晶闸管控制电抗器(TCR)以较好的解决电弧炉的无功补偿问题。
Among familiar compensators, Thyristor controlled reactor (TCR) is suitable for compensating the arc furnace.
本文对由晶闸管控制电抗器(TCR)型装置与一个固定电容器组(FC)型装置组成的静止无功补偿系统(SVC)建立了一个三阶非线性动态模型。
This paper discusses a nonlinear design for TCR-FC Static Var Compensator (SVC) to improve power system voltage stability. A third order nonlinear dynamical model for the SVC system is the developed.
阐述了微机无功动态补偿器中tcr晶闸管控制线性电抗器的控制原理,并对其数学模型的建立进行了讨论。
The controlling principle of thyristor control linear reactor of TCR in the reactive power dynamic compensator of microcomputer was expounded, and establishment of its mathematics model was discussed.
介绍了可控电抗器晶闸管导通角的微机控制及应注意的问题,并给出了试验结果和波形。
Microcomputer control of thyristor conduction Angle in controllable reactor and the matter to be noted are introduced. Experimental results and oscillogram are given.
为避免谐波问题造成的电容器等设备损坏,提出了根据电容器和电抗器的滤波能力,把谐波抑制功能加入电压无功控制(VQC)装置。
To avoid device damage caused by harmonic wave, a VQC device integrating harmonic suppression function is presented in terms of the filter capability of capacitor and reactor.
研究了一种基于磁通控制原理的电感和电阻连续可调的有源电抗器。
A new kind of an active reactor with continuous adjustable inductance and resistance is studied based on the magnetic flux control theory in this paper.
为了研究单磁芯饱和电抗器的控制输出特性,在单磁芯结构中增加一个检测绕组。
A measurement winding is added to study the control-output characteristics of the single core saturable reactor.
为研究含TCSC的电力系统的稳定性和动态特性及设计TCSC的实用化控制策略,提出了计及电抗器支路电阻影响并结合动态相量法的TCSC建模方法。
To better understand and control the interactions between TCSC and power system, a kind of dynamic phasors model of TCSC considering resistance influence of reactor branch is proposed.
首先建立了基于磁通控制的可调电抗器的通用数学模型,说明了可调电抗器的基本原理。
First, a mathematic model of adjustable reactors based on the magnetic flux control is established and a deep analysis is made.
根据系统性能要求和控制算法要求对主电路IGBT,电抗器和电容器参数进行计算。
According to the system performance and control algorithm requirements the thesis calculates the parameter of IGBT, capacitors and reactor.
这里须滤去由电抗器相位控制引起的谐波电流以避免不能接受的输电母线电压畸变。
These may be required where harmonic currents caused by the thyristor phase control of the reactor current must be filtered to prevent unacceptable transmission bus voltage distortion.
实验证明,采用新型PWM控制的整流器功率因数近似为1,且可大大减小平波电抗器的电感器。
The experiment shows power factor of the rectifier is approximate to 1 and the inductance of the DC filter is decreased greatly by applying the new PWM control method.
通过对磁阀式可控电抗器工作过程的分析,得出其等效控制电路,研究了其控制特性。
The equivalent controlling circuit is presented through analyzing the working process of controllable magnetic-valve reactor. Its controlling character is analyzed.
本文详细介绍磁阀式可控电抗器的结构和工作原理,建立了它的数学模型,推导了它的控制特性的电磁方程。
The theory and function of Magnetic valve controllable reactor is illustrated in detail in the paper, the mathematical model is given, and its electromagnetism equations is presented.
在提出电弧炉能量过程控制概念的基础上,论述了其控制过程的三个子系统控制:饱和电抗器控制、喷氧和后燃烧控制、能源需求控制。
On the concept of energy process control in EAF, three subsidiary control system, which are saturation reactor control, oxygen jet control and energy demanding control, are introduced.
然后阐述了可控电抗器恒功率因数控制的无功补偿原理和实现方法,并进行了无功补偿实验。
The reactive power compensation principle and method of constant power factor control are studied theoretically . and experimentally.
采用短路电流控制器和动态电子电抗器,实现了脉冲MIG焊动态特性的自适应控制。
The self-adaptation control of dynamic characteristics of pulsed MIG welding was achieved by a short circuit controller and a dynamic electronic inductor.
最后本文详细介绍了可控电抗器控制器的硬件和软件设计。
Finally, this paper details hardware and software design of the controllable reactor controller.
当选用低阻抗整流变压器时,全套设备由控制柜、电抗器、整流变压器三大部件组成。
When matched with low - impedance rectifier transformer, the whole set is composed of control cabinet, reactor and rectifier transformer.
本文我们以基于磁通控制的可控电抗器作为研究对象,研究它在无功补偿中的应用。
In this paper, we select controllable reactor based on magnetic flux adjustable as our research object, study its application in reactive power compensation.
介绍一种新型可控消弧电抗器控制部分的结构和原理。
This paper presents the principle and structure of the controll system of controllable arc-extinguishing reactor.
针对空心电抗器快速检测的要求,本文设计了空心电抗器内表面快速检测仪的传动系统和控制系统。
For the requirements of air-core reactor's rapid detection, this article has designed air core reactor inner surface of the rapid detecting instrument's drive system and control system.
提出了一种新的适合于GTR电流型变频器整流器部分的PWM控制方法,推导出了在准圆轨迹PWM控制规律下,整流器输出电压的计算公式和平波电抗器电感量计算的实用公式。
A new PWM control method for GTR current source rectifier is presented. The mathematical formulae that output voltage of the rectifier and inductance of the DC filter are derived.
针对该电抗器的PWM逆变器控制系统进行了深入研究分析。
Embedded analysis for the PWM (Pulse width modulation) inverter-control system of the apparatus is provided.
针对该电抗器的PWM逆变器控制系统进行了深入研究分析。
Embedded analysis for the PWM (Pulse width modulation) inverter-control system of the apparatus is provided.
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