2012
DOI: 10.1002/mop.27287
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Equivalent model of circular‐type spiral inductor in printed circuit board

Abstract: This article presents a new equivalent circuit modeling methodology for circular‐type spiral inductors in printed circuit board. The N‐turn circular spiral inductor can be decomposed into an N‐π equivalent circuit model, and each π model is comprised of a series inductor, series capacitor, and two shunt capacitors. Both the inductance and capacitance of the equivalent circuit are calculated by the proposed formulas, which are based on the electromagnetic theory. It has been demonstrated that the proposed equiv… Show more

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Cited by 3 publications
(2 citation statements)
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“…In addition, other methods for further enhancing the Q-factor have been explored, such as adding a patterned ground shield, backside scooping technology, and micromachined ICs. The RF and mixed-signal IC design process requires accurate inductor models that can be included in the circuit simulation along with the entire IC design [14][15][16][17]. Therefore, a frequencyindependent equivalent circuit model is needed to represent the electrical performance of an inductor.…”
Section: Introductionmentioning
confidence: 99%
“…In addition, other methods for further enhancing the Q-factor have been explored, such as adding a patterned ground shield, backside scooping technology, and micromachined ICs. The RF and mixed-signal IC design process requires accurate inductor models that can be included in the circuit simulation along with the entire IC design [14][15][16][17]. Therefore, a frequencyindependent equivalent circuit model is needed to represent the electrical performance of an inductor.…”
Section: Introductionmentioning
confidence: 99%
“…The frequency independent L / C equivalent model, the left procedure of Fig. 2, is proposed for estimating total inductance, capacitance and SRF of spiral [14]. In this paper, we focus on the frequency‐dependent equivalent model, providing conduct‐, dielectric‐loss and Q ‐factor, as well as inductance, capacitance and SRF.…”
Section: Equivalent Circuit Model Of the Spiral Resonatormentioning
confidence: 99%