DocumentCode
1201663
Title
Noise in Negative-Resistance Amplifiers
Author
Penfield, Paul, Jr.
Volume
7
Issue
2
fYear
1960
fDate
6/1/1960 12:00:00 AM
Firstpage
166
Lastpage
170
Abstract
Negative-resistance amplifiers that consist of a noisy negative resistance imbedded in a lossless three-terminal-pair linear network to make a two-port amplifier are analyzed. It is shown that Haus and Adler\´s noise measure 
, is not constrained to lie between two eigenvalues of a noise matrix, as is the case for bona fide two-port amplifiers. Instead, it is always equal to its optimum value, and is independent of the (lossless) imbedding network used. As a corollary of this, the noise figure of such an amplifier fails to equal its optimum value only insofar as the exchangeable gain is not high. The single value of noise measure may be computed from any simple lossless circuit at hand, or else from the exchangeable noise power of the noisy negative resistance.
, is not constrained to lie between two eigenvalues of a noise matrix, as is the case for bona fide two-port amplifiers. Instead, it is always equal to its optimum value, and is independent of the (lossless) imbedding network used. As a corollary of this, the noise figure of such an amplifier fails to equal its optimum value only insofar as the exchangeable gain is not high. The single value of noise measure may be computed from any simple lossless circuit at hand, or else from the exchangeable noise power of the noisy negative resistance.Keywords
Eigenvalues and eigenfunctions; Equations; Gain measurement; Impedance; Integrated circuit interconnections; Low-noise amplifiers; Negative feedback; Noise figure; Noise measurement; Performance gain;
fLanguage
English
Journal_Title
Circuit Theory, IRE Transactions on
Publisher
ieee
ISSN
0096-2007
Type
jour
DOI
10.1109/TCT.1960.1086655
Filename
1086655
Link To Document