Publication detail

Influence of Transceiver Imperfections to Digital Pre-distortion Linearization - Application to 5G waveforms

HARVÁNEK, M. MARŠÁLEK, R. GÖTTHANS, T. KRÁL, J. POSPÍŠIL, M.

Original Title

Influence of Transceiver Imperfections to Digital Pre-distortion Linearization - Application to 5G waveforms

Type

conference paper

Language

English

Original Abstract

In this paper, we present the quantitative study of the effects of the selected most important transceiver imperfections on the performance of digital pre-distortion linearizers. Starting from the power amplifier model identification based on the measured data captured using the low-cost software defined radio platform, we evaluate the performance in term of out-of-band signal emissions at the power amplifier output for the case of typical representative of signals envisaged for fifth generation (5G) of mobile communication systems. The results are presented for the values of imperfections (IQ imbalances, DC offset) swept within the range of values corresponding to commercially available wireless front-ends. We highlight the fact that the front-end imperfections can significantly affect the influence of pre-distorters.

Keywords

filtered OFDM; FBMC; 5G systems; amplifier linearization; pre-distortion

Authors

HARVÁNEK, M.; MARŠÁLEK, R.; GÖTTHANS, T.; KRÁL, J.; POSPÍŠIL, M.

Released

20. 12. 2017

ISBN

978-1-5386-4663-2

Book

Proceedings of IEEE International Symposium on Signal Processing and Information Technology, ISSPIT 2017

Pages from

1

Pages to

5

Pages count

5

BibTex

@inproceedings{BUT141230,
  author="Michal {Harvánek} and Roman {Maršálek} and Tomáš {Götthans} and Jan {Král} and Martin {Pospíšil}",
  title="Influence of Transceiver Imperfections to Digital Pre-distortion Linearization - Application to 5G waveforms",
  booktitle="Proceedings of IEEE International Symposium on Signal Processing and Information Technology, ISSPIT 2017",
  year="2017",
  pages="1--5",
  doi="10.1109/ISSPIT.2017.8388648",
  isbn="978-1-5386-4663-2"
}