This paper proposes a numerical method for accurate time-domain noise simulation of mixed analog/digital electrical circuits that in principle do not admit a periodic steady-state working condition, such as fractional $DeltaSigma$ PLL. By means of a tool known as saltation matrix, which allows dealing with non-smooth vector fields, a variational approach is adopted. The power spectral density of a noisy electrical variable is computed by applying the Thomson's MTM to the numerical solution of the stochastic variational model of the circuit. This allows to resort to a single transient simulation run, thus avoiding cpu time consuming Monte-Carlo-like approaches. The effectiveness of the proposed method is shown by comparing simulation results related to a commercial fractional $DeltaSigma$ PLL with experimental data.
Efficient Transient Noise Analysis of Non-Periodic Mixed Analog/Digital Circuits
BIGGIO, MATTEO;STORACE, MARCO
2015-01-01
Abstract
This paper proposes a numerical method for accurate time-domain noise simulation of mixed analog/digital electrical circuits that in principle do not admit a periodic steady-state working condition, such as fractional $DeltaSigma$ PLL. By means of a tool known as saltation matrix, which allows dealing with non-smooth vector fields, a variational approach is adopted. The power spectral density of a noisy electrical variable is computed by applying the Thomson's MTM to the numerical solution of the stochastic variational model of the circuit. This allows to resort to a single transient simulation run, thus avoiding cpu time consuming Monte-Carlo-like approaches. The effectiveness of the proposed method is shown by comparing simulation results related to a commercial fractional $DeltaSigma$ PLL with experimental data.File | Dimensione | Formato | |
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