At the heart of power systems, busbars act like veins, carrying massive currents to deliver energy to every corner.
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At the heart of power systems, busbars act like veins, carrying massive currents to deliver energy to every corner.
As the world accelerates toward net-zero emissions, the photovoltaic (PV) energy storage sector is experiencing unprecedented growth in 2025.
In RF communication and high-frequency signal processing systems, transformers play a crucial role in impedance matching, signal isolation, and power transfer.
In modern power systems, copper-aluminum busbars serve as the core carrier of power transmission, carrying high currents and ensuring high reliability.
In high-frequency electronic circuits, the performance of inductor coils depends not only on the core material and the number of winding turns, but also on the geometry of the wire.
Although inductors are passive components that store magnetic field energy and operate based on the principle of electromagnetic induction, primarily used to pass DC and block AC, with functions such as energy storage