Discrete RF power synthesis of OFDM signals with high efficiency at high peak to average power ratios

Author

Vadde, Venkatesh

Author_Institution

Nokia Res. Center, Irving, TX, USA

fYear

2003

fDate

10-13 Aug. 2003

Firstpage

43

Lastpage

46

Abstract

OFDM signals suffer from large peak to average power ratios (PAR.) forcing the RF power amplifier (PA) to operate inefficiently in backoff modes. This problem is hard to solve, especially when the RFPA comprises a single active device. We describe a technique of power synthesis using several discretely combined devices (FET arrays) to enhance RF power efficiency while achieving high PAR, values. We show that by suitably combining phase-switched amplifiers, one can achieve comparable BER performance to normal class-A linear amplifiers. We analyze the effect of phase distortions that arise in large integrated FET arrays, and we quantify the PM-AM effects therein. Simulations in AWGN show that one can achieve BERs comparable to full-precision, linear approaches by using only 4-5 discrete RF synthesis stages in the RFPA module.

Keywords

OFDM modulation; array signal processing; error statistics; field effect transistors; phase shifters; power amplifiers; power dividers; radiofrequency amplifiers; telecommunication switching; AWGN; BER performance; FET arrays; OFDM signals; PM-AM effects; additive white Gaussian noise; average power ratios; backoff modes; bit error rate; class-A linear amplifiers; discrete RF power synthesis; field effect transistors; multicarrier systems; orthogonal frequency division multiplexing; phase-switched amplifiers; Bit error rate; FETs; OFDM; Peak to average power ratio; Phased arrays; Power amplifiers; RF signals; Radio frequency; Radiofrequency amplifiers; Signal synthesis;

fLanguage

English

Publisher

ieee

Conference_Titel

Radio and Wireless Conference, 2003. RAWCON '03. Proceedings

Print_ISBN

0-7803-7829-6

Type

conf

DOI

10.1109/RAWCON.2003.1227888

Filename

1227888