06-0511-10

Termination:	Solder
Contact Resistance:	--
Current Rating:	1A
Material Flammability Rating:	UL94 V-0
Termination Post Length:	0.150" (3.81mm)
Operating Temperature:	-55°C ~ 105°C
Housing Material:	Polyamide (PA46), Nylon 4/6, Glass Filled
Contact Material - Post:	Phosphor Bronze
Contact Finish Thickness - Post:	50.0µin (1.27µm)
Contact Finish - Post:	Tin
Pitch - Post:	0.100" (2.54mm)
Series:	511
Features:	--
Mounting Type:	Through Hole
Contact Material - Mating:	Phosphor Bronze
Contact Finish Thickness - Mating:	50.0µin (1.27µm)
Contact Finish - Mating:	Tin
Pitch - Mating:	0.100" (2.54mm)
Number of Positions or Pins (Grid):	6 (1 x 6)
Type:	SIP
Part Status:	Active
Packaging:	Bulk

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Sockets for ICs, Transistors

The development of integrated circuits (ICs) and transistors has led to the development of a new technology, namely sockets. A socket is an electrical connector used to mount an integrated circuit or transistor to a printed circuit board (PCB). Sockets provide an efficient means of electrically connecting an IC or transistor to a PCB without the need to hard solder the IC or transistor to the PCB – thus allowing components to be conveniently and quickly swapped out, and hence, prototype, design, and production testing being streamlined.

Performance Advantages of Sockets for ICs and Transistors:

The primary performance advantages of using IC and transistor sockets include the following:• High-reliability electrical connections – the socket\'s secure connection minimizes electrical interconnect issues, such as over-temperature, resistivity, and contact resistance. • Repeatability - larger scale usage of sockets enables increased assembly times due to reduced set-up times.• Low thermal impedance – effective heat transfer capabilities of certain types of sockets further increases cost-effectiveness by reducing overall assembly/manufacturing overhead. • Re-usability – sockets can easily be removed and re-used in other applications, thus saving on costs associated with continually buying new ICs and other components for prototype/development testing. • Ease of use - sockets are designed for convenience and ease of use, thus eliminating the need for additional soldering processes and parts.

Types of Sockets for ICs and Transistors

The types of sockets used in ICs and transistors include:• Leadless chip carriers (LCCs) – these type of sockets provide the same quality of electrical connection as the LCC components they replace, but are much easier to assemble and remove.• Ball Grid Array (BGA) sockets – BGA sockets are used to mount ICs with BGA packages, and provide the same electrical connection as direct soldering, but with the advantage of allowing quick and easy component swaps.• Pin grid array (PGA) sockets – PGA sockets are designed for ICs with pin grid arrays (PGAs), and are often used for prototyping and development testing. • Test and burn-in sockets – these sockets are designed for testing and burn-in applications, and provide secure electrical connections in the harshest of environments. • Test adapters – In addition to sockets, test adapters are also available as an alternative to direct soldering. Test adapters come in a wide range of designs, and provide the same electrical connections as their socket counterparts.

Application Fields of Sockets for ICs and Transistors

Sockets for ICs and transistors are designed for various applications, including:• Power supply design• Audio and RF/microwave systems• Automotive electronics• Telecom/data communication circuit• Industrial and motion control• Computer systems, boards, and designs• Medical equipment circuit

Working Principle of Sockets for ICs and Transistors

The working principle of a socket for an IC or transistor is essentially the same for all types of sockets, with the main difference being in the types of contact mechanisms employed. Generally speaking, the socket is designed to have a precise and secure electrical connection with the integrated circuit or transistor it is connecting to the PCB. The contacts within the socket are precision-machined to create an exact fit between the socket and the IC or transistor – with pocketed contact surfaces, either on the socket or on the component, providing a spring contact which provides a firm electrical connection. These pocketed contact surfaces also protect against chemical and thermal shock, thus providing a reliable contact even in extreme conditions. The socket is designed with spring tension contacts that allow the components to be easily snapped into the socket, while providing a secure electrical connection. Sockets for ICs and transistors are an important technology for improving the efficiency of prototype testing and production testing of electronic components. Thanks to their reliability, repeatability, and ease of use, sockets are becoming increasingly popular for IC and transistor applications.

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