Title :
Using a Debye polarization cell to predict double-layer capacitor performance
Author :
Nelms, R.M. ; Cahela, D.R. ; Tatarchuk, Bruce J.
Author_Institution :
Dept. of Electr. & Comput. Eng., Auburn Univ., AL, USA
Abstract :
Many different circuit models have been proposed for double-layer capacitors (DLCs). Presented in this paper is an evaluation of the Debye polarization cell as a model for a double-layer capacitor (DLC). In comparison to other circuit models, the primary advantage of this model is that the circuit elements can be related to chemical reactions which occur inside the DLC. The circuit element values are found from AC impedance measurements for a DLC and a computer program which utilizes a nonlinear least-squares fitting technique. Variations in circuit element values with DC bias level and manufacturing have been investigated. The performance of the Debye polarization cell in slow discharge and pulse load applications has been compared to actual circuit measurements and to simulated results using a classical equivalent circuit
Keywords :
capacitors; chemical reactions; electric impedance measurement; equivalent circuits; least squares approximations; polarisation; AC impedance measurements; DC bias level; Debye polarization cell; chemical reactions; circuit model; classical equivalent circuit; computer program; double-layer capacitor performance prediction; nonlinear least-squares fitting; pulse load; slow discharge; Application software; Capacitors; Chemical elements; Computational modeling; Fitting; Impedance measurement; Manufacturing; Polarization; Pulse circuits; Pulse measurements;
Journal_Title :
Industry Applications, IEEE Transactions on
