LMI Control of Conventional Boost Converter

Reddy, P. Rajesh Kumar; Kumar, Senthil; Sandeep, Kanumalli Satya; Arun, N.

doi:10.17485/ijst/2015/v8is2/58415

Cited by 4 publications

(2 citation statements)

References 6 publications

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“…Application of different control methods to power electronics converters has been studied in many papers. For example, feedback linearization (Sanders et al, 1986), sliding mode control (Sira-Ramirez, 1987), PID control (Venkatanarayanan and Saravanan, 2014) and H ∞ design (Rodriguez et al, 2005) has been applied to Cuk converter, Linear Matrix Inequality(LMI) control has been applied to conventional boost by Reddy et al (2015). Discrete time controller has been designed for a boost converter in Alkrunz and Yazıcı (2016).…”

Section: Literature Reviewmentioning

confidence: 99%

Joy of controller design: Controller design based on Kocaeli university’s converter dynamics toolbox for MATLAB

Asadi

2017

Int. j. adv. appl. sci.

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In this paper, first software is developed to extract dynamical model of famous dc-dc converters because at the time of this writing there is no software to obtain the converter's dynamical equation analytically. Using commercial softwares like MATLAB ® , only graphical frequency response of system can be obtained. Software developed here can give both analytic equation and graphical frequency response of system. Based on the dynamical equation given by software problem of controller design for two converters is studied as example. Designed controller is tested via Simulation. Authors used the developed software to train control engineering concepts to electrical engineering students. It is seen that using a power electronics converter as plant, increase electrical engineering students interest to learn control engineering concepts. Beside the educational use, developed software can be used to design controller for industrial converters.

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Section: Literature Reviewmentioning

confidence: 99%

Joy of controller design: Controller design based on Kocaeli university’s converter dynamics toolbox for MATLAB

Asadi

2017

Int. j. adv. appl. sci.

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show abstract

“…Application of different control methods to power electronics converters has been studied in many papers. For example, feedback linearization (Sanders et al, 1986), sliding mode control (Sira-Ramirez, 1987), PID control (Venkatanarayanan and Saravanan, 2014) and ∞ design (Rodriguez et al, 2005) has been applied to Cuk converter, Linear Matrix Inequality(LMI) control has been applied to conventional boost by Reddy et al (2015). Discrete time controller has been designed for a boost converter in Alkrunz and Yazıcı (2016).…”

Section: Related Workmentioning

confidence: 99%

Designing a PI controller for Cuk converter using converter dynamics toolbox for MATLAB

Asadi

2017

Int. j. adv. appl. sci.

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This paper dedicated to study indirect control of Cuk converter. Cuk converter has a 4 th order non minimum phase transfer function. Extraction of converter's dynamical equation is not an easy task with pencil-and-paper analysis. Converter's dynamical equations are obtained using "Kocaeli university's converter dynamics toolbox for MATLAB ® "developed in Kocaeli university's power electronics research group. Presence of Right Half Plane (RHP) zeros force us to use two feedback loops. Controllers are designed for this two loops using MATLAB's control system toolbox. Close loop system is tested in Simulink ® environment. Simulation results showed the performance of designed controller.

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Analytical Solution for DC-DC Boost Converter and Comparison of Analytical Solution with MATLAB and ngspice Models

Adnan

Bala

Nishan

et al. 2022

2022 XXV International Conference on Soft Computing and Measurements (SCM)

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LMI Control of Conventional Boost Converter

Cited by 4 publications

References 6 publications

Joy of controller design: Controller design based on Kocaeli university’s converter dynamics toolbox for MATLAB

Joy of controller design: Controller design based on Kocaeli university’s converter dynamics toolbox for MATLAB

Designing a PI controller for Cuk converter using converter dynamics toolbox for MATLAB

Analytical Solution for DC-DC Boost Converter and Comparison of Analytical Solution with MATLAB and ngspice Models

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