IEEE Access (Jan 2021)

A Low-Power Tunable Frequency Selective Surface for Multiplexed Remote Sensing

  • Ronald P. Jenkins,
  • Micah D. Gregory,
  • Len Cardillo,
  • Benjamin R. Bunes,
  • Sawyer D. Campbell,
  • Pingjuan L. Werner,
  • Douglas H. Werner

DOI
https://doi.org/10.1109/ACCESS.2021.3070715
Journal volume & issue
Vol. 9
pp. 58478 – 58486

Abstract

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In this interdisciplinary work, a low-power varactor-tunable frequency selective surface is presented for use with a multiplexed remote sensor system. Combined with a low power sensor and control system, voltage biasing of the proposed frequency selective surface panel can be used to modulate the center frequency of a reflection peak, which in turn may be detected by remote interrogation through a radar system. The control board and frequency selective surface were found to draw only $200~\mu \text{A}$ of current during typical operation from two 3V CR2032 button batteries, enabling continuous operation for weeks at a time (even longer if operated in wake-up mode) when used in conjunction with a suitably low power sensor. Centered at 3 GHz, the backscatter peak can be modulated across a range of 200 MHz, and the combined system was shown to successfully differentiate between various concentrations of ammonia under test conditions.

Keywords