Title :
Optimization methods and circuit topologies for low-power analog filters
Author_Institution :
Tech. Univ. of Cluj-Napoca, Cluj-Napoca, Romania
Abstract :
This paper presents several solutions for reducing the power consumption of analog filters, from optimizing their transfer functions using tailored genetic algorithms to novel circuit topologies and effective transistor-level implementations. First, transfer functions are obtained that provide same attenuation as their classical-approximation counterparts, but have lower order; next, the transfer function of a cascaded filter is optimized considering implementation-related requirements, such as minimizing the quality factor of the biquads; next, an effective way to implement tunable single - OA biquads is presented. As an application, the design of the channel filter for a Zero-IF UWB receiver, with 250 MHz cut-off frequency and over 30dB rejection of the 530 MHz blocker, is briefly discussed.
Keywords :
analogue integrated circuits; biquadratic filters; cascade networks; circuit optimisation; genetic algorithms; low-power electronics; network topology; operational amplifiers; transfer functions; channel filter; circuit topology; classical approximation counterpart; frequency 250 MHz; frequency 530 MHz; low power analog filter; optimization method; power consumption; tailored genetic algorithm; transfer function; transistor level implementation; tunable single OA biquads; zero-IF UWB receiver; Chebyshev approximation; Cutoff frequency; Genetic algorithms; Optimization; Q-factor; Receivers; Transfer functions; genetic algorithm; optimization; tunable biquad;
Conference_Titel :
Semiconductor Conference (CAS), 2013 International
Conference_Location :
Sinaia
Print_ISBN :
978-1-4673-5670-1
Electronic_ISBN :
1545-827X
DOI :
10.1109/SMICND.2013.6688074
