Affiliation:
1. Department of Electrical and Computer Engineering, College of Engineering, The University of Alabama, Tuscaloosa, AL 35487, USA
Abstract
The on-chip integration of a power inductor together with other power converter components of small sizes and high-saturation currents, while maintaining a desired or high inductance value, is here pursued. The use of soft magnetic cores increases inductance density but results in a reduced saturation current. This article presents a 3D physical model and a magnetic circuit model for an integrated on-chip power inductor (OPI) to double the saturation current using permanent magnet (PM) material. A ~50 nH, 7.5 A spiral permanent magnet on-chip power inductor (PMOI) is here designed, and a 3D physical model is then developed and simulated using the ANSYS®/Maxwell® software package (version 2017.1). The 3D physical model simulation results agree with the presented magnetic circuit model, and show that in the example PMOI design, the addition of the PM increases the saturation current of the OPI from 4 A to 7.5 A, while the size and inductance value remain unchanged.
Funder
National Science Foundation
Reference34 articles.
1. Improving the Efficiency of an Isolated Bidirectional Dual Active Bridge DC–DC Converter Using Variable Frequency;Esteve;Electronics,2024
2. Photovoltaic-Battery-Powered DC Bus System for Common Portable Electronic Devices;Lu;IEEE Trans. Power Electron.,2009
3. A sustainable power architecture for mobile computing systems;Muhtaroglu;J. Power Sources,2008
4. Asghar, M.S., Arslan, S., Al-Hamid, A.A., and Kim, H. (2023). A Compact and Low-Power SoC Design for Spiking Neural Network Based on Current Multiplier Charge Injector Synapse. Sensors, 23.
5. System in Package (SiP) With Reduced Parasitic Inductance for Future Voltage Regulator;Hashimoto;IEEE Trans. Power Electron.,2009