MS75083-4ST

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Fixed Inductors are electrical components that store energy in the form of a magnetic field. As a result, they are commonly used in power electronics applications, such as switch-mode power supplies, for applications that require a large amount of energy storage. The MS75083-4ST is a fixed inductor that offers reliable performance in a variety of applications, from low-frequency alternating current applications to high-frequency applications for applications requiring a large amount of stored energy.

MS75083-4ST is a three-terminal embedded device composed of a core with slug (iron alloy) and a molded body. The molded body has a high resistance to humidity, making it suitable for long-term operation in a humid environment. The terminal section is securely mounted onto the core via the molded body to ensure stable mechanical connection. MS75083-4ST also features a high degree of structural strength compared to other fixed inductors, making it suitable for applications where harsh mechanical stress may be present.

The MS75083-4ST provides a wide range of available inductance values, from 0.1 μH to 100 μH. Despite this wide range of values, the required inductance can usually be achieved within the operating frequency range of the device. MS75083-4ST can also be used in various applications due to its high saturation flux density, low self-resonant frequency, and low DC resistance.

The working principle of the MS75083-4ST is based on Faraday’s Law of magnetic induction. According to Faraday’s Law, when a magnetic field is applied to a coil of wire, an electromotive force (EMF) is induced in the wire. This EMF can then be harnessed to conduct electricity. In the case of the MS75083-4ST, this EMF is used to charge a capacitor, which is then discharged to power a circuit. The magnetic field of the core is then recharged using the current flowing through the circuit, and the process is repeated continuously.

Due to its robust design and wide range of available inductance values, the MS75083-4ST is an ideal choice for a variety of power electronics applications. Due to its high saturation flux density and low self-resonant frequency, it can withstand a high amount of current without experiencing any damage. Additionally, its low DC resistance ensures that it does not dissipate too much energy when conducting current. As a result, the MS75083-4ST is often used in low-frequency alternating current applications, such as switch-mode power supplies, as well as in high-frequency pulse applications, where a large amount of stored energy is required.

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