Title :
Analysis of self-noise in clock recovery using arbitrary nonlinearity
Author_Institution :
Lockheed Missiles & Space Co. Inc., Palo Alto, CA, USA
Abstract :
The author describes an analytical method by which the in-phase and quadrature spectra of self-noise in a clock recovery circuit using arbitrary nonlinearity can be computed. The analytical results are confirmed by simulation using a time-truncated Nyquist pulse having a raised-cosine rolloff. In contrast to previous work which computed the spectra of discretized output of the nonlinearity operator, this analysis computes spectra for the continuous signal. Significant differences between results based on the discretized model and those based on the continuous model are illustrated by an example
Keywords :
noise; spectral analysis; synchronisation; analytical method; clock recovery circuit; continuous signal; nonlinearity; raised-cosine rolloff; self-noise; time-truncated Nyquist pulse; Analytical models; Band pass filters; Circuit analysis computing; Clocks; Computational modeling; Jitter; Missiles; Performance analysis; Pulse generation; Signal sampling;
Conference_Titel :
Communications, 1990. ICC '90, Including Supercomm Technical Sessions. SUPERCOMM/ICC '90. Conference Record., IEEE International Conference on
Conference_Location :
Atlanta, GA
DOI :
10.1109/ICC.1990.117320
