A Novel Compact Frequency Selective Surface with a Stable Performance Based on Substrate Integrated Waveguide Technology

A novel compact frequency selective surface (FSS) with a stable performance is presented. A narrow band-pass circular FSS operating at around 16.6GHz is designed. The unit cell consists of a double-sided metalized substrate with a circular hole in the center as well as 24 metal stubs surrounding the circular hole. In this way, incident EM waves enter the circular cavity formed by the 24 metal stubs and excite a cavity resonance, leading to a narrow pass-band. An approximate analytical formula is introduced to calculate the cavity resonant frequency. The cavity resonance provides a very good wide-angle and polarization-independent stability. Further more, there is no other frequency resonance up to 28GHz except the designed frequency. Finally, we get a FSS which has advantages of high selectivity, stable performance and compact volume.