Experimental demonstration of RF-pilot-based phase noise mitigation for millimeter-wave systems
Paper in proceeding, 2014

Millimeter-wave bands are gaining popularity for high data rate wireless communication systems due to the wide available bandwidth. However, oscillator phase noise also increases as the carrier frequency increases. Methods of phase noise mitigation are therefore crucial for future millimeter-wave systems. In this work, we propose to adopt analog phase noise mitigation using an RF-pilot tone, which reduces both phase and frequency impairments of an arbitrary millimeter-wave signal at the expense of reduced spectral efficiency. The method is verified experimentally at carrier frequency of 28 GHz and E-band 73 GHz showing a 20 dB noise reduction up to 100 kHz offset. Since the method relaxes phase noise requirement it is attractive for phase noise sensitive technologies at high carrier frequency, such as OFDM used in LTE. As indicated by the simulation results, the reduced phase noise enables a LTE signal on a millimeter-wave carrier with marginal performance impact.

28 GHz

5G

millimeter-wave communications

E-band

phase noise mitigation

RF-pilot tone

Author

Jingjing Chen

Chalmers, Microtechnology and Nanoscience (MC2), Microwave Electronics

Bengt-Erik Olsson

Ericsson

A. Persson

Ericsson

J. Hansryd

Ericsson

IEEE Vehicular Technology Conference

15502252 (ISSN)

Art. no. 6965978-
978-147994449-1 (ISBN)

Subject Categories

Other Electrical Engineering, Electronic Engineering, Information Engineering

DOI

10.1109/VTCFall.2014.6965978

ISBN

978-147994449-1

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