| Allicdata Part #: | 110-87-952-41-001101-ND |
| Manufacturer Part#: |
110-87-952-41-001101 |
| Price: | $ 1.25 |
| Product Category: | Connectors, Interconnects |
| Manufacturer: | Preci-Dip |
| Short Description: | CONN IC DIP SOCKET 52POS GOLD |
| More Detail: | N/A |
| DataSheet: |  110-87-952-41-001101 Datasheet/PDF |
| Quantity: | 1000 |
| 350 +: | $ 1.14332 |
| Termination: | Solder |
| Contact Resistance: | 10 mOhm |
| Current Rating: | 1A |
| Material Flammability Rating: | UL94 V-0 |
| Termination Post Length: | 0.125" (3.18mm) |
| Operating Temperature: | -55°C ~ 125°C |
| Housing Material: | Polycyclohexylenedimethylene Terephthalate (PCT), Polyester, Glass Filled |
| Contact Material - Post: | Brass |
| Contact Finish Thickness - Post: | -- |
| Contact Finish - Post: | Tin |
| Pitch - Post: | 0.100" (2.54mm) |
| Series: | 110 |
| Features: | Open Frame |
| Mounting Type: | Through Hole |
| Contact Material - Mating: | Beryllium Copper |
| Contact Finish Thickness - Mating: | Flash |
| Contact Finish - Mating: | Gold |
| Pitch - Mating: | 0.100" (2.54mm) |
| Number of Positions or Pins (Grid): | 52 (2 x 26) |
| Type: | DIP, 0.9" (22.86mm) Row Spacing |
| Part Status: | Active |
| Packaging: | Tube |
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< html >Sockets for ICs, Transistors
The 110-87-952-41-001101 application field and working principle is related to the usage and operation of sockets for integrated chips (ICs) and transistors. These socket devices are designed to fit various types of ICs and transistors and enable them to be easily and quickly exchanged. They also provide proper electrical connections and physical protection for the ICs and transistors.
ICs and transistors are highly sensitive and delicate electronic components that can be damaged by exposure to air, high-temperatures, or physical contact with other components or components. Socketing these components into a more protective container provides a mechanical barrier that helps to protect them from physical damage potentially caused by static electricity, for instance. Additionally, the sockets can provide a solid connection, removing the need for soldered connections which can cause additional strain on the components.
Types of Sockets for ICs and Transistors
Sockets for ICs and transistors come in a variety of shapes, sizes, and types that are designed to match the type and size of the chips or transistors that they are intended to house. Some of the most common types are listed below.
Zero Insertion Force (ZIF) Sockets
ZIF sockets are designed to hold ICs and transistors securely without requiring any type of force or lever to be used to insert the components. This makes them a good option for delicate ICs and transistors, as there is no risk of damaging them due to over-tightening. However, these sockets tend to be bulky, expensive, and not as reliable as other types.
Row and Column Sockets
Row and column sockets are the most common type and are widely used in applications such as computers, power supplies, and audio equipment. These sockets are designed to fit a specific size and type of chip or transistor, and the pins of the socket are arranged in rows and columns. This arrangement allows for quick and easy insertion of the components, as there is no need to line up multiple pins.
Surface-Mount Sockets
Surface-mount sockets are designed to fit chips and transistors that are mounted on the PCB. These sockets are much smaller than those designed for row-and-column sockets, and provide a secure connection at a much lower cost. These are a good option for applications where there is limited space available, but they are not as reliable as other types.
Working Principle of Socket Devices
The working principle of socket devices for ICs and transistors is fairly straightforward. The socket is designed to fit the chip or transistor securely, and the pins of the socket are connected to the pins of the chip or transistor. This provides the necessary electrical connection, as well as providing a physical barrier to prevent damage from the external environment.
Once the chip or transistor is inserted into the socket, it can be connected to the necessary power supply and other components. This enables the chip or transistor to be easily interchangeable in case of failure or damage, without having to solder multiple connections. The socket also provides additional protection against electrostatic discharge, which can cause serious damage to sensitive components.
Conclusion
The 110-87-952-41-001101 application field and working principle is related to the usage and operation of sockets for integrated chips (ICs) and transistors. These socket devices are designed to fit various types of ICs and transistors and enable them to be easily and quickly exchanged, while also providing proper electrical connections and physical protection for the ICs and transistors.
These sockets come in a variety of shapes, sizes, and types and have a fairly straightforward working principle – providing a secure housing for the chip or transistor, as well as an electrical connection and protection from external elements. Their usage is extremely beneficial for applications where the components need to be replaced or interchanged quickly and easily.