Allicdata Part #: | 124-43-210-41-002000-ND |
Manufacturer Part#: |
124-43-210-41-002000 |
Price: | $ 10.52 |
Product Category: | Connectors, Interconnects |
Manufacturer: | Mill-Max Manufacturing Corp. |
Short Description: | CONN IC SKT DBL |
More Detail: | N/A |
DataSheet: | 124-43-210-41-002000 Datasheet/PDF |
Quantity: | 1000 |
80 +: | $ 9.56403 |
Series: | * |
Part Status: | Active |
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Sockets for ICs, Transistors
Integrated Circuits (ICs) and Transistors have been essential components of virtually every electronic device since their invention in the 1940s. They are used in a wide variety of applications, from household appliances to sophisticated computers and medical equipment. While the application and function of these devices varies greatly, their underlying working principle is the same. This article will explain the application field and working principle of sockets for ICs and transistors.
Applications of Sockets for ICs and Transistors
Sockets for ICs and transistors are relatively small connectors used as an interface between the actual chip or transistor and the circuit board. They are designed to accommodate the various shapes and sizes of different types of integrated circuits and transistors. These sockets can be used in a wide range of applications, most notably computers, consumer electronics, automotive electronics, healthcare equipment, and military and aerospace systems.
Modern Sockets
Modern sockets for ICs and transistors are designed to provide reliable electrical connections by utilizing various contact designs and material constructions. A standard socket uses a pin-in-socket design, in which pins are inserted into the body of the socket prior to the insertion of the chip or transistor. These pins are generally made of copper, brass, steel, or other corrosion-resistant metals. In addition, modern sockets can also be redesigned to accommodate different chip or transistor shapes and sizes.
Insertion Techniques
Insertion techniques for sockets vary between different makes and models. Generally, insertion involves pressing the chip or transistor into the socket and locking it in place with a retention feature. This method is used for ICs and transistors with pin headers. Some applications, such as those involving ball grids or plastic ball grids, require the chip or transistor to be inserted into the back of the socket and then secured with a heat sink or retaining spring. This is done to ensure that the connections within the socket are secure.
Working Principle of Sockets
The working principle of sockets for ICs and transistors is based on the concept of an electrical contact. The pins on the socket are designed to provide an electrical connection between the chip or transistor and the circuit board. When the chip or transistor is inserted into the socket, the pins will make contact with the corresponding areas on the chip or transistor, thus creating an electrical connection. This connection allows for the transfer of data, power, and other signals between the chip or transistor and the circuit board.
Conclusion
Sockets for ICs and transistors are essential components of virtually every electronic device. They are designed to provide reliable electrical connections and are used in a wide range of applications. Modern sockets can be redesigned to accommodate different chip or transistor shapes and sizes. The working principle of these sockets involves creating electrical connections between the chip or transistor and the circuit board.
The specific data is subject to PDF, and the above content is for reference
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