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1)  series-compensated amplifier
串联补偿放大器
2)  shunt peaking amplifier
并联补偿放大器
1.
35 μm CMOS technology is designed on the use of inductance increasing bandwidth,technique in the application of a shunt peaking amplifier.
利用电感增加带宽技术在并联补偿放大器中的应用,设计出基于MentorEDA电路仿真软件和Chartered0。
3)  shunt-compensated video amplifier
并联补偿视频放大器
例句>>
4)  thyristor controlled series compensators
可控串联补偿器
1.
Power system oscillations of both local mode and inter-area mode can be successfully suppressed if auxiliary damping controllers,such as power system stabilizer(PSS)or those installed on thyristor controlled series compensators(TCSC),are well tuned.
针对电力系统稳定器(power system stabilizer,PSS)和可控串联补偿器(thyristor controlled series compensa- tors,TCSC)的附加阻尼控制器能分别有效阻尼机间振荡和区域振荡的特点,提出一种采用单纯形-模拟退火法对PSS和TCSC阻尼控制器进行协调优化的设计方法。
5)  single-phase series compensator
单相串联补偿器
1.
In the MERS-based single-phase series compensator,the MERS can absorb and recover the magnetic energy in the load inductance for reactive compensation.
基于磁能恢复开关的单相串联补偿器中,磁能恢复开关能够吸收并恢复负载电感中的磁场能量,实现无功功率的补偿。
6)  thyristor controlled series compensator(TCSC)
可控串联补偿器
1.
To analyse the possible interactions among multiple flexible AC transmission system(FACTS) controllers in a power system,an approach based on the singular value decomposition(SVD) is proposed for the analysis of interactions between thyristor controlled series compensator(TCSC) and static Var compensator(SVC).
针对电力系统中多台灵活交流输电装置(FACTS)控制器之间可能存在的交互影响问题,以可控串联补偿器(TCSC)和静止无功补偿器(SVC)2种FACTS控制器为研究对象,提出了一种基于奇异值分解(SVD)的交互影响分析方法,定量分析了新英格兰10机39节点电力系统中同时装设TCSC和SVC时,2台FACTS装置之间可能存在的交互影响问题及电气参数对交互作用的影响。
2.
The coordinated operation of thyristor controlled series compensator(TCSC) and static var compensator(SVC) was investigated to maintain the power transmission and improve the angle stability simultaneously in a long transmission system.
为提高远距离输电系统的线路传输能力和暂态稳定性,采用可控串联补偿器(TCSC)和静态无功补偿器(SVC)2种柔性交流输电系统(FACTS)元件联合运行来同时保证线路功率传输和多机间功角稳定。
补充资料:并联无功补偿装置


并联无功补偿装置
shunt equipment for var compensation

eomPensation) 基本原理···············,·······················……56 补偿的基本原则······························……56 主要类型·······,·······························……56 机械投切型无功补偿装里···············……56 并联电容器······························……57 滤波器····································……57 并联电抗器······························……57 快速调节型无功补偿装里···············……57 同步调相机······························……57 静止无功补偿装置·····················……57 静止同步补偿器························……57 主要技术性能·································……57 用途·············································……57 负荷补偿····································……57 交流输配电系统补偿·····················……57 超高压直流输电系统补偿···············……57 兼作滤波装置······························……57 发展简况·······································……59 并联在电力网上,向电网注人或从电网吸收无功功率的装置,常称无功补偿装置。但就补偿装里接入电网的方式而言.不仅包括并联补偿装置,还应包括申联补偿装置。无功功率的性质,有感性无功功率和容性无功功率的区别。电力系统的负荷大都是感性负荷,即消耗感性无功;习惯上“无功”就是指感性无功,即不标明性质的无功功率即指感性无功功率。如电容器是容性负荷,它吸收容性无功功率亦即发出感性无功功率,一般称电容器发出无功或说它是无功电源;反之电抗器吸收无功则是无功负荷。静止同步补偿装1既可工作于容性区又可工作于感性区,既可供给无功也可吸收无功。向系统提供无功称为“正补偿”,从系统吸收无功则称为“负补偿”。
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