326-91-132-41-002000 Allicdata Electronics
Allicdata Part #:

326-91-132-41-002000-ND

Manufacturer Part#:

326-91-132-41-002000

Price: $ 10.69
Product Category:

Connectors, Interconnects

Manufacturer: Mill-Max Manufacturing Corp.
Short Description: CONN SKT SNG
More Detail: N/A
DataSheet: 326-91-132-41-002000 datasheet326-91-132-41-002000 Datasheet/PDF
Quantity: 1000
54 +: $ 9.72314
Stock 1000Can Ship Immediately
$ 10.69
Specifications
Series: *
Part Status: Active
Description

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Sockets for ICs, Transistors

Sockets for ICs, transistors, and other components enable quick and easy connection of multiple components in a circuit, making them an important part of electronic device assembly. The sockets are designed to fit the precise sizes and shapes of ICs, transistors, and other types of components, allowing for flawless connections and minimal energy loss. What’s more, sockets for ICs and transistors offer broadened application fields, from testing and debugging to in-circuit programming.

Sockets for ICs, transistors, and other components are specially designed to offer maximum power efficiency, high signal fidelity, and consistent performance. Generally, these sockets have a wide range of contact types to provide power feeds and signal access to the pins of the components to be used. The contacts are made from metal alloys or other materials for reliable conductivity and enhanced durability. To ensure an accurate fit in both the ICs and transistors, the sockets are marginally bigger than the component pins’ dimensions.

Sockets for ICs and transistors are primarily used in surface-mounted and through-hole circuit designs as needed. The types of IC and transistor packages sockets can accept include DIP (dual in-line packages), SIP (single in-line packages), SOIC (small-outline/surface-mounted ICs), SOP (small-outline packages), TO-XX packages, and more. IC sockets may also be classified according to their pin spacings (e.g. 2.54mm or 0.1-inch). Pin count and pitch should also be taken into account when selecting a suitable socket for IC or transistor use.

Working Principle

The principle behind sockets for ICs and transistors is fairly simple. When an IC or transistor with an appropriate package size is plugged into the socket, the contact pins on the socket align with the device’s pins so that they properly fit into the socket. This creates electrical connections between the pins of the device and the contact pins of the socket.

Sockets for ICs and transistors are typically designed as a single unit made up of individual contact pins. Alternatively, a single socket may be made up of multiple contact blocks that are joined together or snapped together. To ensure maximum connection accuracy and robustness, the contact pins are often spring-loaded and designed to move slightly in order to accommodate slight differences in pin size and package thickness.

Application Fields

Sockets for ICs and transistors can be used across many different applications. With their reliable power and signal transfer capabilities, they can be used in an array of electronic design and manufacturing processes. These include manufacturing and debugging, prototyping, field application testing, in-circuit programming, and DIY projects.

Sockets are often used when experimental testing must be conducted on prototype devices or for high-speed data transmission. Their stable contact design enables faster and more reliable data transmission than solder-on connections, thus minimizing energy losses in the circuit. This is particularly important when dealing with high-frequency signals.

Advantages and Disadvantages

The main advantage of using sockets for ICs and transistors is their stability. As these sockets are designed to be shock- or vibration-resistant, they can provide a secure connection even in a highly dynamic environment. Sockets also facilitate quick and easy removal and replacement of components, enabling quick prototyping and intricate in-circuit programming or debugging.

The primary disadvantage of using sockets is the cost. Compared to direct soldering, sockets for IC and transistors are more expensive. Additionally, sockets can experience signal degradation over time due to moisture and debris buildup on the contact pins, something that isn\'t typically encountered with traditional soldering.

Conclusion

Sockets for ICs and transistors are a great way to quickly and securely connect components in a circuit. With their spring-loaded contact pins, these sockets can provide reliable power and signal transfers with minimal energy loss. Additionally, their contact design enables quick component removal and replacement, enabling rapid prototyping and debugging activities. While these sockets may be pricier than traditional soldering options, their robust design and versatile application field make them a great choice for many applications.

The specific data is subject to PDF, and the above content is for reference

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