MS18130-16SH

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Fixed inductors are passive, electrical components, usually found in the form of an inductor coil, which is used for storing electrical energy in the form of a magnetic field. In particular, the fixed inductor, such as MS18130-16SH, is an inductor designed for use in various ruggedized applications and environments that require high protection from environmental conditions, such as shock, vibration, temperature, and humidity.

MS18130-16SH Application Field

The MS18130-16SH has a wide range of applications including: automotive, aerospace and defense, medical, telecom and communications, industrial automation, and consumer electronics. It is also designed for use in high temperature and hazardous environments, such as chemical processing plants and foundries. Some of the main features of the MS18130-16SH include:

• High Power Rating: The inductor has a power rating of 16A, allowing it to handle extreme high temperatures and high power loads.
• Resistant to Vibration: The inductor is resistant to vibration and shock, making it suitable for applications that require vibration-resistant components.
• Temperature Characteristics: The inductor is designed to operate over a temperature range of -55°C to +125°C.
• High Environmental Protection: The inductor has high environmental protection, making it suitable for use in harsh environments.
• Reliable: The MS18130-16SH has a reliable and consistent performance even in extreme temperatures and high power loads.

MS18130-16SH Working Principle

An inductor is a passive electrical component that stores energy in the form of a magnetic field. When an alternating current (AC) is applied to the inductor, it creates an inductance or an effective resistance to the electric current, proportional to the rate at which the current changes and the number of turns in the coil. This inductance reduces the amount of electric current that flows through the inductor, which in turn creates a voltage across the inductor.

In the case of the MS18130-16SH, the inductor is a fixed inductor with a 16A power rating. The working principle of the MS18130-16SH is an example of Faraday\'s Law of Induction. When an electric current is introduced into the inductor, a magnetic field is produced. This magnetic field is made up of lines of flux surrounding the inductor. As the flux lines move, they create a back emf, which is the voltage induced in the inductor. This back emf is used to oppose the input current, reducing the current flowing through the inductor.

The voltage and the current in the inductor are inversely proportional, meaning that the greater the current, the lower the voltage and vice versa. This is the basic principle behind the operation of the MS18130-16SH and how it is able to provide protection and reliable performance in extreme temperature ranges and hazardous environments.

Conclusion

The MS18130-16SH is a fixed inductor designed for use in rugged environments and hazardous applications. It is able to provide a reliable and consistent performance in extreme temperatures and high power loads. It is resistant to vibration and shock, and has high environmental protection. The working principle behind the MS18130-16SH is Faraday\'s Law of Induction, which states that an electric current produces a magnetic field, which creates a back emf when it moves, inducing a voltage in the inductor, and opposing the input current.

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