Optimizing a buck voltage regulator and the number of decoupling capacitors for a PDN application

Moreno-Mojica, Aurea E.; Rayas-Sánchez, José E.; Leal-Romo, Felipe J.

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Date

2021-05

Author

Moreno-Mojica, Aurea E.

Rayas-Sánchez, José E.

Leal-Romo, Felipe J.

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URI

https://hdl.handle.net/20.500.12032/68425

Description

An optimization methodology to determine the best values of the compensation elements of a buck voltage regulator (VR) as well as the optimal number of decoupling capacitors in a power delivery network (PDN) application is proposed. A state average equivalent circuit model of the buck converter is employed. The proposed optimization methodology gradually finds the best compensation parameter values of a buck converter VR to meet some stability criteria in a PDN application. Additionally, the number of parallel decoupling capacitors in the PDN is minimized to simultaneously meet a frequency-domain impedance profile specification and a time-domain voltage droop requirement.
ITESO, A.C.

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