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A Novel Decentralized PWM Interleaving Technique for Ripple Minimization in Series-stacked DC-DC Converters

Soham Dutta, Branko Majmunović, Satyaki Mukherjee, Rahul Mallik, Gab‐Su Seo, Dragan Maksimović, Brian Johnson

202112 citationsDOI

Abstract

Cascaded dc-dc converters are commonly used in applications where distributed energy sources or loads are connected to elevated voltage levels for power transfer. In such systems, it is advantageous to minimize the ripple on the bus current and voltage by proper phase shifting of the pulse-width modulation (PWM) pulses among the converters via a method known as interleaving. Existing approaches use either a centralized controller or separate communication lines among the stacked converters to control their relative PWM switch transitions. The key drawbacks are that these methods entail significant wiring, the central controller acts as a single point of failure, and implementation on very large numbers of units is impractical. In this paper, we introduce a decentralized interleaving control (DIC) strategy that acts on local current measurements at every converter and achieves communication-free PWM interleaving among the series-stacked converters. The proposed controller is simple in structure and is shown to converge asymptotically to the interleaved state irrespective of clock drifts among the digital signal processors. Experimental results are provided for a system of five series-connected converters showing a 10× reduction in the current ripple compared to normal operation.

Topics & Concepts

InterleavingConvertersRipplePulse-width modulationComputer scienceElectronic engineeringController (irrigation)Control theory (sociology)VoltageEngineeringElectrical engineeringControl (management)Artificial intelligenceAgronomyBiologyAdvanced DC-DC ConvertersMicrogrid Control and OptimizationMultilevel Inverters and Converters