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Application of zero-voltage-switching to a DC voltage-controlled static VAr compensator using quad-series voltage-source inverters

机译：零电压开关在使用四串联电压源逆变器的直流电压控制静态VAr补偿器中的应用

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This paper discusses the potential of applying the zero-voltage-switching technique to a DC voltage-controlled static VAr compensator. The main circuit of the static VAr compensator (SVC) consists of quad-series voltage-source six-step inverters and four three-phase transformers. The SVC is characterized by a "commutation capacitor" connected in parallel with each switching device, without any additional active or passive element. The commutation capacitor plays an essential role in achieving zero-voltage-switching. Experimental results obtained From a small-rated laboratory model of 10 kVA verify the operating principle and effectiveness of the zero-voltage-switched SVC proposed in this paper. The zero-voltage-switching enables reduction of dv/dt across each switching device, thus resulting in reduced EMI and switching losses.

机译：本文讨论了将零电压开关技术应用于直流电压控制的静态VAr补偿器的潜力。静态VAr补偿器（SVC）的主电路由四串联电压源六步逆变器和四个三相变压器组成。 SVC的特征是与每个开关设备并联的“换向电容器”，而无需任何其他有源或无源元件。换向电容器在实现零电压开关中起着至关重要的作用。从额定值为10 kVA的小型实验室模型获得的实验结果验证了本文提出的零电压开关SVC的工作原理和有效性。零电压开关可降低每个开关器件的dv / dt，从而降低EMI和开关损耗。

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《》|1996年|P.482-488|共7页
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Tominaga; S.; Fujita; H.;
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中图分类无线电电子学、电信技术;
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1. Application of Soft-Switching Technique to a DC Voltage-Controlled Static Var Compensator Using Quad-Series Voltage-Source Inverters [J] . Shinji Tominaga, Hideaki Fujita, Hirofumi Akagi 電気学会論文誌. D . 1997,第4期

机译：四通道电压源逆变器在直流电压控制型静态无功补偿器中的软开关技术应用
2. Analysis and design of a DC voltage-controlled static VAr compensator using quad-series voltage-source inverters [J] . Fujita H., Tominaga S. IEEE Transactions on Industry Applications . 1996,第4期

机译：使用四串联电压源逆变器的直流压控静态VAr补偿器的分析和设计
3. A practical approach to switching-loss reduction in a large-capacity static VAr compensator based on voltage-source inverters [J] . Fujita H., Tominaga S. IEEE Transactions on Industry Applications . 2000,第5期

机译：基于电压源逆变器的大容量静态VAr补偿器中降低开关损耗的实用方法
4. Application of zero-voltage-switching to a DC voltage-controlled static VAr compensator using quad-series voltage-source inverters [C] . Tominaga S., Fujita H., Institute of Electric and Electronic Engineer Annual IEEE Power Electronics Specialists Conference . 1996

机译：使用四串电压源逆变器将零电压切换到DC电压控制静态VAR补偿器的应用
5. Application of genetic algorithms in control design for advanced static VAR compensator at AC/DC interconnection. [D] . Reformat, Marek Zenon. 1997

机译：遗传算法在交直流互连高级静态无功补偿器控制设计中的应用。
6. A performance comparison of static VAr compensator based on Goertzel and FFT algorithm and experimental validation [O] . O. Fatih Kececioglu, Ahmet Gani, Mustafa Sekkeli -1

机译：基于Goertzel和FFT算法的静态VAr补偿器的性能比较及实验验证
7. Application of Soft-Switching Technique to a DC Voltage-Controlled Static Var Compensator Using Quad-Series Voltage-Source Inverters. [O] . Shinji Tominaga, Hideaki Fujita, Hirofumi Akagi 1997

机译：软切换技术在二串电压源逆变器中对DC电压控制静态VAR补偿器的应用。
8. Multilevel voltage-source inverter with separate dc sources for static var generation [R] . Peng, F. Z. , Lai, J. S. , McKeever, J. , 1995

机译：多级电压源逆变器，带有独立的直流电源，可产生静态电压

Application of zero-voltage-switching to a DC voltage-controlled static VAr compensator using quad-series voltage-source inverters

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