Wyniki wyszukiwania - BazTech

1

SiC-based magnetic-less DC-DC converter with wide temperature range operation

Chojowski Maciej, Stala Robert, Mondzik Andrzej, Penczek Adam

Przegląd Elektrotechniczny

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2021

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R. 97, nr 1

56--63

EN

This paper presents a concept and experimental results of the magnetic-less converter suitable for wide temperature range operation. The DC-DC converter uses a variant of a switched-capacitor voltage multiplier topology, silicon carbide (SiC) and IGBT (insulated gate bipolar transistor) semiconductors and resonant circuits with air-based chokes designed on PCB (printed circuit board), as well as high temperature resonant capacitors and PCB materials. Ferrite materials are not required which and therefore the problems with inductance variation versus temperature do not exist.

PL

W artykule przedstawiono koncepcję i wyniki doświadczalne przekształtnika do pracy w szerokim zakresie temperatur. W przekształtniku zastosowano wariant topologii rezonansowo przełączalnych kondensatorów, półprzewodniki z węglika krzemu (SiC) i IGBT oraz obwody rezonansowe z dławikami powietrznymi zaprojektowanymi na PCB, a także wysokotemperaturowe kondensatory rezonansowe oraz specjalny materiał PCB. Rdzeń ferrytowy nie został tu zastosowany, a zatem nie istnieje problemy ze zmianą indukcyjności w zależności od temperatury pracy układu.

2

High efficiency high voltage gain boost converter using zero crossing switching multi-stage voltage-lift cells

Piansangsan Leardpan, Photong Chonlatee

Przegląd Elektrotechniczny

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2020

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R. 96, nr 1

69--73

EN

A non-isolated high efficiency, high voltage step-up gain boost converter is proposed in this paper. A series of multi-stage voltage-lift cells with simple diode-capacitor-inductor configuration is used to provide very high voltage gain for the conventional boost converter. A passive snubber is connected in parallel with a switch in the boost circuit to provide zero-current turn-on and zero-voltage turn-off and thus achieve low switching losses. Analysis, design and implementation of the proposed circuit are explained and examined by both simulation and experimental prototype. The test results verified the feasibility of the proposed converter with switching frequency of 50 kHz and rated power of 400 W. The proposed converter achieved 96.0% of maximum efficiency and very high voltage gain of 12 for a series of 3 stage voltage-lift cells.

PL

Opisano przekształtnik typu boost o dużej efektywności i dużym napięciu. Szereg celek składających się z diody-kondensatora I indukcyjności został zastosowany do siągnięcia dużego wzmocnienia i małych strat przełączania. Układ został poddany symulacji ale i zbadany eksperymentalnie. Częstotliwość przełączania była 50 kHz a moc 400 W.

3

Performance evaluation of ZVS/ZCS high efficiency AC/DC converter for high power applications

Ali A., Chuanwen J., Khan M. M., Habib S., Ali Y.

Bulletin of the Polish Academy of Sciences. Technical Sciences

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2020

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Vol. 68, nr 4

793--807

EN

The increased power density, reduced switching losses with minimum electromagnetic interference (EMI), and high efficiency are essential requirements of power converters. To achieve these characteristics, soft power converters employing soft switching techniques are indispensable. In this paper, a ZCS/ZVS PWM AC/DC converter topology has been emphasized, which finds applications in high power systems such as automobile battery charging and renewable energy systems. This converter scheme maintains zero current and zero voltage switching conditions at turn on and turn off moments of semiconductor switches, respectively and soft operation of rectifier diodes that lead to negligible switching and diode reverse recovery losses. Moreover, it improves power quality and presents high input power factor, low total harmonic distortion of the input current (THDI ) and improved efficiency. The validity of theoretical analysis of the proposed converter has been carried out experimentally on a 10 kW laboratory prototype. Experimental results prove that the soft switching operation of the semiconductor switches and diodes is maintained at 98.6% rated load efficiency. In addition, the performance evaluation has been performed by comparative analysis of the proposed converter with some prior art high power AC/DC converters. Efficiencies of the proposed and prior art high power topologies have been determined for different load conditions. The highest efficiency, power factor and lower THDI of the proposed converter topology complies with international standards.

4

Quasi – rezonansowy przekształtnik podwyższający napięcie z dławikiem sprzężonym

Harasimczuk M.

Przegląd Elektrotechniczny

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2017

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R. 93, nr 6

71--75

PL

Artykuł przedstawia quasi – rezonansowy przekształtnik podwyższający napięcie z dławikiem sprzężonym. Tranzystor przekształtnika przełączany jest przy zerowym prądzie ze stałym czasem załączenia i ze zmienną częstotliwością. Wykorzystanie dławika sprzężonego umożliwiło uzyskanie wysokiego współczynnika wzmocnienia napięciowego. Artykuł zawiera analizę matematyczną przekształtnika potwierdzoną badaniami symulacyjnymi.

EN

This article presents boost ZCS quasi – resonant converter with tapped inductor. The control is done by pulse width modulation and constant on-time of the transistor. In this paper theoretic analysis of converter have been presented. High voltage gain and soft switching transistor has been achieved. In article are presented the regulation characteristics and method of selection the resonant elements. The paper includes a simulation confirming properly constructed theoretical analysis.

5

A family of high-power multilevel switched capacitor-based resonant DC-DC converters – operational parameters and novel concepts of topologies

Stala R., Piróg S., Penczek A., Kawa A., Waradzyn Z., Mondzik A., Skała A.

Bulletin of the Polish Academy of Sciences. Technical Sciences

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2017

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Vol. 65, nr 5

639--651

EN

This paper presents the concept of topologies and investigation results of switched-capacitor voltage multipliers designed for application in high power systems. The analyzed family of multilevel converters includes established topologies as well as novel concepts. The application of thyristors as well as the invention of novel concepts of multiplier topologies and appropriate control make it possible to achieve high efficiency, high voltage gain, reliable and simple DC-DC converters for high power systems. Based on analytical models of the SCVMs, the paper presents a discussion of the selection of components and the efficiency of the converters as a function of converted power as well as the voltage range on the input and the output side. The results are supported by computer simulations and demonstrative experimental tests.