An Efficient Sinusoid-Like Pseudo Random Sequence Modulator/Demodulator System With Reduced Adjacent Channel Leakage and High Rejection to Random and Systematic Interference

Abstract

Emerging wireless communication services require the efficient use of available spectrum and improved co-existence of different standards placed in adjacent frequency bands. Co-existence with leakage from primary users in adjacent channels, which falls in the band of interest, is a primary concern for existing and emerging technologies. In this paper, a mixed signal IC technique based on direct sequence spread spectrum is proposed to improve co-existence of radar systems with commercial wireless communication systems. A sinusoid-like pseudo-random sequence is introduced to reduce leakage from radar systems into adjacent channels. The proposed approach reduces the radar signal leakage on adjacent channels by about 22dB when compared with the conventional binary pseudo-random sequence. The proposed technique randomizes narrow and wideband systematic in-band interference, after which interference power can be effectively attenuated through averaging techniques. Experimental results from a 40nm CMOS technology modulator/demodulator prototype demonstrates the feasibility of the proposed architecture. The modulator and demodulator system requires a silicon area of 0.0459mm <sup xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">2</sup> and consumes 4.33mW in total.