Energy Efficiency Evaluation of Linear Transmitters for 5G NR Wireless Waveforms

With the anticipated industry-wide adoption of 5G, it is a matter of urgency to quantify and optimize the energy efficiency of 5G communication devices, and particularly their wireless transmitters. This paper contributes two major results to address these requirements. First, the energy efficiency...

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Veröffentlicht in:	IEEE transactions on green communications and networking 2019-06, Vol.3 (2), p.446-454
Hauptverfasser:	Biyabani, Sara R., Khan, Rida, Alam, Muhammad Mahtab, Biyabani, A. Ahmed, McCune, Earl
Format:	Artikel
Sprache:	eng
Schlagworte:	5G mobile communication 5G NR Electronic devices Energy efficiency Modulation Peak to average power ratio power amplifier Power amplifiers Power dissipation Power efficiency signal waveforms Transistors Transmitters Upper bounds Waveforms Wireless communications
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creator	Biyabani, Sara R. Khan, Rida Alam, Muhammad Mahtab Biyabani, A. Ahmed McCune, Earl
description	With the anticipated industry-wide adoption of 5G, it is a matter of urgency to quantify and optimize the energy efficiency of 5G communication devices, and particularly their wireless transmitters. This paper contributes two major results to address these requirements. First, the energy efficiency of linear transmitters is quantitatively evaluated as a primary performance metric when using any communication signal waveform, particularly those transmitters used in 5G NR (New Radio), with long-term evolution as the baseline. A generic upper-bound methodology called modulation-available energy efficiency is applied. Second, the impact of multiple device technologies is examined against this calculated upper bound and it is shown that implementing technology choice has a significant influence on actual transmitter efficiency results.
doi_str_mv	10.1109/TGCN.2019.2902179
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subjects	5G mobile communication 5G NR Electronic devices Energy efficiency Modulation Peak to average power ratio power amplifier Power amplifiers Power dissipation Power efficiency signal waveforms Transistors Transmitters Upper bounds Waveforms Wireless communications
title	Energy Efficiency Evaluation of Linear Transmitters for 5G NR Wireless Waveforms
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