346-91-149-41-013000

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Sockets for ICs, Transistors are a type of electronic component, designed to enable electrical connections between ICs, transistors and their corresponding printed circuit boards, in electronics and networking applications. This article will provide an overview of the 346-91-149-41-013000 application field and its working principle.

Overview of Application Field

The 346-91-149-41-013000 application field is the area concerning the design and production of sockets, designed for ICs, transistors and associated components, in order to connect them to printed circuit boards, in a secure and efficient manner. The design of the sockets focus on features such as pin spacing, size, contact material and other such features that are necessary for reliable and secure connectivity.

The sockets can be manufactured from a variety of materials, such as stainless steel, copper, plastics, ceramics, epoxy, etc., and in the form of through-hole or surface mount packages. The characteristics of the socket can be customized to meet specific requirements of the application; for example a socket for a power transistor might be designed to have thicker pins and greater force-fit engagement than one for a signal transistor.

Working Principle

The working principle of the 346-91-149-41-013000 socket is fairly simple and straightforward. The socket contains a base, which in turn holds a series of pins that are designed to mate with the conductive pins of the component connector. The pins on the socket are held in place by a frame that is either attached to the base or partially embedded in the base. As the component is inserted, the pins on the socket make contact with the pins of the component and provide a secure mechanical and electrical connection.

The pins used in the sockets can be spring- loaded, allowing them to flex slightly as the component is inserted, ensuring good contact and a secure connection. The spring-loaded pins also help to protect the integrity of the connection by absorbing any shock or vibrations; this makes the connection more resilient and less likely to fail in challenging applications. The presence of shield in some sockets helps to reduce or eliminate electromagnetic interference.

In addition, some sockets may also be designed to include anti-counterfeiting features. These features can be in the form of an encrypted digital signature or a code imprinted on the socket, which can be used to guarantee the authenticity of the product.

Conclusion

The 346-91-149-41-013000 application field is an area of electronic engineering and design that deals with the production and design of sockets for ICs, transistors and other components. These sockets enable secure and efficient electrical connections between ICs, transistors and their corresponding printed circuit boards. The working principle of these sockets is fairly simple and straightforward, involving a set of pins that mate with the pins of the component and provide a secure mechanical and electrical connection.

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