About the Maximum Transfer of Power in Time-Varying Linear Circuits

M. de la Sen; S. Alonso-Quesada; A.J. Garrido; A. Ibeas

doi:10.4028/www.scientific.net/AMR.629.894

Paper Titles

A Kind of Mathematical Method to Assess the Threat Degree of Aerial Targets
p.868

Laser Localization of Autonomous Vehicle Using an Improved Particle Filter
p.873

Vessel Surface Equipment Attitude Measurement Based on Conventional Inertial Reference System
p.878

Discussion on General Solution of the Laplace Equation for Far Field Electric Potential
p.887

About the Maximum Transfer of Power in Time-Varying Linear Circuits
p.894

Study on a Nonlinear Oscillator of Elastic String and its Application in Energy Harvesting
p.900

Fundamental Study on the NMR Spectroscopy in a Time Dependent Longitudinal Field
p.906

A Study of Magnetic Susceptibility of NMR Samples in a Time Dependent Longitudinal Field
p.911

A Characteristic Finite Difference Domain Decomposition Substructuring Method for Immiscible Displacement Problems in Three-Dimensional Porous Media
p.915

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 629About the Maximum Transfer of Power in...

About the Maximum Transfer of Power in Time-Varying Linear Circuits

Abstract:

This paper discusses the mathematical conditions of achievement of maximum power transfer from source to load in electric circuits where their basic elements (resistance, inductance and capacitance) are eventually linear and time-varying but not necessarily everywhere time-differentiable. This last concern is seen to be relevant for the inductive part of the circuit whose time- derivative, where it exists, plays the role of a resistor while it has an impulsive characterization at time instants where such a time-derivative does not exist. The power transfer degradation through time is also characterized related to the initial values of the circuitry provided that the source remains unaltered through time.

You might also be interested in these eBooks

Material Sciences and Manufacturing Technology

View Preview

Info:

Periodical:

Advanced Materials Research (Volume 629)

Pages:

894-899

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.629.894

Citation:

Cite this paper

Online since:

December 2012

Authors:

M. de la Sen, S. Alonso-Quesada, A.J. Garrido, A. Ibeas

Keywords:

Circuit Analysis, Dirac Distribution, Maximum Power Transfer Theorem, Power Dissipation, Time-Varying Electric Components

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] N. Morris, Electrical & Electronic Engineering Principles, Prentice Hall, Longman group UK Limited, London, (1994).

Google Scholar

[2] L.A. Zadeh, Circuit analysis of linear varying parameter networks, J. Applied Physics, Vol. 21, no. 11, pp.1171-1177, (1950).

DOI: 10.1063/1.1699560

Google Scholar

[3] M. De la Sen, Robust stability of a class of linear time-varying systems, IMA Journal of Mathematical Control and Information, Vol. 19, issue 4, pp.399-418, (2002).

DOI: 10.1093/imamci/19.4.399

Google Scholar

[4] M. De la Sen, A method for general design of positive real functions, IEEE Transactions on Circuits and Systems I- Regular Papers, Vol. 45, issue 7, pp.764-769, (1998).

DOI: 10.1109/81.703845

Google Scholar

[5] M. De la Sen and S. Alonso-Quesada, A control theory point of view on Beverton- Holt equation in population dynamics and some of its generalizations, Applied Mathematics and Computation, Vol. 199, issue 2, pp.464-481, doi: 10. 1016/j. amc. 2007. 10. 021, (2008).

DOI: 10.1016/j.amc.2007.10.021

Google Scholar

[6] M. Delasen, Application of the non-periodic sampling to the identifiability and model-matching problems in dynamic systems, International Journal of Systems Science, Vol. 14, issue 4, pp.367-383, (1983).

DOI: 10.1080/00207728308926464

Google Scholar

[7] A. Ibeas and M. De la Sen, Robustly stable adaptive control of a tandem of master-slave robotic manipulators with force reflection by using a multiestimation scheme, IEEE Transactions on Systems, Man and Cybernetics, Vol. 36, issue 5, pp.1162-1179, (2006).

DOI: 10.1109/tsmcb.2006.874693

Google Scholar

[8] L.A. Zadeh, The determination of the impulsive response of variable networks, Journal of Applied Physics, Vol. 21, issue 7, pp.642-645, (1950).

DOI: 10.1063/1.1699724

Google Scholar

[9] A. Bilbao-Guillerna, M. De la Sen, A. Ibeas and S. Alonso-Quesada, Robustly stable multiestimation scheme for adaptive control and identification with model reduction issues, Discrete Dynamics in Nature and Society, Vol. 2005, issue 1, pp.31-67, doi: 10. 1155/DDNS. 2005. 31, (2005).

DOI: 10.1155/ddns.2005.31

Google Scholar