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In-Situ EV Battery Electrochemical Impedance Spectroscopy with Pack-Level Current Perturbation from a 400V-to-12V Triple-Active-Bridge

Seyed Amir Assadi, Zhe Gong, Cheng Feng Wang, Joshua Piruzza, James Y. Xu, Diana Jokic, Seif Sarofim, Olivier Trescases

20222022 IEEE Applied Power Electronics Conference and Exposition (APEC)13 citationsDOI

Abstract

A GaN-based, 4-kW, 400V-to-12V triple-active-bridge dc-dc converter is proposed to impose a variable-frequency sinusoidal perturbation between two EV battery half-packs for Electrochemical Impedance Spectroscopy (EIS). The proposed architecture performs EIS on the high-voltage battery at arbitrarily low test frequencies, requiring only a few cycles of operation and no additional means of energy-storage. This allows for fast, opportunistic, in-situ EIS measurements during EV operation. In-situ impedance measurements can help maximize the EV battery performance with respect to its local environment. Full integration into the existing high-voltage to low-voltage dc-dc EV converter results in a compact and low-cost system. A cell-level voltage-response sensor with automatic dc-offset calibration is implemented with integrated signal processing to measure cell-level voltage responses, thereby accurately capturing cell-to-cell impedance variations in the EV battery. Impedance measurements from a fully custom liquid-cooled 350-V lithium-ion EV battery pack are collected between 0.1 Hz and 200 Hz, from 15° C to 25° C, demonstrating simultaneous in-situ pack-level EIS perturbation and cell-level response measurement.

Topics & Concepts

Electrical engineeringVoltageDielectric spectroscopyElectrical impedanceBattery (electricity)Materials scienceOutput impedanceBattery packElectronic engineeringEngineeringOptoelectronicsPhysicsElectrodeElectrochemistryPower (physics)Quantum mechanicsAdvanced Battery Technologies ResearchAdvancements in Battery MaterialsAdvanced battery technologies research