Traditional connectors only need to have three performances: mechanical performance, electrical performance, and environmental performance. With the advent of the 5G era, high-speed transmission technology connectors also bear the burden of transforming electrical and optical signals. In addition, contact-type connection methods Also gradually shifted to wireless transmission.

Of course, higher-speed, low-latency transmissions will follow to be executed on distributed equipment nodes, rather than being completed by the data center. The design of these devices is changing and will use smart sensors that integrate microcontrollers, actuator chips, and modules. This will also change the role and requirements of connectors and cables in the system. In the face of this situation, most of the calculations in this kind of distributed computing may be performed on distributed device nodes such as smart devices (embedded sensors) or edge devices, rather than being completed by data centers. The design of these devices is changing. Smart sensors that integrate microcontrollers, actuator chips, and modules will be used, which will also change the roles and requirements of connectors and cables in the system.

In the face of this situation, QM push-pull electrical connectors will also provide products with good shielding, strong heat dissipation performance, and miniaturization to meet edge cloud computing according to actual scenarios. This is bound to make the overall design of the product more complicated, but the overall cost still needs to be controlled within a certain range. Therefore, the connector facing high precision, high reliability, miniaturization and relatively low cost is the innovation of big data in the Internet of Things. 5G edge computing will provide end users with greater capacity and lower latency for applications at the edge of the core network. , Higher mobility, higher reliability and accuracy. In this kind of distributed computing, most of the computing may be challenged in smart devices (embedded sensors) or at the edge.

As we all know, edge computing is a very important part of 5G empowering autonomous driving and artificial intelligence. 5G edge computing will provide end users with greater capacity, lower latency, higher mobility, higher reliability and accuracy for applications at the edge of the core network. In this kind of distributed computing, most of the calculations may be performed on distributed device nodes such as smart devices (embedded sensors) or edge devices, rather than being completed by data centers. The design of these devices is changing and will use smart sensors that integrate microcontrollers, actuator chips, and modules. This will also change the role and requirements of connectors and cables in the system. In the face of this situation, QM push-pull electrical connectors will also provide products with good shielding performance, strong heat dissipation performance, and miniaturization to meet edge cloud computing according to actual scenarios.