Cascade inverter has various applications in the high voltage and power multilevel inverter field.
串级逆变电路是在高压大功率电力电子变换器中应用较多的一种变换电路。
The improved multilevel inverter of hybrid cascade can prevent reverse current and has good output wave.
改进的混合级联多电平逆变器不但输出波形质量好,而且有效地解决了倒灌电流的问题。
Controlling voltage balancing of flying-capacitor multilevel inverter is very important to its safe operation.
控制悬浮电容电压的平衡是保证悬浮电容多电平逆变器运行安全的关键。
This paper proposes a novel hysteresis current control method for medium voltage APF, based on cascaded multilevel inverter.
该文提出了一种基于级联多电平逆变器的中压有源电力滤波器滞环电流矢量控制方法。
A hybrid cascaded multilevel inverter topology is presented. The control scheme of the hybrid cascaded multilevel inverter is given.
提出了一种混合级联型多电平逆变器拓扑结构,给出了逆变器的控制方案。
The control strategy and topology of multilevel inverters, as well as the work principle of three-level inverter, are firstly analyzed.
阐述了多电平逆变器的控制策略和拓扑结构,并具体分析了三电平逆变器的工作原理。
This paper presents a series hybrid active power filter (SHAPF) based on asymmetry cascade multilevel inverter (ACMI) and its control strategy.
提出了一种基于不对称级联多电平逆变器(ACMI)的串联混合有源电力滤波器(SHAPF)及其控制策略。
Cascade multilevel inverter has extensive application in the high voltage variable frequency modulated Speed System for its numerous advantages.
级联式多电平逆变器因其具有众多的优点,在高压变频调速领域中得到广泛应用。
The carrier shifted-phase PWM technique can been used in cascade multilevel inverter, in addition, the step waveform strategy is good strategy, too.
级联型多电平变频器控制策略除了采用载波相移PWM技术外,阶梯波算法也是一种比较好的控制策略。
In high voltage and high power fields, multilevel inverter has significant advantages, such as less distorted output, lower switching frequency, etc.
在高压大容量应用场合,多电平逆变电路具有显着的优势,比如输出谐波少、开关频率低等。
Recent years, multilevel inverter has been applied widely in the large-capacity electrical energy transformation of high-voltage and ac speed adjustable system.
近年来,多电平逆变器在高压大容量电能变换及交流电机调速中得到广泛应用。
In this paper, the means of harmonics control by selecting switching angles are analyzed for improving quality of output voltage in cascaded multilevel inverter.
为改善级联型多电平逆变器输出电压波形质量,对通过控制逆变单元开关角实现级联多电平逆变器谐波控制的方法进行了分析研究。
Nowadays, there are three prominent multilevel topologies, diode-clamped multilevel inverter, capacitor-clamped multilevel inverter and cascaded multilevel inverter.
目前常见的多电平逆变器主要有三种:二极管箝位式、电容箝位式和级联式。
The asynchronous machine is fed by cascaded multilevel inverter, and the inverter switching signals are generated by carrier phaseshifted pulse width modulation method.
采用级联型多电平逆变器给异步电机供电,逆变器的开关信号利用载波移相脉宽调制方法生成。
Based on multi-module-cascaded inverter topology, a universal hybrid multilevel inverter topology is introduced in this paper and the research of multilevel inverter structure is unified.
以多单元串联型逆变器拓扑结构为基础,提出了一种多电平逆变器通用组合拓扑结构的构成原则,对多电平逆变器拓扑结构的研究进行了统一。
Based on multi-module-cascaded inverter topology, a universal hybrid multilevel inverter structure is introduced in this paper and the research on multilevel inverter structure is unified.
以级联型多电平逆变器拓扑结构为基础,提出了一种多电平逆变器通用组合拓扑结构的构成原则,对多电平逆变器拓扑结构的研究进行了统一。
At the same time, based on conventional modulation strategies-multi-carrier SPWM applied on multilevel inverter, hybrid modulation strategies are introduced corresponding to hybrid structure.
同时,基于传统的应用于多电平逆变器的多载波spwm调制策略,提出了对应于组合拓扑结构的组合调制策略。
The simulation results proved that the validity of hybrid structure and corresponding modulation strategies, it lays the foundation of practical application on hybrid multilevel inverter structure.
仿真结果验证了组合拓扑结构及组合调制策略的有效性,为多电平逆变器组合拓扑结构的实际应用奠定了基础。
The series H-bridge multilevel converter's power circuit is composed of uncontrolled rectifier with filtering capacitor and single phase H-bridge voltage-type inverter.
串联H桥多电平变频器的主回路从结构上可分为三相电容滤波不可控整流电路和单相电压型全桥逆变电路。
Multilevel converter technology has been mainly used for voltage-source inverters (VSI) by now, very few literatures research on current source inverter (CSI).
目前对电压型变流器(VSI)的研究很多,对电流型变流器(CSI)的研究还刚处于起步阶段。
Multilevel converter technology has been mainly used for voltage-source inverters (VSI) by now, very few literatures research on current source inverter (CSI).
目前对电压型变流器(VSI)的研究很多,对电流型变流器(CSI)的研究还刚处于起步阶段。
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