Series:	0513
Packaging:	Bulk
Part Status:	Active
Type:	SIP
Number of Positions or Pins (Grid):	3 (1 x 3)
Pitch - Mating:	0.100" (2.54mm)
Contact Finish - Mating:	Gold
Contact Finish Thickness - Mating:	10.0µin (0.25µm)
Contact Material - Mating:	Beryllium Copper
Mounting Type:	Through Hole
Features:	--
Termination:	Solder
Pitch - Post:	0.100" (2.54mm)
Contact Finish - Post:	Gold
Contact Finish Thickness - Post:	10.0µin (0.25µm)
Contact Material - Post:	Brass
Housing Material:	Polyamide (PA46), Nylon 4/6, Glass Filled
Operating Temperature:	--
Termination Post Length:	0.125" (3.18mm)
Material Flammability Rating:	UL94 V-0
Current Rating:	3A
Contact Resistance:	--

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Sockets for ICs, Transistors: Application Field and Working Principle

Sockets for integrated circuits (ICs) and transistors are used to connect ICs and transistors on mother boards, allowing ICs and transistors to physically and electrically interface with the larger electrical systems. These components are typically the foundation of a large system, connecting the ICs and transistors with the larger board and therefore the larger system.In today’s modern electronic systems, a variety of different socket configurations exist, all designed to meet specific requirements in terms of power, signal, and data transfer between the ICs and transistors and the larger system. The exact type of ICs and transistors used and the specific design of the board all dictate the required socket size, number of pins, and materials used.In addition to selecting the right type of socket for the application, designers must also define the correct pin count on the IC and board side, and ensure that the socket can handle the large power disparities across the board. Power levels between the ICs/transistors and the rest of the board can range from 0.7V to 24V, and can require additional electrical isolation measures through the socket to reduce noise interference from other components on the motherboard.When it comes to the construction and materials used for the socket, the basic requirements are thermal, mechanical, electrical, and functional. Tight thermal requirements can be necessary on high speed boards, since the pins of the socket must meet certain temperature and speed requirements which are needed for the transistor or IC components to run at optimal speeds. Moreover, mechanical and electrical requirements are strict, since the socket must support a balanced weight distribution, as well as ensure electrical conduction of signal and power signals of the ICs and transistors. Finally, the functional requirements demand a good design of the socket, with pins placed accurately and close together to ensure a direct connection between the IC and socket. To meet all these requirements, different materials and designs are available for IC sockets and transistor sockets. Common materials used include ceramic, aluminum, and various metals to meet different thermal, mechanical, electrical, and functional requirements.For example, ceramic sockets are common in complex and more intricate designs, where the high contact density requires multiple pins on both the socket and the IC. This type of socket is smaller and more compact, which requires large amounts of space to be used. Additionally, these sockets require more power and signal line pins to be placed accurately, as well as a better contact force to ensure electrical signal flow.Aluminum sockets, on the other hand, provide an economical and durable solution to IC and transistor socketing. The aluminum socket construction allows engineers to build in higher contact densities, providing more flexibility when designing the board. Additionally, these sockets also offer a higher degree of electrical isolation of the ICs and transistors from the rest of the board.Various types of metal sockets are also available, such as zinc and titanium-based products, which provide a more durable connection in high temperature or vibration environments. Beginners often opt for zinc-based products due to their affordability, but they may end up having problems with contact force and wear over time. Titanium-based product offers greater wear and tear resistance, which is beneficial for the long-term performance of the socket.When the right socket design is chosen, these components allow ICs and transistors to interface with the system, providing the necessary data, signal, and power transmission required. A socket’s size, pin count, and materials used all have an impact on the design, functionality, and longevity of the socket. By selecting a socket for an IC or transistor that meets all the requirements of the specific board design, it is possible to provide better performance and reliability of the ICs and transistors over the long run.

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