Electromagnetic voltage transformer and capacitance divider are usually used to get voltage signal in power system.
目前电力系统电压信号的采集,大多采用电磁式电压互感器和电容式分压器。
The electron beam is equivalent to transmission-line inner conductor. A ceramic capacitance divider is proposed for velocity ratio measurements.
提出将电子束作传输线内导体等效,采用陶瓷电容分压器来测量速度比的方法。
Also the capacitance divider has the possibility of resonance with inductance component in the system, which can make a heavy over-voltage and endanger the running of equipments and power system.
而电容式分压器属于容性元件,可能与系统中的感性元件形成谐振,出现过电压,危及设备及系统的正常运行。
Distribution capacitance between ground and resistance of a divider is the key factor that influences its performance.
电阻分压器对地分布电容是影响其性能的关键因素。
By theory analysis of divider transfer function of magnitude-frequency characteristics and phase-frequency characteristics, a new method equalizing stray capacitance could be conclude.
并且通过对分压器传递函数的相频和幅频特性进行理论分析,提出一种分布电容补偿的方法。
By theory analysis of divider transfer function of magnitude-frequency characteristics and phase-frequency characteristics, a new method equalizing stray capacitance could be conclude.
并且通过对分压器传递函数的相频和幅频特性进行理论分析,提出一种分布电容补偿的方法。
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