Traditional connectivity devices offer users years of service guarantees in typical office environments. However, exposing the same copper cables or fiber optic connectors to extreme conditions degrades their performance and reliability, forcing end users to pay exorbitant maintenance costs for troubleshooting and parts replacement.
Industrial connectors are a new type of connector specifically designed to build robust Ethernet connections in harsh environments, making them tougher, stronger, and more resilient than previous connectors. This new interface is widely recognized as an "industrial connector," and its applications extend beyond manufacturing. These connectors are designed to withstand the most demanding industrial environments.
A connector is a vessel that connects two or more containers below the liquid surface. These are communicating vessels containing the same liquid, with equal pressure above the liquid surface, and at the same liquid level.
1. If the connector contains the same liquid but the pressure on the liquid surface is different, then the pressure difference on the liquid surface is equal to the pressure difference generated by the difference in liquid level between the two containers of the communicating vessel.
2. In a connector, the pressures on the liquid surfaces are equal, but there are different, immiscible liquids on either side. The height of the two liquid surfaces from the interface is inversely proportional to the liquid density. The connector principle has wide applications in engineering. For example, various liquid level gauges (water level gauges, oil level gauges, etc.), mercury vacuum gauges, liquid column pressure gauges, differential pressure gauges, etc., are all made using the principle of communicating vessels.
Understanding the definition and working principle of connectors helps us better understand and expand the connector market.
