IEEE Access (Jan 2020)

A High-Efficiency Reconfigurable Element for Dynamic Metasurface Antenna

  • Mingtuan Lin,
  • Xianjun Huang,
  • Bowen Deng,
  • Jihong Zhang,
  • Dongfang Guan,
  • Dingwang Yu,
  • Yujian Qin

DOI
https://doi.org/10.1109/ACCESS.2020.2994051
Journal volume & issue
Vol. 8
pp. 87446 – 87455

Abstract

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A high-efficiency reconfigurable element for dynamic metasurface antennas (DMA), consisting of a complimentary electric-LC (CELC) resonator fed through the cavity from a waveguide slot, is proposed in this paper, with positive- intrinsic-negative (PIN) diodes loaded to realize the coding performance. To begin with, the low efficiency problem of a traditional CELC element is demonstrated before the introduction of the proposed element. Subsequently, an equivalent circuit is illustrated to analyse the resonant performance, with extensive parametric study for verification. The proposed element has a low ohmic loss when the diode is switched on, 25 times less than the traditional element. Furthermore, the radiation efficiency of a DMA with 10 proposed elements is compared with a traditional design, showing a significant efficiency improvement from 25% to 75% when half diodes are switched on. Finally, measurements are conducted to verify the feasibility of the dynamic element to achieve radiation ON and OFF states, showing a 12 dB radiation gain difference between two states.

Keywords