A Discrete-Time Control Method for Fast Transient Voltage-Sag Compensation in DVR
Alfonso Parreño Torres,Pedro Roncero-Sanchez,Javier Vázquez,Fco. Javier Lopez-Alcolea,Emilio J. Molina-Martinez +4 more
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TLDR
A discrete-time domain control scheme for balanced voltage sag compensation using a Dynamic Voltage Restorer (DVR), which is recognized to be an appropriate and economical power electronic device with which to ameliorate these disturbances.Abstract:
This paper presents a discrete-time domain control scheme for balanced voltage sag compensation using a Dynamic Voltage Restorer (DVR), which is recognized to be an appropriate and economical power electronic device with which to ameliorate these disturbances. The proposed control method is implemented in the synchronous reference frame (SRF), with two nested regulators, one of which includes an integral action. This algorithm has some advantages with respect to other control algorithms, such as the fact that the proposed methodology permits all the closed-loop poles of the DVR system to be placed in the desired locations in order to define the dynamical behavior with a reduction in the number of the electrical magnitudes to be measured and without the need for state observers, as occurs in traditional control methods. What is more, the well-known inner current loop implemented in other control schemes, which is employed to attenuate the resonance of the plant, is unnecessary. Furthermore, the unbalanced voltage sag compensation can be achieved by adding a “plug-in” controller and following the same methodology presented for balanced voltage sags to design the controller. The good performance of the proposed control scheme is validated by means of simulation and experimental results carried out with a 5 kW DVR laboratory prototype. The discrete-time control method is also compared with two control schemes previously proposed in literature.read more
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Journal ArticleDOI
Dynamic Voltage Restorer (DVR): A Comprehensive Review of Topologies, Power Converters, Control Methods, and Modified Configurations
TL;DR: A thorough discussion and comprehensive review of DVR topologies based on operations, power converters, control methods, and applications and the state-of-the-art in works of literature, and comparative study on power quality issues are provided.
Journal ArticleDOI
Super Twisting Sliding-Mode Control of DVR With Frequency-Adaptive Brockett Oscillator
TL;DR: The obtained results show that the ST-SMC has good dynamic performance and can maintain the load voltage at a desired level under voltage sag, swell, and harmonically distorted grid voltages.
Journal ArticleDOI
On chaos and projective synchronization of a fractional difference map with no equilibria using a fuzzy-based state feedback control
Ernesto Zambrano-Serrano,Stelios Bekiros,Stelios Bekiros,Miguel Angel Platas-Garza,C. Posadas-Castillo,Praveen Agarwal,Praveen Agarwal,Hadi Jahanshahi,Ayman A. Aly +8 more
TL;DR: The fuzzy logic engine is implemented in order to enhance the performance and agility of the proposed control technique and is proven to be able to push the states of the fractional-order discrete-time system to the desired value in a short period of time.
Journal ArticleDOI
Dynamic voltage restore based on switched-capacitor multilevel inverter with ability to compensate for voltage drop, harmonics, and unbalancing simultaneously
TL;DR: In this paper , a new compensator is introduced, which can simultaneously operate as a series active power filter (SAPF) and a dynamic voltage restore (DVR) to mitigate the voltage drop, harmonics, and unbalance.
Journal ArticleDOI
Voltage Regulation Using Recurrent Wavelet Fuzzy Neural Network-Based Dynamic Voltage Restorer
TL;DR: In this paper, the recurrent wavelet fuzzy neural network (RWFNN)-based controller for the DVR is developed and, with positive-sequence voltage analysis, the reference signal for theDVR compensation can be accurately obtained.
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