Allicdata Part #: | 510-83-181-14-031101-ND |
Manufacturer Part#: |
510-83-181-14-031101 |
Price: | $ 8.11 |
Product Category: | Connectors, Interconnects |
Manufacturer: | Preci-Dip |
Short Description: | CONN SOCKET PGA 181POS GOLD |
More Detail: | N/A |
DataSheet: | 510-83-181-14-031101 Datasheet/PDF |
Quantity: | 1000 |
45 +: | $ 7.37716 |
Series: | 510 |
Packaging: | Bulk |
Part Status: | Active |
Type: | PGA |
Number of Positions or Pins (Grid): | 181 (14 x 14) |
Pitch - Mating: | 0.100" (2.54mm) |
Contact Finish - Mating: | Gold |
Contact Finish Thickness - Mating: | 29.5µin (0.75µm) |
Contact Material - Mating: | Beryllium Copper |
Mounting Type: | Through Hole |
Features: | Open Frame |
Termination: | Solder |
Pitch - Post: | 0.100" (2.54mm) |
Contact Finish - Post: | Tin |
Contact Finish Thickness - Post: | -- |
Contact Material - Post: | Brass |
Housing Material: | Polycyclohexylenedimethylene Terephthalate (PCT), Polyester, Glass Filled |
Operating Temperature: | -55°C ~ 125°C |
Termination Post Length: | 0.125" (3.18mm) |
Material Flammability Rating: | UL94 V-0 |
Current Rating: | 1A |
Contact Resistance: | 10 mOhm |
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Sockets for ICs, transistors, and the 510-83-181-14-031101 are a common component used in many electronic devices. The socket allows a chip or component to be connected to the board and then securely fastened to the board using various methods, such as through-hole, soldering, surface-mount, or socketed connections. This type of socket is typically used for components such as integrated circuits, thin film ICs, diodes, transistors, and other components that require electrical connection to a circuit board.
Types of Sockets
There are various types of sockets available, including through hole, surface mount, and socket. Through-hole sockets are primarily used when the component is mounted to the board via holes or cuts in the board, and the socket will be fastened to the board using traditional mechanical components, such as nuts and bolts. Surface mount sockets are used when the component is mounted to the board using a solder on the bottom side of the board and the socket is attached to the board with a surface mount adhesive material or other fasteners. Socketed connections are typically used when the components need to be connected to the board without any mechanical means, such as soldering. This type of connection is markedly faster than traditional means of connecting components.
Applications for Sockets
Sockets are mainly used to connect electronics components to circuit boards and systems. This type of socket is often used to connect integrated circuits, diodes, transistors, and other components to a board. Socketed connections are also used in socketed packages, such as those used for wireless devices, computer systems, and other high-end designs. These are usually designed to protect the components from damage and to allow them to be easily connected and disconnected as needed. Socketed connections are also used in industrial applications such as industrial automation and process control, as well as in medical devices and laboratory instruments.
Working Principle of Sockets
The working principle of sockets predominantly consists of connecting components to an electrical connection. Socketed connections do this by providing a secure, yet flexible connection between the components and the board. In the case of the 510-83-181-14-031101, the connection process is done by fitting the two halves of the socket together, allowing the electrical contacts of the component to fully attach to the board. The two halves of the socket are usually made from metal, allowing them to firmly grip the component and to provide a secure electrical connection. Typically, a material such as ferrite is used to ensure that the electrical connection is properly insulated.
Advantages of Sockets
Using socketed connections instead of soldering provides faster assembly time, increased reliability, and improved quality due to the secure grip on the component. Socketed packages are also more resistant to shock and vibration, providing better electrical insulation than other types of connections. Additionally, sockets are able to protect the components from ESD, providing better overall board protection. Furthermore, socketed connections are easier to replace than soldered components, making maintenance much easier. Finally, socketed connections are also typically much less expensive than their soldered counterparts.
Disadvantages of Sockets
One of the main disadvantages of sockets is the increased assembly time required due to the two halves of the socket needing to be fastened together. Additionally, when used in a socketed package, the sockets can provide a point of entry for moisture, dust, and other contaminants, which can reduce the reliability of the components and the board itself. Socketed connections also have a higher voltage drop than soldered connections, making them less suitable for high voltage applications. Finally, socketed connections are prone to vibration problems due to the increased contact resistance that can occur when the contacts move relative to the board.
Conclusion
Sockets, such as the 510-83-181-14-031101, are a common component used in electronic devices to connect chip or components to a board. Socketed connections provide faster assembly time, increased reliability, and improved quality than other types of connections. However, sockets also have some drawbacks, such as the increased assembly time, increased contact resistance, and the increased vulnerability to moisture, dust, and other contaminants. In the end, sockets are still a commonly used and reliable component for connecting components to boards.
The specific data is subject to PDF, and the above content is for reference
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