Smart Water Meter Displays Water Consumption Information in Real Time
With the rise of the NBIOT technology of the Internet of Things, a smart water meter with the help of the new NBIOT technology has been rapidly applied. Based on the smart water meter base meter, the NBIOT narrowband cellular Internet of Things is connected to realize automatic remote meter reading of water consumption and other functions. It can display the water consumption information in real time, like immersing yourself in the door-to-door meter reading, which effectively avoids the water supply company's door-to-door meter reading and improves work efficiency.
The NB-IoT technology in the smart water meter refers to the narrowband Internet of Things technology. It supports cellular data connections of low-power devices over wide-area networks and is a type of low-power wide-area network (LPWAN). The terminal can be directly connected to the cellular network that has been widely covered, and it supports good mobility. The remote water meters we used in the past have weak transmission signals, high cost and high power consumption, and are not worthy of mass promotion. Smart water meters using NB-IOT technology can solve the above problems very well.
It is understood that the advantages of the smart water meter of the NBIOT model are obvious. Such as wide coverage, strong link, low power consumption, low cost, because of these advantages, it is widely favored by large water companies. The smart water meter has been continuously upgraded and transformed, integrating various data such as water quality information collection, water pressure sensing collection, and meter geographic information collection. Make the smart water meter truly become an urban basic information collection terminal, improve the level and efficiency of urban water management, and contribute to social water saving.
At the same time, the smart water meter can display water consumption information in real time, which is very suitable for agricultural intelligent irrigation projects. Combined with the ecological characteristics of crops, it can control the opening and closing of valves, accurately grasp the timing of irrigation, reduce the amount of ineffective irrigation, and save agricultural water.