在选择断路器电容器的电容量时应该综合考虑以上两种因素。
These two factors should be considered in selection of the capacitance of the circuit-breaker capacitor.
断路器电容器可并联于工频交流断路器的断口上,使各断口间的电压在开断时达到均匀。
The circuit-breaker capacitors are shunted to the break of AC breaker to equalize while closing(or breaking) a circuit.
断路器电容器不仅具有改善断路器各断口电压分布的作用,而且还能降低断路器断口恢复电压上升率。
The circuit-breaker capacitor can not only improve the voltage distribution along arc-quenching chambers connected in series, but also reduce the rise rate of the recovery voltage.
断开电容器组的断路器。
分析了断路器绝缘特性和合闸时间分散性对并联电容器组同步关合的影响;
This paper analyses the influences of the closing time scatter and dielectric characteristic of circuit breaker on synchronous energizing shunt capacitor banks.
结果表明,相控真空断路器动作分散性小,可以有效地完成电容器组的同步关合,大幅度降低系统暂态过电压、减小涌流。
The experimental results show that the operation is stable and may be used to complete the synchronized-closing of capacitor banks in order to limit the transient over-voltage and inrush current.
最终的目标是从真空断路器机械特性方面入手,降低操作并联电容器组时的重燃率、并减小操作过电压危害。
The aim is to reduce the reignition rate and over-voltage damage from the perspective of the mechanical characteristics of the vacuum breaker switching shunt capacitor Banks.
通过测量记录相关的特征量,能自主评估电容器、断路器及装置本身的状态,做出状态检修决策。
By measuring and recording the relevant characteristic variables, the states of capacitors, breakers and equipment are self-evaluated, and the conditional maintenance decision is made.
提出了电容器组用断路器的技术条件和选型意见。
Then it gives technical requirements of the circuit break-ers for arallel capacitor banks and the option of its types.
冲击可由用户投切负荷产生,也可由电力部门投切操作(电容器,断路器等等)引起。
Surges can be generated by customers through the switching of their own loads, or they may be caused by utility switching operations (capacitors, breakers, etc.).
最后简要分析了真空断路器开断电容器组过电压的形成原因及为减少重燃的电极老炼措施。
At last, vacuum circuit breaker switching capacitance group overvoltage formative causes and electrode refining for lessening reignition are discuss.
最后简要分析了真空断路器开断电容器组过电压的形成原因及为减少重燃的电极老炼措施。
At last, vacuum circuit breaker switching capacitance group overvoltage formative causes and electrode refining for lessening reignition are discuss.
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