MGA04024R7M-10 Inductors, Coils, Chokes

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Fixed Inductors

MGA04024R7M-10 Application Field And Working Principle

Fixed inductors, also known as bobbin-type inductors, are used in a wide range of applications in digital, radio frequency, power, control and analog circuits. The MGA04024R7M-10 is a fixed inductor that can be used for a variety of applications, including power factor correction, telecommunication information systems, and various other applications.

Fixed Inductor

A fixed inductor is an inductive component that is physically fixed. It is typically constructed of a coil of wire wrapped around a magnetic core and enclosed in an insulating material. Fixed inductors store energy in the form of a magnetic field when the current passes through them. The amount of energy that is stored is proportional to the inductance and the amount of current passing through the device. The inductance is typically measured in units of henries. A fixed inductor can be used for different applications, including filters, transformers, oscillators, choke coils, and other inductive circuits.

MGA04024R7M-10 Application

The MGA04024R7M-10 is a fixed inductor that is ideal for power factor correction, data transmission systems, and other applications. It has an impedance of 7.5 ohms and a high current rating of 40A. It has an excellent temperature stability and can withstand high-temperatures up to 125 degrees Celsius and still operate effectively. The MGA04024R7M-10 also has a very high dielectric strength, enabling it to withstand peaks up to 1.2V. The device also features an exceptionally low DC and AC resistance, allowing for low power losses. Additionally, the device has a very high energy storage capacity, making it suitable for power factor correction, power transfer, and energy storage applications.

Working Principle of the MGA04024R7M-10

The working principle of the MGA04024R7M-10 is similar to other fixed inductors. An alternating current such as AC power is applied to the coil of the inductor. This alternating current causes the coil to rapidly increase and decrease in electrical field strength. When this happens, an amount of energy in the form of a magnetic field is released from the inductor. This magnetic field is then picked up by a secondary coil, which produces the necessary output voltage or current in the form of electricity.

The amount of energy that is released from the MGA04024R7M-10 is dependent on the amount of current passing through it and the inductance of the coil. The higher the inductance, the more energy that is stored and released for higher output voltages or currents. The device can also be used in circuits that require constant voltage sources, as the inductor can store energy and then release it when the current drops.

Conclusion

The MGA04024R7M-10 is a fixed inductor that can be used in a variety of applications, including power factor correction, telecommunication systems, and various other applications. It has many advantages such as a low DC and AC resistance, high current rating, and temperature stability. The device works on the same principle as other fixed inductors, using alternating current to increase and decrease electrical and magnetic fields which produce the desired output voltage or current.

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