Title :
Numerical algorithm for noise analysis of switched-capacitor networks
Author_Institution :
Motorola Labs, Schaumburg, IL, USA
fDate :
7/1/2003 12:00:00 AM
Abstract :
An algorithm for computerized noise analysis of switched-capacitor networks is presented. The analysis is entirely performed in the frequency domain and the passage from the continuous-time domain to the discrete-time domain is accomplished through numerical integration. The algorithm offers the capability of analyzing circuits incorporating correlated double-sampling or more generally multiple sampling. Numerical calculations consist of standard linear noise analysis and post-processing of the data to account for sample-and-hold and tracking effects. The assumptions fundamental to the analysis are fast and complete charge transfer and also stationarity or cyclostationarity of continuous-time noise sources. Numerical results for stray-insensitive and correlated double-sampling integrators are provided to illustrate the algorithm performance.
Keywords :
circuit analysis computing; circuit noise; frequency-domain analysis; integration; matrix algebra; numerical analysis; signal sampling; switched capacitor networks; Hilbert transform; Laplace transform; SC networks; charge transfer; computerized noise analysis; correlated double-sampling integrators; correlated double-sampling sampling; cyclostationary noise; data post-processing; frequency domain; multiple sampling; numerical algorithm; numerical integration; sample-and-hold effects; standard linear noise analysis; stray-insensitive integrators; switched-capacitor networks; tracking effects; 1f noise; Algorithm design and analysis; Circuit analysis; Circuit noise; Filters; Laplace equations; Performance analysis; Sampling methods; Switched capacitor networks; Switching circuits;
Journal_Title :
Circuits and Systems I: Fundamental Theory and Applications, IEEE Transactions on
DOI :
10.1109/TCSI.2003.813964
