Allicdata Part #: | IRF24ER102K-ND |
Manufacturer Part#: |
IRF24ER102K |
Price: | $ 0.07 |
Product Category: | Inductors, Coils, Chokes |
Manufacturer: | Vishay Dale |
Short Description: | IRF-24 1K 10% ER E3 |
More Detail: | 1mH Unshielded Inductor 60mA 30 Ohm Max Axial |
DataSheet: | IRF24ER102K Datasheet/PDF |
Quantity: | 1000 |
5000 +: | $ 0.06048 |
Q @ Freq: | 50 @ 796kHz |
Height - Seated (Max): | -- |
Size / Dimension: | 0.118" Dia x 0.276" L (3.00mm x 7.00mm) |
Supplier Device Package: | Axial |
Package / Case: | Axial |
Mounting Type: | Through Hole |
Features: | -- |
Inductance Frequency - Test: | 796kHz |
Operating Temperature: | -20°C ~ 105°C |
Ratings: | -- |
Frequency - Self Resonant: | 1.15MHz |
Series: | IRF-24 |
DC Resistance (DCR): | 30 Ohm Max |
Shielding: | Unshielded |
Current - Saturation: | -- |
Current Rating: | 60mA |
Tolerance: | ±10% |
Inductance: | 1mH |
Material - Core: | Ferrite |
Type: | -- |
Part Status: | Active |
Packaging: | -- |
Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us: sales@allicdata.com
Fixed inductors are extensively used in different electrical and electronic building blocks such as amplifiers, filters, and power supplies. The IRF24ER102K is a type of fixed inductor with a wide range of applications as it offers high performance and low power consumption. This article provides an overview of the application fields and working principle of the IRF24ER102K.
The IRF24ER102K is a wideband, high frequency, planar inductor with a high Q factor and extremely low inductance. This inductor uses a ferrite core that has a low hysteresis loss and low core loss to reduce the total power loss while maximizing the inductance and working frequencies. The IRF24ER102K offers excellent frequency response with its high Q factor and low inductance, which makes it suitable for many applications.
The IRF24ER102K is used in many fields such as telecommunications, power electronics, automotive, consumer electronics, and it is also suitable for professional applications. In telecommunications, the IRF24ER102K is used in communication systems such as telephone systems, television networks, and radio networks where it can reduce harmonic distortion and provide superior electrical parameters. Moreover, it is also used in power electronics for controlling power levels and improving power quality due to its high Q factor. It can also be used in automotive applications such as electric vehicle charging, automotive power electronics, and fuel injection systems. In consumer electronics, the IRF24ER102K is used in consumer devices such as radios, portable media players, and gaming devices.
In addition to its wide range of applications, the IRF24ER102K offers excellent working performance. It has a low DC resistance, which makes it suitable for high frequencies; a high Q factor for better signal quality; and a low switching speed, which helps reduce interference. Moreover, its excellent power handling capabilities enable it to operate at higher power levels and achieve a stable operation over a wide range of temperatures.
The working principle of the IRF24ER102K is based on the fact that an electric current flowing through a conductor is surrounded by a magnetic field. When this magnetic field is subjected to a changing electric current, a voltage is induced in the conductor. The magnitude of this induced voltage is proportional to the rate of change of the magnetic field. In the case of the IRF24ER102K, this effect is used to induce a voltage in the inductor when the electric current flowing through the inductor changes. This induced voltage is then used to generate a current.
The IRF24ER102K is a versatile inductor with a wide range of application fields. It offers excellent performance due to its high Q factor and low inductance, and its low DC resistance makes it suitable for high frequencies. Its excellent power handling capabilities make it suitable for applications such as telecommunications, power electronics, automotive, and consumer electronics. Moreover, its working principle is based on the magnetic induction phenomenon, which is responsible for inducing a voltage in the inductor when the current flowing through it changes.
The specific data is subject to PDF, and the above content is for reference
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