IM10RFCLBH101K12

Q @ Freq:	100 @ 1.5MHz
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:	1.5MHz
Operating Temperature:	-55°C ~ 125°C
Ratings:	--
Frequency - Self Resonant:	13MHz
Series:	IM-10RFCL-12
DC Resistance (DCR):	3.2 Ohm Max
Shielding:	Shielded
Current - Saturation:	--
Current Rating:	400mA
Tolerance:	±5%
Inductance:	100µH
Material - Core:	Iron
Type:	Molded
Part Status:	Active
Packaging:	--

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HTMLFixed InductorsFixed inductors are those devices that utilize inductance to store electrical energy. Their exact working is based on changing currents manifesting in a magnetic field. They are commonly found in circuits where the basic principle remains the same, even though the parameters of application may change.IM10RFCLBH101K12 can be categorized as a fixed inductor. It is a two terminal device with an internal construction of a coil or helix which is wrapped around a ferrite core. The inductance is produced when the current passing through the inductor generates a magnetic field which opposes the change in current passing through it. This establishes the working principle of this inductor. This particular inductor has several application fields. It is used mainly in radio frequency (RF) and microwave circuits. It is also incorporated in very high speed signal transmission and data encoding/decoding. Its main purpose is to generate a constant frequency for RF components such as frequency generators, and filters. In new age technologies like Wi-Fi, Bluetooth, Zigbee, etc., which operate on 2.4 GHz frequency and below, this type of inductor helps to control frequency drift and fluctuations. Its main applications are used in radio frequency range microwave frequencies, like communications circuits in satellite systems, automotive radar systems, GPS, WLAN, etc. Besides its major applications such as telecommunication and built-in antenna systems for wireless portable devices, it can also be used in resonant circuit stabilizers, RF circuits, high frequency filters, high frequency tuning, 2.4GHz digital modulation and SAW resonators.The construction of IM10RFCLBH101K12 is in an epoxy casing with two terminals, and a ferrite core in the center. The inductance value is between 0 to 8nH. Its current capacity is between 0 to 150mA, and the operating temperature range is -55~ 125 C. It has an insertion loss of -30dB, and an inductance tolerance of +-20%. The working principle of the IM10RFCLBH101K12 is based on the Lenz’s law. This law predicts that a current induced in a circuit generates a magnetic field in the opposite direction of the change in current. That is, the induced current generates a field that attempts to oppose the change in current. This is the same principle behind the working of an inductor, which is the base of all the fixed inductors, including the IM10RFCLBH101K12. The IM10RFCLBH101K12 has made the power supply design circuit easier due to its improved efficiency and stability. Its advantages include low power consumption, low profile design, and high impedance. Besides this, its low noise levels makes this device suitable for high power applications. Its compact design also helps to reduce the board size while still being able to withstand a wide operating temperature range. Overall, the IM10RFCLBH101K12 is a reliable, efficient, and versatile fixed inductor used for a variety of applications in radio frequency and microwave circuits. Its working principle is based on Lenz’s law, which states that an induced current generates a field, that attempts to oppose the change in current. As such, its main purpose is to generate a constant frequency, which is achieved due to its low power consumption and low-profile design. Additionally, its high impedance and wide operating temperature range make it a valuable component in circuits.

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