A. Massarini scite author profile

A new method for predicting the stray capacitance of inductors is presented. The method is based on an analytical approach and the physical structure of inductors. The inductor winding is partitioned into basic cells-many of which are identical. An expression for the equivalent capacitance of the basic cell is derived. Using this expression, the stray capacitance is found for both single-and multiple-layer coils, including the presence of the core. The method was tested with experimental measurements. The accuracy of the results is good. The derived expressions are useful for designing inductors and can be used for simulation purposes.

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Stray capacitances of single-layer solenoid air-core inductors

Grandi

Kazimierczuk²,

Massarini³

et al. 1999

IEEE Trans. on Ind. Applicat.

206

110

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This paper presents a method for predicting parasitic capacitances of solenoid HF inductors made of one layer of turns with circular cross sections, uniformly wound around a cylindrical nonconductive core. The method is based on an analytical approach to obtain the turn-to-turn and turn-to-shield capacitances of coils. The influence of the wire insulation is taken into account. An equivalent lumped parallel capacitance is derived. The method was tested by experimental measurements. The calculated and measured values were in good agreement in the considered cases. The derived expressions are useful for designing HF inductors and can also be adopted for modeling and simulation purposes.

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Model of Laminated Iron-Core Inductors for High Frequencies

et al. 2004

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Lumped parameter models for single- and multiple-layer inductors

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A. Massarini

Self-capacitance of inductors

Stray capacitances of single-layer solenoid air-core inductors

Model of Laminated Iron-Core Inductors for High Frequencies

Lumped parameter models for single- and multiple-layer inductors

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