Title :
A 2.5D Integrated Voltage Regulator Using Coupled-Magnetic-Core Inductors on Silicon Interposer
Author :
Sturcken, Noah ; O´Sullivan, E.J. ; Wang, Nan ; Herget, Philipp ; Webb, Bucknell C. ; Romankiw, Lubomyr T. ; Petracca, M. ; Davies, R. ; Fontana, Robert E. ; Decad, Gary M. ; Kymissis, Ioannis ; Peterchev, Angel V. ; Carloni, Luca P. ; Gallagher, W.J. ; S
Author_Institution :
Columbia Univ., New York, NY, USA
Abstract :
An integrated voltage regulator (IVR) is presented that uses custom fabricated thin-film magnetic power inductors. The inductors are fabricated on a silicon interposer and integrated with a multi-phase buck converter IC by 2.5D chip stacking. Several inductor design variations have been fabricated and tested. The best performance has been achieved with a set of eight coupled inductors that each occupies 0.245 mm2 and provides 12.5 nH with 270 mΩ DC. With early inductor prototypes, the IVR efficiency for a 1.8 V:1.0 V conversion ratio peaks at 71% with FEOL current density of 10.8 A/mm2 and inductor current density of 1.53 A/mm2. At maximum load current, 69% conversion efficiency and 1.8 V:1.2 V conversion ratio the FEOL current density reaches 22.6 A/mm2 and inductor current density reaches 3.21 A/mm2.
Keywords :
elemental semiconductors; magnetic cores; power convertors; power inductors; silicon; voltage regulators; IVR; Si; chip stacking; coupled-magnetic-core inductors; integrated voltage regulator; multi-phase buck converter IC; silicon interposer; thin-film magnetic power inductors; Inductors; Integrated circuits; Magnetic separation; Perpendicular magnetic anisotropy; Saturation magnetization; Voltage control; 2.5D integration; Buck converter; DC-DC power conversion; Integrated Voltage Regulator (IVR); switched inductor;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2012.2221237
