Title :
Mutual Impedance of Small Ring-Type Coils for Multiwinding Induction Heating Appliances
Author :
Acero, J. ; Carretero, C. ; Lucia, O. ; Alonso, R. ; Burdio, J.M.
Author_Institution :
Dept. Ing. Electron. y Comun., Univ. de Zaragoza, Zaragoza, Spain
Abstract :
This paper proposes a model of the mutual impedance between ring-type coils used in domestic induction hobs. Recent developments in these appliances have focused on flexible cooking surfaces, including adjustable-size or total-active surfaces. Flexible cooking surfaces are implemented by means of several small ring-type closely arranged coils, each one supplied by a resonant inverter. The basic winding is a ring-type circular small coil, whose self-impedance has been reported previously. In this paper, the coupling between coils in terms of impedance is derived. The coils are modeled as axisymmetric current density distributions with parallel revolution axes. The mutual impedance between the coils is obtained considering two media representing the load and the ferrite, respectively. Experimental measurements have been performed to validate the results.
Keywords :
coils; current density; domestic appliances; electric impedance measurement; ferrites; induction heating; resonant invertors; windings; adjustable-size surfaces; axisymmetric current density distributions; domestic induction hobs; ferrite; flexible cooking surfaces; multiwinding induction heating appliances; mutual impedance; parallel revolution axes; resonant inverter; ring-type circular small coil; ring-type closely arranged coils; self-impedance; total-active surfaces; Coils; Current density; Electromagnetic heating; Impedance; Media; Vectors; Windings; Frequency-dependent impedance; home appliances; impedance matrix; impedance measurements; induction heating; inductors; mutual coupling; mutual impedance;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2012.2205270
