Active Distributed RC Realization of Low-Pass Magnitude Specifications

Author

Ghausi, Mohammed S. ; Bello, Vincent G.

Volume

16

Issue

3

fYear

1969

fDate

8/1/1969 12:00:00 AM

Firstpage

346

Lastpage

358

Abstract

This paper introduces a design method that allows one to find easily an active distributed $RC$ network transfer function whose magnitude approximates the magnitude of a specified lumped low-pass transfer function. The resulting distributed $RC(\\overline {RC})$ transfer function is a product of simple transfer functions rational in $P = \\cosh \\sqrt {sRC}$ , each using a different $RC$ product. The overall transfer function is then realized as a cascade of the realizations of the simple transfer functions using a variety of available synthesis techniques. In addition, the characterization of a distributed $RC$ transfer function as a lumped transfer function times a delay factor, as presented herein, permits easy calculation of the transient response of the network. An example of the magnitude approximation is given together with the phase correction made by adding a delay term.

Keywords

Active distributed-parameter networks; Added delay; Buildings; Design methodology; Distributed parameter circuits; Fabrication; Frequency domain analysis; Network synthesis; Poles and zeros; Power system transients; Transfer functions;

fLanguage

English

Journal_Title

Circuit Theory, IEEE Transactions on

Publisher

ieee

ISSN

0018-9324

Type

jour

DOI

10.1109/TCT.1969.1082969

Filename

1082969