The design of the ferrite structures of coupling pads of inductive power transfer (IPT) systems
has traditionally relied upon designer experience with limited design flexibility. Therefore …

Nanocrystalline alloys are of interest in inductive power transfer (IPT) due to their higher
saturation limits, permeability, and thermal conductivity compared to conventional Mn–Zn …

Compact and high current inductors determine the power density and efficiency of voltage
regulators (VRs) for computing ICs. Conventional moulding structures using powder cores …

This article introduces an ultra-thin self-resonant coupler using nanocrystalline flake ribbon
(NFR) material for wireless power transfer (WPT). The self-resonant coupler has garnered …

Wireless power transfer (WPT) systems have been hamstrung by modest energy efficiencies
and electromagnetic safety concerns. Conventional electromagnetic shielding devices can …

With the growing use of unmanned surface vehicles (USVs) for underwater exploration,
efficient wireless charging solutions like inductive power transfer (IPT) are crucial for …

To enhance the transmission performance of the autonomous underwater vehicle while
charging on the inclusive charging platform, this paper proposes a wireless power transfer …

This paper provides an analysis of the laminated magnetic core implemented in inductive
power transfer (IPT) applications. Magnetic design in IPT is vital as it directly impacts the …

Nanocrystalline Flake Ribbon (NFR) is a magnetic material suitable for replacing
conventional ferrite in core designs for wireless power transmission applications. How to …

Underwater wireless power transfer (UWPT) technology provides an efficient energy supply
solution for autonomous underwater vehicle (AUV), where the magnetic core of the magnetic …