MS75101-11ST

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Fixed inductors are electrical components that help shape the flow of current in a circuit by blocking unwanted residual energies. The MS75101-11ST Inductor is an example of such a component. Although it has several characteristics, they all serve the basic purpose of providing circuit protection and manipulation of current within the circuit.

The MS75101-11ST is a potent, low-profile inductor that can be used in high-performance applications. It can provide an effective filter performance with ultra-low ESR (Equivalent Series Resistance) values. With high-temperature stability, minimal core losses, and minimal leakage current, the MS75101-11ST is an excellent choice for modern applications.

The MS75101-11ST consists of a core, consisting of a ferrite material, around which a few hundred turns of copper wire are wound. The inductance is determined by the geometry and the material used for the core as well as the diameter of the wire. It is designed to operate in temperatures ranging from -55°C to +105°C. It has a rated inductance of 11uH, a DCR of 80mOhms, and an SRF (Self Resonant Frequency) rating of 218MHz. The MS75101-11ST provides high performance and low noise while diminishing impulsive noises caused by switch-mode power supplies.

The MS75101-11ST can be applied in various fields, such as switching regulators, DC/DC converters, DC/AC inverters, TVs, LCD monitors, and power supplies. Its high-temperature stability and capability to control current boost its capability to manage the power supply in electronic devices. It also has applications in RFID, GPS, telecommunication, and automobile electronics.

The working principle of the MS75101-11ST operates under Faraday’s and Lenz’s laws. Faraday’s Law states that when a current-carrying conductor is placed in a magnetic field, a voltage will be induced in the conductor due to the relative motion between the magnetic field and the conductor. Lenz’s Law explains that this induced voltage is negative feedback loop that works against the cause that created it. Thus, in the MS75101-11ST induction coil, when current flows through the coil, it generates a magnetic field which,in turn, induces a voltage that is opposite the original current, effectively limiting the amount of current that can flow.

In conclusion, the MS75101-11ST can effectively regulate and protect electronic circuits from overcurrent or overvoltage. It provides higher performance in switching regulators, DC/DC converters, and other electronic devices, along with enhanced reliability, and exceptional power handling capabilities. With its wide variety of applications, it is an ideal inductor for modern electronic devices.

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