Abstract
Self-interference (SI) is the key issue that prevents in-band full-duplex (IBFD) communications from being practical. Analog multi-tap adaptive filter is an efficient structure to cancel SI since it can capture the nonlinear components and noise in the transmitted signal. Analog least mean square (ALMS) loop is a simple adaptive filter that can be implemented by purely analog means to sufficiently mitigate SI. Comprehensive analyses on the behaviors of the ALMS loop have been published in the literature. This paper proposes a practical structure and presents an implementation of the ALMS loop. By employing off-the-shelf components, a prototype of the ALMS loop including two taps is implemented for an IBFD system operating at the carrier frequency of 2.4 GHz. The prototype is firstly evaluated in a single carrier signaling IBFD system with 20 MHz and 50 MHz bandwidths, respectively. Measured results show that the ALMS loop can provide 39 dB and 33 dB of SI cancellation in the radio frequency domain for the two bandwidths, respectively. Furthermore, the impact of the roll-off factor of the pulse shaping filter on the SI cancellation level provided by the prototype is presented. Finally, the experiment with multicarrier signaling shows that the performance of the ALMS loop is the same as that in the single carrier system. These experimental results validate the theoretical analyses presented in our previous publications on the ALMS loop behaviors.
Highlights
The sub-6 GHz spectrum will be more and more congested as the Third Generation PartnershipProject has indicated that the fifth-generation (5G) new radio systems will operate in this frequency band
We evaluate the level of cancellation given by the prototype using the transmitted signals with different bandwidths in the single carrier In-band full-duplex (IBFD) system
Transmitted data are modulated with quadrature phase shift keying (QPSK) and filtered by the root-raised cosine (RRC) pulse shaping filter before up-converted to the radio frequency (RF) frequency
Summary
The sub-6 GHz spectrum will be more and more congested as the Third Generation Partnership. An approach that does not require DSP can be found in [18], where a circulator combined with an adjustable impedance mismatched terminal (IMT) circuit is used to generate the cancellation signal from the reflected SI This method is only suitable for a single antenna system because it may be very challenging to tune the IMT circuit in more complex SI channels, such as those in IBFD MIMO systems. The promising application of the ALMS loop in IBFD MIMO systems has been presented in [20] with a beam-based analog SI cancellation structure The behaviors of this adaptive filter are comprehensively investigated in [12,19,21,22,23,24].
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