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Parasitic Effect Suppression With Resonance Cancelation for Broadband Absorber/Reflector

Sai Guo, Zhanglong Mao, Shi‐Min Hu, Haoran Li, Zhaowang Cao, Xiao Ji, Ling Miao, Jianjun Jiang

2022IEEE Antennas and Wireless Propagation Letters14 citationsDOI

Abstract

This letter exhibits a switchable double-sided absorber/reflector that realizes broadband performance. This structure effectively breaks the limitation of the absorption bandwidth due to the parasitic capacitance of the p-i-n diode through resonance cancelation. First, the <italic xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">LC</i> parallel resonance is adapted to inhibit the interference of the parasitic capacitance by connecting the inductance in parallel with the p-i-n diode. Then, a gap capacitance is introduced to increase the resonance frequency and further expand the bandwidth. The double-sided design is applied to avoid the short-circuit phenomenon caused by the parallel connection of the inductor and the p-i-n in the single-sided design. To control the inductance value more precisely, the meander inductor is employed. Finally, the reflectivity of the proposed structure covers broadband of 3.91–9.77 GHz from reflection to below −10 dB under normal incidence by changing the working states. Furthermore, a sample of the proposed structure was manufactured and measured. The measurements are consistent with simulations.

Topics & Concepts

InductorCapacitanceInductanceParasitic capacitanceBandwidth (computing)BroadbandDiodeResonance (particle physics)OptoelectronicsParasitic elementEquivalent circuitMaterials scienceOpticsPhysicsElectrical engineeringComputer scienceTelecommunicationsEngineeringVoltageElectrodeQuantum mechanicsParticle physicsAdvanced Antenna and Metasurface TechnologiesMicrowave Engineering and WaveguidesAntenna Design and Analysis
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