510-13-084-11-041001

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510-13-084-11-041001 application field and working principle

A 510-13-084-11-041001 socket is a device that can be used to enable the connection of integrated circuits to a circuit board. This type of socket works by allowing an IC (integrated circuit) to be inserted into the socket and allows external circuitry to make physical and electrical connections to it. The pins or leads of the IC fit into corresponding holes in the socket and provide the means for the connection to be made. Some versions of these sockets make use of sprung contacts, while others feature mechanically latching designs.

Most ICs contain fragile components and therefore require a socket for use. Furthermore, sockets provide many other benefits, such as allowing the ICs to be easily swapped out in the event of failure or upgrades.

Different types of sockets are available depending on the purpose. These include single in-line sockets, dual in-line sockets, and plastic leaded chip sockets. Each type has its own advantages and disadvantages.

Single In-Line (SIP) Sockets

Single in-line (SIP) sockets are commonly used to connect small devices such as transistors, diodes, or other small ICs onto the printed circuit board (PCB). These SIP sockets can typically accommodate between three and thirty pins. The main advantage of SIP sockets is their relatively low cost.

Dual In-Line (DIP) Sockets

Dual in-line (DIP) sockets are used for larger ICs, such as microprocessors and RAM. They are typically larger than SIP sockets and can accommodate up to eighty pins. These types of sockets are usually easier to work with as they are generally more durable and can provide better socket retention because of their crimped construction.

Plastic Leaded Chip Sockets (PLCC)

PLCC (plastic leaded chip sockets) sockets are used for larger devices such as microcontrollers or programmable logic devices. These sockets are generally more expensive than SIP or DIP sockets and have a higher pin count. PLCC sockets are made up of plastic rectangles with metal contacts soldered onto the PCB. This type of socket also has a spring-loaded push-button for easy installation and removal.

Working Principle

The working principle of a socket is relatively straightforward. For example, an IC is inserted into the socket and then soldered to the PCB to complete the electrical connection. Alternatively, for non-soldering applications, the socket can be attached to the PCB by screws or rivets, which are sometimes referred to as “standoffs”. The pins on the IC then fit into the corresponding holes in the socket, forming the physical connection.

The holes in the socket hold the IC in place and ensure the correct alignment when the IC is inserted. Additionally, the pins of the IC are in electrical contact with the socket via the metal contacts, enabling the electrical connection to be made. This allows the signals from the IC to be properly routed and transmitted.

Conclusion

Sockets are essential components in electrical devices and are available in a range of different types for various application fields. For example, SIP sockets, DIP sockets, and PLCC sockets are commonly used for connecting ICs on PCBs. The working principle of these sockets is fairly simple and involves inserting the ICs into the corresponding holes, before establishing the electrical connections.

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