This work presents novel compact High Temperature Superconductor (HTS) microstrip resonators based on Hubert fractal curves. Their miniaturization performance has been investigated, emphasizing the parameters which allow to obtain a good trade off between compact size and quality factor. Hilbert resonators with different arrangements have been designed and assessed by using full wave simulators. In order to experimentally verify our analysis, a four pole quasi elliptic filter, in the cascade quadruplet configuration, with f close to 2.45GHz, have been fabricated by patterning a 10×10mmYBCO film on MgO substrates. Minimum insertion losses of the order of (0.1-0.2) dB have been measured.
Hilbert fractal curves for HTS miniaturized filters
Barra M;
2004
Abstract
This work presents novel compact High Temperature Superconductor (HTS) microstrip resonators based on Hubert fractal curves. Their miniaturization performance has been investigated, emphasizing the parameters which allow to obtain a good trade off between compact size and quality factor. Hilbert resonators with different arrangements have been designed and assessed by using full wave simulators. In order to experimentally verify our analysis, a four pole quasi elliptic filter, in the cascade quadruplet configuration, with f close to 2.45GHz, have been fabricated by patterning a 10×10mmYBCO film on MgO substrates. Minimum insertion losses of the order of (0.1-0.2) dB have been measured.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
