEEE Trans. Magn., 5
-
P. Dowell (1966)
Effects of eddy currents in transformer windings -
Z Shen, H Wang, Y Shen, Z Qin, F Blaabjerg (2019)
An improved stray capacitance model for inductorsIEEE Trans. Power Electron., 34
-
L Dalessandro, F Silveira Cavalcante, J Kolar (2007)
Self-capacitance of high-voltage transformersIEEE Trans. Power Electron., 22
-
Optimal Approach to Induction Heating Simulation: Computational Effort and Tolerance
-
F Grover (2004)
Inductance Calculations: Working Formulas and Tables
-
Q. Yu, T. Holmes (2001)
A study on stray capacitance modeling of inductors by using the finite element methodIEEE Transactions on Electromagnetic Compatibility, 43
-
M. Hole, L. Appel (2005)
Stray capacitance of a two-layer air-cored inductor, 152
-
A. Massarini, M. Kazimierczuk (1997)
Self-capacitance of inductorsIEEE Transactions on Power Electronics, 12
-
High Frequency Induction Heating of Non-magnetic Metals with 24 VDC for a Terrestrial Antenna
-
O Heaviside (1884)
Electrician, 13
-
O Heaviside (1884)
The induction of currents in coresElectrician, 13
-
Q. Yu, T. Holmes, K. Naishadham (2002)
RF equivalent circuit modeling of ferrite-core inductors and characterization of core materialsIEEE Transactions on Electromagnetic Compatibility, 44
-
Design, Analysis, Simulation, Fabrication and Experiments on a Voltage Source Inverter Fed Induction Heating Prototype
-
Analytical Approach to the Calculation of Parasitic Capacitance Between Winding Turns
-
M. Roy, M. Sengupta (2013)
Electromagnetic Investigations and Power Converter Efficiency Studies on a Laboratory Made Induction Heating PrototypeJournal of The Institution of Engineers (India): Series B, 94
-
G. Grandi, M. Kazimierczuk, A. Massarini, U. Reggiani (1999)
Stray capacitances of single-layer solenoid air-core inductorsIEEE Transactions on Industry Applications, 35
-
V. Rudnev (2002)
Handbook of Induction Heating -
A Ayachit, M Kazimierczuk (2017)
Self-capacitance of single-layer inductors with separation between conductor turnsIEEE Trans. Electromagn. Compat., 59
-
Detailed analytical and experimental investigations on voltage source inverter fed Induction Heating prototype
-
J Martinez, S Babic, C Akyel (2014)
On evaluation of inductance, dc resistance, and capacitance of coaxial inductors at low frequenciesIEEE Trans. Magn., 50
-
J Davies, P Simpson (1979)
Induction Heating Handbook
-
V Rudnev, D Loveless, R Cook (2017)
Handbook of Induction HeatingHandbook of Induction Heating
-
M. Roy, M. Sengupta (2012)
Design, Fabrication and Testing of Two Different Laboratory Prototypes of CSI-based Induction Heating UnitsJournal of The Institution of Engineers (India): Series B, 93
- Publisher
- Springer Journals
- Copyright
- Copyright © The Institution of Engineers (India) 2024. Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.
- ISSN
- 2250-2106
- eISSN
- 2250-2114
- DOI
- 10.1007/s40031-024-01000-7
- Publisher site
- See Article on Publisher Site
Abstract
This paper presents methods for parameter determination of a multi-layered high-frequency induction heating coil (IHC). The prototype coil and power converter were designed and fabricated in the laboratory. To maintain the coil dimensions to be same as that of an existing CSI-fed coil in the laboratory, six layers are introduced to provide the requisite ampere-turns. The self- and mutual inductances of each layer and the associated stray capacitances need to be appropriately estimated and measured to successfully operate the voltage source inverter (VSI)-fed induction heating apparatus around resonance. This is essential due to the multiple zero crossings during commutation. The coil parameters are dynamic, which depends on the shape of the work-piece, material, frequency, temperature of the work-piece, etc., and have direct effect on the IHC performance as well as on the choice of power converter components. Skin and proximity effects are also studied closely and accounted for. Both analytical and FEM-based approaches have been adopted to determine the self- and mutual inductances at the appropriate frequency (nominally 11.5 kHz), both in the presence and absence of the work-piece (WP). The capacitance has been estimated using FE methods only. A general-purpose inverter stack (GPIS) made with SiC devices for some experiments was utilised for experiments. The self- and mutual inductance values have then been experimentally determined and are in good agreement with the estimated values, thus highlighting accuracy of analysis completeness of simulation model and precision of experiments.
Journal
Journal of The Institution of Engineers (India): Series B – Springer Journals
Published: Oct 1, 2024
Keywords: Induction heating; VSI; High frequency; Inductance; Proximity effect; Multi-layered coil; Parasitic capacitance; GPIS; SiC devices