Litcius/Paper detail

A Comprehensive Analysis for High-Power Density, High-Efficiency 60 kW Interleaved Boost Converter Design for Electrified Powertrains

Jing Guo, Romina Rodriguez, Jacob Gareau, Dave Schumacher, Maryam Alizadeh, Peter Azer, Jennifer Bauman, Berker Bilgin, Ali Emadi

2020IEEE Transactions on Vehicular Technology72 citationsDOI

Abstract

High-power boost converters offer significant benefits to hybrid and electric vehicles, because higher-voltage propulsion power equates to lower motor losses. However, the converters themselves must have high efficiency and high power density in order to make the system-level trade-off beneficial. Thus, this paper presents an optimized design process of high power multi-phase interleaved bidirectional boost converters. In order to achieve a fast and accurate analysis and design, a generalized method is developed for the calculations of required phase inductance and output capacitance. In addition, a genetic algorithm (GA) optimization method is implemented for the inductor design. Using the proposed design process, a 3-phase 60 kW interleaved converter is designed and tested using paralleled SiC MOSFETS. The converter achieves peak efficiency of 99.2% at 10 kW and is >98% efficiency from 5% to 100% load. The resulting power density is 9.4 kW/L, which can be further improved to 12.2 kW/L with alternate terminal connectors.

Topics & Concepts

ConvertersPower densityInductorPowertrainSnubberInductanceBoost converterElectronic engineeringPower (physics)EngineeringCapacitanceElectrical engineeringVoltageCapacitorAutomotive engineeringTorquePhysicsElectrodeThermodynamicsQuantum mechanicsAdvanced Battery Technologies ResearchAdvanced DC-DC ConvertersMultilevel Inverters and Converters
A Comprehensive Analysis for High-Power Density, High-Efficiency 60 kW Interleaved Boost Converter Design for Electrified Powertrains | Litcius