Title :
Highly accurate and real-time determination of resonant characteristics: complex linear regression of the transmission coefficient
Author :
Inoue, Ryotaro ; Miwa, Kazuhiko ; Kitano, Haruhisa ; Maeda, Atsutaka ; Odate, Yasuhiko ; Tanabe, Eiji
Author_Institution :
Japan Sci. & Technol. Agency, Saitama, Japan
Abstract :
For measuring high-frequency properties of materials by resonant techniques, one needs to obtain the resonant characteristics of the resonator, i.e., the resonant frequency fR and the bandwidth of the resonance fB. For precise measurements, accurate and real-time determination of the resonant characteristics is required. We present a complex linear regression method, which contains only the linear square-fit algorithm, and is applicable to the complex transmission coefficient data S21(f) with arbitrary phase error. Numerical simulations and experimental data show very high accuracy and stability of this technique, when compared with the standard 3-dB method and the Lorentzian-fit method. The optimum frequency span of the measurement is found to be approximately 1.5fB, where fB is the bandwidth of the resonance.
Keywords :
S-parameters; error analysis; least squares approximations; microstrip resonators; microwave materials; microwave measurement; regression analysis; Lorentzian-fit method; arbitrary phase error; complex linear regression; high-frequency properties; linear square-fit algorithm; numerical simulations; optimum frequency; real-time determination; resonant characteristics; resonant frequency; resonator; transmission coefficient; Bandwidth; Frequency measurement; Least squares methods; Linear regression; Magnetic field measurement; Microwave measurements; Microwave theory and techniques; Numerical simulation; Resonance; Resonant frequency; Error analysis; least squares methods; microwave measurements; microwave resonators; scattering parameters;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2004.834183
