Title :
Spectral analysis of quantization noise in a single-loop sigma-delta modulator with DC input
Author_Institution :
Dept. of Electr. Eng., Stanford Univ., CA, USA
fDate :
6/1/1989 12:00:00 AM
Abstract :
An exact discrete-time analysis of the moments and spectra of the quantization noise of a discrete-time single-loop sigma-delta modulator with a DC input is presented. An exact difference equation for the discrete-time nonlinear system is used to evaluate the first- and second-order moments and power spectrum of the binary quantizer noise and the binary quantizer output for a single-loop sigma-delta encoder with a DC input. It is shown that the sample mean and power of the binary quantization noise are consistent with the common uniform distribution assumption, but that the autocorrelation and power spectrum are not consistent with the white noise assumption. The results are used to evaluate the overall sample average mean squared quantization error as a function of the decimation filter used
Keywords :
analogue-digital conversion; correlation theory; delta modulation; encoding; random noise; spectral analysis; DC input; autocorrelation; binary quantizer noise; binary quantizer output; common uniform distribution; decimation filter; difference equation; discrete-time analysis; discrete-time nonlinear system; first order moments; power spectrum; quantization noise; sample average mean squared quantization error; sample mean; second-order moments; sigma-delta encoder; sigma-delta modulator; single-loop; Decoding; Delta-sigma modulation; Difference equations; Feedback loop; Filters; Nonlinear systems; Quantization; Sampling methods; Signal resolution; Spectral analysis;
Journal_Title :
Communications, IEEE Transactions on
