Maxwellian circuit models for analysis of printed spiral antennas

Author

He, Mang ; Xu, Xiaowen

Author_Institution

Beijing Inst. of Technol., China

Volume

15

Issue

11

fYear

2005

Firstpage

769

Lastpage

771

Abstract

In this letter, it is the first time to implement the theory of Maxwellian circuits (TMC) to the printed spiral antennas. First, the Maxwellian circuit models (MCM) for the printed spiral antennas are established through two independent sets of full-wave solutions of current and scalar potential distributions. In this stage, a relationship between the scalar potential and voltage is proposed to satisfy Ohm´s law at the terminals of the antennas. Second, broadband MCM are developed to predict the characteristics of the antennas over a quite wide band by using the information at only three sampling frequencies. Numerical results indicate that solutions of the MCM (sparse matrix system) are much more efficient than those of the conventional integral equation solutions (full matrix system) without any accuracy sacrifice.

Keywords

Maxwell equations; equivalent circuits; method of moments; microstrip antennas; spiral antennas; Maxwellian circuit models; Maxwellian circuits theory; Ohm law; broadband MCM; method of moments; printed spiral antennas; sparse matrix system; Antenna theory; Broadband antennas; Circuit analysis; Differential equations; Frequency; Sampling methods; Sparse matrices; Spirals; Voltage; Wire; Method of moments (MoM); printed spiral antennas; theory of Maxwellian circuits (TMC);

fLanguage

English

Journal_Title

Microwave and Wireless Components Letters, IEEE

Publisher

ieee

ISSN

1531-1309

Type

jour

DOI

10.1109/LMWC.2005.858967

Filename

1525069