Title :
A Digital Requantizer With Shaped Requantization Noise That Remains Well Behaved After Nonlinear Distortion
Author :
Swaminathan, Ashok ; Panigada, Andrea ; Masry, Elias ; Galton, Ian
Author_Institution :
Univ. of California at San Diego, La Jolla
Abstract :
A major problem in oversampling digital-to-analog converters and fractional-N frequency synthesizers, which are ubiquitous in modern communication systems, is that the noise they introduce contains spurious tones. The spurious tones are the result of digitally generated, quantized signals passing through nonlinear analog components. This paper presents a new method of digital requantization called successive requantization, special cases of which avoids the spurious tone generation problem. Sufficient conditions are derived that ensure certain statistical properties of the quantization noise, including the absence of spurious tones after nonlinear distortion. A practical example is presented and shown to satisfy these conditions.
Keywords :
digital-analogue conversion; frequency synthesizers; nonlinear distortion; quantisation (signal); statistical analysis; communication systems; digital requantizer; fractional-N frequency synthesizers; nonlinear analog components; nonlinear distortion; oversampling digital-to-analog converters; quantization noise; shaped requantization noise; statistical properties; successive requantization; Analog circuits; Circuit noise; Digital modulation; Digital-analog conversion; Low-frequency noise; Noise shaping; Nonlinear distortion; Quantization; Signal processing; Sufficient conditions; Dither techniques; nonlinearities; quantization;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2007.899385
