A Low-Power Active Self-Interference Cancellation Technique for SAW-Less FDD and Full-Duplex Receivers

Abstract: An active self-interference (SI) cancellation technique for SAW-less receiver linearity improvement is proposed. The active canceler combines programmable gain and phase in a single stage and is co-designed with a highly-linear LNA, achieving low noise and low power. A cross-modulation mechanism of the SI canceler is identified and strongly suppressed thanks to the introduction of an internal resistive feedback, enabling high effective receiver IIP3. TX leakage of up to −4 dBm of power is suppressed by over 30… Show more

“…While the former does not consume any additional power, the latter makes use of an additional RF chain with analog to digital converters, RF attenuators etc, and these components consume power. With recent advances in semiconductor technology, low power RF components are readily available [31] and power-efficient techniques for self interference cancellation have been developed [32] [33]. We therefore reasonably assume and then show via numerical results that provided sufficient transmit power from the source, the gain obtained from self-interference power harvesting in the RF domain at the relay would make up for the power consumed in active cancellation, such that the relay operation can remain self-sustained with no external power source requirement.…”

Optimal Transmission Using a Self-Sustained Relay in a Full-Duplex MIMO System

“…While the former does not consume any additional power, the latter makes use of an additional RF chain with analog to digital converters, RF attenuators etc, and these components consume power. With recent advances in semiconductor technology, low power RF components are readily available [31] and power-efficient techniques for self interference cancellation have been developed [32] [33]. We therefore reasonably assume and then show via numerical results that provided sufficient transmit power from the source, the gain obtained from self-interference power harvesting in the RF domain at the relay would make up for the power consumed in active cancellation, such that the relay operation can remain self-sustained with no external power source requirement.…”

Optimal Transmission Using a Self-Sustained Relay in a Full-Duplex MIMO System