Allicdata Part #: | ED90194-ND |
Manufacturer Part#: |
123-43-624-41-801000 |
Price: | $ 4.02 |
Product Category: | Connectors, Interconnects |
Manufacturer: | Mill-Max Manufacturing Corp. |
Short Description: | CONN IC DIP SOCKET 24POS GOLD |
More Detail: | N/A |
DataSheet: | 123-43-624-41-801000 Datasheet/PDF |
Quantity: | 210 |
1 +: | $ 3.65400 |
10 +: | $ 3.50910 |
25 +: | $ 3.21703 |
50 +: | $ 3.07075 |
100 +: | $ 2.92446 |
Termination: | Wire Wrap |
Contact Resistance: | -- |
Current Rating: | 3A |
Material Flammability Rating: | -- |
Termination Post Length: | 0.510" (12.95mm) |
Operating Temperature: | -55°C ~ 125°C |
Housing Material: | Polycyclohexylenedimethylene Terephthalate (PCT), Polyester |
Contact Material - Post: | Brass Alloy |
Contact Finish Thickness - Post: | 200.0µin (5.08µm) |
Contact Finish - Post: | Tin |
Pitch - Post: | 0.100" (2.54mm) |
Series: | 123 |
Features: | Open Frame, Decoupling Capacitor |
Mounting Type: | Through Hole |
Contact Material - Mating: | Beryllium Copper |
Contact Finish Thickness - Mating: | 30.0µin (0.76µm) |
Contact Finish - Mating: | Gold |
Pitch - Mating: | 0.100" (2.54mm) |
Number of Positions or Pins (Grid): | 24 (2 x 12) |
Type: | DIP, 0.6" (15.24mm) Row Spacing |
Part Status: | Active |
Packaging: | Tube |
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123-43-624-41-801000 application field and working principle belong to Sockets for ICs, Transistors.
When the size of a circuit is limited, or when simple connection between two circuits is needed, then the best choice becomes to use sockets. Sockets are used to connect ICs (integrated circuits), transistors or other solid-state devices so that electrical connections are established with minimal space. For this reason, the application of sockets in the design of electronic devices must be considered and understood.
Types of Sockets
There are two main types of sockets used in electronic device design: DIP (dual inline package) and SOIC (small outline integrated circuit). DIP sockets are designed to accommodate two or more DIP packages, while SOIC sockets are mainly designed for mounting SOIC packages. In addition, there are various other types of sockets such as D-SUB, PLCC, LQFP, and QFN.
The type of socket used is determined by the type of electronic component that is being used in the device. For example, transistor sockets are designed for mounting specific types of transistors, such as the BCM3367-B and BCM3366-B series. Similarly, IC sockets are specially designed for mounting ICs or other semiconductor components. There are various types of IC sockets available, depending on the type of IC used.
Socket Design Features
The design of the socket is important in order to ensure that a secure electrical connection is established between the device and the IC or transistor. The socket should be properly sized to fit the component being used, and must be constructed of materials that are suitable for the task. The socket must also be able to withstand the temperature and voltage range of the device, and must have good insulation properties.
The backplate of the socket should also be well designed and constructed to ensure that the device is securely mounted. There should also be adequate ventilation provided so that heat generated by the device can dissipate without damaging the component or affecting the performance of the device.
Socket Mounting Techniques
When designing a socket for mounting a component, it is important to consider the type of mounting technique that will be used. It is possible to mount a socket directly on a printed circuit board (PCB), or to use a variety of other methods, such as surface-mounting (SMT), through-hole mounting, and dip-socket mounting.
The choice of mounting technique will depend on the device being used and the design of the device. For example, if the device needs to be directly connected to the ground plane, then a direct through-hole mounting technique should be used. On the other hand, if the device needs to be connected to a PCB, then a surface-mount technique may be used instead.
Working Principle of Socket
A socket operates by providing an electrical connection between the device and the PCB or other connecting component. The socket typically consists of two components: a socket plate and a socket pin. The socket plate contains a series of pins or terminals that are connected to the device. The socket pins are then connected to the PCB or to other components.
When the device is plugged into the socket, the pins on the socket plate make contact with the pins on the PCB or other component, thus establishing an electrical connection. The socket pin acts as a bridge between the device and the PCB, and thus allows current to flow from the device to the PCB or vice versa.
Conclusion
Sockets are an important part of device design and their proper application should be considered when designing electronic devices. Different types of sockets are available, and the choice of socket type should be determined by the type of device being used. The design of the socket must also be carefully considered, and careful thought must be given to the type of mounting technique that will be used. Finally, the working principle of a socket should be understood in order to ensure that the device is properly connected and is working correctly.
The specific data is subject to PDF, and the above content is for reference
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