Wyniki wyszukiwania - BazTech

1

Closed loop voltage mode controlled high step-down/step-up positive output buck–boost converter

Udumula Ramanjaneya Reddy, Hanumandla Deepika, Bellapu Vijayalakshmi

Journal of Power Technologies

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2020

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Vol. 100, nr 3

255--262

EN

This work presents the positive output buck-boost (POBB) converter with single loop control and simple converter structure. The presented POBB converter achieves the square of the high step-down/step-up voltage conversion gain as compared with the traditional buck-boost (TBB) converter and also the output voltage polarity is positive. These advanced features facilitate work in a wider range of high-step-down/step-up positive output converters. In the high gain POBB converter the two controlled power switches are operated synchronously. The converter is designed to operate in continuous current mode (CCM), one in switch-on mode, during which the two inductors are energized and two capacitors are discharged, and the later one in switch-off mode, during which the two inductorsare deenergized and two capacitors are charged. The operating principles and the steady-state analysis of high step-don/ step-up POBB converter operating in CCM are presented in detail. Further, a closed loop voltage mode control (VMC) is designed and simulated to study the line and load regulations of POBB converter in both high step-down (buck mode) and high step-up (boost modes) respectively. Theoretical analysis and predictions of the closed loop VMC POBB converter have been validated using MATLAB/Simulink platform.

2

Comparison of Decentralized Voltage Control Methods for Managing Voltage Rise in Active Distribution Networks

Hashim T. J., Mohamed A., Shareef H.

Przegląd Elektrotechniczny

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2013

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R. 89, nr 2a

214--218

EN

Integration of distributed generations (DGs) to distribution systems has posed several technical challenges for network operators. One of the main problems that has received widespread attention is the voltage rise issue. This issue has led researchers worldwide to find ways to control voltage so that an acceptable limit is maintained and delivered to consumers. In networks with DGs, the methods of voltage control have been identified as coordinated or centralized control and decentralized control. This paper presents the results and comparisons of a simulation that used these decentralized voltage control methods in managing voltage rise issues in distribution systems with DGs.

PL

W artykule przedstawiono porównanie metod sterowania zdecentralizowanego, wykorzystywanego do kontroli dopuszczalnej amplitudy napięcia w sieci, zawierającej rozproszone generatory energii elektrycznej. W tego rodzaju sieci możliwe są nieoczekiwane, skoki napięcia, co przekłada się na jakość energii, dostarczanej do użytkowników i działanie odbiorników.

3

Voltage Control of Isolated Self-Excited Induction Generator through Series Compensation

Fraile-Ardanuy J., Fraile Mora J., García-Gutiérrez P.

Przegląd Elektrotechniczny

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2012

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R. 88, nr 1a

132-136

EN

Self-excited induction generators (SEIG) are used in isolated areas to generate electrical energy. In spite of their advantages (low cost, ease of maintenance, etc.) they have poor voltage regulation, even at constant rotor speed. Several voltage regulating schemes using an additional series capacitor to provide additional capacitive VAR with load has been proposed in the literature. In this paper the performance of SEIG through series compensation is investigated comparing computed and experimental results for resistive loads.

PL

Samowzbudne generatory indukcyjne są stosowane do wytwarzania energii w izolowanych lokalizacjach. Wadą ich jest słaba możliwość kontroli napięcia, nawet przy stałej prędkości wirnika. W artykule zaproponowano nową metodę kontroli wykorzystująca szeregową kompensację mocy.

4

A review on voltage control methods for active distribution networks

Tengku Hashim T.J., Mahomed A., Shareef H.

Przegląd Elektrotechniczny

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2012

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R. 88, nr 6

304-312

EN

Power distribution systems are in the state of transition from passive to active networks due to the rising penetration level of distributed generators (DGs). One of the technical challenges of active networks is to maintain an acceptable voltage level. This problem has initiated many researchers to control network voltage profile. Several approaches to mitigate the voltage issues include the use of coordinated or centralized and decentralized methods. Both methods have been proven to be able to alleviate the voltage rise issue in distribution systems with DGs. This paper presents a literature review on the various voltage control methods that have been implemented in active distribution networks.

PL

Przy współpracujących sieciach rozproszonych problemem jest utrzymanie napięcia na pożądanym poziomie. W artykule przedstawiono przegląd różnych metod sterowania poziomem napięcia które moga być zastosowane w aktywnych sieciach rozproszonych.

5

Optimisation of the warp yarn tension on a warp knitting machine

Pohlen V., Schnabel A., Neumann F., Gries T.

Autex Research Journal

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2012

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Vol. 12, no. 2

29--33

EN

Investigations (calculations) based on a warp yarn tension analysis on a warp knitting machine with multiaxial weft yarn insertion allow prospective reduced yarn tension differences in technical warp knits. From this a future opportunity is provided to substitute the subjective warp let-off adjustment by a model of tension control. The outcome of this is a higher reproducibility with associated increasing process reliability and rising product quality.

6

Control of different-rating battery energy storage system interface to a microgrid

Simin P., Gang S., Yunfeng C., Xu C.

Przegląd Elektrotechniczny

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2011

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R. 87, nr 11

256-262

EN

This paper focuses on different-rating battery energy storage system (BESS) integrated into a microgrid. To improve the power quality and satisfy the requirements of power system, it is necessary to integrate different-rating BESS composed battery modules (BM) and power conditioning system (PCS) into the microgrid. The BESSs can supply suddenly changed loads, especially for sensitive loads that must have uninterruptible power supply. A new control strategy included slack mode control and load mode control is presented to enable the BESSs operate in two operation mode: the free-slack operation mode and the load-sharing operation mode. In the load sharing operation mode,the controller enable various load proportionally shared by two different-rating BESS parallelly operating without communication between them In the free-slack mode operation, the BESSs acting as a free-slack can adequately balance the active and reactive power of the microgrid to maintain the voltage and frequency at point of common coupling (PCC) to a desired level. The advantage of the proposed control method is that the unified controller is employed for the two operation mode without swithing between different controllers. Details of modeling of the BM and PCS and the corresponding control strategy are described. The effectiveness of the BESSs and proposed control method is verified through simulations and experiments.

PL

W artykule omówiono bateryjny system gromadzenia energii BESS zintegrowany w mikrosiecią. W celu poprawy jakości energii łączy się systemy BESS z układami kondycjonowania PCS. System BESS działający jako układ zabezpieczający przed chwilowymi zanikami energii musi cechować się niezawodnością. Zaprezentowano nowa strategię sterowania łączącą tryb łagodny i tryb kontroli obciążenia. Zaletą metody jest że do sterowania stosowany jest zunifikowany kontroler bez potrzeby przełączania między różnymi kontrolerami. Skuteczność c metody potwierdziły symulacje i eksperymenty.

7

Zanik fazy - czyli dlaczego palą się silniki

Piórowicz M.

Napędy i Sterowanie

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2001

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R. 3, nr 7/8

20--22

PL

Co to jest prąd trójfazowy - każdy wie. Zasada działania silnika indukcyjnego też jest powszechnie znana. Wyobraźmy sobie zatem sytuację, gdzie w czasie pracy silnika uszkodzeniu uległa jedna z linii. Wiadomo, że silnik zacznie charakterystycznie buczeć, grzać się i tylko patrzeć, jak stanie w ogniu, choć napięcie w tej uszkodzonej linii (sztuczna faza) może mieścić się w granicach przewidzianych normami (np. 190 V). Jeśli jednak napięcie w linii spadnie np. do 180 V, lecz nie na skutek awarii, a przykładowo z powodu nierównomiernego (niesymetrycznego) obciążenia sieci odbiorami jednofazowymi - silnik pracuje bez żadnych zakłóceń.