Sensors (Mar 2023)

Comparison of Low-Cost 5G Electromagnetic Field Sensors

  • Kenneth Deprez,
  • Loek Colussi,
  • Erdal Korkmaz,
  • Sam Aerts,
  • Derek Land,
  • Stephan Littel,
  • Leen Verloock,
  • David Plets,
  • Wout Joseph,
  • John Bolte

DOI
https://doi.org/10.3390/s23063312
Journal volume & issue
Vol. 23, no. 6
p. 3312

Abstract

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This paper compares different low-cost sensors that can measure (5G) RF-EMF exposure. The sensors are either commercially available (off-the-shelf Software Defined Radio (SDR) Adalm Pluto) or constructed by a research institution (i.e., imec-WAVES, Ghent University and Smart Sensor Systems research group (S³R), The Hague University of Applied Sciences). Both in-lab (GTEM cell) and in-situ measurements have been performed for this comparison. The in-lab measurements tested the linearity and sensitivity, which can then be used to calibrate the sensors. The in-situ testing confirmed that the low-cost hardware sensors and SDR can be used to assess the RF-EMF radiation. The variability between the sensors was 1.78 dB on average, with a maximum deviation of 5.26 dB. Values between 0.09 V/m and 2.44 V/m were obtained at a distance of about 50 m from the base station. These devices can be used to provide the general public and governments with temporal and spatial 5G electromagnetic field values.

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