Proceedings Article10.1109/CDC.1986.267131
Nonlinear control laws for switching power converters
Seth R. Sanders,George Varghese,Derrick F. Cameron +2 more
- 01 Dec 1986
- Vol. 25, Iss: 25, pp 46-53
47
TL;DR: In this article, nonlinear control laws for switching power converters are explored, using an up-down converter as a vehicle and a nonlinear change of variables is used to transform the usual state-space description into one that is more amenable to design of a sliding mode control.
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Abstract: Nonlinear control laws for switching power converters are explored, using an up-down converter as a vehicle. A nonlinear change of variables is used to transform the usual state-space description into one that is more amenable to design of a sliding mode control. Results of numerical simulations and of a microprocessor implementation based on look-up tables are presented.
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Citations
Terminal Sliding Mode Control of DC-DC Buck Converter
Chian-Song Chiu,Ya-Ting Lee,Chih-Wei Yang +2 more
- 10 Dec 2009
TL;DR: In this article, a terminal sliding mode controller (TSMC) is proposed to achieve stable output voltage in DC-DC buck converter with varying load and inaccuracy passive elements, and an adaptive law is derived to compensate the effect.
15
Multiple limit cycle phenohena in switceing power converters
Philip T. Krein,R.M. Bass +1 more
- 01 Jan 1989
TL;DR: In this article, a hysteretic dc-dc converter subject to multiple limit cycle phenomena and methods for eliminating multiple limit cycles are presented. But, the converters are not unique, and the converter output can jump almost at random among possible cycles.
15
Particle swarm optimization and genetic algorithm to optimizing the pole placement controller on Cuk converter
Mohammad Reza Yousefi,S.A. Emami,S. Eshtehardiha,M. Bayati Poudeh +3 more
- 01 Dec 2008
TL;DR: This optimized method can control the voltage of DC-DC converter and has provided a coordinated control action and a satisfactory performance for the Cuk converter, as shown in the results.
•Dissertation
Asymptotic Tracking with DC-to-DC Bilinear Power Converters
Olm i Miras,M Josep +1 more
- 16 Apr 2004
TL;DR: The problem of seguiment in sistemes de potencia ininterrompuda (SPI) is addressed in this paper, where the authors propose a set of modes of lliscament to solve the problem.
12
Study of Closed loop Cuk converter controlled by Loop Shaping Method
Zeeshan Rayeen,Sourav Bose,Prakash Dwivedi +2 more
- 01 Dec 2018
TL;DR: The paper presents the Graphical Loop shaping method for controller design of the Cuk converter and the sensitivity is analyzed and the whole system is validated using the MATLAB/SIMULINK tool.
11
References
Tracking control of non-linear systems using sliding surfaces with application to robot manipulators
Jean-Jacques E. Slotine,S. Shankar Sastry +1 more
- 22 Jun 1983
TL;DR: In this paper, the authors present a methodology of feedback control to achieve accurate tracking for a class of nonlinear time-varying systems in the presence of disturbances and parameter variations.
•Book
Control systems of variable structure
U. Itkis
- 01 Jan 1976
TL;DR: This book is referred to read because it is an inspiring book to give you more chance to get experiences and also thoughts and this is not only this control systems of variable structure.
1K
On the linear equivalents of nonlinear systems
TL;DR: In this article, a complete characterization of the class of nonlinear systems which are equivalent to controllable linear systems is obtained, and an equivalence relation is established for the systems x = f(x, u).
481
A general approach to sampled-data modeling for power electronic circuits
George Cm Verghese,Malik E. Elbuluk,John G. Rassakian +2 more
- 18 Jun 1984
TL;DR: A general, sampled-data representation of the dynamics of arbitrary power electronic circuits is proposed, to unify existing approaches and lead, via compact and powerful notation, to disciplined modeling and straightforward derivation of small-signal models for perturbations about a nominal cyclic steady state.
390
A General Approach to Sampled-Data Modeling for Power Electronic Circuits
TL;DR: A general sampled-data representation of the dynamics of arbitrary power electronic circuits is proposed to unify existing approaches and lead, via compact and powerful notation, to disciplined modeling and straightforward derivation of small-signal models that describe perturbations about a nominal cyclic steady state.
382