Controlling the Ćuk Converter Using Polytopic Lyapunov Functions

Aleksandra Lekic; Dušan Stipanović; Nikola Petrović

doi:10.1109/TCSII.2017.2781621

Controlling the Ćuk Converter Using Polytopic Lyapunov Functions

Aleksandra Lekic^*, Dušan Stipanović, Nikola Petrović

^*Corresponding author for this work

Research output: Contribution to journal › Article › Scientific › peer-review

12 Citations (Scopus)

Abstract

In this brief, the Ćuk dc/dc converter is controlled by a switching sequence based on the values of a polytopic Lyapunov function. In particular, the switching control signal is computed using a Lyapunov function which has polytopic level sets and it is not everywhere differentiable. The problem of not everywhere differentiability is handled using the Filippov's approach for discontinuous differential equations. The main advantage of the presented control design approach is that it provides exact computation of the state variables' ripple values which could not be obtained with previously used quadratic Lyapunov functions. The implementation particularities of the approach are illustrated and verified using a number of simulations.

Original language	English
Article number	8170285
Pages (from-to)	1678-1682
Number of pages	5
Journal	IEEE Transactions on Circuits and Systems II: Express Briefs
Volume	65
Issue number	11
DOIs	https://doi.org/10.1109/TCSII.2017.2781621
Publication status	Published - 1 Nov 2018
Externally published	Yes

Keywords

continuous conduction mode
Cuk converter
Lyapunov stability
polytope
switching

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10.1109/TCSII.2017.2781621

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abstract = "In this brief, the {\'C}uk dc/dc converter is controlled by a switching sequence based on the values of a polytopic Lyapunov function. In particular, the switching control signal is computed using a Lyapunov function which has polytopic level sets and it is not everywhere differentiable. The problem of not everywhere differentiability is handled using the Filippov's approach for discontinuous differential equations. The main advantage of the presented control design approach is that it provides exact computation of the state variables' ripple values which could not be obtained with previously used quadratic Lyapunov functions. The implementation particularities of the approach are illustrated and verified using a number of simulations.",

keywords = "continuous conduction mode, Cuk converter, Lyapunov stability, polytope, switching",

author = "Aleksandra Lekic and Du{\v s}an Stipanovi{\'c} and Nikola Petrovi{\'c}",

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AU - Lekic, Aleksandra

AU - Stipanović, Dušan

AU - Petrović, Nikola

PY - 2018/11/1

Y1 - 2018/11/1

N2 - In this brief, the Ćuk dc/dc converter is controlled by a switching sequence based on the values of a polytopic Lyapunov function. In particular, the switching control signal is computed using a Lyapunov function which has polytopic level sets and it is not everywhere differentiable. The problem of not everywhere differentiability is handled using the Filippov's approach for discontinuous differential equations. The main advantage of the presented control design approach is that it provides exact computation of the state variables' ripple values which could not be obtained with previously used quadratic Lyapunov functions. The implementation particularities of the approach are illustrated and verified using a number of simulations.

AB - In this brief, the Ćuk dc/dc converter is controlled by a switching sequence based on the values of a polytopic Lyapunov function. In particular, the switching control signal is computed using a Lyapunov function which has polytopic level sets and it is not everywhere differentiable. The problem of not everywhere differentiability is handled using the Filippov's approach for discontinuous differential equations. The main advantage of the presented control design approach is that it provides exact computation of the state variables' ripple values which could not be obtained with previously used quadratic Lyapunov functions. The implementation particularities of the approach are illustrated and verified using a number of simulations.

KW - continuous conduction mode

KW - Cuk converter

KW - Lyapunov stability

KW - polytope

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JF - IEEE Transactions on Circuits and Systems II: Express Briefs

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ER -

Controlling the Ćuk Converter Using Polytopic Lyapunov Functions

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