DocumentCode
1177952
Title
Maximally flat low-pass transfer function synthesis using continuous and discrete filters
Author
Bruton, L.T. ; Ramamoorthy, P.A.
Volume
23
Issue
8
fYear
1976
fDate
8/1/1976 12:00:00 AM
Firstpage
510
Lastpage
513
Abstract
Discrete linear uniformly sampled digital filters are often employed in situations where there exists some preliminary linear analog continuous filtering operation. The latter continuous filter transfer function 
is usually a low-pass function that is required for such purposes as reducing the effects of aliasing, limiting the dynamic range of the signal prior to digitization, etc. The realization of is usually achieved quite independently of the realization of the subsequent discrete transfer function 
, where 
. In this contribution, it is shown that maximally flat solutions exist for the composite transfer function 
, so that it is possible to employ a simple baseband prefiliter which, combined with , results in an overall maximally flat low-pass response.
is usually a low-pass function that is required for such purposes as reducing the effects of aliasing, limiting the dynamic range of the signal prior to digitization, etc. The realization of is usually achieved quite independently of the realization of the subsequent discrete transfer function , where . In this contribution, it is shown that maximally flat solutions exist for the composite transfer function , so that it is possible to employ a simple baseband prefiliter which, combined with , results in an overall maximally flat low-pass response.Keywords
Cascade networks; Digital filters; Low-pass filters; Maximally-flat-magnitude filters; Circuits and systems; Differential equations; Feedback; Filters; Hilbert space; Kernel; Laboratories; Nonlinear systems; Tensile stress; Transfer functions;
fLanguage
English
Journal_Title
Circuits and Systems, IEEE Transactions on
Publisher
ieee
ISSN
0098-4094
Type
jour
DOI
10.1109/TCS.1976.1084245
Filename
1084245
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