Magnetic couplers are devices that use magnetic fields to transfer power or data between two separated circuits or components, without requiring any physical contact. They are commonly used in a wide range of applications, including power transmission, communication systems, and medical devices.

A magnetic coupler typically consists of two components, referred to as the primary and secondary side. The primary side is the source of power or data, and is usually connected to a power source or data transmitter. The secondary side is the recipient of the power or data, and is typically connected to a load or a data receiver.

The two sides of the magnetic coupler are separated by an air gap or a non-magnetic material, which prevents any direct electrical connection between them. Instead, the primary side creates a magnetic field, which induces a corresponding magnetic field in the secondary side, thereby transferring power or data across the air gap.

One of the key advantages of magnetic couplers is their ability to transfer power or data without any physical contact, which eliminates the risk of wear and tear, corrosion, or contamination that can occur in traditional wired connections. They are also highly efficient, with minimal power losses and high frequency response, making them ideal for high-speed data transmission and power conversion applications.

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