Advanced and Intelligent Control in Power Electronics and by Ke Ma, Yongheng Yang, Frede Blaabjerg (auth.), Teresa

February 23, 2017 | Electronics | By admin | 0 Comments

By Ke Ma, Yongheng Yang, Frede Blaabjerg (auth.), Teresa Orłowska-Kowalska, Frede Blaabjerg, José Rodríguez (eds.)

Power electronics and variable frequency drives are regularly constructing multidisciplinary fields in electric engineering and it truly is virtually impossible to write down a ebook overlaying the complete region through one person professional. in particular via taking account the new quick improvement within the neighboring fields like keep watch over conception, computational intelligence and sign processing, which all strongly impression new ideas in charge of strength electronics and drives. for this reason, this booklet is written by way of person key expert engaged on the world of contemporary complex keep watch over equipment which penetrates present implementation of energy converters and drives. even if a number of the provided tools are nonetheless no longer followed by means of undefined, they carry new strategies with excessive extra examine and alertness power.

The fabric of the ebook is gifted within the following 3 parts:

Part I: complicated energy digital keep watch over in Renewable strength resources (Chapters 1-4),

Part II: Predictive keep an eye on of strength Converters and Drives (5-7),

Part III: Neurocontrol and Nonlinear keep an eye on of energy Converters and Drives (8-11).

The booklet is meant for engineers, researchers and scholars within the box of energy electronics and drives who're attracted to using complicated keep an eye on equipment and in addition for experts from the keep an eye on conception quarter who prefer to discover new zone of applications.

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Stinke, F. Wittwer, Medium voltage converter for permanent magnet wind power generators up to 5 MW, in Proceedings of EPE 2005, pp. 1–9 (2005) 29. N. Celanovic, D. Boroyevich, A comprehensive study of neutral-point voltage balancing problem in three-level neutral-point-clamped voltage source PWM inverters. IEEE Trans. Power Electron. 15(2), 242–249 (2000) 30. S. K. Mishra, DC capacitor voltage equalization in neutral clamped inverters for DSTATCOM application. IEEE Trans. Ind. Electron. 57(8), 2768–2775 (2010) 31.

22 that the power curve of a PV panel is of ‘‘hill’’ form under a given condition. g. 25 °C, 1000 W/m2). Many proposed MPPT algorithms are based this ‘‘hill’’ characteristic of a PV panel (when the MPP is reached, dp/dv = 0), such as the Perturb-and-Observe (P&O) method and the Incremental Conductance (INC) method [67, 68]. g. power, current or 1 Introduction to Renewable Energy Systems 21 voltage) is the reference to be controlled by a DC–DC converter or directly a DCAC inverter, depending on the configuration of the PV system.

U – Q control 4. Fault ride-through Fig. 24 General demands for the grid-connected PV power conversion system the PV inverter to stabilize the grid voltage by providing ancillary services. In response to grid faults, the PV inverters have to ride-through voltage faults, when a higher PV penetration level comes to reality [75–78]. Such requirements are expected to cover a wide range of PV applications [77, 78]. (B) Special considerations For PV technology the power capacity per generating unit is relative low but the cost of energy is relative high, as a result there are very strong demands for high efficiency power conversion in order to achieve acceptable price per produced kWh.

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