S. Musunuri scite author profile

This paper presents various ideas for integrating different components of dc-dc converter on to a silicon chip. These converters are intended to process power levels up to 0.5 W. Techniques for integrating capacitors and design issues for MOS transistors are discussed. The most complicated design issue involves inductors. Expressions for trace resistance and inductance estimation of on-chip planar spiral inductor on top metal layer of CMOS process are compared. These inductors have high series resistance due to low metal trace thickness, capacitive coupling with substrate and other metal traces, and eddy current loss. As an alternative, a CMOS compatible threedimensional (3-D) surface micromachining technology known as plastic deformation magnetic assembly (PDMA) is used to fabricate high quality inductors with small footprints. Experimental results from a monolithic buck converter using this PDMA inductor are presented. A major conclusion of this work is that the 3-D "post-process" technology is more viable than traditional integrated circuit assembly methods for realizing of micro-power converters.Index Terms-DC-DC converters, integrated power circuits and spiral inductor design.

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Fabrication and characterization of PDMA inductors

Musunuri

Chapman

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S. Musunuri

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Design Issues for Monolithic DC–DC Converters

Design of Low Power Monolithic DC-DC Buck Converter with Integrated Inductor

Optimization of CMOS Transistors for Low Power DC-DC Converters

Multi-layer spiral inductor design for monolithic DC-DC converters

Optimization issues for fully-integrated CMOS DC-DC converters

Inductor design for monolithic DC-DC converters

Fabrication and characterization of PDMA inductors

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