116-87-312-41-011101

Termination:	Solder
Contact Resistance:	10 mOhm
Current Rating:	1A
Material Flammability Rating:	UL94 V-0
Termination Post Length:	0.125" (3.18mm)
Operating Temperature:	-55°C ~ 125°C
Housing Material:	Polycyclohexylenedimethylene Terephthalate (PCT), Polyester, Glass Filled
Contact Material - Post:	Brass
Contact Finish Thickness - Post:	--
Contact Finish - Post:	Tin
Pitch - Post:	0.100" (2.54mm)
Series:	116
Features:	Elevated, Open Frame
Mounting Type:	Through Hole
Contact Material - Mating:	Beryllium Copper
Contact Finish Thickness - Mating:	Flash
Contact Finish - Mating:	Gold
Pitch - Mating:	0.100" (2.54mm)
Number of Positions or Pins (Grid):	12 (2 x 6)
Type:	DIP, 0.3" (7.62mm) Row Spacing
Part Status:	Active
Packaging:	Tube

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Sockets for ICs, Transistors

The 116-87-312-41-011101 application field and working principle covers a wide range of electronic applications, with particular relevance to the use of Sockets for ICs, Transistors, and similar components. This article examines the range and scope of these sockets, the working principles relevant to their design and use, and related areas.A Socket for ICs, Transistors is a device which is used to connect and host an integrated circuit’s (IC) pins so they can be used on an electronic circuit board or downloaded into a programmer. The socket is inserted into the PCB (Printed Circuit Board) and physically connected by means of a plug that fits into the socket. The pins of the socket are connected to the IC’s pins and the IC itself is placed in the socket. This provides an easier way of making changes to the IC without having to physically solder the IC onto the board.The process of creating a Socket for ICs, Transistors begins with the selection of specific materials, typically metal or ceramic, for the constructions of the socket. Depending on the particular socket’s function and design, additional features may be required, such as grooves to increase contact between pins, plating for increased protection, or a reinforced base to provide stability. Once the material has been selected, the socket is designed to the required specifications, typically through a CAD (Computer-Aided Design) program.Once a Socket for ICs, Transistors has been designed and manufactured, it must then be tested to ensure its functionality and reliability in its intended application. This testing can involve a variety of factors and components. Static tests, such as OHM readings, may be used to verify electrical current flow through the socket. Dynamic tests may be used to check pin connections using an IC, and comparative analyses can be conducted to ensure compatibility with the intended environment (changes in temperature, vibration, or humidity, for example). Finally, environmental tests may be conducted to ensure long-term robustness and reliability.In addition to the above testing and evaluation, a Socket for ICs, Transistors may also undergo a variety of other steps in order to ensure its smooth-functioning in its intended environment, such as strain and tension relief, cleaning, or lapping. These steps may also include specific steps to ensure the socket’s compatibility with a particular IC, such as lead forming or forming sockets where pins are only partially activated.Once a Socket for ICs, Transistors has been tested and approved, it is ready to be used in an electronic application. Depending on the application, the socket may be mounted onto a PCB, connected to a programmer, or inserted into an IC socket holder. Its pins will then be connected to the electrons in the circuit, providing connection and communication between components.Overall, the 116-87-312-41-011101 application field and working principle of Sockets for ICs, Transistors is critical for modern electronic applications. The design process involves selecting the appropriate materials, designing the socket itself, and testing it for quality and compatibility. Once a socket has been tested and approved, it can be used in a variety of applications, providing connection and communication between components. The durability and reliability of these sockets is thus paramount to the success of an electronic project.

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