少数情况属永久性故障,自动重合闸装置动作后靠继电保护动作再跳开,查明原因,予以排除在送电。
Limited circumstances permanent fault, automatic re-closing devices on the move after the opening relay action Zaitao to identify reasons, be excluded from the power supply.
绝大多数的诊断故障码与计算机的输入电压或信号有关,并且作为一种永久性故障存在一段时间。
Most diagnostic trouble codes relate to the computer input voltages or signals and must exist for a specific period of time to be recognized as a hard fault.
针对带并联电抗器的超高压输电线路,提出一种单相自适应重合闸永久性故障识别的新方法。
A novel method of identifying permanent fault for single-phase adaptive reclosure in transmission lines with shunt reactors is proposed.
CAN协议本身具有容错控制的功能,但是当网络信息负载较大时,网络容易出错,且CAN总线网络排除永久性故障的能力较差,不能满足对实时性和可靠性要求较高的网络需求;
The protocols of the CAN bus have the function of fault tolerant control, but when a great quantity of information transmit by the network, it's easy to make mistakes.
提出了一种用于区分输电线路瞬时性故障和永久性故障的新方法:利用高频通道及其信号区分瞬时性故障和永久性故障,从而实现三相自适应重合闸。
This paper brings forward a whole new scheme of three-phase adaptive reclosure, which uses the carrier channel and its signals to distinguish transient faults and permanent faults.
区分瞬时性和永久性故障为目的的自适应重合闸,能减少故障对电能的损失,增强电网的稳定性。
The self-adaptive reclosure, which is aimed to distinguish the transient fault and the permanent fault, can reduce the power loss caused by faults and enhance the stability of power system.
本研究目的为检查和报告放射治疗期间永久性心脏起搏器(PM)和植入式心脏转复除颤器(ICD)功能故障的发生率与模式。
The objective of this study is to review and report the incidence and mode of PM and ICD malfunction during radiotherapy.
对永久性接地故障,该方法可实现故障选相并进行定位。
When permanent phase-to-ground faults occur, this method can be used to identify the fault phases and justify fault location.
在分析带并联电抗器输电线路单相故障特点的基础之上,提出一种利用参数识别原理的单相自适应重合闸永久性故障识别方法。
For transmission lines with two shunt reactors, this paper presents a novel method of identifying permanent faults for single-phase auto-reclosure.
本文所提出的自适应重合闸方案在最大程度上保证了线路不重合于永久性故障,并且增加了重合闸成功的概率。
The adaptive auto-reclosing scheme can avoid reclosing the fault lines to permanent fault nearby, and enhance the possibility of reclosing successful.
提出了一种新型区分输电线路单相瞬时性故障与永久性故障的方法。
On the basis of detailed research a new method isproposed which can distinguish the temporary faults frompermanent faults in transmission lines.
提出了一种新型区分输电线路单相瞬时性故障与永久性故障的方法。
On the basis of detailed research a new method isproposed which can distinguish the temporary faults frompermanent faults in transmission lines.
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