Title :
Design of Sigma–Delta Modulators With Arbitrary Transfer Functions
Author :
Wang, Yongtao ; Muhammad, Khurram ; Roy, Kaushik
Author_Institution :
Texas Instruments, Dallas, TX
Abstract :
This paper addresses the design of sigma-delta modulators with arbitrary signal and noise transfer functions using a genetic algorithm (GA)-based search method. The objective function is defined to include the difference D between the magnitude of the frequency responses of the designed transfer functions and the ideal one, the quantizer gain lambdacritical for which the poles of the modulator start moving out of the unit circle, and the spread of the coefficients S. Stability can be improved by reducing lambdacritical while a smaller S reduces the implementation complexity. A GA searches for poles/zeros of the transfer functions to minimize the objective function D+w1*lambdacritical+w2*S, where w1 and w2 are two weighing factors. Numerical results demonstrate the effectiveness of the proposed method
Keywords :
frequency response; genetic algorithms; poles and zeros; search problems; sigma-delta modulation; transfer functions; arbitrary signal transfer functions; frequency responses; genetic algorithm-based search method; noise transfer functions; objective function; quantizer gain; sigma-delta modulators; Digital filters; Dynamic range; Noise shaping; Phase locked loops; Signal design; Signal processing algorithms; Signal resolution; Signal to noise ratio; Stability; Transfer functions; Genetic algorithm (GA); noise shaping; root locus; sigma–delta modulator; transfer function;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2006.885735
