接着对有源电力滤波器原理与结构予以介绍。
Then the principle and structure of Active Power Filter is introduced.
有源电力滤波器已成为解决这一问题的关键性技术。
提出了一种新型三相航空有源电力滤波器的控制方法。
A new control method for the three-phase aeronautical active power filter was proposed.
串联型有源电力滤波器可较好地补偿电压源型谐波源。
The series active power filter (SAPF) can compensate the harmonic distortion caused by voltage type harmonic source.
电流控制技术直接影响并联有源电力滤波器的补偿性能。
The compensation performance of the shunt active power filters is directly affected by the current control strategy.
本文对有源电力滤波器的电流控制方法进行了深入地研究。
Many studies on the current control techniques for active power filters are carried out.
有源电力滤波器谐波检测中数字低通滤波器的设计是关键。
The key of active power filter harmonic detection is the design of digital low-pass filter.
所提出的方法适用于有源电力滤波器的谐波和无功电流检测。
The proposed detecting approach can be used for detecting the harmonics and the reactive currents of active power filters.
提出一种基于谐波磁通补偿原理的单相并联型有源电力滤波器。
A novel single-phase parallel active power filter based on the harmonic magnetic flux compensation theory is proposed.
采用有源电力滤波器治理谐波比无源滤波器有更优越的补偿性。
Governing harmonic with Active Power Filter has better compensation performances than with Passive Filter.
有源电力滤波器(APF)是治理电网谐波的一种行之有效的方法。
Active power filter (APF) is regarded as an effective way to correct power harmonic.
特别是三相四线制有源电力滤波器硬件结构简单,只有三组开关器件。
Especially three-phase four-wire active power filter hardware has simple structure with only three group switch device.
提出一种新型的基于基波磁势自平衡谐波抵消式串联有源电力滤波器。
A new type series active power filter based on fundamental magnetic potential self-balance and harmonic counteraction is proposed.
有源电力滤波器是一种用于抑制谐波、补偿无功的新型电力电子装置。
Active power filter (APF) is a new power electronics device used to restraining harmonics and compensating reactive power.
对传统的串联混合型有源电力滤波器抑制谐波的基本原理做了定性分析。
The basic principles for suppressing the harmonics of the conventional series hybrid active power filter (SHAPF) are analyzed qualitatively.
提出一种新型的基于变压器谐波电流补偿的高压大容量有源电力滤波器。
An active power filter based on harmonic current compensation of the transformer is proposed for high voltage large capacity application.
提出并分析了一种适用于控制并联有源电力滤波器的人工神经网络方法。
An artificial neural network method for control of shunt active power filters is presented and analyzed.
有源电力滤波器是一种用于动态抑制谐波,补偿无功的新型电力电子装置。
The active power filter is a new kind of the power electronic plant restraining harmonic and compensating reactive power.
有源电力滤波器是一种用于动态抑制谐波,补偿无功的新型电力电子装置。
Active power filter is a new power electronic plant restraining harmonic and compensating reactive power.
文中提出了一种改进的单周控制直流侧有源电力滤波器(DC侧APF)。
This paper proposes an improved DC side active power filter (APF) with one cycle control.
基于单周控制方法,作者提出了一种级联型有源电力滤波器的新型控制策略。
Based on one-cycle control method, a novel control strategy for cascaded active power filter is proposed.
这种有源电力滤波器由选择性谐波检测环节、电压控制和电流控制环节组成。
The SHC-APF include a selective detection unit and a closed loop for DC voltage control and current control.
电压源型有源电力滤波器直流侧电容电压的稳定程度对补偿性能有直接的影响。
The stability of the dc bus capacitor voltage is directly connected with the compensatory capability of an voltage source active power filter.
对串联混合型有源电力滤波器的电路结构、系统特性、控制方法等进行探讨与分析。
The circuit structure, control method and system characteristics of the hybrid type series active power filter are discussed.
提出一种新型的四桥臂三电平并联有源电力滤波器(APF)的空间矢量控制策略。
A novel space vector control strategy is proposed for four-leg three-level shunt active power filter (APF).
提出了一种计算并联型有源电力滤波器电源电流参考信号和补偿电流指令信号的新方法。
A new method to calculate the source current reference and the compensating current reference for shunt active power filter (APF) is presented.
本文介绍了单周控制法在单相有源电力滤波器中的应用,并对各种改进措施进行了探讨。
In this paper, the applications of one-cycle control in active power filter are introduced, and many improved methods are discussed.
有源电力滤波器(简称APF)技术是一种实现电网谐波补偿、改善供电质量的重要方法。
Active power Filter (APF) technology is one of the important ways to realize harmonic wave compensation of electrical network and improve the quality of power supply.
有源电力滤波器(简称APF)技术是一种实现电网谐波补偿、改善供电质量的重要方法。
Active power Filter (APF) technology is one of the important ways to realize harmonic wave compensation of electrical network and improve the quality of power supply.
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