110-93-624-41-605000

Termination:	Solder
Contact Resistance:	--
Current Rating:	3A
Material Flammability Rating:	--
Termination Post Length:	0.125" (3.18mm)
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-Lead
Pitch - Post:	0.100" (2.54mm)
Series:	110
Features:	Open Frame
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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Sockets for ICs, Transistors

Introduction

Sockets, otherwise known as integrated circuit (IC) sockets or transistor sockets are devices that provide electrical connection for an IC or a transistor without having to solder it directly to the board. They work as the connector between the IC and the circuit board, and also provide a reliable and secure connection between the two components. Sockets for ICs and transistors are often found in a variety of electronic systems, such as computers, radios, and medical equipment.

Types

There are several types of sockets that are available for ICs and transistors, each with its own unique application field and working principle. The most common types include:

• DIP Sockets: DIP sockets, also known as Dual In-line Package sockets are designed to accept a DIP-package integrated circuit, such as an 8-pin or 14-pin DIP. These sockets are designed to have the leads of the IC connected to the socket, and are then placed upright so that the plastic body of the IC is held securely in place. DIP sockets are typically used in breadboards and experimentation.
• SIL Sockets: SIL sockets, or Single In-line sockets, are designed to accept ICs that have a single row with a single row of leads. These sockets provide a secure and reliable connection and are typically used in prototyping and automated assembly applications.
• TO-8 Sockets: TO-8 sockets are designed to accept TO-8 transistors, and feature eight contacts in a two-row configuration. These sockets provide a secure and reliable connection that is often used in power supply and communications equipment.
• TO-220 Sockets: TO-220 sockets are designed to accept TO-220 style transistors, and feature three contacts in a single row configuration. These sockets are typically used in automotive and communications equipment.
• Pins Sockets: Pins sockets are designed to accept ICs that have multiple pins that are arranged in a rectangular or square pattern. This type of socket is often used in prototyping and automated assembly applications.

Benefits

Using sockets for ICs and transistors has several benefits, including:

• Reliability: Using sockets ensures that the ICs and transistors are connected securely and reliably. This provides the assurance that the connection will not fail due to loose contact or solder bridges.
• Protection: Using sockets allows for the ICs and transistors to be easily disconnected if needed, which helps to protect them from damage. Additionally, they also provide protection from heat and solder runoff, which can damage the components.
• Ease of Use: Sockets require no soldering so they are easier to use than direct soldering. This makes them ideal for prototyping or experimentation where direct soldering is impractical.
• Cost Effectiveness: Sockets are typically cheaper and easier to place than direct soldered components, saving time and money during the manufacturing process. Additionally, since they are reusable, they can be used repeatedly, reducing the cost even further.

Conclusion

Sockets for ICs and transistors provide a secure and reliable connection that is ideal for prototyping and automated assembly applications. They offer several benefits, including reliability, protection, ease of use, and cost effectiveness. When used correctly, sockets are a great way to ensure that an electronic system is up and running without any problems.

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