Title :
Recent Developments in Fully-Integrated RF Self-Interference Cancellation for Frequency-Division and Full-Duplex Radios
Author :
Jin Zhou ; Krishnaswamy, Harish
Author_Institution :
Dept. of Electr. Eng., Columbia Univ., New York, NY, USA
Abstract :
RF self-interference cancellation (SIC) relaxes duplexer isolation requirements in frequency- division-duplex (FDD) radios, enabling compact/tunable duplexers. RF SIC is also critical for full-duplex radios where extremely-high levels of SIC must be achieved, necessitating SIC at various points in the receiver chain. While active RF SIC is potentially compact and highly reconfigurable, the use of active circuitry in the canceller introduces noise, distortion and power dissipation challenges. Furthermore, and particularly for fully-integrated silicon-based SIC implementations, the bandwidth (BW) of RF SIC is limited by the frequency selectivity of the antenna interface and the wireless self-interference channel. In this paper, we present recent developments in fully-integrated RF SIC techniques that address these challenges.
Keywords :
antennas; distortion; elemental semiconductors; frequency division multiplexing; interference suppression; radio receivers; radiofrequency integrated circuits; radiofrequency interference; silicon; FDD radios; Si; active circuitry; antenna interface; bandwidth; compact-tunable duplexers; duplexer isolation requirements; frequency-division-duplex radios; full-duplex radios; fully-integrated RF SIC techniques; fully-integrated RF self-interference cancellation; fully-integrated silicon-based SIC; power dissipation; receiver chain; wireless self-interference channel; Band-pass filters; Distortion; Noise; Radio frequency; Receivers; Silicon; Silicon carbide;
Conference_Titel :
Vehicular Technology Conference (VTC Spring), 2015 IEEE 81st
Conference_Location :
Glasgow
DOI :
10.1109/VTCSpring.2015.7146045
