Achieving Reliable and Repeatable Electrochemical Impedance Spectroscopy of Rechargeable Batteries at Extra-Low Frequencies

TL;DR

This paper presents a novel method for accurate, reliable, and efficient electrochemical impedance spectroscopy of rechargeable batteries at extra-low frequencies, addressing measurement time and drift issues.

Contribution

It introduces a technique using programmable power supplies and multiple measurement tones to improve impedance measurement at very low frequencies.

Findings

Achieved precise impedance measurements at microhertz frequencies.

Reduced measurement time significantly compared to traditional methods.

Mitigated drift issues in impedance values over time.

Abstract

There is a need for techniques for efficient and accurate measurement of the impedance of rechargeable batteries at extra-low frequencies (ELFs, typically below 10uHz), as these reflect real usage and cycling patterns, and their importance in fractional battery circuit modeling is becoming increasingly apparent. Major impediments include the time required to perform such measurements, and `drift' in impedance values when measurements are taken from the same battery at different times. Moreover, commercial impedance analyzers are generally unable to measure at frequencies of the order of microhertz. We describe here our use of programmable two-quadrant power supplies to deliver multiple small signal measurement tones in the presence of large signal `working' currents, and our use of these data to generate impedance measurements with good precision and in reasonable time.