By optimizing the shape of the magnetic core and the position of the air gap, the uniformity of the magnetic field distribution within the winding window can be improved, reducing proximity effect losses caused by magnetic field distortion.
With the increasing trend towards miniaturization, efficiency, and intelligence in today's electronic devices, the operating frequency of switching power supplies is constantly increasing—from tens of kilohertz to several megahertz—to achieve smaller magn
As high-frequency switching power supplies increasingly pursue miniaturization, high efficiency, and high power density, the performance boundaries of magnetic components are constantly being pushed to their limits.
Flat wire inductors offer an effective solution for suppressing the skin effect through their unique structural design.
System co-design is a necessary condition for realizing the high-frequency suppression potential of common mode inductors.
In the highly dense environment of modern electronic devices and increasingly complex signal interactions, electromagnetic interference (EMI) has become an invisible threat affecting system stability and reliability.