Title :
Nonlinear dynamics of first- and second-order log-domain circuits
Author :
Ascoli, Alon ; Mahon, Arnold ; Feely, Orla
Author_Institution :
Dept. of Electron. & Electr. Eng., Univ. Coll. Dublin, Ireland
fDate :
7/1/2005 12:00:00 AM
Abstract :
Log-domain filters use the large-signal exponential current-voltage relationship of the bipolar junction transistor to convert signals to logarithmic form, where they are processed, and to map them back to the linear domain after processing. Due to their internally nonlinear nature, application of standard linear circuit design techniques to such networks can give rise to unexpected externally nonlinear behavior. Methods of nonlinear dynamics are used here to explain the undesired nonlinearities recently observed in a differential first-order log-domain integrator and to investigate the input/output behavior of the corresponding low-pass filter. The nonlinear behavior of a floating-capacitor differential second-order log-domain bandpass filter is also investigated and explained.
Keywords :
analogue circuits; band-pass filters; bipolar transistors; continuous time filters; integrating circuits; linear network analysis; low-pass filters; analog circuits; bandpass filter; bipolar junction transistor; differential filter; floating-capacitor filter; input/output behavior; linear circuit design; log-domain circuits; log-domain filter; log-domain filters; log-domain integrator; low-pass filter; nonlinear circuits; nonlinear dynamics; nonlinear oscillations; second-order filter; translinear circuits; Band pass filters; Bipolar transistor circuits; Capacitors; Circuit simulation; Circuit topology; Linear circuits; Linearity; Low pass filters; Nonlinear filters; Signal processing; Analog circuits; log-domain circuits; nonlinear circuits; nonlinear oscillations; stability; translinear circuits;
Journal_Title :
Circuits and Systems I: Regular Papers, IEEE Transactions on
DOI :
10.1109/TCSI.2005.851715
