Title :
An Integrated CMOS Passive Self-Interference Mitigation Technique for FDD Radios
Author :
Tong Zhang ; Suvarna, Apsara Ravish ; Bhagavatula, Venumadhav ; Rudell, Jacques Christophe
Author_Institution :
Electr. Eng. Dept., Univ. of Washington, Seattle, WA, USA
Abstract :
This paper presents an integrated passive self-interference mitigation (SIM) technique for FDD radios. A Four Port Canceller (FPC) serves a dual function as a receiver input matching network, and provides an auxiliary path from the transmitter (TX) to the receiver (RX) to perform leakage cancellation, with minimal penalty on the RX noise figure (NF), and power consumption. An example of this technique is applied to the design of a WCDMA front-end consisting of a low noise amplifier (LNA), the FPC, and an emulated power amplifier (PA) in a 40 nm, 6-metal-layer TSMC CMOS process. With proper tuning of the FPC and the use of an off-chip +30 dBm power amplifier, greater than 20 dB of TX leakage suppression is achieved over a cancellation bandwidth of 5 MHz.
Keywords :
CMOS integrated circuits; code division multiple access; interference suppression; low noise amplifiers; radio receivers; radio transmitters; radiofrequency interference; radiofrequency power amplifiers; FDD radios; FPC; LNA; NF; PA; RX noise figure; SIM technique; TX; WCDMA front-end; bandwidth 5 MHz; four port canceller; frequency division duplexing; integrated TSMC CMOS passive self-interference mitigation technique; leakage cancellation; low noise amplifier; power amplifier; power consumption; receiver input matching network; transmitter; wideband code division multiple access; Couplings; Multiaccess communication; Noise; Receivers; Spread spectrum communication; Transceivers; Tuning; Fully passive; SAW-less transceivers; Wideband Code Division multiple access (WCDMA); interference suppression; transmitter leakage;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2015.2408324
