An analytical procedure for the calculation of the inductance of planar zig-zag spiral inductors is proposed. The procedure is based on the partial inductance concept and models the inductor as a series of a number of parts. The self-inductance of each individual part, which has the shape of a parallelogram, and the mutual inductance between any two parts of the inductor are determined. The inductance of a planar zig-zag spiral inductor can thus be obtained for any width, length and angle of the saw-tooth configuration. The procedure is validated with experimental measurements; the agreement between estimated and measured inductances is very good
On-chip spiral inductors with variable line width layouts are known for their high quality factor (Q...
Design, simulation, and implementation of low profile microstrip spiral inductors for high power Ind...
Two planar winding structures have been built to compare the characteristics of traditional and alte...
An analytical procedure for the calculation of the inductance of planar zig-zag spiral inductors is ...
Abstract—An analytical procedure for the calculation of the inductance of planar zig-zag spiral indu...
A complete characterization of the inductances of flat spiral inductors with zig-zag arms is present...
In this paper, a simplified method for the calculation of a mutual inductance of the planar spiral c...
Abstract—Inductances of rectangular spiral inductors with fi-nite metal thickness are evaluated by t...
In this paper, an analytical calculation of the inductance of an air-core planar spiral coil is pres...
Purpose - Optimizing an electromechanical device often requires a significant number of evaluations ...
Abstract—In this paper a general method for the determina-tion of the series inductance of polygonal...
Several methods have been proposed in the literature for the calculation of self and mutual inductan...
The rising demand for low cost RF integrated circuits (RF-IC's) has resulted in tremendous interest ...
This paper presents a physical model for planar spiral inductors on silicon. The model has been conf...
This paper presents a methodology, based on regularization theory, to find, in the whole geometric p...
On-chip spiral inductors with variable line width layouts are known for their high quality factor (Q...
Design, simulation, and implementation of low profile microstrip spiral inductors for high power Ind...
Two planar winding structures have been built to compare the characteristics of traditional and alte...
An analytical procedure for the calculation of the inductance of planar zig-zag spiral inductors is ...
Abstract—An analytical procedure for the calculation of the inductance of planar zig-zag spiral indu...
A complete characterization of the inductances of flat spiral inductors with zig-zag arms is present...
In this paper, a simplified method for the calculation of a mutual inductance of the planar spiral c...
Abstract—Inductances of rectangular spiral inductors with fi-nite metal thickness are evaluated by t...
In this paper, an analytical calculation of the inductance of an air-core planar spiral coil is pres...
Purpose - Optimizing an electromechanical device often requires a significant number of evaluations ...
Abstract—In this paper a general method for the determina-tion of the series inductance of polygonal...
Several methods have been proposed in the literature for the calculation of self and mutual inductan...
The rising demand for low cost RF integrated circuits (RF-IC's) has resulted in tremendous interest ...
This paper presents a physical model for planar spiral inductors on silicon. The model has been conf...
This paper presents a methodology, based on regularization theory, to find, in the whole geometric p...
On-chip spiral inductors with variable line width layouts are known for their high quality factor (Q...
Design, simulation, and implementation of low profile microstrip spiral inductors for high power Ind...
Two planar winding structures have been built to compare the characteristics of traditional and alte...