ELC-09D100F

DC Resistance (DCR):	27 mOhm
Height - Seated (Max):	0.350" (8.90mm)
Size / Dimension:	0.374" Dia (9.50mm)
Supplier Device Package:	--
Package / Case:	Radial
Mounting Type:	Through Hole
Inductance Frequency - Test:	10kHz
Operating Temperature:	--
Ratings:	--
Frequency - Self Resonant:	--
Q @ Freq:	--
Series:	09D
Shielding:	Unshielded
Current - Saturation:	--
Current Rating:	2.5A
Tolerance:	±20%
Inductance:	10µH
Material - Core:	--
Type:	Wirewound
Part Status:	Active
Packaging:	Bulk

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Fixed inductors are ubiquitous in a wide range of electronic circuitry, from low-power, analog devices to high-power, digital circuits. However, due to their many applications, determining the best inductor for a particular application can be difficult. One of the most commonly used inductors is the ELC-09D100F, which is used in many different areas of electronic circuit design. This article explores the various applications and working principles of this popular inductor and explains why it is often the go-to choice for certain applications.

The ELC-09D100F is a fixed inductor with a variety of characteristics and capabilities, making it a good choice for many different applications. The core of this inductor is composed of ferrite, which is a material with high permeability and a low magnetic reluctance. This makes the ELC-09D100F capable of producing high inductance with relatively low current. Additionally, it is a non-polarized device, which means that it can be used in either a DC or AC circuit.

The ELC-09D100F is often used in power electronics because of its inherent stability and applicability in high-current circuits. The inductor is able to provide both energy storage and filtering capabilities, allowing it to efficiently power and filter high-current circuits. It is also able to provide high-frequency filtering capabilities, which makes it ideal for applications such as high-speed data transfer. Additionally, its wide range of characteristics give designers a great deal of flexibility when it comes to designing circuits with the ELC-09D100F.

When it comes to its working principle, the ELC-09D100F uses Faraday’s law of induction. Current passing through the device creates a magnetic field, which induces an opposing voltage. This voltage is proportional to the rate of change of current passing through the device and is used to store energy in the inductor. This stored energy can then be used to power other components, and can also be used to filter high-frequency noise.

The ELC-09D100F is an incredibly versatile inductor due to its wide range of capabilities and flexibility. It is commonly used in power electronics, high-speed data transfer, and filtering applications. Its non-polarized design and high-energy storage abilities make it an ideal choice for many different types of circuits. Additionally, the inductor’s ability to utilize Faraday’s law of induction makes it possible to store energy efficiently and filter out high-frequency noise in applications where this type of functionality is required.

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