Journal ArticleDOI
On Oscillator Design for Maximum Power
TLDR
In this paper, a method of oscillator design that maximizes the output power is presented, which is applicable to the class of nonlinear elements whose single frequency largesignal parameters depend on a single port voltage.Abstract:
A method of oscillator design that maximizes the output power is presented. The embedding network is derived from a set of four linear algebraic equations. The method is applicable to the class of nonlinear elements whose single frequency largesignal parameters depend on a single port voltage.read more
Citations
More filters
Journal ArticleDOI
Large Signal GaAs MESFET Oscillator Design
TL;DR: In this article, large signal measurements are made to determine a mathematical relationship between only those parameters which vary under large signal conditions, and then those parameters varying under large signals are incrementally altered until large signal S parameters are obtained which correspond to maximum oscillator output power.
Journal ArticleDOI
An Analytic Approach to Optimum Oscillator Design Using S-Parameters
R.J. Gilmore,F.J. Rosenbaum +1 more
TL;DR: In this article, an analytic approach to the design of microwave FET oscillators for maximum power output into a given load is presented by using FET S-parameters, characterized as a function of incident input powers, which can he obtained for any standard topology.
Journal ArticleDOI
216- and 316-GHz 45-nm SOI CMOS Signal Sources Based on a Maximum-Gain Ring Oscillator Topology
TL;DR: In this paper, a maximum-gain ring oscillator (MGRO) topology was proposed to maximize the power gain achieved by the active devices in a ring oscillators using appropriately designed passive matching networks to maximize frequency of oscillation.
Book
Nonlinear RF circuits and nonlinear vector network analyzers : interactive measurement and design techniques
TL;DR: In this article, the authors present key advances in the field that you need to know about and emerging patterns in large-signal measurement techniques, modeling and nonlinear circuit design theory supported by practical examples.
Journal ArticleDOI
An Efficient High-Power Fundamental Oscillator Above $f_{\max }/2$ : A Systematic Design
TL;DR: The proposed method considers the possible process, voltage, temperature variations as well as modeling errors of the passive components in the design stage to shape and maximize the unilateral power gain of the network at the desired frequency using optimum passive internal and external feedback networks.
References
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Journal ArticleDOI
Power Gain in Feedback Amplifier
TL;DR: In this paper, a linear three-terminal device Z is imbedded in a lossless passive network N and the properties of the complete system, as measured at two specified terminal pairs, are described by the open-circuit impedances Z_{11, Z_{12}, Z_{21, and Z_22.
Journal ArticleDOI
Instability in Two-Port Active Networks
D. Page,A. Boothroyd +1 more
TL;DR: In this article, the general bilateral, two-port active network, defined by its y, h, z, or g parameters, is treated for arbitrary terminations and external feedback with and without transformers.
Journal ArticleDOI
A design basis for junction transistor oscillator circuits
TL;DR: A unified approach to the design of junction transistor oscillators is presented, based on a study of the dynamic admittance presented to the load at the oscillation frequency by a bilateral active four-pole network with passive feedback.
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An Analytic Approach to Optimum Oscillator Design Using S-Parameters
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