On Passivity and Power-Balance Inequalities of Nonlinear RLC Circuits

Dimitri Jeltsema; Romeo Ortega; Jacquelien M.A. Scherpen

doi:10.1109/TCSI.2003.816332

On Passivity and Power-Balance Inequalities of Nonlinear RLC Circuits

Dimitri Jeltsema, Romeo Ortega, Jacquelien M.A. Scherpen

Engineering and Technology Institute Groningen

Onderzoeksoutput: Article › Academic

52 Citaten (Scopus)

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Arbitrary interconnections of passive (possibly nonlinear) resistors, inductors, and capacitors define passive systems, with power port variables the external source voltages and currents, and storage function the total stored energy. In this paper, we identify a class of RLC circuits (with convex energy function and weak electromagnetic coupling), for which it is possible to “add a differentiation” to the port terminals preserving passivity—with a new storage function that is directly related to the circuit power. To establish our results, we exploit the geometric property that voltages and currents in RLC circuits live in orthogonal spaces, i.e., Tellegen’s theorem, and heavily rely on the seminal paper of Brayton and Moser published in the early sixties.

Originele taal-2	English
Pagina's (van-tot)	1174-1179
Aantal pagina's	6
Tijdschrift	IEEE Transactions on Circuits and Systems I: Fundamental Theory and Applications
Volume	50
Nummer van het tijdschrift	9
DOI's	https://doi.org/10.1109/TCSI.2003.816332
Status	Published - 2003

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title = "On Passivity and Power-Balance Inequalities of Nonlinear RLC Circuits",

abstract = "Arbitrary interconnections of passive (possibly nonlinear) resistors, inductors, and capacitors define passive systems, with power port variables the external source voltages and currents, and storage function the total stored energy. In this paper, we identify a class of RLC circuits (with convex energy function and weak electromagnetic coupling), for which it is possible to “add a differentiation” to the port terminals preserving passivity—with a new storage function that is directly related to the circuit power. To establish our results, we exploit the geometric property that voltages and currents in RLC circuits live in orthogonal spaces, i.e., Tellegen{\textquoteright}s theorem, and heavily rely on the seminal paper of Brayton and Moser published in the early sixties.",

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author = "Dimitri Jeltsema and Romeo Ortega and Scherpen, {Jacquelien M.A.}",

note = "Relation: http://www.rug.nl/tbk/onderzoek/onderzoeksinstituten/itm/index Rights: University of Groningen, Research Institute of Technology and Management",

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AU - Jeltsema, Dimitri

AU - Ortega, Romeo

AU - Scherpen, Jacquelien M.A.

N1 - Relation: http://www.rug.nl/tbk/onderzoek/onderzoeksinstituten/itm/index Rights: University of Groningen, Research Institute of Technology and Management

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N2 - Arbitrary interconnections of passive (possibly nonlinear) resistors, inductors, and capacitors define passive systems, with power port variables the external source voltages and currents, and storage function the total stored energy. In this paper, we identify a class of RLC circuits (with convex energy function and weak electromagnetic coupling), for which it is possible to “add a differentiation” to the port terminals preserving passivity—with a new storage function that is directly related to the circuit power. To establish our results, we exploit the geometric property that voltages and currents in RLC circuits live in orthogonal spaces, i.e., Tellegen’s theorem, and heavily rely on the seminal paper of Brayton and Moser published in the early sixties.

AB - Arbitrary interconnections of passive (possibly nonlinear) resistors, inductors, and capacitors define passive systems, with power port variables the external source voltages and currents, and storage function the total stored energy. In this paper, we identify a class of RLC circuits (with convex energy function and weak electromagnetic coupling), for which it is possible to “add a differentiation” to the port terminals preserving passivity—with a new storage function that is directly related to the circuit power. To establish our results, we exploit the geometric property that voltages and currents in RLC circuits live in orthogonal spaces, i.e., Tellegen’s theorem, and heavily rely on the seminal paper of Brayton and Moser published in the early sixties.

KW - Tellegen’s theorem

KW - passivity

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KW - Brayton–Moser equations

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JO - IEEE Transactions on Circuits and Systems I: Fundamental Theory and Applications

JF - IEEE Transactions on Circuits and Systems I: Fundamental Theory and Applications

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ER -

On Passivity and Power-Balance Inequalities of Nonlinear RLC Circuits

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