Cellular wireless terminals are data transmission terminal products developed based on wireless cellular networks. Its function is to transmit some simple data. A typical application is to transmit sensor data to the host computer (server) through a cellular wireless terminal. Another way to describe its role is as a wireless terminal device used to convert serial port data into IP data or convert IP data into serial port data and transmit it through a wireless communication network. Later, the pronouns for application terminal products in the wireless communication industry were collectively referred to as ” DTU “. It is widely used in remote meter reading, power management, smart agriculture, hydrological monitoring, automated production, and other fields.
Cellular Wireless Terminal Products
4G DTU industrial grade wireless data transmission terminal Serial port: 1RS485, 1RS232, 1AI ZHC4012 is a data transmission product. Compared with traditional DTU, it has more functions. “The product supports active collection of sensor data” and is also Modbus UTR /TCP adaptive. The cloud platform is provided for free after purchase! |
UTR 4G (ZHC4931) network IO controller Serial port: 1RS485, 1RS232, 1DO, 2DI ZHC4931 is an industrial-grade 4G RTU that provides 1 serial port (RS485/RS232), 2 DI, 1 DO and 1 AI interface. It supports local logic processing operations, automatic collection and active reporting, Modbus RTU/TCP adaptive, Features include automatic calibration threshold reporting, configuration software docking, and wet and dry node IO detection. |
4G RTU (ZHC4661) analog data transmission terminal Serial port: 1RS485 4AI 2AO ZHC46612 AO and 1 RS485 interface support Modbus RTU/TCP adaptive, automatic collection and active reporting, 4~20mA analog control collection, automatic calibration threshold reporting and other special functions. It supports one-to-one and many-to-one networks. |
4G RTU (ZHC4921) network relay Serial port: 4DI, 4DO, 4AI, 1RS485 ZHC4921 is an industrial-grade 4G RTU that provides 4 channels of DI, 4 channels of DO, 4 channels of AI and 1 channel of RS485 interfaces. It supports local logic processing operations, automatic collection and active reporting, Modbus RTU/TCP adaptation, automatic calibration threshold reporting, Configuration software docking, dry and wet node IO detection and other special functions. |
4G RTU (ZHC4922) supports MQTT
Serial port: 4DI, 4DO, 4AI, 1RS485 ZHC4922 is an industrial-grade 4G RTU that provides 4 channels of DI, 4 channels of DO, 4 channels of AI and 1 channel of RS485 interfaces. It supports local logic processing operations, automatic collection and active reporting, MQTT RTU/TCP adaptation, automatic calibration threshold reporting, Configuration software docking, dry and wet node IO detection and other special functions. |
4G RTU (ZHC4941) 16-channel IO network controller Serial port: 8DO, 8DI, 8AI, 485, 232 ZHC4941 is an industrial-grade 4G RTU that provides 8 DI, 8 DO, 8 AI and 1 RS485/232 interfaces. It supports local logic processing operations, automatic collection and active reporting, Modbus RTU/TCP adaptation, and automatic calibration thresholds. Reporting, configuration software docking, dry and wet node IO detection and other special functions support one-to-one and many-to-one networks, and the configuration software interface window is visualized |
What are the cellular networks?
Cellular network (English: Cellular network), also known as mobile network, our common cellular networks include GPRS (2G), CDMA (3G) 4G, FDMA, PDC, TDMA and NB-IOT this year. Composition of cellular network: The composition of cellular network mainly consists of the following three parts: mobile station, base station subsystem, and network subsystem.
Why is it called a cellular network?
Because the signal coverage of each communication base station that forms the network coverage is hexagonal, the entire network is named after it resembles a honeycomb. Honeycombs are usually represented by regular hexagons. Why a regular hexagon and not a circle? Among polygons whose vertices are equidistant from the geometric center, the possible geometric shapes that can cover a certain area completely (without overlap) are: square, equilateral triangle and regular hexagon. Among squares, equilateral triangles, and regular hexagons, the regular hexagon has the largest area.