06-0513-10 Product Introduction:
Aries Electronics Part Number 06-0513-10(Sockets for ICs, Transistors), developed and manufactured by Aries Electronics, distributed globally by Jinftry. We distribute various electronic components from world-renowned brands and provide one-stop services, making us a trusted global electronic component distributor.
06-0513-10 is one of the part numbers distributed by Jinftry, and you can learn about its specifications/configurations, package/case, Datasheet, and other information here. Electronic components are affected by supply and demand, and prices fluctuate frequently. If you have a demand, please do not hesitate to send us an RFQ or email us immediately sales@jinftry.com Please inquire about the real-time unit price, Data Code, Lead time, payment terms, and any other information you would like to know. We will do our best to provide you with a quotation and reply as soon as possible.
Sockets for ICs, Transistors are electronic components specifically designed to accommodate and connect integrated circuits (ICs) or transistors. One common type is to associate ZIFs with specific socket types, while another common type is sockets in the form of Pin Grid Array (PGA) packaging, allowing ICs or transistors to be easily inserted and removed without damaging the pins. This type of socket typically includes metal contact pads, an insulated base, and a locking mechanism, designed to ensure good electrical contact, physical stability, and convenient replacement and maintenance processes. The characteristics of this type of socket typically include high reliability, support for hot swapping in certain types, wide compatibility, and the ability to save space in high-density packaging environments.
Application
Sockets for ICs, Transistors are widely used in the electronics industry, especially in situations where ICs need to be frequently replaced or upgraded. In the field of computer hardware, CPU sockets make processor upgrades simple and fast, without the need to replace the entire motherboard. In communication equipment, such sockets can quickly replace faulty ICs, effectively shorten maintenance cycles, and reduce costs. In testing and measuring equipment, sockets are commonly used for temporary installation of various ICs for functional verification and performance testing. In addition, in fields such as industrial automation, automotive electronics, aerospace, and defense systems that require high reliability and maintainability, this type of socket also plays a key role in ensuring the high availability and easy maintenance of critical circuits.
FAQ about Sockets for ICs, Transistors
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1. What is an IC socket?
An IC socket, or integrated circuit socket, is an electronic component used to be installed on a circuit board. Its main function is to insert and fix an integrated circuit (IC) chip. An IC socket is set in multiple cavities through multiple electrical contacts, so that the IC chip can be directly plugged in and out without the need to use a soldering iron for desoldering, thereby improving the flexibility of chip assembly and the convenience of repair and replacement.
Specifications and types of IC sockets
The specifications of IC sockets are diverse, and the common ones are 8, 16, 18, 20 pins and other specifications. In addition, the hole pitch of the IC socket is 2.54mm and 1.778mm, the shape is a round hole, and the arrangement is single row and double row. The number of pins ranges from 1 to 50P, and the exposed length of the PIN pin also has a variety of options, such as 7.43mm, 10.0mm, 12.2mm, 13.4mm and 17.8mm.
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2. Does IC contain transistors?
IC (integrated circuit) does contain transistors. An integrated circuit is an electronic component that combines several microelectronic components such as transistors, diodes, resistors, capacitors, etc. on a tiny semiconductor chip. These components are usually manufactured on silicon wafers through semiconductor processes and can perform complex functions.
The role of transistors in ICs
Transistors play a key role in ICs. They are one of the basic building blocks of ICs. Transistors can amplify current or voltage signals and are the core components for realizing the functions of electronic circuits. By integrating a large number of transistors, resistors, capacitors and other components together, complex electronic circuits can be built to realize various electronic functions.
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3. What are PNP and NPN transistors?
PNP and NPN transistors are two basic types of transistors, which have significant differences in structure and current flow direction.
Definition and structure
NPN transistor: It is composed of two N-type semiconductor regions sandwiching a P-type semiconductor region, forming three main regions of emitter (E), base (B) and collector (C). This structure makes the NPN transistor behave in the circuit similar to two PN junction diodes connected back to back.
PNP transistor: It is composed of an N-type semiconductor material doped between two P-type semiconductor materials, and also has three regions of emitter, base and collector, but the current flow direction and carrier type are opposite to those of NPN.
Working Principle
NPN transistor: When a forward bias voltage is applied between the emitter and the base, the free electrons in the emitter can cross the PN junction into the base and recombine with the holes in the base to generate a base current. A reverse bias voltage is applied between the collector and the base to prevent further flow of current. When a small input signal is applied to the base, this signal changes the voltage between the base and the emitter, thereby affecting the injection of free electrons in the emitter and forming a collector current. Since the collector current is an amplification of the base current, the NPN transistor has an amplification effect.
PNP transistor: The working principle is similar to that of the NPN type, but the current flow direction and carrier type are opposite. Positive charge flows from the emitter of the P-type semiconductor to the base, a part of which is captured by the base electrons of the N-type semiconductor and becomes the base current, and most of the rest becomes the collector current.