NFP0QSN112HL2D Filters

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Common mode chokes, in particular NFP0QSN112HL2D, are used in a wide variety of electronic systems to suppress EMI as well as RFI interference. They are essential components in many types of designs, from automotive electronics to industrial automation, in order to protect circuitry from unwanted electrical interference. The NFP0QSN112HL2D is a high performance common mode choke that is designed to provide a high degree of noise attenuation and superior holding current. It features a low profile design as well as a high current capacity, making it ideal for use in applications requiring a high degree of noise suppression.

The working principle of common mode chokes is based on the principle of magnetic induction. When an external electromagnetic field is present, the core of the common mode choke will magnetically attract the field lines and convert the energy into electrical current. This current will then flow through the coil of the choke, creating an opposing magnetic field which acts to cancel out the external field and attenuate the noise. This is known as inductive coupling and is the basic principle behind the operation of a common mode choke.

The NFP0QSN112HL2D is a perfect example of how effective common mode chokes can be in suppressing RFI and EMI interference. It features a low profile design at only 1.35mm in height, allowing for easy integration into a wide range of layouts and applications. It also has a high current capacity of 6.5A and can withstand temperatures up to 105°C in harsh environments. Furthermore, the choke features a unique construction that allows for a high degree of noise attenuation with excellent interference suppression.

Common mode chokes such as the NFP0QSN112HL2D are essential components that are used in a wide variety of applications, from automotive electronics, industrial automation, and consumer and medical electronics, to help protect the circuitry from unwanted electrical interference. They are designed to provide excellent noise attenuation and superior holding current, making them the perfect choice for applications requiring a high degree of noise suppression.

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