Allicdata Part #: | 223-33-306-41-101000-ND |
Manufacturer Part#: |
223-33-306-41-101000 |
Price: | $ 43.35 |
Product Category: | Connectors, Interconnects |
Manufacturer: | Mill-Max Manufacturing Corp. |
Short Description: | SKT IC CLOSED |
More Detail: | N/A |
DataSheet: | 223-33-306-41-101000 Datasheet/PDF |
Quantity: | 1000 |
67 +: | $ 39.01370 |
Series: | * |
Part Status: | Active |
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Sockets for ICs, Transistors are a type of electrical interconnection component designed to be part of a larger circuit system. They are usually designed to provide connecting points for other components such as transistors, diodes and ICs. The purpose of these sockets is to make it easy for an engineer or technician to rapidly connect different components in a circuit, or to replace a faulty or damaged part. In this article, we will look at the application field and working principle of sockets with part number 223-33-306-41-101000.
As their name suggests, sockets for ICs, transistors are designed to be used with ICs, transistors, and other components that require an electrical connection to work. These components typically have pins or legs that protrude from them, and the socket provides a way to connect them to the rest of the circuit. Sockets are usually equipped with metal spring contacts that provide an electrical connection to the pins of the component when it is inserted into the socket.
The application field for sockets covers a wide range of products, from microcontrollers, signal processing ICs, and memory ICs to solar power modules, LED lighting modules, and audio amplifiers. The specific type and number of pins a socket requires depends on the component it is meant to be used with, and the purpose of the overall circuit. As such, there are countless types of sockets available on the market.
The working principle of a socket is simple. When an IC or transistor is inserted into the socket, the spring contacts make electrical contact with the pins of the component. This enables the component to be electrically connected to the rest of the circuit. The connections are secure and reliable, and sockets can be reused many times without any loss of performance. Additionally, sockets provide protection for the pins of the components, so they do not become damaged or bent when removed from the socket.
In some cases, such as in applications using high frequencies, a special type of socket may be required. These sockets use a technique known as pin-to-contact interference which results in improved electrical performance. This technique involves creating a waveform that is slightly out of phase with the pins, causing an oscillatory current to flow in the metal spring contacts. This improves the impedance match between the pins and the contacts in the socket, and reduces the amount of electrical noise in the circuit.
As can be seen, sockets for ICs, transistors are an important component in the overall design of a circuit system. They provide a way for components that require an electrical connection to be securely and reliably connected to the circuit. By using a socket, engineers and technicians can quickly set up and configure a circuit, or replace a faulty component. The specific application field and working principle of a socket depend largely on the type of component it is intended to be used with, and the purpose of the circuit.
The specific data is subject to PDF, and the above content is for reference
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