Q @ Freq:	75 @ 7.9MHz
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:	7.9MHz
Operating Temperature:	-55°C ~ 125°C
Ratings:	--
Frequency - Self Resonant:	64MHz
Series:	IM-10RFCL-12
DC Resistance (DCR):	50 mOhm Max
Shielding:	Shielded
Current - Saturation:	--
Current Rating:	3.1A
Tolerance:	±10%
Inductance:	4.7µH
Material - Core:	Iron
Type:	Molded
Part Status:	Active
Packaging:	--

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Fixed Inductors

IM10RFCLEZ4R7K12 Application Fields and Working Principle

An inductor, or coil as it is sometimes known, is a passive electrical component designed to create a magnetic field when an electrical current flows through it. The most common type of inductor is the fixed inductor, which means that it is designed with a specific inductance value that will remain constant, regardless of the amount of current flowing through it. The IM10RFCLEZ4R7K12 is a type of fixed inductor, and it has several unique characteristics that make it suitable for a range of applications. In this article, we will explore the application fields and working principle of the IM10RFCLEZ4R7K12.The IM10RFCLEZ4R7K12 is a type of variable inductor, meaning that it consists of two separate coils of wire. The first coil is made up of a single layer of tightly-wound wire, while the second coil is made up of several layers of tightly-wound wire. By varying the number of layers of wire in the second coil, the overall inductance of the device can be varied. This makes the IM10RFCLEZ4R7K12 suitable for applications where a varying inductance is required, such as in the design of filters, amplifiers and oscillators.One of the most common applications for the IM10RFCLEZ4R7K12 is as part of an RF circuit. By varying the inductance of the device, it can be used to create a variable frequency response, allowing for a wide range of frequencies to be filtered. The device can also be used to tune the circuit to a specific frequency.The working principle of the IM10RFCLEZ4R7K12 hinges on the concept of magnetic induction. As electrical current passes through the device, a magnetic field is created, which induces a current in the second coil. This induced current creates a back-EMF in the second coil, which varies with the amount of current flowing in the first coil. By changing the number of layers in the second coil, the back-EMF can be varied, leading to a corresponding change in the inductance of the device.The IM10RFCLEZ4R7K12 can also be used to create a variable reluctance inductor. This works in much the same way as a variable inductor, but the magnetic field is created by the movement of the second coil in relation to the first, rather than by the flow of current. By changing the position of the second coil, the amount of magnetic reluctance can be varied, resulting in a corresponding change in the inductance.In addition to its use in RF circuits and variable reluctance inductors, the IM10RFCLEZ4R7K12 can also be used in other applications. For example, the device can be used in power management applications, where a varying amount of current is required. The device can also be used in the design of resonant circuits, where a variable inductance is needed to fine-tune the circuit.It is clear that the IM10RFCLEZ4R7K12 is a versatile and reliable device, capable of a wide range of applications. Its variable inductance and back-EMF properties make it ideal for use in RF circuits, power management applications, and resonant circuits. With its variety of uses and ease of adjustment, the IM10RFCLEZ4R7K12 is a useful tool for engineers and technicians alike.

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