Matteo F. Iacchetti scite author profile

Dispersed generation systems need several elements that should work together. One possible way to connect these elements is through a common dc link. This paper discusses a new control method for the doubly fed induction generator when connected to a dc link. Considerable benefits are obtained in this configuration, because a simple diode bridge can be used on the stator and only an ac/dc power electronic inverter is needed to control the rotor currents. As the ac mains do not impose the stator frequency, this should be regulated to get an appropriate operation of the induction machine. This paper proposes a method to regulate the stator frequency and control the torque based on adjustments of the d - q rotor reference currents by using the field-oriented control. The analysis and synthesis of the control system based on a simplified model is discussed. Simulations and experimental results show that the proposed control exhibits good dynamics in the torque control and in frequency regulation

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Axial Flux PM Machines With Concentrated Armature Windings: Design Analysis and Test Validation of Wind Energy Generators

Gerlando

Foglia

Iacchetti

et al. 2011

IEEE Trans. Ind. Electron.

130

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Some design and operation aspects of axial flux permanent magnet synchronous machines, wound with concentrated coils, are presented. Due to their high number of poles, compactness, and excellent waveform quality and efficiency, these machines show satisfactory operation at low speeds, both as direct drive generators and as motors. In this paper, after a general analysis of the model and design features of this kind of machine, the attention is focused on wind power generation: The main sizing equations are defined, and the most relevant figures of merit are examined by means of a suitable parametric analysis. Some experimental results obtained by testing a three-phase, 50-kW, and 70-rpm prototype are presented and discussed, validating the modeling theory and the design procedure.

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Comprehensive steady‐state analytical model of a three‐phase diode rectifier connected to a constant DC voltage source

Gerlando

Foglia

Iacchetti

et al. 2013

IET Power Electronics

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This study deals with the analytical modelling of the steady-state operation of a three-phase diode rectiﬁer whose dc bus is connected to a constant voltage source. Such a system exhibits several operation modes that are fully investigated. Analytical expressions of the boundaries of each mode as well as the average dc and the rms ac currents are deduced as a function of the ac and dc parameters, including voltage drops across diodes. They allow us to evaluate the power delivered to the dc bus as well as the efﬁciency of the conversion in each mode of operation. These results can also be extended to practical rectiﬁers with bulk dc capacitors and allow for performing parametric analyses and optimization in the design of drives or permanent magnet synchronous generators directly connected to a diode rectiﬁer. The theoretical results are validated by experimental tests

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Torque Ripple Reduction in a DFIG-DC System by Resonant Current Controllers

Iacchetti

Marques

Perini

2015

IEEE Trans. Power Electron.

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Operation and design issues of a doubly fed induction generator stator connected to a dc net by a diode rectifier

Iacchetti

Marques

Perini

2014

IET Electric Power Applications

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The operation of a doubly fed induction generator (DFIG) connected to a dc net is considered in this study. The dc net is connected to the stator of the DFIG by a diode rectifier and simultaneously feeds the rotor-side inverter, which is used to control the machine. When the dc net operates at constant voltage, this solution preserves the possibility to work with a low flux at low speed, and, at the same time, reduces the cost of the power electronics. In fact, the only needed electronic converter is the rotor inverter designed for a fraction of the machine power. After introducing a simple control technique, the study proposes an analytic model for the steady-state operation and discusses the design specifications of the DFIG for given values of the dc voltage and of the power of the wind turbine. The most appropriate stator and rotor rated powers, rated stator voltage and turns ratio of the DFIG are deduced. Simulations and experimental results are presented in order to support the theory

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