Kai Zenger scite author profile

State-space current control enables high dynamic performance of a three-phase grid-connected converter equipped with an LCL filter. In this paper, observer-based state-space control is designed using direct pole placement in the discrete-time domain and in grid-voltage coordinates. Analytical expressions for the controller and observer gains are derived as functions of the physical system parameters and design specifications. The connection between the physical parameters and the control algorithm enables automatic tuning. Parameter sensitivity of the control method is analyzed. The experimental results show that the resonance of the LCL filter is well damped, and the dynamic performance specified by direct pole placement is obtained for the reference tracking and grid-voltage disturbance rejection.

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Harmony Search Method: Theory and Applications

Gao

Govindasamy

et al. 2015

Computational Intelligence and Neuroscience

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The Harmony Search (HS) method is an emerging metaheuristic optimization algorithm, which has been employed to cope with numerous challenging tasks during the past decade. In this paper, the essential theory and applications of the HS algorithm are first described and reviewed. Several typical variants of the original HS are next briefly explained. As an example of case study, a modified HS method inspired by the idea of Pareto-dominance-based ranking is also presented. It is further applied to handle a practical wind generator optimal design problem.

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An Introduction to Harmony Search Optimization Method

Wang

Gao

Zenger

2015

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Dynamic effects of inductor current ripple in peak-current and average-current mode control

Suntio

Rahkala²,

Gadoura³

et al.

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Input filter interactions in peak-current-mode-controlled buck converter operating in CICM

Suntio

Gadoura²,

Zenger³

2002

IEEE Trans. Ind. Electron.

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Peak-current-mode (PCM) control is a widely used method to control switched-mode converters. Most often an input filter is necessary to meet electromagnetic interference requirements. The input filter can cause instability and degradation of input and output dynamics if not properly designed. The input filter design from the output dynamics viewpoint has been addressed in numerous papers, resulting in well-agreed results in the case of direct duty-ratio control. The same methods and criteria have also been applied to PCM control, but the results have turned out to be conflicting. This paper shows that the adverse effect of the input filter on the output performance of a peak-current-controlled buck converter in continuous inductor-current mode is insignificant. The input performance is, however, significantly affected, necessitating the use of proper damping. It is also shown that the instability is caused solely by the instability of the input filter under negative incremental resistance. The methods used are unified in nature, but the results obtained in this study cannot be generalized to be valid for types of converters other than a buck converter.Index Terms-Buck converter, continuous inductor current mode, input filter, input and output dynamics, peak-current-mode control.

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Kai Zenger

Observer-Based State-Space Current Controller for a Grid Converter Equipped With an LCL Filter: Analytical Method for Direct Discrete-Time Design

Harmony Search Method: Theory and Applications

An Introduction to Harmony Search Optimization Method

Dynamic effects of inductor current ripple in peak-current and average-current mode control

Input filter interactions in peak-current-mode-controlled buck converter operating in CICM

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