HM36-1211R95LFTR13

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Fixed Inductors represents a crucial component in electronic applications, and one of the most widely used inductors is the HM36-1211R95LFTR13. This type is used for a wide range of applications, from low-power mobile applications to AC/DC power systems in commercial and industrial settings. In this article, we will look at the design drivers behind the HM36-1211R95LFTR13 and review the working principle, as well as the applications it’s most used in.

Design Drivers

The primary design driver for the HM36-1211R95LFTR13 is size, as the device board space is optimized to deliver superior performance while minimizing the number of necessary components. The product is based on a clad package featured with uniform coil pitch, enabling a maximum number of turns in a small space. Additionally, the assembly process relies on standard automated production processes, resulting in even and reliable product quality.

When compared to winding techniques that require manual labor, this significantly reduces costs. Furthermore, the product also features excellent electrical characteristics such as high inductance, low DCR, and high-temperature stability. As a result, the HM36-1211R95LFTR13 exhibits excellent performance in various applications.

Working Principle

The working principle of the HM36-1211R95LFTR13 is based onto the classical inductor law. When current flows through the inductor, it induces a magnetic flux that is proportional to the magnitude of the current. The magnetic flux then induces a back voltage, which is opposite in polarity to the applied voltage. The induced voltage is proportional to the change rate of current, this is also known as counter EMF.

The product has been designed to keep the inductance at a maximum level while minimizing the DCR rating. As a result, the efficiency that can be achieved using the HM36-1211R95LFTR13 is higher since there is less power being wasted in the form of heat.

Application Field

HM36-1211R95LFTR13 is used in a wide range of applications, including low-power mobile devices, IoT applications, AC/DC power systems, and audio applications. The product also features exceptional characteristics for automotive and military applications, and can be used in electronic circuit designs that require high frequency operation. For example, it can be used to reduce EMI in switching and amplifier circuits.

In addition, the product is highly used for power conservation and EMC design purposes. The product is able to significantly reduce the power consumption of power saving appliances and other displays while still meeting the EMC performance requirement. In terms of audio applications, the product has been designed to enhance sound quality and reduce noise induction. It is widely used in digital amplifiers, radio systems, and audio equipment that feature low ripple, low noise switching.

Conclusion

The HM36-1211R95LFTR13 is a fixed inductor that is widely used in a variety of applications. This product is built to provide superior performance while optimizing the board space and reducing costs. The inductor works based on the classical inductor law, which states that when current flows through the inductor, a magnetic flux is induced that induces an opposite voltage. The HM36-1211R95LFTR13 is used in various applications, including low-power mobile devices, IoT applications, audio applications, AC/DC power systems, automotive, military, and EMC design purposes.

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