Title :
Sigma-delta modulator with spectrally shaped feedback
Author_Institution :
Motorola Labs., Schaumburg, IL, USA
Abstract :
This paper explores the use of finite-impulse response (FIR) filters in the feedback path of a low-pass sigma-delta modulator in order to combat some nonideal effects encountered in an analog implementation. In this approach, the filter corresponding to the first integrator is a lowpass filter which smoothes out the feedback waveform by attenuating the high-frequency quantization noise. This lowpass filtering decreases the power consumption of a switched-capacitor implementation and alternatively reduces the sensitivity to clock jitter in a continuous-time structure. A design methodology ensuring the stability of the system is presented. Theoretical analysis and simulations show that the FIR filters allow a continuous-time single-bit modulator to achieve the jitter performance of a comparable multibit modulator.
Keywords :
FIR filters; circuit feedback; circuit stability; continuous time systems; jitter; low-pass filters; low-power electronics; modulators; network analysis; network synthesis; sigma-delta modulation; switched capacitor networks; ADC; FIR filters; HF quantization noise attenuation; SC implementation; clock jitter; continuous-time structure; design methodology; feedback waveform smoothing; finite-impulse response filters; integrator; jitter performance; low-pass sigma-delta modulator; lowpass filter; oversampling data converter; power consumption; single-bit modulator; spectrally shaped feedback; stability; switched-capacitor implementation; timing uncertainty; Clocks; Delta-sigma modulation; Design methodology; Energy consumption; Feedback; Filtering; Finite impulse response filter; Jitter; Power filters; Quantization;
Journal_Title :
Circuits and Systems II: Analog and Digital Signal Processing, IEEE Transactions on
DOI :
10.1109/TCSII.2003.815023
