AFSS Wide Frequency Reconfigurable Design and Electromagnetic Characterization Research

In order to solve the dynamic adaptation problem of the working frequency band of the FSS in the complex electromagnetic environment and further expand the frequency tuning range, a reconfigurable AFSS unit model based on PIN and varactor diodes are designed, which can achieve the insertion loss below-1 dB in the wide frequency range of 10.2-15.2GHz, meet the working band switching and have the function of flexibly adjusting the working frequency point. In order to verify the accuracy of the design method, a square-ring aperture and notched patch coupling structure that can exhibit broadband transmission response in the X-Ku band is first proposed based on the equivalent circuit model topology. The numerical simulation and processing test of the structure are carried out. The measured data are in good agreement with the simulation results. After optimizing the unit structure, different capacitance values and resistance values are added to the diodes in the numerical simulation to control the equivalent PIN diodes switch and the capacitance change of the varactor diodes. According to the equivalent circuit model and the electric field intensity distribution, the AFSS regulation mechanism of the loaded diodes is explored. In this paper, through numerical simulation optimizations and experimental verification, the design method and performance optimization strategy of frequency- tunable FSS in the working range of 2-18 GHz are systematically studied, which provides theoretical support for the design of electromagnetic functional devices in the new generation of communication, radar and electronic warfare systems.