Analysis and Design Specifications for Full-Duplex Radio Transceivers under RF Oscillator Phase-Noise with Arbitrary Spectral Shape
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Analysis and Design Specifications for Full-Duplex Radio Transceivers under RF Oscillator Phase-Noise with Arbitrary Spectral Shape. / Syrjälä, V.; Yamamoto, K.; Valkama, M.
julkaisussa: IEEE Transactions on Vehicular Technology, Vuosikerta 65, Nro 8, 2015, s. 6782-6788.Tutkimustuotos › › vertaisarvioitu
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TY - JOUR
T1 - Analysis and Design Specifications for Full-Duplex Radio Transceivers under RF Oscillator Phase-Noise with Arbitrary Spectral Shape
AU - Syrjälä, V.
AU - Yamamoto, K.
AU - Valkama, M.
PY - 2015
Y1 - 2015
N2 - In this correspondence, the effects of oscillator phasenoise with arbitrary spectral characteristics on self-interference cancellation capability of a full-duplex radio transceiver are addressed, and design considerations for optimized PLL design in full-duplex radio are given. The paper first presents a full-duplex transceiver model that inherently mitigates most of the phase-noise effects from the self-interference signal. The remaining effect of the phase noise is then analysed and closed-form expressions for the self-interference power are derived. In the simulations part, a practical phase-locked loop type oscillator is used, which is based on the arbitrary mask phase-noise model. Analytical derivations are verified with the simulations, and the self-interference cancellation performance is thoroughly studied with various parameters. Design considerations are finally given for oscillator design in full-duplex radio transceivers, with the help of tangible parameters of the phase-locked loop type oscillators.
AB - In this correspondence, the effects of oscillator phasenoise with arbitrary spectral characteristics on self-interference cancellation capability of a full-duplex radio transceiver are addressed, and design considerations for optimized PLL design in full-duplex radio are given. The paper first presents a full-duplex transceiver model that inherently mitigates most of the phase-noise effects from the self-interference signal. The remaining effect of the phase noise is then analysed and closed-form expressions for the self-interference power are derived. In the simulations part, a practical phase-locked loop type oscillator is used, which is based on the arbitrary mask phase-noise model. Analytical derivations are verified with the simulations, and the self-interference cancellation performance is thoroughly studied with various parameters. Design considerations are finally given for oscillator design in full-duplex radio transceivers, with the help of tangible parameters of the phase-locked loop type oscillators.
KW - Noise
KW - Oscillators
KW - Phase locked loops
KW - Radio transmitters
KW - Receivers
KW - Silicon
KW - Transceivers
KW - Full-duplex radio
KW - PLL oscillator
KW - oscillator design
KW - oscillator phase noise
KW - self-interference
U2 - 10.1109/TVT.2015.2480338
DO - 10.1109/TVT.2015.2480338
M3 - Article
VL - 65
SP - 6782
EP - 6788
JO - IEEE Transactions on Vehicular Technology
JF - IEEE Transactions on Vehicular Technology
SN - 0018-9545
IS - 8
ER -