A Novel On-Board Electrochemical Impedance Spectroscopy System for Real-Time Battery Impedance Estimation

This article proposes a real-time electrochemical impedance spectroscopy (EIS) technique that can provide high accurate estimation of the impedance of each lithium-ion (Li-ion) cell of a battery (BT) stack, even for less than m omega. Thus, the suggested EIS technique can be used in high demanding applications, such as nearly zero-energy buildings, microgrids, and electric vehicles. This is attained because a smooth cell excitation current is utilized that is provided by the proper control of the gate-source of each cell's parallel-connected MOSFET and thus, effective harmonic analysis can be accomplished. Since the circuit topology of the EIS is implemented without requiring expensive electronic equipment, it is affordable to be applied in the BT system of any application. The proposed EIS system can cooperate with a BT cell equalization (BCE) system that utilizes the same MOSFET control scheme to provide the excitation current. Thus, a combined EIS-BCE system is developed that can be used to improve the performance of a Li-ion BT management system. The accuracy of the EIS technique and its high performance by operating within a combined EIS-BCE system are experimentally validated.

Automated summary

This study proposes a real-time electrochemical impedance spectroscopy (EIS) technique that can accurately estimate the impedance of each lithium-ion cell in a battery stack, even for less than m ohms. The technique employs a smooth cell excitation current and effective harmonic analysis, making it suitable for high demanding applications without requiring expensive equipment. The EIS system can collaborate with a battery cell equalization (BCE) system to enhance the performance of a Li-ion battery management system.