IRF01BH101K

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Fixed Inductors are components that store energy in the form of a magnetic field, and its essential configuration consists of a coil of wire wound around a core material. IRF01BH101K is one type of Fixed Inductors from Infineon Technologies which is designed to address the needs of various applications in the consumer, computer, industrial, networking, and telecommunication markets. This section will discuss the IRF01BH101K application field and working principle.

IRF01BH101K Application field

The IRF01BH101K is a surface mount Fixed Inductor developed to fulfill a broad market demand from the consumer, computer, industrial, networking, and telecommunication industry. This Inductor can be utilized in a diverse range of applications, from low to high current power supplies, low noise and linear power supplies, and in voltage regulators.

The inductor is specially designed with a low DCR to meet the requirements of high power designs where efficient use of board space is critical. The IRF01BH101K has 0.091ohms of DCR and this helps to control EMI according to the customer designs. The Inductor also has wide inductance ranges from 0.47uH to 4.7uH which meets the system requirements.

IRF01BH101K Working Principle

The IRF01BH101K inductor works on the principle of electromagnetic induction which is a phenomenon by which an electrical current is generated in a closed loop due to changing magnetic fields. This Inductor consists of a coil of wire which is wound around a core material. When the current passes through the coil, it produces a magnetic field which then induces a voltage in the coil. The magnitude of the voltage induced in the coil is proportional to the rate of change of the magnetic field. This induced voltage is used to regulate the flow of the current in the circuit.

The core material of the inductor helps to increase the strength of the magnetic field and concentrates it on the coil. This increases the amount of voltage induced in the coil. The amount of inductance produced by the inductor is dependent on many factors like the number of turns in the coil, the magnetic permeability of the core material, the size and shape of the core, and the current passing through the coil.

The IRF01BH101K also has a good temperature cycle stability and resistance to high-temperature exposure due to its construction which can withstand high temperatures and high humidity environments. This makes the inductor ideal for use in harsh environments such as automotive and outdoor applications.

Conclusion

In conclusion, the IRF01BH101K Fixed Inductor is an ideal choice for applications that require high current and efficient use of board space in a broad market including consumer, computer, industrial, networking and telecommunication industry. It has a low DCR which helps to control EMI according to the customer designs and wide inductance ranges from 0.47uH to 4.7uH to meet the system requirements. The Inductor also has excellent temperature cycle stability and resistance to high-temperature exposure which makes it an ideal choice for use in harsh environmental conditions.

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