Title :
Integrating Magnetics for On-Chip Power: A Perspective
Author :
Sullivan, C.R. ; Harburg, Daniel V. ; Jizheng Qiu ; Levey, Christopher G. ; Di Yao
Author_Institution :
Thayer Sch. of Eng., Dartmouth Coll., Hanover, NH, USA
Abstract :
Integration of efficient power converters requires technology for efficient, high-power on-chip inductors and transformers. Increases in switching frequency, facilitated by advances in circuit designs and silicon or wide-bandgap semiconductors, can enable miniaturization, but only if the magnetics technology works well at the higher frequencies. Technologies, geometries, and scaling of air-core and magnetic-core inductors and transformers are examined, and their potential for integration is discussed. Air-core inductors can use simpler fabrication, and increasing frequency can always be used to decrease their size, but magnetic cores can decrease the required thickness without requiring as high a frequency.
Keywords :
geometry; inductors; power convertors; transformer cores; air-core inductor; circuit design; fabrication; geometries; high-power on-chip inductor; magnetic-core inductor; magnetics technology; on-chip power; power converter; switching frequency; transformer; wide-bandgap semiconductor; Conductors; Inductors; Magnetic cores; Magnetic materials; Resistance; Windings; Air-core magnetics; air gaps; electromagnetics; high-frequency dc-dc converter; inductors; integrated power converter; magnetic films; proximity effect; soft magnetic materials; thin-film inductors; transformers; very-high-frequency (VHF);
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2013.2240465
