So, there is an urgent need for additional dynamic reactive power compensation device to improve the power quality.
因此迫切需要增设动态无功补偿装置,来提高电能质量。
AT89C52 was a sort of cheap Single Chip Microcomputer and was applied to control system of reactive power compensation device.
控制系统采用价格比较便宜的AT89C52单片机作为控制系统主体。
A new type of low voltage reactive power compensation device is introduced, which is simple in design, low in cost and high inc...
针对以上情况研制的新型低压无功补偿装置电路设计简单、成本低、控制精确且可靠性高。
In order to overcome the disadvantage of the single phase passing zero control in the reactive power compensation device, fuzzy control is put forward in this paper.
针对目前无功补偿装置中采用的单相过零投切方法存在的缺点,本文提出采用模糊控制的方法。
The paper mainly includes the followed parts: the principle of the TSC, the control method and principle of reactive power compensation device and the hardware and software design of the device.
本文主要研究了TSC无功补偿的基本原理,无功补偿的控制方式和原理,以及控制器的软、硬件的设计。
Through the single-dynamic load model dynamic reactive power compensation device can change the original system bifurcation point, increase the load limits and improve the system voltage stability.
通过对单机。动态负荷模型添加无功功率动态补偿装置,可以改变原系统的分岔点,增加了负荷极限,从而提高了系统电压稳定性。
According to the present status of transformers and on-load tap changers in China, voltage regulation real-time reactive power compensation device is developed successfully with domestic equipment.
根据我国变压器及有载分接开关的现状,采用国产设备研制成功了调压型实时无功补偿装置。
Through the comparison, introduced a kind of new-type low-voltage reactive power compensation device and the dynamic performance of the technology and superior to the traditional compensation devices.
通过比较,重点介绍一种新型低压无功动态补偿装置,其各项技术性能,都优于传统的补偿装置。
At present, the research on compensating reactive power using static compensation device is one of the most active areas in power electronics subject.
利用静止无功补偿装置实现动态无功功率补偿的研究是目前电力电子学科中比较活跃的研究领域之一。
This article introduces reactive power detection and compensation device based on single-chip microcomputer AT89S51. The working principles of the device are also introduced in detail.
介绍了基于AT 89s51单片机控制的无功检测与自动补偿装置,分析其工作原理。
This paper presents a new automatic compensation system of high tension reactive power, which consists of single-chip microcomputer, high tension capacitor and control device.
本文介绍了一种由单片微型计算机、高压电力电容器和控制装置组成新的高压无功确率自动补偿系统。
One of the traditional methods of reactive power compensation is to use compensating capacitors, therefore, compensation device is widely used in power network.
设置补偿电容器是补偿电网中无功功率的传统方法之一,无功补偿装置在电网中应用相当普遍。
This paper presents a design method of reactive power compensation and harmonics restraining device and a method for calculating the parameter of all parts of this device.
提出了一种无源无功补偿与谐波抑制装置的设计方法以及装置中各部分的参数计算方法。
The application of reactive compensation device in power supply lines in the on-pole transformer is a new subject.
供电线路中的无功补偿装置,在杆上变压器上的应用是个新课题。
At present, the main device of reactive power compensation are synchronous compensator and static device, their price is very high and it is difficulty to maintenance.
目前,无功补偿的主要装置是同步补偿机和静补设备,它们的价格昂贵且维护复杂。
Based on the above control thought, this paper finally developed a low-voltage reactive power compensation mixing experimental device.
根据以上控制思想,本文最后研制了一套低压无功混合补偿实验装置。
In recent years, the controllable reactor gradually become an important device for reactive power compensation, also it has broad application prospects.
近年来,可控电抗器逐渐成为无功补偿的重要装置,其应用前景十分广阔。
For the existing reactive power compensation technology, some new control methods are proposed, and a measuring high-voltage TSC VAT compensation device is designed.
本文针对现有无功补偿技术提出了一些新的控制方法,并设计了一套高压tsc无功补偿装拦。
It can achieve the better compensation effect if used together with harmonic restraint device. The further study on the reactive power compensation is also discussed in the end of the thesis.
该装置跟滤波装置配合使用能够达到理想的就地补偿效果,并对今后无功补偿的研究方向进行了讨论和展望。
It can achieve the better compensation effect if used together with harmonic restraint device. The further study on the reactive power compensation is also discussed in the end of the thesis.
该装置跟滤波装置配合使用能够达到理想的就地补偿效果,并对今后无功补偿的研究方向进行了讨论和展望。
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