Title :
Analog-to-digital conversion via duty-cycle modulation
Author_Institution :
Philips Res. Lab., Eindhoven, Netherlands
fDate :
11/1/1997 12:00:00 AM
Abstract :
An exchange of the amplitude axis for the time axis offers a possibility of overcoming resolution problems in analog-to-digital conversion in low-voltage CMOS circuits and/or of circumventing special resistor options in silicided processes. This exchange can be effected via some form of duty-cycle modulation. For its implementation a circuit configuration is described, consisting of an asynchronous sigma-delta modulator, followed by a phase-synchronized tapped ring oscillator which produces a poly-phase signal for sampling the asynchronous signal at a relatively low frequency. A detailed analysis is presented which accurately predicts the properties of the conversion scheme with respect to aliasing, quantization noise and nonlinear distortion. The results are illustrated with simulations of a design example
Keywords :
analogue-digital conversion; asynchronous circuits; quantisation (signal); sigma-delta modulation; aliasing; analog-to-digital conversion; asynchronous sigma-delta modulator; design; duty-cycle modulation; low-voltage CMOS circuit; nonlinear distortion; phase-synchronized tapped ring oscillator; poly-phase signal sampling; quantization noise; resistor; resolution; silicidation process; simulation; Analog-digital conversion; CMOS analog integrated circuits; CMOS process; Delta-sigma modulation; Frequency; Phase modulation; Quantization; Resistors; Ring oscillators; Signal sampling;
Journal_Title :
Circuits and Systems II: Analog and Digital Signal Processing, IEEE Transactions on
