DocumentCode
1130150
Title
On Quadrature Sampling of Bandpass Signals
Author
Brown, J.L., Jr.
Author_Institution
The Pennsylvania State University
Issue
3
fYear
1979
fDate
5/1/1979 12:00:00 AM
Firstpage
366
Lastpage
371
Abstract
Deterministic bandpass signals are considered in which the nonzero portions of the signal spectrum are confined to the frequency region 0¿ ¿0 ¿ ¿/2 ¿ |¿| ¿¿0 + ¿/2, where ¿ > 0 is the "bandwidth" of the signal. Quadrature sampling, as introduced by O. D. Grace and S. P. Pitt, requires uniform sampling of both the bandpass signal and its quarter wavelength (based on nominal frequency ¿0) translation, each at a common sampling rate depending on the exact relationship between ¿0 and ¿. When th intersample sample spacing is properly chosen, the bandpass signal can be reconstructed in its entirety from knowledge of the sample values; moreover, with quadrature sampling, the (low-pass) in-phase and quadrature components of the bandpass signal have a simple explicit representation in terms of samples of the original bandpass signal. Time domain techniques, in particular the theory of orthogonal expansions, are here used to derive the quadrature sampling theorem as well as the uniform sampling theorem for bandpass signals, a result usually derived from frequency (spectral) considerations. The resulting minimum sampling rate for the quadrature sampling theorem provides a reduction in the sampling rate previously announced by Grace and Pitt.
Keywords
Bandwidth; Convergence; Frequency; Sampling methods; Signal sampling;
fLanguage
English
Journal_Title
Aerospace and Electronic Systems, IEEE Transactions on
Publisher
ieee
ISSN
0018-9251
Type
jour
DOI
10.1109/TAES.1979.308831
Filename
4102168
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