2-211992-3

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Backplane Connectors - ARINC 2-211992-3

Backplane connectors are commonly used for high speed digital backplane systems. These connectors are designed to provide the highest data speed, as well as access to multiple devices, while ensuring an extremely reliable electrical connection. ARINC 2-211992-3 is a type of backplane connector that has been designed to provide a reliable electrical connection in harsh operating conditions, and is especially suitable for applications requiring very high data rate.

Application Field

ARINC 2-211992-3 connectors are used in a variety of applications including telecommunications, space and satellite systems, aircraft and rail systems, military applications, and industrial automation. This type of connector is designed to provide the highest available data rate, high contact retention and reliability, while reducing mechanical complexity. The ARINC 2-211992-3 connectors are typically used in applications where high data rates, reliability and access to multiple devices are required. These connectors are also ideal for multi-board systems, such as complex satellites and airborne systems.

Working Principle

The ARINC 2-211992-3 connector system operates on a dual-slot principle. Each slot is bounded by two four-slot segments, one in each direction. The slots contain a series of contact pins that allow the electrical connection of a device. Each slot can be separated from adjacent slots to provide isolation between the components connected to each slot. This ensures that one device does not interfere with the connection of another. The contact pins also provide an electrical connection to the backplane. The backplane ensures that signals are properly propagated between devices.

The ARINC 2-211992-3 connector system is designed to provide a reliable connection by using a series of contact pins and a backplane signal propagation system. The contact pins provide low contact resistance and ensure that connections are not compromised. The backplane signal propagation system ensures that signals are transmitted accurately between devices and ensures that signals are transmitted at the highest available data rates. The combination of the contact pins and backplane signal propagation system ensures that the connection between devices is maintained.

Advantages

The ARINC 2-211992-3 connector system has several advantages compared to other types of backplane connectors. This system is designed to reduce mechanical complexity and provide the highest possible data rate. The contact pins provide reliable connections and ensure that signals are propagated accurately between devices. The backplane signal propagation system also ensures that signals are transmitted at the highest available data rates. The combination of the contact pins and backplane signal propagation system ensures a reliable connection between devices.

The ARINC 2-211992-3 connector system is also suitable for a wide range of applications. This connector can be used in a variety of industries, such as telecommunications, space and satellite systems, aircraft and rail systems, military applications, and industrial automation. Additionally, this type of connector is ideal for multi-board systems, such as complex satellites and airborne systems.

Disadvantages

The ARINC 2-211992-3 connector system has some disadvantages compared to other types of backplane connectors. This system is not suitable for applications where a high amount of force is applied to the contact pins. Additionally, the contact pins are often difficult to remove and re-insert into the slot if the system needs to be serviced. Also, this system is not suitable for applications requiring a large number of contact pins.

Conclusion

ARINC 2-211992-3 is a type of backplane connector that is designed to provide the highest available data rate, high contact retention and reliability, while reducing mechanical complexity. This type of connector is ideal for applications that require high data rates, reliability and access to multiple devices. The contact pins provide reliable connections and ensure that signals are propagated accurately between devices. The backplane signal propagation system ensures that signals are transmitted at the highest available data rates. This combination of contact pins and backplane signal propagation system ensures a reliable connection between devices.

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