Title :
On Evaluation of Inductance, DC Resistance, and Capacitance of Coaxial Inductors at Low Frequencies
Author :
Martinez, Jose Luis ; Babic, Snjezana ; Akyel, Cevdet
Author_Institution :
Geo Data Solutions GDS, Inc., Laval, QC, Canada
Abstract :
A priori evaluations of inductance, stray capacitance, and dc resistance are important aspects in optimizations of inductors. In this paper, analytical formulas of the inductance (self and mutual), dc resistance (solid and litz wires), and the stray capacitances of coaxial inductors were derived for both hexagonal and orthogonal windings. Possible imperfections that occurred during the fabrication process were accounted by the inclusion of axial and azimuth filling factors into the formulations. The formulas presented here were validated using several coaxial coils with rectangular cross sections as reported in the literature and double tested by measurements. Discrepancies between estimated and measured values were less than 1%. The advantage of the present formulation is that optimization efforts are addressed at the earliest stages possible of inductor conception and construction.
Keywords :
capacitance; electric resistance; inductance; inductors; windings; axial filling factors; azimuth filling factors; coaxial coils; coaxial inductors; dc resistance; hexagonal windings; litz wires; mutual inductance; optimization; orthogonal windings; priori evaluations; self inductance; stray capacitance; Capacitance; Coils; Inductance; Inductors; Resistance; Windings; Wires; Analytical solutions; coaxial inductor; dc resistance; dc- resistance; evaluation; layer-to-layer capacitances; layer-to-layer-capacitances; mutual- and self- inductance stray; mutual- and selfinductance; optimization; solid and lits-wires; solid and litz wires; stray; turn to turn; turn-to-turn-;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2014.2303943
