A modeling framework is proposed for circuits that are subject both to externally induced switches (time events) and to state events. The framework applies to switched networks with linear and piecewise-linear elements, including diodes. We show that the linear complementarity formulation, which already has proved effective for piecewise-linear networks, can be extended in a natural way to also cover switching circuits. To achieve this, we use a generalization of the linear complementarity problem known as the cone-complementarity problem. We show that the proposed framework is sound in the sense that existence and uniqueness of solutions is guaranteed under a passivity assumption. We prove that only first-order impulses occur and characterize all situations that give rise to a state jump; moreover, we provide rules that determine the jump. Finally, we show that within our framework, energy cannot increase as a result of a jump, and we derive a stability result from this

Camlıbel, M.K.

Heemels, W.P.M.H.

Schaft, A.J. van der

Schumacher, J.M.

English

A modeling framework is proposed for circuits that are subject both to externally induced switches (time events) and to state events. The framework applies to switched networks with linear and piecewise-linear elements, including diodes. We show that the linear complementarity formulation, which already has proved effective for piecewise-linear networks, can be extended in a natural way to cover also switching circuits. To achieve this, we use a generalization of the linear complementarity problem known as the cone-complementarity problem. We show that the proposed framework is sound in the sense that existence and uniqueness of solutions is guaranteed under a passivity assumption. We prove that only first-order impulses occur and characterize all situations that give rise to a state jump; moreover, we provide rules that determine the jump. Finally, we show that within our framework, energy cannot increase as a result of a jump, and we derive a stability result from this

Camlibel, Mehmet

van der Schaft, A.J.

ARTS repository - University of Groningen

Switched Networks and Complementarity

NARCIS 

Switched networks and complementarity

University of Twente Research Information

Abstract—A modeling framework is proposed for circuits that are subject both to externally induced switches (time events) and to state events. The framework applies to switched networks with linear and piecewise-linear elements, including diodes. We show that the linear complementarity formulation, which already has proved effective for piecewise-linear networks, can be extended in a natural way to also cover switching circuits. To achieve this, we use a generalization of the linear complementarity problem known as the cone-complementarity problem. We show that the proposed framework is sound in the sense that existence and uniqueness of solutions is guaranteed under a passivity assumption. We prove that only first-order impulses occur and characterize all situations that give rise to a state jump; moreover, we provide rules that de-termine the jump. Finally, we show that within our framework, energy cannot increase as a result of a jump, and we derive a sta-bility result from this. Index Terms—Complementarity systems, hybrid systems, ideal diodes, ideal switches, piecewise-linear systems. I

M. K. Çamlıbel

W. P. M. H. Heemels

A. J. Van Der Schaft

J. M. Schumacher

CiteSeerX

Camlibel, M.K.

Tilburg University Repository

Dissertations of the University of Groningen

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Switched networks and complementarity

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ARTS repository - University of Groningen

NARCIS

University of Twente Research Information

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NARCIS

ARTS repository - University of Groningen

Tilburg University Repository

Dissertations of the University of Groningen