Title :
Harmonic series analysis of digital clock distribution circuits
Author_Institution :
AT&T Bell Lab., Naperville, IL, USA
Abstract :
A transmission line model that can be used to analyze clock distribution nets on computer circuit boards is derived. This model uses a finite Fourier series expansion of a square wave clock signal with finite rise and fall times. Complex transmission and reflection coefficients are found for each harmonic at each termination and branch point in the net. Steady state solutions consisting of an infinite number of reflections of each harmonic are then found at any desired point in the circuit, and a time-domain waveform can be reconstructed at that point. This allows the designer to accurately predict such parameters as clock skew, waveshape, and ringing anywhere in the net. This information can then be used to decide the necessity of items, such as termination resistors and their optimum locations. The model has been programmed in FORTRAN, and compares well with actual laboratory data
Keywords :
clocks; harmonic analysis; transmission line theory; FORTRAN; clock distribution nets; clock skew; computer circuit boards; digital clock distribution circuits; fall times; finite Fourier series expansion; harmonic series analysis; reflection coefficients; ringing; rise times; square wave clock signal; termination resistors; time-domain waveform; transmission coefficients; transmission line model; waveshape; Circuit analysis computing; Clocks; Distributed computing; Distributed parameter circuits; Fourier series; Harmonic analysis; Printed circuits; Reflection; Steady-state; Time domain analysis;
Conference_Titel :
Circuits and Systems, 1989., Proceedings of the 32nd Midwest Symposium on
Conference_Location :
Champaign, IL
DOI :
10.1109/MWSCAS.1989.101830
