The influence of the DC capacitor value. transformer reactance and controller parameters on power system stability is analyzed.
系统地分析了ASVG直流侧电容量、变压器电抗值以及控制参数对电力系统稳定性的影响;
The result of the paper is value to operation of the power capacitor.
所得出的结果,对电容器运行有一定的参考价值。
Here is a new method about the resonant network design for the capacitor tap, this can decide very quickly and accurate Capacitance Value.
本文对电容抽头负载部分接入的谐振网络设计提出了一种准确而快速地确定回路电容值的方法。
This article introduces the true value measurement of dissipation factor by making use of an air capacitor with gap-variable guard-ring.
本文介绍利用变间隙保护环电容器的损耗特性进行损耗因数的绝对测量(真值测量)和传递。
The analyses show that using a low equivalent series resistance (ESR) capacitor with a carefully determined value and raising switching frequency can decrease output voltage fall.
分析表明,采用合适电容值的低等效寄生电阻的滤波电容,并提高开关频率,可减小输出电压跌落。
The diode ACTS like a variable resistance, low when the charging current to the capacitor is high, then increasing in value as the current decreases with time.
该二极管象一个可变的电阻。当电容器的充电电流很大时,其阻值很低;而电流随时间变小时,其阻值增大。
The equation is given which explains the relation between resonance frequency and capacitor bank capacitance, bus short-circuit capacitance and bus rising voltage value.
本文分析了谐振次数与电容器组容量、母线短路容量以及母线电压上升值之间的数学关系。
The technical failure lies in ignoring the surge slot capacitor parallel connection with low value water cooling electric resistance, and induce abnormal power diffluence wasting.
技术上曾经的失误在于,因疏忽导致了不合理的振荡槽路电容等价并联低值冷却水路水电阻,形成异常功率分流附加损耗问题。
A method to design the value of coupling capacitor in coupled high-resolution charge-scaling DAC is presented.
间耦合电容值的设计方法,讨论了寄生电容对DAC精确度的影响。
The basic theory for voltage and reactive control and the taps changed in transformer and shunt capacitor switched affect the voltage value are discussed in the paper.
本文从电压无功综合控制的基本原理出发,说明了变压器分接头的调节与并联电容器投入容量的大小对电网电压的影响。
The research result has positive reference value to the design and manufacture of power capacitor.
研究结果对电力电容器的设计和制造有参考价值。
A method to design the value of coupling capacitor in coupled high-resolution charge-scaling DAC is presented.
介绍了耦合结构高分辨电荷按比例缩放DAC级间耦合电容值的设计方法,讨论了寄生电容对DAC精确度的影响。
Therefore, the capacitor discharges back into the line in an effort to keep the voltage from decreasing in value.
因此,该电容放电回线在努力保持电压下降值。
This inrush current flows as a main filter capacitor and the ballast charges to its steady state value.
该浪涌电流随着主滤波器电容器而流动,并且镇流器充电到其稳定状态值。
Through choosing the dead band time of amortize capacitor and numerical value, can realize soft switch in all operation pattern.
通过选择缓冲电容器的死区时间和数值,便能够在所有运行模式中实现软开关。
Through analysis and using computer programs, the whole-process simulation and calculation is achieved, the maximum overvoltage value when switching on and off the capacitor being attained.
根据分析和利用计算机程序实现了全过程的模拟及计算,得到电容器分、合闸的最大过电压值。
Secondly, with the aid of developed 4TP-single-terminal-port transform device, capacitance value of single-terminal-port capacitor is measured by 4TP impedance instrument.
然后,借助于研制的精密四端对-单端口转换器,用四端对阻抗测量仪测量单端口电容器容量值;
The reactor value choosing method of capacitor and reactor circuit resonance frequency point in series is put forward.
提出了按电容支路串联谐振频率点选择电抗值的方案。
Therefore, the capacitor discharges back into the line in an effort to keep the voltage from decreasing in value.
因此,电容器放电回线,以努力保持电压的降低中的值。
Controlling the DC capacitor average voltage and fluctuant voltage at an adequate value is an important factor which guarantees the excellent compensation characteristics of shunt active filter (APF).
控制逆变器直流电容的平均电压与电压波动为适当值是保证并联型电力有源滤波器具有良好补偿性能的一个重要因素。
The experimental value deviate from theoretical value is found by measuring the impedance of inductor and capacitor.
通过对电容电感阻抗的测量,发现实验值偏离理论值。
A novel double-sampling double-delay switched capacitor resonator with high performance is proposed. High notch Q-value and accurate notch frequency are analyzed at the transfer function level.
在研究了开关电容谐振子的基础上,提出了一个新颖的高性能的双采样的双延迟式谐振子,传输函数级的分析和模拟表明该谐振子具有高的陷波Q值和精确的陷波频率。
A novel double-sampling double-delay switched capacitor resonator with high performance is proposed. High notch Q-value and accurate notch frequency are analyzed at the transfer function level.
在研究了开关电容谐振子的基础上,提出了一个新颖的高性能的双采样的双延迟式谐振子,传输函数级的分析和模拟表明该谐振子具有高的陷波Q值和精确的陷波频率。
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