论文信息 - Vertically laminated magnetic cores by electroplating Ni-Fe into micromachined Si

Vertically laminated magnetic cores by electroplating Ni-Fe into micromachined Si

The fabrication and characterization of vertically laminated, electrodeposited Ni-Fe magnetic cores in micromachined silicon for the low megahertz frequency range is presented. Laminated cores were fabricated by etching vertical trenches (60-180 /spl mu/m wide and 525 /spl mu/m deep) through silicon wafers and directly plating Ni-Fe onto the etched sidewalls. The Ni-Fe was plated over a range of thicknesses (3-53 /spl mu/m) in order to study the influence of eddy currents. The measured impedances in the range 10 kHz-40 MHz confirm the reduction of eddy current losses. This work demonstrates a simple fabrication method for achieving high-aspect-ratio, vertically laminated magnetic cores where the geometry of the structures can be easily tailored for various applications.

M. Allen | D. Arnold | F. Cros | I. Zana

[1] A. B. Frazier,et al. Metallic microstructures fabricated using photosensitive polyimide electroplating molds , 1993 .

[2] S. Sanders,et al. Microfabrication process for high-frequency power-conversion transformers , 1995, Proceedings of PESC '95 - Power Electronics Specialist Conference.

[3] C. Ahn,et al. A microfabricated transformer for high-frequency power and signal conversion , 1998 .

[4] M. Allen,et al. Batch-fabricated microinductors with electroplated magnetically anisotropic and laminated alloy cores , 1999 .

[5] M. Schmidt,et al. Characterization of a Time Multiplexed Inductively Coupled Plasma Etcher , 1999 .

[6] M. Allen,et al. Fabrication of high current and low profile micromachined inductor with laminated Ni/Fe core , 2002 .

[7] M. Allen,et al. Ultralow-profile micromachined power inductors with highly laminated Ni/Fe cores: application to low-megahertz DC-DC converters , 2003 .

[8] S. Oh,et al. High-Aspect-Ratio Copper Via Filling Used for Three-Dimensional Chip Stacking , 2003 .