
Accession Number : AD0441215
Title : NONLINEAR RESONANCE COMPUTER COMPONENTS,
Corporate Author : STANFORD UNIV CA STANFORD ELECTRONICS LABS
Personal Author(s) : Ozawa, Takao
Report Date : APR 1963
Pagination or Media Count : 84
Abstract : A mathematical analysis of the series resonant circuit is given. The principle of harmonic balance is applied to the differential equations for the circuit in order to obtain the steady state responses. It is shown that the circuit is a threshold device with respect to the amplitude of the driving voltage. A three phase clock system is used to drive the basic resonant circuits, which are coupled to form threshold logic. Various types of coupling between the circuits are considered. The transient response of the circuit which is closely related to the switching speed is analyzed by a series method. Two basic resonant circuits are coupled to form a flipflop. The conditions for bistability of the coupled circuits are investigated. Possible realizations of the resonant circuit and the logic circuits are suggested, with the assumption that all necessary devices are available. (Author)
Descriptors : (*CIRCUITS, MATHEMATICAL ANALYSIS), DIFFERENTIAL EQUATIONS, COMPUTER LOGIC, SERIES(MATHEMATICS).
Distribution Statement : APPROVED FOR PUBLIC RELEASE