This paper presents a fast and accurate simulation technique to evaluate the impulse sensitivity function (ISF) of an oscillator. The proposed method, based on the linear-time variant (LTV) analysis of oscillators, com putes the im pulse phase response by means of periodic steady-state (PSS) and periodic transfer function (PXF) simulations available in commercial simulators (Spectre, Eldo, etc.). This technique overwhelms the classical simulation method based on ransient analysis and injection of charge pulses along the oscillator period in terms of speed, precision and ease of use. The good accuracy of the proposed method has been verified in two oscillator topologies, namely a Van der Pol and a ring oscillator.
An efficient linear-time variant simulation technique of oscillator phase sensitivity function
PEPE, FEDERICO;BONFANTI, ANDREA GIOVANNI;LEVANTINO, SALVATORE;MAFFEZZONI, PAOLO;SAMORI, CARLO;LACAITA, ANDREA LEONARDO
2012-01-01
Abstract
This paper presents a fast and accurate simulation technique to evaluate the impulse sensitivity function (ISF) of an oscillator. The proposed method, based on the linear-time variant (LTV) analysis of oscillators, com putes the im pulse phase response by means of periodic steady-state (PSS) and periodic transfer function (PXF) simulations available in commercial simulators (Spectre, Eldo, etc.). This technique overwhelms the classical simulation method based on ransient analysis and injection of charge pulses along the oscillator period in terms of speed, precision and ease of use. The good accuracy of the proposed method has been verified in two oscillator topologies, namely a Van der Pol and a ring oscillator.| File | Dimensione | Formato | |
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