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Electrochemical parameter prediction method and device, electronic equipment and readable storage medium

A prediction method and electrochemical technology are applied in the fields of electronic equipment and readable storage media, electrochemical parameter prediction methods and devices, and can solve the problems of low test accuracy, short test time, spectrum leakage, etc., and achieve millisecond-level response, The effect of shortening fitting time and predicting accurate results

Active Publication Date: 2022-06-24
JIHUA LAB
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, due to the limitation of the spectrum characteristics of the pulse disturbance current in the form of M sequence, the useful signal energy is not concentrated, the frequency spectrum components are not fixed, and the required excitation signal amplitude is large. Moreover, due to the use of Fourier transform for time domain- Frequency domain conversion is limited by the resolution of Fourier transform, the number of sampling points and the sampling rate of the system, and there is a problem of spectrum leakage, resulting in limited measurement accuracy, and the measured frequency range is limited, which can only be realized from 0.5Hz to 500Hz
[0005] Therefore, in the field of electrochemical parameter prediction, the test results of the traditional electrochemical impedance method are accurate but take a long time, while the fast electrochemical impedance method based on current pulse injection has a short test time but low test accuracy, which makes the electrochemical impedance method test. Impedance spectrum data cannot balance test accuracy and test efficiency at the same time, which leads to the problem that the accuracy and efficiency of prediction of electrochemical parameters of each circuit element of the component to be tested based on the impedance spectrum data cannot be balanced at the same time.

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  • Electrochemical parameter prediction method and device, electronic equipment and readable storage medium
  • Electrochemical parameter prediction method and device, electronic equipment and readable storage medium
  • Electrochemical parameter prediction method and device, electronic equipment and readable storage medium

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Embodiment 1

[0055] In the field of electrochemical parameter prediction, the test results of the traditional electrochemical impedance method are accurate but time-consuming, while the fast electrochemical impedance method based on current pulse injection has a short test time but low test accuracy, which makes the impedance spectrum of the electrochemical impedance method test. The data exists that the test accuracy and test efficiency cannot be taken into account at the same time, which leads to the problem that the accuracy and efficiency of the prediction of the electrochemical parameters of each circuit element of the part to be tested based on the impedance spectrum data cannot be taken into account at the same time.

[0056] Based on this, an embodiment of the present application provides a method for predicting electrochemical parameters. In the first embodiment of the method for predicting electrochemical parameters in the present application, please refer to figure 1 , the electr...

specific Embodiment

[0075] Divide the collected impedance spectrum data (100,000 groups) into two parts: 85,000 training sets and 15,000 validation sets, where the training set includes impedance spectrum data and electrochemical parameters associated with the impedance spectrum data, such as image 3 Shown is the impedance spectrum data in the training set, where the abscissa represents the real impedance, and the ordinate represents the imaginary impedance. like Figure 4 are the electrochemical parameters associated with the impedance spectrum data in the training set, where Rs is the solution resistance, Rct is the charge transfer resistance, Q is the constant phase angle element capacitance, n is the constant phase angle element coefficient, and σ is the Warburg coefficient . In addition, the impedance spectrum data in the validation set and its associated electrochemical parameters are similar to the performance content of the training set, and are not shown separately here. This embodime...

Embodiment 2

[0096] Further, based on the first embodiment of the present application, in another embodiment of the present application, for the same or similar content as the above-mentioned first embodiment, reference may be made to the above introduction, and details will not be described in the following. On this basis, in step S50, the first electrochemical parameter includes a plurality of characteristic parameters, and different characteristic parameters have different numerical magnitudes, and the first electrochemical parameter is input into the preset impedance data to generate Function, the step that output obtains the corresponding first impedance spectrum data of described first electrochemical parameter comprises:

[0097] Step C10, assigning a weight value to each of the characteristic parameters according to the numerical magnitude corresponding to the characteristic parameter, wherein the larger the numerical magnitude, the smaller the assigned weight value;

[0098] Step ...

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Abstract

The invention discloses an electrochemical parameter prediction method and device, electronic equipment and a readable storage medium, and the method comprises the steps: constructing an equivalent circuit of a to-be-detected component, and dividing the full-band impedance data of the to-be-detected component into low-band impedance data, middle-band impedance data and high-band impedance data; collecting medium-frequency-band impedance data and high-frequency-band impedance data of the component to be detected; determining a convergent machine learning model, inputting the medium-frequency-band impedance data and the high-frequency-band impedance data into the convergent machine learning model, and predicting to obtain initial electrochemical parameters; and determining target electrochemical parameters of each circuit element in the equivalent circuit according to the initial electrochemical parameters. According to the method, the prediction efficiency is improved while the prediction precision of the electrochemical parameters is improved.

Description

technical field [0001] The present application relates to the technical field of electrochemical parameter prediction, and in particular, to a method, device, electronic device, and readable storage medium for electrochemical parameter prediction. Background technique [0002] Electrochemical Impedance Spectroscopy (EIS) refers to applying an AC signal with different frequencies and small amplitudes to the electrochemical system, and measuring the ratio of AC signal voltage to current (this ratio is the impedance of the system) with the sine wave angle. The change of the frequency ω, or the change of the phase angle Φ of the impedance with ω, analyzes the reaction mechanism of the electrochemical system, and then calculates the relevant electrochemical parameters of the electrochemical system. Based on the electrochemical impedance method, it gradually becomes a battery and fuel cell. It is one of the most important measurement and analysis methods in the field of electroche...

Claims

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Application Information

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IPC IPC(8): G16C20/70G06F30/27G06N20/00
CPCG16C20/70G06F30/27G06N20/00Y02E60/50
Inventor 崔传禹徐龙赵聪聪杨浩冯上样卢祺郑念竹刘昊
Owner JIHUA LAB
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