04-0501-31 Allicdata Electronics
Allicdata Part #:

04-0501-31-ND

Manufacturer Part#:

04-0501-31

Price: $ 2.91
Product Category:

Connectors, Interconnects

Manufacturer: Aries Electronics
Short Description: CONN SOCKET SIP 4POS GOLD
More Detail: N/A
DataSheet: 04-0501-31 datasheet04-0501-31 Datasheet/PDF
Quantity: 1000
27 +: $ 2.63667
Stock 1000Can Ship Immediately
$ 2.91
Specifications
Series: 501
Packaging: Bulk 
Part Status: Active
Type: SIP
Number of Positions or Pins (Grid): 4 (1 x 4)
Pitch - Mating: 0.100" (2.54mm)
Contact Finish - Mating: Gold
Contact Finish Thickness - Mating: 10.0µin (0.25µm)
Contact Material - Mating: Phosphor Bronze
Mounting Type: Through Hole
Features: --
Termination: Wire Wrap
Pitch - Post: 0.100" (2.54mm)
Contact Finish - Post: Gold
Contact Finish Thickness - Post: 10.0µin (0.25µm)
Contact Material - Post: Phosphor Bronze
Housing Material: Polyamide (PA46), Nylon 4/6, Glass Filled
Operating Temperature: -55°C ~ 125°C
Termination Post Length: 0.690" (17.52mm)
Material Flammability Rating: UL94 V-0
Current Rating: 1A
Contact Resistance: --
Description

Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us:   sales@allicdata.com

Sockets for ICs, transistors, and other electronic components are widely used in today\'s production and prototyping environments. They provide an efficient and cost-effective means of connecting and controlling circuit elements. In this article, the application field and working principles of this technology are examined, as well as its range of possible applications.

Why Use Sockets?

The use of sockets for connecting electronic components to a circuit board has several advantages. First, it reduces the time and cost associated with soldering components into place. Using sockets eliminates the need for a technician to solder each individual component to the circuit board. This not only reduces the cost of assembling the circuit, but also speeds up production time and simplifies the entire process.

In addition, sockets for electronic components provide superior electrical performance. When components are soldered into place, the resistance associated with the solder connection affects the operation of the device. Using a socket eliminates this issue, as the connection is purely mechanical and requires no resistance. This allows more signals to pass through the circuit and helps to optimize its performance.

Finally, sockets also improve reliability. When components are soldered into place, they can move, vibrate, or heat up due to vibration or thermal cycling. This can cause strain on the solder joints, leading to intermittent faults or complete failures. With a socket, the components are held securely in place, reducing or eliminating the risk of failure due to vibration or thermal cycling.

Types of Sockets

There are several types of sockets used in the electronics industry. The most popular type is the DIP socket (dual in-line package). This type of socket is generally used to connect integrated circuits (ICs) to printed circuit boards (PCBs). The DIP socket can also be used to connect other types of components, such as transistors and resistors.

In addition to the DIP socket, there are other types of sockets available, such as the small outline integrated circuit (SOIC) socket. These sockets are used in various production and prototyping environments and provide superior electrical performance. They are also cost-effective and simple to use.

Applications

The applications of sockets for electronic components range from consumer electronics to industrial equipment. In consumer electronics, sockets are used in a wide variety of devices, such as computers, mobile phones, digital cameras, and televisions. In industrial applications, sockets are often used to connect sensors, motors, and other devices to a control system.

Sockets are also used in the prototyping process for the design and testing of new electronic circuits. They provide a simple and cost-effective means of connecting and controlling components during the development stage. Additionally, sockets are used in printed circuit board (PCB) assembly for prototyping and production.

Working Principles

The working principle of a socket is fairly straightforward. It consists of two parts: a socket body and a pin nest. The socket body typically contains a series of contact points for connecting the electronic components to the circuit board. The pin nest contains electrical pins that are positioned to make contact with the contact points in the socket body when the electronic components are installed.

When the electronic component is inserted into the socket and the pins make contact with the corresponding contact points, an electrical connection is formed. This connection is maintained for the duration of the device\'s operation. The beauty of this technology is that it requires no soldering, thereby providing superior electrical performance, reliability, and cost savings.

Conclusion

Sockets for ICs, transistors, and other electronic components have become an essential part of the electronics industry. They are used in a wide variety of applications, from consumer electronics to industrial applications. By eliminating the need for soldering, sockets provide superior electrical performance, reliability, and cost savings. In addition, they simplify the prototyping and production process, making it easier and faster to create and assemble electronic components.

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

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