5G industrial routers are powerful, what conditions should they have?
In the 5G era, the Internet of Everything came into being. The frequency band used by 150M routers is 2.4HZ, and 5G is 5HZ, commonly known as Gigabit wireless routers. In contrast, the 5G frequency band has the advantages of stronger anti-interference, more stable signal, wider coverage, and higher data transmission bottleneck. So what are the requirements for 5G industrial routers?
What are the requirements for 5G industrial routers?
First: the normative nature of the communication interface
In the process of designing an industrial-grade 5G router, designers need to standardize the communication interfaces between the modular structures of the devices. Maintenance and updating of industrial grade 5G router modules and the addition of new modules should not affect other communication modules of the component. In addition, industrial 5G router software should have high fault tolerance, and generally minor software failures should not cause various serious system restarts.
Second: relatively independent
The configuration data and processing programs in the design process of stable industrial 4G routers should be relatively independent, and any changes in configuration data should not cause changes in the running version of the device, so as to facilitate the compatibility of processing programs with any configuration data. In addition, industrial 5G routers should also be designed to prevent other procedures.
Third: device update
Industrial 5G routers are designed to change configuration data when increasing or decreasing a device's capacity, affecting normal communication simply by applying common human-machine commands. More importantly, industrial 5G routers should have the function of monitoring software operation failures. Once an industrial 5G router has a major failure such as an infinite loop, it should be able to automatically restart and issue a failure report immediately.
The industrial 5G router provides users with powerful edge computing performance, using ARM Cortex-A8 processor, 1GHz main frequency, up to 1GB DDR3 memory and 8GB eMMC FLASH. Provide computing resources for edge node data optimization, real-time response, agile connection, intelligent application, security and privacy protection, and effectively share the load of cloud computing resources.
Through the Python development platform, users can implement customized APP applications according to their own business. For a wide range of applications in the Internet of Things, the edge computing gateway is compatible with a variety of mainstream industrial real-time Ethernet protocols and industrial bus protocols, and supports the following protocols: Modbus TCP, Modbus RTU, OPC UA, PROFINET, PROFIBUS-DP, EtherCAT, EtherNET/IP, CC-LINK, PPI and other protocols.
The arrival of 5G means opening the door to the Industrial Internet of Things, and the characteristics of connected products will accelerate the emergence of new industry operators, thereby reshaping an industry. Unleashing huge possibilities for high-end manufacturing, telemedicine and driverless development.