MLP2520V1R0ST0S1

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Fixed inductors are electrical components that are characterized by the fact that their inductance is fixed. This means that any change in current or voltage applied to the component will not result in a change in inductance. The MLP2520V1R0ST0S1 is a type of fixed inductor from Murata Manufacturing Co., Ltd.

The MLP2520V1R0ST0S1 is a low-profile, surface-mount inductor designed for a wide variety of applications. The MLA2520V1R0ST0S1 is a high-current inductor with high inductance in an ultra-small size and a low DC resistance. It is suitable for CDMA/LTE and W-CDMA mobile phones, wireless products, and other small equipment that require high power.

In terms of its physical characteristics, the MLP2520V1R0ST0S1 has a small footprint size of just 0.25mm x 0.25mm and is only 0.3mm in height. The device also has a low DC resistance of 0.43Ω max. This means it can effectively reduce losses and represents a superior cost-performance ratio compared to other inductors. Furthermore, the MLP2520V1R0ST0S1 has an inductance range of 6.8μH to 21.4μH.

The MLP2520V1R0ST0S1 is suitable for a wide range of applications. It is ideal for products requiring high-current, low-profile inductance, such as DC-DC converters, USB 1.0 power supplies, and VCC-GND line noise suppression. It is also suitable for use in volume broadcasting circuits, communication transmitter filters, and line filters.

The MLP2520V1R0ST0S1 uses magnetically-shielded construction which helps reduce external magnetic interference. This ensures the inductor is stable in operation and reduces the need for additional EMI filters. The device also has outstanding temperature stability and low noise characteristics. This makes it suitable for products requiring effective noise suppression or high temperature, such as smartphones, laptop computers, and other electronic devices that operate in harsh environmental conditions.

The working principle of the MLP2520V1R0ST0S1 is based on Faraday\'s Law of Induction. This states that when a conductor is in a changing magnetic field, an electromotive force is induced in the conductor. The greater the strength of the magnetic field, the greater the EMF induced in the conductor. In the MLP2520V1R0ST0S1, this EMF causes a current to flow in the conductor, which in turn generates an opposing magnetic field. This magnetic field is responsible for the inductance of the device.

In conclusion, the MLP2520V1R0ST0S1 from Murata Manufacturing Co., Ltd is a low-profile, surface-mount inductor suitable for a wide range of applications. It has a small physical footprint and a low DC resistance, making it ideal for products requiring high-current, low-profile inductance. The device is also magnetically-shielded and has outstanding temperature stability and low noise characteristics. The working principle of the MLP2520V1R0ST0S1 is based on Faraday\'s Law of Induction, which states that when a conductor is in a changing magnetic field, an electromotive force is induced in the conductor.

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