The white noise to phase noise conversion of one- and two-port CMOS differential-pair harmonic oscillators with transformer-based resonators is addressed in this paper. First, the operation of double-tuned transformer resonators is reviewed and design guidelines are proposed to maximize the quality factor. A rigorous approach is then employed to approximate the transformer network with a second order RLC model near the resonances, greatly simplifying the problem of handling the complex equations of a higher order resonator. The results are applied to phase noise calculations, leading to simple, yet accurate, closed-form phase noise expressions in excellent agreement with the simulation results. It is formally proved, in a general case, that high-order resonators do not provide any fundamental advantage in comparison with simple LC-tanks. The two-port transformer based oscillator may be exploited to limit the phase noise contribution of the core transistors through optimization of the bias point and by leveraging the transformer voltage gain.
On the Phase Noise Performance of Transformer-Based CMOS Differential-Pair Harmonic Oscillators
BEVILACQUA, ANDREA
2015
Abstract
The white noise to phase noise conversion of one- and two-port CMOS differential-pair harmonic oscillators with transformer-based resonators is addressed in this paper. First, the operation of double-tuned transformer resonators is reviewed and design guidelines are proposed to maximize the quality factor. A rigorous approach is then employed to approximate the transformer network with a second order RLC model near the resonances, greatly simplifying the problem of handling the complex equations of a higher order resonator. The results are applied to phase noise calculations, leading to simple, yet accurate, closed-form phase noise expressions in excellent agreement with the simulation results. It is formally proved, in a general case, that high-order resonators do not provide any fundamental advantage in comparison with simple LC-tanks. The two-port transformer based oscillator may be exploited to limit the phase noise contribution of the core transistors through optimization of the bias point and by leveraging the transformer voltage gain.Pubblicazioni consigliate
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