A Light-Load Efficient Fully Integrated Voltage Regulator in 14-nm CMOS With 2.5-nH Package-Embedded Air-Core Inductors

A Light-Load Efficient Fully Integrated Voltage Regulator in 14-nm CMOS With 2.5-nH Package-Embedded Air-Core Inductors

Fully integrated voltage regulators (FIVRs) offer many advantages, such as fine-grained power management, fast transient response, and reduced form factor. This article addresses light-load efficiency in FIVRs with nH-scale air-core inductors. The challenges of implementing efficient discontinuous c...

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Veröffentlicht in:IEEE journal of solid-state circuits 2019-12, Vol.54 (12), p.3316-3325
Hauptverfasser: Schaef, Christopher, Radhakrishnan, Kaladhar, Ravichandran, Krishnan, Tschanz, James W., De, Vivek, Desai, Nachiket, Krishnamurthy, Harish K., Liu, Xiaosen, Ahmed, Khondker Zakir, Kim, Suhwan, Weng, Sheldon, Do, Huong, Lambert, William J.
Format: Artikel
Sprache:eng
Schlagworte:
Air-core inductors
buck converters
CMOS
Delays
discontinuous conduction mode (DCM)
Form factors
fully integrated voltage regulator (FIVR)
Inductance
Inductors
light-load efficiency
Power management
Regulators
Switches
Switching loss
Voltage control
Voltage regulators
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Zusammenfassung:Fully integrated voltage regulators (FIVRs) offer many advantages, such as fine-grained power management, fast transient response, and reduced form factor. This article addresses light-load efficiency in FIVRs with nH-scale air-core inductors. The challenges of implementing efficient discontinuous conduction mode (DCM) operation at high switching frequencies are discussed, which include zero current detection, inductor ac-loss effects, and power delivery network (PDN) resonances. A prototype in 14-nm CMOS is presented, which shows the DCM operation at up to 70 MHz with a peak efficiency of 88% for 1.6-1.2-V conversion.
ISSN:0018-9200
1558-173X
DOI:10.1109/JSSC.2019.2946218