Measurement and Estimation Methodology for EMC and OTA Testing in the VIRC
Journal article, 2023

In recent years, promising results have been reported with the vibrating intrinsic reverberation chamber (VIRC) combining performance and cost-efficiency for electromagnetic compatibility (EMC) measurements. This also makes it a potentially attractive solution for over-the-air (OTA) testing, which is yet to be investigated. Therefore, this article proposes the first systematic and thorough methodology to characterize the VIRC for use in EMC and OTA testing of wireless baseband algorithms of narrow-band single-input single-output channels. This methodology has been developed to measure and estimate the channel first- and second-order temporal and spectral characteristics taking into consideration the effect of different carrier frequencies, rotational speeds of VIRC motors, and loading conditions. It is then applied to a channel setup inside a VIRC for a preliminary investigation before the VIRC itself is fully characterized. It is shown that mounting an absorber in a specific location on the hatch significantly improves the rejection rate of the chi-squared goodness-of-fit test for Rician distribution without increasing the K-factor above -10 dB over the frequency range 755-2740 MHz in the VIRC under investigation. However, the proposed methodology has been devised to be universal to any reverberation chamber, and the obtained results can be used to improve EMC testing due to the better understanding of the unique VIRC environment.

vibrating intrinsic reverberation chamber (VIRC)

over-the-air (OTA)

Rician

Rayleigh

Electromagnetic compatibility (EMC)

reverberation chamber (RC)

Author

MHD Zaher Mahfouz

University of Twente

Robert Vogt-Ardatjew

University of Twente

Andre B.J. Kokkeler

University of Twente

Andres Alayon Glazunov

Chalmers, Electrical Engineering, Communication, Antennas and Optical Networks

University of Twente

IEEE Transactions on Electromagnetic Compatibility

0018-9375 (ISSN) 1558187x (eISSN)

Vol. 65 1 3-16

Subject Categories

Telecommunications

Vehicle Engineering

Signal Processing

DOI

10.1109/TEMC.2022.3218413

More information

Latest update

3/9/2023 3