Sensors (Dec 2020)

Energy Efficiency Analysis of MIMO Wideband RF Front-End Receivers

  • Eduil Nascimento Junior,
  • Guilherme Theis,
  • Edson Leonardo dos Santos,
  • André Augusto Mariano,
  • Glauber Brante,
  • Richard Demo Souza,
  • Thierry Taris

DOI
https://doi.org/10.3390/s20247070
Journal volume & issue
Vol. 20, no. 24
p. 7070

Abstract

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Energy-efficiency is crucial for modern radio-frequency (RF) receivers dedicated to Internet of Things applications. Energy-efficiency enhancements could be achieved by lowering the power consumption of integrated circuits, using antenna diversity or even with an association of both strategies. This paper compares two wideband RF front-end architectures, based on conventional low-noise amplifiers (LNA) and low-noise transconductance amplifiers (LNTA) with N-path filters, operating with three transmission schemes: single antenna, antenna selection and singular value decomposition beamforming. Our results show that the energy-efficiency behavior varies depending on the required communication link conditions, distance between nodes and metrics from the front-end receivers. For short-range scenarios, LNA presents the best performance in terms of energy-efficiency mainly due to its very low power consumption. With the increasing of the communication distance, the very low noise figure provided by N-path LNTA-based architectures outperforms the power consumption issue, yielding higher energy-efficiency for all transmission schemes. In addition, the selected front-end architecture depends on the number of active antennas at the receiver. Hence, we can observe that low noise figure is more important with a few active antennas at the receiver, while low power consumption becomes more important when the number of active RF chains at the receiver increases.

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