通过对电源结构的详细阐述,分析总结了电源远程监控系统需要检测、控制的主要参数,并且以蓄电池的电压、电流、温度检测设计作为电源参数检测的一个应用实例加以分析。
We analyses the structure of power supply, many parameters should be detected in remote monitoring, we give an example of how to detect the voltage, current and temperature of accumulator.
同时,4.2兆韩元将被用于建立智能电网,通过电子监控的电流进入电力系统,这一智能电网将提升电力效率。
Meanwhile, 4.2 trillion won will be used to establish a smart grid that will improve energy efficiency by electronically monitoring electricity flow in the power grid.
最后还搭建了一套蓄电池数据采集调试系统,本系统基本完成了课题的目标,实现了蓄电池单体电压、蓄电池组总电压、蓄电池电流和蓄电池温度数据的监控。
Then a battery wireless data acquisition system is set up at the end of the dissertation. The system can monitor the single battery voltage, the total voltage, current and temperature of the battery.
但是长期以来,智能建筑的配电部分在国内一直被忽视,大多数工程仍然只利用变送器或PLC采集开关状态、部分电流,这与变配电监控系统作为大楼的心脏,是大厦动力系统的重要地位是不相配的。
But the power distribution in intelligent buildings has been neglected for a long time at home, and lot of projects still only use transducer or PLC to collect the switch status and partial current.
但是长期以来,智能建筑的配电部分在国内一直被忽视,大多数工程仍然只利用变送器或PLC采集开关状态、部分电流,这与变配电监控系统作为大楼的心脏,是大厦动力系统的重要地位是不相配的。
But the power distribution in intelligent buildings has been neglected for a long time at home, and lot of projects still only use transducer or PLC to collect the switch status and partial current.
应用推荐