IM06ST150K

Q @ Freq:	55 @ 2.5MHz
Height - Seated (Max):	--
Size / Dimension:	0.190" Dia x 0.440" L (4.83mm x 11.18mm)
Supplier Device Package:	Axial
Package / Case:	Axial
Mounting Type:	Through Hole
Features:	--
Inductance Frequency - Test:	2.5MHz
Operating Temperature:	-55°C ~ 105°C
Ratings:	--
Frequency - Self Resonant:	30MHz
Series:	IM
DC Resistance (DCR):	1.2 Ohm Max
Shielding:	Unshielded
Current - Saturation:	--
Current Rating:	310mA
Tolerance:	±10%
Inductance:	15µH
Material - Core:	Iron
Type:	Molded
Part Status:	Obsolete
Packaging:	--

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Introduction
Fixed inductors are used in many fields and IM06ST150K is one of the most popular fixed inductors around. This inductor comes with a very efficient design and great performance for applications ranging from basic power requirements to demanding signal-handling tasks. This article will discuss the application field and working principle of IM06ST150K fixed inductors.

Application Field
IM06ST150K fixed inductors have a wide range of applications in various fields. They are commonly used in the fields of power supply, DC/DC converters, DC/AC inverters, light-emitting diode (LED) lighting, and communication systems. They can also be used in the automotive industry, particularly in vehicular applications.
IM06ST150K fixed inductors can be used in a variety of power supply systems, such as high voltage DC/DC converters, AC/DC inverters, and high frequency switching power supplies. These inductors are suitable for applications requiring grater power, as they have higher current capacity and lower winding inductance than other conventional inductors. In addition, they are highly reliable due to their high insulation and impressive fire-retardant properties. Furthermore, in DC/DC converters, these inductors effectively reduce noise and current ripple, and thus, provide higher efficiency and better performance.
IM06ST150K fixed inductors are also suitable for DC/AC inverters. These devices are integrated with a high frequency oscillator, which enables them to provide highly efficient power conversion. This helps to reduce energy losses in the conversion and provides greater control and regulation of the power output. In addition, these inductors are also used in LED lighting, which enables them to provide steady and reliable light emission that lasts longer than traditional lighting systems.
Finally, IM06ST150K fixed inductors are used in various communication systems, such as high frequency long-range communication systems. They facilitate the transmission of signals over long distances, making them ideal for applications like cellular networks and Wi-Fi systems. Furthermore, these inductors are suitable for automotive applications as they are able to withstand high temperatures and vibration, enabling them to provide reliable performance in a range of vehicular applications.

Operating Principle
IM06ST150K fixed inductors are based on Faraday’s law of electromagnetic induction. This law states that when an electric current passes through a conductor, a magnetic field is created in the surrounding medium. This magnetic field can induce a voltage in another conductor if it is coupled with it. This induced voltage is proportional to the rate of change of the magnetic field, and it can be used to generate current or store energy, depending on the circuit configuration.
In IM06ST150K fixed inductors, an electric current passing through a conductive coil creates a magnetic field. This magnetic field interacts with an adjacent coil and induces a voltage, which is stored in the inductor. The amount of voltage that is induced and stored depends on several factors, such as the inductance, current, and frequency of the inductor. Additionally, the magnetic field that is created also affects the efficiency of the inductor, as greater magnetic fields result in higher efficiency.

Conclusion
IM06ST150K fixed inductors are highly efficient devices with a wide range of applications. They are suitable for a variety of power requirements and excellent for communication systems. Moreover, they are robust enough to be used in the automotive industry. They operate on the principle of Faraday’s law of electromagnetic induction, wherein an electric current passing through a coil creates a magnetic field which induces a voltage in an adjacent coil. This induced voltage is then stored in the inductor, and is used to generate current or store energy.

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