本文提出了能同时改善电力系统功角稳定和装设点电压动态特性的用于静止无功补偿器(svc)的变结构控制器设计方法。
A variable structure controller for Static var Compensator (SVC) which can improve power Angle stability of power system and local voltage characteristics of SVC is proposed.
介绍了用PIC系列单片机构成的智能无功补偿控制器,该控制器具有高性能、低价位、高可靠性、配置灵活的特点。
Introduce the intelligent reactive compensating controller based on PIC single computer, it has lower cost, flexible arrange, higher reliability and performance.
介绍了低压配电网无功功率自动补偿控制器的软件和硬件设计方法。
Hardware and software design of reactive power automatic compensation controller for low-voltage distribution systems is introduced.
论文的研究结果表明,在配电网中,采用新的无功电压控制策略和应用FACTS控制器可以获取很好的技术经济效益。
The results show that much techno-economic benefits can be obtained by using new control strategy of reactive power-voltage and extending the utilization of FACTS controller in distribution network.
统一潮流控制器(UPFC)可以有效控制线路的有功和无功功率。
UPFC (Unified power Flow Controller) is always used to control the active and reactive power of transmission lines.
介绍了以8098单片机为核心的无功功率补偿控制器的硬件结构及软件设计。
This paper presents the hardware and software designs of a Var compen-satlon controller based on the 8098 microprocessor.
该控制器集电网监测与无功补偿于一体,同时完成谐波治理和通信功能。
The controller can achieve the functions such as survey the power grid, reactive power compensation, harmonic control, remote communication and so on.
高精度智能无功功率补偿器是采用相关理论的算法和PIC微控制器实现的一种控制器。
Passive power compensator with high precision and intelligence is a controller, which is accomplished by the algorithm of relative theory and PIC microcontroller.
该控制器采用数字检测电路来获取电网电压与电流的相位差,从无功补偿的原理出发,设计控制器的软硬件。
It measures excess phase of voltage current by using digital circuit, Based on the reactive compensation theorem, the software hardware of the controller is deigned.
介绍一种新型基于软开关投切技术的连续无功补偿方案,并设计出适用于该方案的基于ARM嵌入式微处理器的无功补偿控制器。
In this paper, a new kind of continuous reactive power compensator which is based on soft switching was introduced and a ARM-based controller was designed.
介绍一种新型的基于软开关投切技术的连续无功补偿装置,并设计出适用于该方案的基于ARM嵌入式微处理器的无功补偿控制器。
In this paper, a new kind of continuous reactive power compensator based on soft switching is introduced and an ARM-based controller is designed.
针对现有变电站电压无功控制系统存在的问题,提出了一种应用DSP控制器实现电压无功综合控制的方案。
The system based on DSP is proposed to solve the problems of voltage and reactive power integrated control in a substation.
TSC的核心技术是动态无功补偿控制器和晶闸管过零触发模块。
The important parts of the TSC are the dynamic reactive power compensation controller and the thyristor trigger circuit.
本文主要研究了基于数字信号处理器(dsp)的静止无功补偿装置(svc)的控制器。
The controller used in SVC based on DSP is mainly studied in this paper.
通过计算发电机转速和无功补偿节点电压变化量对各控制器参数的轨迹灵敏度,获得目标函数对各控制器参数的梯度,以便于用共轭梯度法寻找最优解。
Trajectory sensitivity approach is used to assess the gradient of the PSS and SVC parameters on the objective function and then conjugate gradient approach is applied to find the optimum solution.
本文主要研究了无功补偿对电网性能的改善,电网最佳补偿点的位置和容量配置,及控制器的软、硬件的设计。
The main part of this thesis includes the ameliorating of the net which comes from the reactive power compensate, the most felicitous compensating position, and the hardware and software design.
本研究以电网无功补偿改造为背景,研制了一种低压无功功率补偿控制器。
This thesis is to design a controller which can adjust the electric power wire's reactive power which is under the background of the reconstruction of the wire's reactive power compensation.
本文主要研究用于不平衡负载的SVC无功补偿控制器。
The control method of SVC for unbalanced load is mainly researched in this paper.
介绍一种新型的基于软开关投切技术的连续无功补偿装置,并设计出适用于该方案的基于ARM嵌入式微处理器的无功补偿控制器。
This paper presents a new type of continuous reactive compensator based on a soft switching technique and the design of an ARM-based controller.
本文主要提出了一种采用工控机为控制平台的静止无功补偿控制器的设计方法。
A novel approach based on industrial computer of Static Var Compensator is presented in this paper.
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。
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.
对基于模糊控制的电压无功控制的基本模糊控制器设计方法进行了探讨,并指出了今后模糊控制理论在电压无功综合控制方面的应用方向。
The design methods of basic fuzzy control for FVQC is introduced, and the foreground of fuzzy control theory application in VQC in the future are also pointed out.
对基于模糊控制的电压无功控制的基本模糊控制器设计方法进行了探讨,并指出了今后模糊控制理论在电压无功综合控制方面的应用方向。
The design methods of basic fuzzy control for FVQC is introduced, and the foreground of fuzzy control theory application in VQC in the future are also pointed out.
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