DocumentCode
1169139
Title
Improvements in the theory and design of RC oscillators
Author
Stevens, Brian ; Manning, Robert
Volume
18
Issue
6
fYear
1971
fDate
11/1/1971 12:00:00 AM
Firstpage
636
Lastpage
643
Abstract
The general oscillator theory pertinent to frequency stability is presented, and the superiority of the bridge oscillator is demonstrated. The tables provided show the similarity between the transfer functions, and certain other network functions, of the commonly used
oscillator networks. These networks are optimized for use in frequency stable oscillators, and some very simple constraints are found for the parallel-
network. Contrary to the ideas of previous authors the best network for an
oscillator cannot be established theoretically. Instead, it is shown that the seven networks given fall into only three groups. Together these groups provide a continuous range of the two major properties required for good frequency stability. These properties must be chosen empirically to match the amplifier used in a particular oscillator.
oscillator networks. These networks are optimized for use in frequency stable oscillators, and some very simple constraints are found for the parallel-
network. Contrary to the ideas of previous authors the best network for an
oscillator cannot be established theoretically. Instead, it is shown that the seven networks given fall into only three groups. Together these groups provide a continuous range of the two major properties required for good frequency stability. These properties must be chosen empirically to match the amplifier used in a particular oscillator.Keywords
Active networks; Frequency stability; RC oscillators; Active circuits; Bridges; Constraint optimization; Frequency; Impedance; Oscillators; Shape; Stability; Transfer functions; Voltage;
fLanguage
English
Journal_Title
Circuit Theory, IEEE Transactions on
Publisher
ieee
ISSN
0018-9324
Type
jour
DOI
10.1109/TCT.1971.1083341
Filename
1083341
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