Method for characterizing an electric battery

US 9,255,974 B2
Filed: 07/26/2010
Issued: 02/09/2016
Est. Priority Date: 07/28/2009
Status: Expired due to Fees

First Claim

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1. A method for characterizing a battery including electrodes, which include an anode and a cathode, at its terminals, comprising:

acquiring a model of the battery which includes, in series, at least (i) an inductance L of the electrical connections at the terminals of the battery, (ii) a resistance R which is the sum of the internal resistance of accumulating parts and the resistance of the electrical connections at the terminals of the battery, (iii) a resistive element R_fin parallel with constant phase element CPE_fwhich represent a behavior of a passive layer on a surface of an anode of the battery, (iv) a charge transfer resistance R_tcin parallel with a double layer behavior CPE_dlon the surface of the electrodes of the battery; and

determination of the charge transfer resistance R_tcbelonging to the model for a specified mode and a specified state of the battery, the specified mode corresponding to a specified charge or discharge current of the battery and the specified state to a specified charge or discharge state of the battery for the specified mode,the determination comprising;

performing impedance spectography on the battery and obtaining the inductance L, the resistance R, the resistive element R_fand the constant phase element CPE_f;

either bringing the battery to a charge state using the specified charge current and measuring the voltage at the terminals of the battery to obtain a charge state voltage curve, or bringing the battery to a discharge state using the specified discharge current and measuring the voltage at the terminals of the battery to obtain a discharge state voltage curve; and

based on the results of the spectography and the obtained voltage curves,obtaining a charge transfer resistance at an essentially stationary mode of the battery and a reference state corresponding to the specified state;

measuring a total potential difference at the terminals of the battery at the specified mode and at an intermediate state between a complete charge and a complete discharge of the battery;

obtaining a charge transfer resistance at the essentially stationary mode and the intermediate state;

obtaining a residual potential difference corresponding to the charge transfer resistance in the specified mode and in the intermediate state, subtracting from the total potential difference, potential differences created by other resistances of the model and the specified charge or discharge current, in the specified mode and the intermediate state, as well as a potential difference measured at the terminals of the battery and in the absence of charge or discharge current; and

calculating the charge transfer resistance R_tcbelonging to the model by multiplying the residual potential difference by a ratio between the charge transfer resistance in the corresponding state and the charge transfer resistance in the intermediate state, and dividing it by the current.

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Abstract

A determination of particular parameters for modeling a battery such as a lithium-ion battery, for example the charge transfer resistance and the double layer behavior at the surface of electrical connections, by extrapolating results obtained in a stationary mode, for example without charge or discharge current, to quick charge or discharge modes, where traditional measurements are too slow, since the parameters vary as a function of the charge or discharge state.

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12 Claims

1. A method for characterizing a battery including electrodes, which include an anode and a cathode, at its terminals, comprising:
- acquiring a model of the battery which includes, in series, at least (i) an inductance L of the electrical connections at the terminals of the battery, (ii) a resistance R which is the sum of the internal resistance of accumulating parts and the resistance of the electrical connections at the terminals of the battery, (iii) a resistive element R_fin parallel with constant phase element CPE_fwhich represent a behavior of a passive layer on a surface of an anode of the battery, (iv) a charge transfer resistance R_tcin parallel with a double layer behavior CPE_dlon the surface of the electrodes of the battery; and
  
  determination of the charge transfer resistance R_tcbelonging to the model for a specified mode and a specified state of the battery, the specified mode corresponding to a specified charge or discharge current of the battery and the specified state to a specified charge or discharge state of the battery for the specified mode,the determination comprising;
  
  performing impedance spectography on the battery and obtaining the inductance L, the resistance R, the resistive element R_fand the constant phase element CPE_f;
  
  either bringing the battery to a charge state using the specified charge current and measuring the voltage at the terminals of the battery to obtain a charge state voltage curve, or bringing the battery to a discharge state using the specified discharge current and measuring the voltage at the terminals of the battery to obtain a discharge state voltage curve; and
  
  based on the results of the spectography and the obtained voltage curves,obtaining a charge transfer resistance at an essentially stationary mode of the battery and a reference state corresponding to the specified state;
  
  measuring a total potential difference at the terminals of the battery at the specified mode and at an intermediate state between a complete charge and a complete discharge of the battery;
  
  obtaining a charge transfer resistance at the essentially stationary mode and the intermediate state;
  
  obtaining a residual potential difference corresponding to the charge transfer resistance in the specified mode and in the intermediate state, subtracting from the total potential difference, potential differences created by other resistances of the model and the specified charge or discharge current, in the specified mode and the intermediate state, as well as a potential difference measured at the terminals of the battery and in the absence of charge or discharge current; and
  
  calculating the charge transfer resistance R_tcbelonging to the model by multiplying the residual potential difference by a ratio between the charge transfer resistance in the corresponding state and the charge transfer resistance in the intermediate state, and dividing it by the current.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The method for characterizing a battery according to claim 1, wherein the intermediate state is at 50% of the complete charge or complete discharge of the battery.
  - 3. The method for characterizing a battery according to claim 1, wherein the reference state and the specified state are in a charge ratio of the battery equal to a ratio between a maximum charge of the battery obtained in the essentially stationary mode and a maximum charge obtained in the specified mode, from complete discharge states.
  - 4. The method for characterizing a battery according to claim 1, wherein the reference state and the specified state are in a charge ratio of the battery equal to a ratio between a maximum charge of the battery obtained in the essentially stationary mode and a maximum discharge obtained in the specified mode, from a complete charge state.
  - 5. The method for characterizing a battery according to claim 1, further comprising an evaluation of an element of a constant phase model corresponding to a perfect or imperfect capacity on the surface of the electrodes in the specified state, owing to a measurement done in the essentially stationary mode and in the corresponding state, the element being assumed to be constant irrespective of the specified current.
  - 6. The method for characterizing a battery according to claim 1, wherein the battery is a lithium-ion battery, and further comprising an incorporation into the model of a variable resistance as a function of the specified mode and the specified state, and non-zero only at beginning-of-charge and end-of-discharge states, close to a complete discharge state, the resistance then having a value equal to a difference between a double layer voltage obtained by calculation and a voltage obtained with a model of the battery provided without the resistance, divided by a current of the specified mode.

7. A method for characterizing a battery including electrodes, which include an anode and a cathode, at its terminals, comprising:
- acquiring a model of the battery; and
  
  determination of a charge transfer resistance R_tcbelonging to the model for a specified mode and a specified state of the battery, the specified mode corresponding to a specified charge or discharge current of the battery and the specified state to a specified charge or discharge state of the battery for the specified mode,the determination comprising;
  
  performing impedance spectography on the battery;
  
  either bringing the battery to a charge state using the specified charge current and measuring the voltage at the terminals of the battery to obtain a charge state voltage curve, or bringing the battery to a discharge state using the specified discharge current and measuring the voltage at the terminals of the battery to obtain a discharge state voltage curve; and
  
  based on the results of the spectography and the obtained voltage curves,obtaining a charge transfer resistance at an essentially stationary mode of the battery and a reference state corresponding to the specified state;
  
  measuring a total potential difference at the terminals of the battery at the specified mode and at an intermediate state between a complete charge and a complete discharge of the battery;
  
  obtaining a charge transfer resistance at the essentially stationary mode and the intermediate state;
  
  obtaining a residual potential difference corresponding to the charge transfer resistance in the specified mode and in the intermediate state, subtracting from the total potential difference potential differences created by other resistances of the model and the specified charge or discharge current, in the specified mode and the intermediate state, as well as a potential difference measured at the terminals of the battery and in the absence of charge or discharge current; and
  
  calculating the charge transfer resistance R_tcbelonging to the model by multiplying the residual potential difference by a ratio between the charge transfer resistance in the corresponding state and the charge transfer resistance in the intermediate state, and dividing it by the current.
- View Dependent Claims (8, 9, 10, 11, 12)
- - 8. The method for characterizing a battery according to claim 7, wherein the intermediate state is at 50% of the complete charge or complete discharge of the battery.
  - 9. The method for characterizing a battery according to claim 7, wherein the reference state and the specified state are in a charge ratio of the battery equal to a ratio between a maximum charge of the battery obtained in the essentially stationary mode and a maximum charge obtained in the specified mode, from complete discharge states.
  - 10. The method for characterizing a battery according to claim 7, wherein the reference state and the specified state are in a charge ratio of the battery equal to a ratio between a maximum charge of the battery obtained in the essentially stationary mode and a maximum discharge obtained in the specified mode, from a complete charge state.
  - 11. The method for characterizing a battery according to claim 7, further comprising an evaluation of an element of a constant phase model corresponding to a perfect or imperfect capacity on the surface of the electrodes in the specified state, owing to a measurement done in the essentially stationary mode and in the corresponding state, the element being assumed to be constant irrespective of the specified current.
  - 12. The method for characterizing a battery according to claim 7, wherein the battery is a lithium-ion battery, and further comprising an incorporation into the model of a variable resistance as a function of the specified mode and the specified state, and non-zero only at beginning-of-charge and end-of-discharge states, close to a complete discharge state, the resistance then having a value equal to a difference between a double layer voltage obtained by calculation and a voltage obtained with a model of the battery provided without the resistance, divided by a current of the specified mode.

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Current Assignee
Commissariat a L'Energie Atomique (AES Corporation)
Original Assignee
Commissariat a L'Energie Atomique (AES Corporation)
Inventors
Dong, Trung-Kien, Kirchev, Angel Zhivkov, Mattera, Florence
Primary Examiner(s)
BETSCH, REGIS J

Application Number

US13/387,022
Publication Number

US 20120130662A1
Time in Patent Office

2,024 Days
Field of Search

702/63
US Class Current

1/1
CPC Class Codes

G01R 31/367   Software therefor, e.g. for...

G01R 31/3835   involving only voltage meas...

G16Z 99/00   Subject matter not provided...

Method for characterizing an electric battery

First Claim

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Abstract

12 Citations

12 Claims

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Method for characterizing an electric battery

First Claim

1 Assignment

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Abstract

12 Citations

12 Claims

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