分流器是一种测量直流电流用的仪器,根据直流电流通过电阻时在电阻两端产生电压的原理制成。
By means of the available method and technology, high stability and accuracy (( 0.2%) of shunt can be reached.
只要采用适当的方法和技术,可保证分流器良好的稳定性,达到0.2级的测量准确度。
参考来源 - 光电直流电流及谐波电流互感器的研究The main advantages of shunt are simple in the structure and no magnetic interference, as well as prone to be isolated between secondary circuits and primary part of the transducer by using optic fibers.
分流器测量电流具有不受磁场干扰及结构简单的特性,特别是结合光纤传输改变了分流器无法隔离的不足,较之其它方法用于高压测量具有明显优势。
参考来源 - 高压直流输电有源光纤直流电流传感器的研究Based on the characteristics of two - phase, performance evaluation index and method of refrigerant flow distributor are presented.
在分析两相流特点的基础上,提出了制冷剂两相流分流器分流性能评价指标及评测方法。
参考来源 - 论两相流分流器性能评价体系·2,447,543篇论文数据,部分数据来源于NoteExpress
它还积极地管理扫描器、传送带、分流器等设备。
It also actively manages devices such as scanners, conveyor belts, diverters, and so on.
已知的应用有用于控制和测量电流的电气分流器。
Known applications include electrical shunts which control and measure the actual current through devices.
用精密分流器将电流变换成电压以实现电流测量功能。
Precision shunts are used to convert currents to voltages for the amps functions.
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