DCA-MCR-8 (Micro Coaxial Receptacle) is a high-performance and reliable circular electrical connector used in many applications. It provides the perfect connections for sensitive electronic equipment, such as computers and audio equipment. It is extremely reliable and offers a wide range of operational configurations avoiding any interference.

Application Fields

The DCA-MCR-8 circular connector has a military type design and provides a very efficient contact system for aerospace system. This connector is widely used in aerospace and military systems for communications, such as satellites and ground to air radio equipment. Because of its high reliability, it is also used for medical equipment and computer data center components. The durability and the wide range of operational configurations makes the DCA-MCR-8 an ideal choice for these applications.

Working Principle

The DCA-MCR-8 connector uses a self-aligning double beam spring set as its key function. This function provides an efficient contact system that provides high electrical performance and enhances system reliability. Its contact system is designed to optimize the electrical characteristics of the connector, such as low contact resistance, negligible crosstalk, and high insulation resistance. The contact system also uses a consistent pin/socket shape, which simplifies the installation and allows for more reliable connections.

The DCA-MCR-8 connector is also designed to be highly durable. It is built using a high temperature plastic material that is extremely resistant to wear and tear. The contacts are made of a thick gold plated material that provides superior electrical conductivity. And the contacts are also designed to be highly resistant to corrosion and other environmental factors.

Conclusion

The DCA-MCR-8 connector is a high-performance and reliable circular electrical connector mainly used in aerospace systems, medical equipment, and computer data center components. Its design is ideal for these applications given its high reliability, its superior electrical characteristics, and its excellent durability.