A 2.5D Integrated Voltage Regulator Using Coupled-Magnetic-Core Inductors on Silicon Interposer

A 2.5D Integrated Voltage Regulator Using Coupled-Magnetic-Core Inductors on Silicon Interposer

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 a...

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Veröffentlicht in:IEEE journal of solid-state circuits 2013-01, Vol.48 (1), p.244-254
Hauptverfasser: Sturcken, N., O'Sullivan, E. J., Wang, N., Herget, P., Webb, B. C., Romankiw, L. T., Petracca, M., Davies, R., Fontana, R. E., Decad, G. M., Kymissis, I., Peterchev, A. V., Carloni, L. P., Gallagher, W. J., Shepard, K. L.
Format: Artikel
Sprache:eng
Schlagworte:
2.5D integration
Applied sciences
Aquaculture
Buck converter
Buck converters
Circuit properties
Conversion
Conversion ratio
Current density
DC-DC power conversion
Density
Electric, optical and optoelectronic circuits
Electrical engineering. Electrical power engineering
Electronic circuits
Electronic equipment and fabrication. Passive components, printed wiring boards, connectics
Electronics
Exact sciences and technology
Inductors
Integrated circuits
Integrated Voltage Regulator (IVR)
Magnetic devices
Magnetic separation
Perpendicular magnetic anisotropy
Power electronics, power supplies
Saturation magnetization
Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices
Signal convertors
Silicon
switched inductor
Voltage control
Voltage regulators
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Beschreibung
Zusammenfassung: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 mm 2 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/mm 2 and inductor current density of 1.53 A/mm 2 . At maximum load current, 69% conversion efficiency and 1.8 V:1.2 V conversion ratio the FEOL current density reaches 22.6 A/mm 2 and inductor current density reaches 3.21 A/mm 2 .
ISSN:0018-9200
1558-173X
DOI:10.1109/JSSC.2012.2221237