540-88-032-24-008

Termination:	Solder
Contact Resistance:	20 mOhm
Current Rating:	1A
Material Flammability Rating:	UL94 V-0
Termination Post Length:	0.122" (3.10mm)
Operating Temperature:	--
Housing Material:	Polyphenylene Sulfide (PPS)
Contact Material - Post:	Phosphor Bronze
Contact Finish Thickness - Post:	--
Contact Finish - Post:	Tin
Pitch - Post:	0.100" (2.54mm)
Series:	540
Features:	Closed Frame
Mounting Type:	Through Hole
Contact Material - Mating:	Phosphor Bronze
Contact Finish Thickness - Mating:	--
Contact Finish - Mating:	Tin
Pitch - Mating:	0.050" (1.27mm)
Number of Positions or Pins (Grid):	32 (4 x 8)
Type:	PLCC
Part Status:	Active
Packaging:	Bulk

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Sockets for ICs, TransistorsA socket for integrated circuits (ICs) or transistors is an electrical device used to store, mount, and connect ICs and transistors in a system. A socket\'s primary purpose is to provide a convenient way to connect a variety of components into electrical circuit systems. Socket designs differ depending on the types of ICs and transistors to be connected. As with many other electrical components, a socket\'s precise design and construction are critical to its proper functioning.The most common type of socket for integrated circuits is the pin grid array, or PGA, which typically provides enough pins for both mechanical and electrical connections. These sockets come in a variety of sizes and shapes, depending on their intended application. Most have an array of metal pins that extend from their base and are made from materials such as aluminum or copper. Each pin is then connected to the correct pin on the IC or transistor that it is intended to mate with.Most sockets for ICs are designed to be used with either surface mount or through-hole pins. Surface mount pins are flush against the substrate, while through-hole pins are welded, glued, or soldered to the substrate. This provides a secure connection and ensures that the IC or transistor is securely mounted in place.Other types of sockets include the flat package (or Flatpack), which is typically used for transistors, or the dual in-line package (DIP), which can be used for a variety of devices. Additionally, there are newer, more sophisticated sockets designed to accommodate newer ICs and transistors, such as ball grid array (BGA) and chip scale packages (CSP). These newer sockets are very compact and allow for more efficient circuits. Despite their differences in design and construction, all sockets for ICs and transistor have the same basic purpose: to secure and connect ICs and transistors into electrical systems. To ensure that a socket functions properly, it is important to select the correct socket type for the specific application, and to use proper installation and connection techniques. Additionally, any sockets for ICs and transistors should be regularly inspected and replaced if needed.A socket\'s primary application is to bridge gaps in a circuit, allowing electrical components to pass currents and signals without additional wiring or extensive reassembly. This is often used to minimize circuit interference, reduce overall wiring complexity, and improve system reliability. In addition, sockets can also be used to accommodate a wide range of ICs and transistors and connect them with electrical components.To identify and differentiate between sockets, most socket products are assigned specific numbers, such as the 540-88-032-24-008. This socket number serves as a way to identify the socket type and application, and is typically printed on the socket itself as a reference. Socket numbers can also indicate electrical ratings, physical dimensions, and other characteristics, such as whether the socket is polarized or providing a rock-solid mechanical connection. Most manufacturers use standard socket numbers for their products so that manufacturers, system designers, and circuit designers can easily identify and select the proper socket type for any given application. A manufacturer may also assign a unique part number on their product to identify a specific socket, such as the 540-88-032-24-008. In conclusion, sockets for ICs and transistors are essential for securing and connecting ICs and transistors into electrical systems. The 540-88-032-24-008 socket is a common type of electrical socket that is designed to provide a secure connection and a convenient way to connect ICs and transistors to electrical circuits. To ensure its proper functioning, it is important to select the correct socket type and use proper connection techniques. Additionally, regular inspections should be done to ensure that sockets remain in good condition and are replaced if needed.

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