IM10RFCLBH1R5K12

Q @ Freq:	130 @ 10MHz
Height - Seated (Max):	--
Size / Dimension:	0.310" Dia x 0.900" L (7.87mm x 22.86mm)
Supplier Device Package:	Axial
Package / Case:	Axial
Mounting Type:	Through Hole
Features:	--
Inductance Frequency - Test:	10MHz
Operating Temperature:	-55°C ~ 125°C
Ratings:	--
Frequency - Self Resonant:	112MHz
Series:	IM-10RFCL-12
DC Resistance (DCR):	30 mOhm Max
Shielding:	Shielded
Current - Saturation:	--
Current Rating:	4A
Tolerance:	±10%
Inductance:	1.5µH
Material - Core:	Iron
Type:	Molded
Part Status:	Active
Packaging:	--

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Fixed Inductors

Inductors, also known as coils, coils, or chokes, are passive electrical components that store energy in the magnetic field generated when current passes through them. Their impedance to alternating current increases with increasing frequency. One of the most commonly used types of inductors is the IM10RFCLBH1R5K12 fixed inductor. This article will discuss the application fields and working principles of this type of inductor.The IM10RFCLBH1R5K12 is a small fixed inductor that is used in a broad range of applications. As the name implies, the inductor is designed for operation in a fixed mode, meaning that the current in the inductor does not change over time. The most widely used application of the IM10RFCLBH1R5K12 is for filtering or decoupling. It can also be used as part of an antenna circuit, as part of a transmitter or receiver, or even as a delay line in timing applications.The working principle of the IM10RFCLBH1R5K12 is based on Faraday\'s law of induction. When electric current passes through a conductor, it creates a magnetic field. The magnetic field, in turn, induces a voltage, which opposes the original current. This opposing voltage is known as inductance. The IM10RFCLBH1R5K12 is designed to have a high Q factor, which is a measure of its ability to store energy over a given frequency range. The IM10RFCLBH1R5K12 has a temperature coefficient of -40 ppm/°C, meaning that its inductance changes very little over a wide range of temperatures. This is an advantage over other types of inductors, which can have a significant variation in inductance over temperature.To reduce losses in the inductor, it is important to keep the current low. This is due to the fact that the magnetic field created by the current causes the inductor to heat up and potentially damage it. The IM10RFCLBH1R5K12 has been designed to minimize these losses and ensure that the device operates at maximum efficiency. The IM10RFCLBH1R5K12 is also designed to have a low level of EMI (electromagnetic interference), which is important in some applications. The inductor uses special shielding to reduce the amount of EMI that is generated, and thereby reduce the impact of EMI on nearby electronic circuits.In conclusion, the IM10RFCLBH1R5K12 is a small fixed inductor that is used in a broad range of applications. Its working principle is based on Faraday\'s law of induction, and it is designed to have a high Q factor and low level of EMI. The temperature coefficient is -40 ppm/°C, meaning that its inductance changes very little over a wide range of temperatures. Keeping the current low is important to avoid damage due to heating, and special shielding is used to reduce the amount of EMI that is generated.

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