DocumentCode
1189825
Title
Multiple reflection noise production on transmission systems with periodic or quasi-periodic impedance disturbances-A time-domain approach
Author
Hartman, Davis H.
Volume
31
Issue
10
fYear
1984
fDate
10/1/1984 12:00:00 AM
Firstpage
866
Lastpage
875
Abstract
The problem of multiple reflection noise production on a transmission line with periodic or quasi-periodic impedance disturbances has been studied. This work involved a time domain approach (including a Monte Carlo simulation), reported here, and also a frequency domain approach which has been reported separately. Particular attention was given to the case where pulsewidths
were of the same order of magnitude as the quantity
where
is the average distance between disturbances and
is the propagation velocity of the signals in the transmission medium. The actual system studied was an array telemetry system used in oceanographic situations. However, the results reported here are general and can be applied directly to any digital transmission system having a periodic or quasi-periodic disturbance structure. In this paper, the time domain model is developed and the results of a Monte Carlo simulation employing this model are presented. Various system noise sensitivity studies are reported, including studies of the effects of noise source position, pulse rise time, and capacitive loading.
were of the same order of magnitude as the quantity
where
is the average distance between disturbances and
is the propagation velocity of the signals in the transmission medium. The actual system studied was an array telemetry system used in oceanographic situations. However, the results reported here are general and can be applied directly to any digital transmission system having a periodic or quasi-periodic disturbance structure. In this paper, the time domain model is developed and the results of a Monte Carlo simulation employing this model are presented. Various system noise sensitivity studies are reported, including studies of the effects of noise source position, pulse rise time, and capacitive loading.Keywords
Circuit noise; General circuits and systems theory; Measurement-system data handling; Transmission-line discontinuities; Acoustic reflection; Bit error rate; Coaxial cables; Degradation; Impedance; Production systems; Telemetry; Time domain analysis; Transmission lines; Transmitters;
fLanguage
English
Journal_Title
Circuits and Systems, IEEE Transactions on
Publisher
ieee
ISSN
0098-4094
Type
jour
DOI
10.1109/TCS.1984.1085437
Filename
1085437
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