1) var generator
无功发生器
1.
This dissertation is focused on the research of Advanced Static Var Generator (ASVG) based on the Insulated Gate Bipolar Transistor (IGBT), which includes the structure, principle, control and development of ASVGThe dissertation analyzes the working principle of ASVG briefly and summarizes the working performance of ASVG.
本论文的研究工作主要围绕基于IGBT的大功率新型静止无功发生器(ASVG)装置的研制开发而展开,涵盖了ASVG工作机理的研究,ASVG控制方法的研究和ASVG装置设计开发等主要内容。
2) ASVG
静止无功发生器
1.
MECHANISM AND SUPPRESSION OF OVER VOLTAGE ON DC SIDE OF ASVG UNDER DRIVING PULSES BLOCKING OPERATION;
封锁脉冲运行方式下静止无功发生器直流侧过电压产生的机理及抑制方法
2.
A Study on a SVPWM Based ASVG Compensating the Unbalanced System;
基于空间矢量调制的静止无功发生器在不平衡系统补偿中的应用研究
3.
A novel Advanced Static Var Generator(ASVG) based on current control is proposed in terms of the Substitution Theorem in circuit theory.
为了研究新型的静止无功发生器,用电路理论中的替代定理,提出了一种基于电流控制的静止无功发生器(ASVG)的原理。
3) static synchronous compensator
静止无功发生器
1.
Because of it is well in voltage regulation, Static Synchronous Compensator has been paid more and more attention.
静止无功发生器以其优良的电压调节性能得到了电力界的普遍重视,本文在对静止无功发生器的数学模型分析的基础上,提出了静止无功发生器的新的控制方法。
2.
As one of the most advanced way to deal with reactive power dynamic compensation, digital controlled Static Synchronous Compensator (STATCOM) has become a new research focus in power electronics field.
使用静止无功发生器(STATCOM)对电力系统进行无功功率动态补偿,这种无功补偿的先进方法,已经成为近年来电力电子领域研究的热点。
4) static VAR generator
静止无功发生器
1.
Countermeasure to Network Negative Sequence Voltage for Static Var Generator;
静止无功发生器对抗电网负序电压的研究
2.
Control system of static var generator based on sliding variable structure;
基于滑模变结构的静止无功发生器控制系统
3.
Detection of reactive current and simulation in Static Var Generator;
静止无功发生器的无功电流检测及仿真
5) SVG
静止无功发生器
1.
Control Strategy for SVG under Non-ideal Source Voltages;
在非理想电源电压下静止无功发生器控制策略的研究
2.
Design of Control System for SVG Based on DSP TMS320F2812;
基于DSP TMS320F2812静止无功发生器控制系统的设计
3.
The New Modulation Method of SVG;
静止无功发生器的新型调制方式
6) STATCOM
静止无功发生器
1.
Design and Realization of Control Method of STATCOM;
新型静止无功发生器的控制方法设计与实现
2.
Investigation on the Integration of BESS with STATCOM;
大容量静止无功发生器与电池储能的集成
3.
System Simulation of STATCOM Based on MATLAB;
基于MATLAB的静止无功发生器系统仿真
补充资料:14MeV中子发生器
分子式:
CAS号:
性质:系由高压倍加器(又称低能氘子加速器)将氘核加速到100~200keV,轰击氚靶而产生近乎单能的14MeV中子的核装置。中子输出能力一般为108μA-1/s。现已有中子输出高达1014s-1以上的强流中子发生器。可供材料科学、生物实验、军事科学和活化分析等用。
CAS号:
性质:系由高压倍加器(又称低能氘子加速器)将氘核加速到100~200keV,轰击氚靶而产生近乎单能的14MeV中子的核装置。中子输出能力一般为108μA-1/s。现已有中子输出高达1014s-1以上的强流中子发生器。可供材料科学、生物实验、军事科学和活化分析等用。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条