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Small-Signal Modeling and Loop Analysis of Ultrafast Series Capacitor Trans-Inductor Voltage Regulator With Constant On-Time Control

Chenxi Li, Liang Wang, Guangce Zheng, Minfan Fu, Haoyu Wang

2024IEEE Transactions on Power Electronics11 citationsDOI

Abstract

In this article, a comprehensive small-signal model is developed for multiphase series capacitor trans-inductor voltage regulator (SCTLVR) with current mode constant-on time (CMCOT) control. The transfer function of the power stage is thoroughly derived by decoupling the SC structure and the trans-inductor. The modeling of the CMCOT modulator is conducted using the describing function (DF) method, known for its high accuracy, particularly in the high-frequency domain. This method ensures precise prediction and analysis of the dynamic response. To address the demands of ultra-high current applications, the model is extended to accommodate multiple modules, allowing for a detailed closed-loop analysis. Validation through SIMPLIS simulations and experimental results demonstrates the model's accuracy and reliability. The established model provides qualitative guidance on optimally designing the SCTLVR controller under various operating conditions.

Topics & Concepts

CapacitorInductorRegulatorVoltage regulatorConstant (computer programming)Control theory (sociology)Loop (graph theory)Series (stratigraphy)SIGNAL (programming language)VoltageUltrashort pulseSmall-signal modelTime constantConstant voltagePhysicsElectronic engineeringEngineeringComputer scienceControl (management)MathematicsElectrical engineeringOpticsChemistryGeneBiochemistryCombinatoricsBiologyLaserPaleontologyProgramming languageArtificial intelligencePower Systems and Renewable EnergyAdvanced DC-DC ConvertersSensorless Control of Electric Motors
Small-Signal Modeling and Loop Analysis of Ultrafast Series Capacitor Trans-Inductor Voltage Regulator With Constant On-Time Control | Litcius