IDCP3114ER181M

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Fixed Inductors

A fixed inductor is a type of electrical component used in power electronic systems for transforming and filtering electrical signals. It is a device with an isothermal core made of iron and copper that is wound with a coil, and it is designed to store energy in the form of a magnetic field. This type of inductor is used in a wide range of applications, from the automotive industry to consumer applications.

IDCP3114ER181M Application Field

The IDCP3114ER181M is a fixed inductor that is commonly used in a number of applications, such as medical devices, automotive systems, consumer electronics, and in power supplies. It is a high power inductor, with an inductance of 18.1µH and a rated current of 10A. It offers superior performance and is designed to operate in temperatures ranging from -40°C to +125°C.

Working Principle of IDCP3114ER181M

The IDCP3114ER181M works on the principle of electromagnetic induction. This means that when a current is passed through the inductor, a magnetic field is created. This field then induces a voltage in the coil which is equal to the rate of change of the current. The induced voltage is in the opposite direction to the current, resulting in a reduction of the current. This reduction of the current is known as electrical impedance or inductive reactance.

The working principle of the IDCP3114ER181M is based on Faraday’s Law of Electromagnetic Induction, which states that the amount of voltage induced in the coil is directly proportional to the rate of change of the current. The core of the IDCP3114ER181M is composed of low-loss magnetic material, allowing the inductor to store more energy. This helps to reduce the resistive loss of the component and increase its efficiency.

Benefits of IDCP3114ER181M

The IDCP3114ER181M is designed for high-efficiency operation, thanks to its low-loss magnetic material construction and its operating temperature range of -40°C to +125°C. It also offers a high inductance value of 18.1µH, allowing for high filtering and dampening applications, such as in active noise-canceling systems. The high-rated current of 10A ensures that the IDCP3114ER181M can handle large currents and still remain efficient.

In addition, the inductance value is temperature-stable, allowing for reliable operation over a wide temperature range. It is also designed to be resistant to mechanical stress, such as vibration or shock, allowing it to perform reliably in harsh environments. And, as it is a surface-mount component, it can be easily integrated into existing electronic systems.

Conclusion

The IDCP3114ER181M is a high-efficiency fixed inductor with a large inductance value and a high rated current, making it suitable for a wide range of applications. Its low-loss magnetic core material construction helps to reduce the resistive losses, while its temperature-stable construction ensures reliable operation over a wide temperature range. It is also designed to be resistant to mechanical stress, making it suitable for harsh environments. As such, the IDCP3114ER181M is an ideal choice for a variety of applications.

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