近年来,为了提高电网的输送能力,串联电容补偿技术被广泛采用。
The technique of series capacitor compensation had been applied recently to improve transmission ability of power grid.
目前,国内电网采用的电容补偿技术主要是集中补偿与就地补偿技术。
At present, the technique of capacitor compensation consists of concentrated compensation and local compensation in our country power.
结果:由实验结果发现,负电容补偿技术虽然无法使恒流源输出阻抗值趋于无穷,但是可使其阻抗值明显增大。
Results the result of experiments shows that: although the negative capacitance compensation technique can't let the output impedance approach to infinite, it can improve it obviously.
介绍串联电容补偿的技术原理,对并联补偿和串联补偿作了技术经济比较。
The technological theory of series connection compensation condenser is discussed, and connection of the series-parallel is compared.
但应努力开展电容电流自动补偿的研究工作,以进一步提高检漏继电器的技术水平。
A study on an auto compensation of capacitance current should be highly conducted to improve the technical level of the leakage check relay.
实验结果表明,该补偿技术能够快速有效的消除快电容瞬态电流,提高实验的操作效率和数据准确性。
The test result of the design demonstrates that the compensation technology could speed up the C-Fast transient cancellation effectively and improve the efficiency and the precision of the experiment.
将模糊控制技术应用于配电网并联补偿电容器组的自动投切控制。
The technology of fuzzy control is applied to automation switching control of compensation capacitors in distribution networks.
晶闸管投切电容器(TSC)是一种利用晶闸管作为无触点开关的动态无功补偿装置,是静止无功补偿技术的一个重要组成部分。
The thyristor switched capacitor (TSC) is the dynamic reactive power compensation equipment using thyristor as No-contact switch and an important part of the SVC technology.
采用了电容开关的技术以补偿工艺、温度和电源电压的变化,并对片上电感和射频开关进行优化设计以得到最大的Q值。
Some optimization designs were made with the on-chip inductor and the RF switches to get the maximum Q-value.
采用了电容开关的技术以补偿工艺、温度和电源电压的变化,并对片上电感和射频开关进行优化设计以得到最大的Q值。
Some optimization designs were made with the on-chip inductor and the RF switches to get the maximum Q-value.
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