IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0565956
(2004-07-26)
|
등록번호 |
US-7557584
(2009-07-15)
|
우선권정보 |
JP-2003-282037(2003-07-29); JP-2004-202931(2004-07-09) |
국제출원번호 |
PCT/JP04/010983
(2004-07-26)
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§371/§102 date |
20060126
(20060126)
|
국제공개번호 |
WO05/010540
(2005-02-03)
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발명자
/ 주소 |
- Murakami, Yusai
- Yamabe, Norito
|
출원인 / 주소 |
- Panasonic EV Energy Co., Ltd.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
7 인용 특허 :
2 |
초록
▼
The present invention provides an apparatus that can estimate the charge/discharge electricity amount without being affected by current measurement error. If specific selection conditions are met, a no-load voltage calculation part (105) takes a plurality of pairs of data consisting of current data
The present invention provides an apparatus that can estimate the charge/discharge electricity amount without being affected by current measurement error. If specific selection conditions are met, a no-load voltage calculation part (105) takes a plurality of pairs of data consisting of current data I(n) and voltage data V(n) corresponding to the current data and calculates a no-load voltage Vsep as the voltage intercept at a current of zero in a straight-line approximation obtained by statistical processing such as regression analysis using a least squares method with respect to the plurality of pairs of data. In addition, if specific current conditions continue to be met for a certain amount of time, an open circuit voltage calculation part (106) calculates the terminal voltage of the secondary battery as the open circuit voltage Voc. An estimated charge/discharge electricity amount calculation part (114) uses a preset change-in-voltage adjustment constant ΔVbc/adjustment coefficient Kb, change-in-electromotive-force constant Keq and polarization voltage generation constant Kpol to calculate the estimated charge/discharge electricity amount ΔQe as a function of the change ΔVb in the no-load voltage or the open circuit voltage over a predetermined period of time.
대표청구항
▼
The invention claimed is: 1. A method for estimating a charge/discharge electricity amount of a secondary battery comprising: a step of measuring a pair of data consisting of a current flowing through the secondary battery and a terminal voltage of the secondary battery corresponding to the current
The invention claimed is: 1. A method for estimating a charge/discharge electricity amount of a secondary battery comprising: a step of measuring a pair of data consisting of a current flowing through the secondary battery and a terminal voltage of the secondary battery corresponding to the current, thus obtaining a plurality of pairs of data, a step of, when specific selection conditions are satisfied, the specific selection conditions including (i) the current in charging and discharging the secondary battery is within a first predetermined range, (ii) a number of the plurality of pairs of data is greater than or equal to a predetermined number, and (iii) a charge/discharge electricity amount during collection of the plurality of pairs of data is within a second predetermined range, calculating a no-load voltage as a voltage intercept at a current of zero in a straight-line approximation obtained by statistical processing with respect to the plurality of pairs of data, a step of, when the specific selection conditions are not satisfied and one of specific current conditions and voltage conditions continue to be met for a certain amount of time, calculating an open circuit voltage from the terminal voltage of the secondary battery, the component resistance of the secondary battery and an average current, a step of calculating a change (ΔVb) in the no-load voltage or the open circuit voltage over a predetermined period of time, and a step of calculating an estimated charge/discharge electricity amount (ΔQe) of the secondary battery based on the change in the no-load voltage or the open circuit voltage. 2. The method for estimating a charge/discharge electricity amount of a secondary battery according to claim 1, further comprising: a step of setting in advance an adjustment constant (ΔVbc) and adjustment coefficient (Kb), for the change in the no-load voltage or the open circuit voltage (ΔVb), that are determined depending on physical properties and a state of charging or discharging of the secondary battery, a step of setting in advance an electromotive force change constant (Keq), which is a change in an electromotive force with respect to a charge/discharge electricity amount in an usable domain, that is determined depending on the physical properties and the state of charging or discharging of the secondary battery, and a step of setting in advance a polarization voltage generation constant (Kpol), which is a change in a polarization voltage with respect to the charge/discharge electricity amount in the usable domain, that is determined depending on the physical properties and the state of charging or discharging of the secondary battery, wherein the estimated charge/discharge electricity amount ΔQe is calculated as a function of the change in the no-load voltage or the open circuit voltage ΔVb using an equation expressed as: ΔQe=Kb×(ΔV b+ΔVbc)/(Keq+K pol). 3. A method for estimating a polarization voltage of a secondary battery, comprising: a step of measuring a pair of data consisting of a current flowing through the secondary battery and a terminal voltage of the secondary battery corresponding to the current, thus obtaining a plurality of pairs of data, a step of, when specific selection conditions are satisfied, the specific selection conditions including (i) the current in charging and discharging the secondary battery is within a first predetermined range, (ii) a number of the plurality of pairs of data is greater than or equal to a predetermined number, and (iii) a charge/discharge electricity amount during collection of the plurality of pairs of data is within a second predetermined range, calculating a no-load voltage as a voltage intercept at a current of zero in a straight-line approximation obtained by statistical processing with respect to the plurality of pairs of data, a step of, when the specific selection conditions are not satisfied and one of specific current conditions and voltage conditions continue to be met for a certain amount of time, calculating an open circuit voltage from the terminal voltage of the secondary battery, the component resistance of the secondary battery and an average current, a step of calculating a change (ΔVb) in the no-load voltage or the open circuit voltage over a predetermined period of time, a step of calculating an estimated charge/discharge electricity amount (ΔQe) of the secondary battery based on the change in the no-load voltage or the open circuit voltage, and a step of recalculating a polarization voltage of the secondary battery based on the estimated charge/discharge electricity amount. 4. A method for estimating a state of charge of a secondary battery, comprising: a step of measuring a pair of data consisting of a current flowing through the secondary battery and a terminal voltage of the secondary battery corresponding to the current, thus obtaining a plurality of pairs of data, a step of, when specific selection conditions are satisfied, the specific selection conditions including (i) the current in charging and discharging the secondary battery is within a first predetermined range, (ii) a number of the plurality of pairs of data is greater than or equal to a predetermined number, and (iii) a charge/discharge electricity amount during collection of the plurality of pairs of data is within a second predetermined range, calculating a no-load voltage as a voltage intercept at a current of zero in a straight-line approximation obtained by statistical processing with respect to the plurality of pairs of data, a step of, when the specific selection conditions are not satisfied and one of specific current conditions and voltage conditions continue to be met for a certain amount of time, calculating an open circuit voltage from the terminal voltage of the secondary battery, the component resistance of the secondary battery and an average current, a step of calculating a change (ΔVb) in the no-load voltage or the open circuit voltage over a predetermined period of time, a step of calculating an estimated charge/discharge electricity amount (ΔQe) of the secondary battery based on the change in the no-load voltage or the open circuit voltage, and a step of calculating a state of charge of the secondary battery based on the estimated charge/discharge electricity amount. 5. An apparatus for estimating a charge/discharge electricity amount of a secondary battery, comprising: a current measurement part that measures current flowing through the secondary battery as current data, a voltage measurement part that measures a terminal voltage of the secondary battery as voltage data, a no-load voltage calculation part that obtains a plurality of pairs of data consisting of current data from the current measurement part and voltage data corresponding to this current data from the voltage measurement part, and that, when specific selection conditions are satisfied, the specific selection conditions including (i) the current in charging and discharging the secondary battery is within a first predetermined range, (ii) a number of the plurality of pairs of data is greater than or equal to a predetermined number, and (iii) a charge/discharge electricity amount during collection of the plurality of pairs of data is within a second predetermined range, calculates a no-load voltage as a voltage intercept at a current of zero in a straight-line approximation obtained by statistical processing with respect to the plurality of pairs of data, an open circuit voltage calculation part that, when the specific selection conditions are not satisfied and one of specific current conditions and voltage conditions continue to be met for a certain amount of time, calculates an open circuit voltage from the terminal voltage of the secondary battery, the component resistance of the secondary battery and an average current, a charge-in-measured-voltage calculation part that calculates a change (ΔVb) in the no-load voltage or the open circuit voltage over a predetermined period of time, and an estimated charge/discharge electricity amount calculation part that calculates an estimated charge/discharge electricity amount (ΔQe) of the secondary battery based on the change in the no-load voltage or the open circuit voltage. 6. The apparatus for estimating a charge/discharge electricity amount of a secondary battery according to claim 5, further comprising: a change-in-voltage adjustment constant/adjustment coefficient setting part that sets in advance a change-in-voltage adjustment constant (ΔVbc) and an adjustment coefficient (Kb) for the change in the no-load voltage or the open circuit voltage (ΔVb) that are determined depending on physical properties and a state of charging or discharging of the secondary battery, a change-in-electromotive-force constant setting part that sets in advance a change-in-electromotive-force constant (Keq), which is a change in an electromotive force with respect to a charge/discharge electricity amount in an usable domain, that is determined depending on the physical properties and the state of charging or discharging of the secondary battery, and a polarization voltage generation constant setting part that sets in advance a polarization voltage generation constant (Kpol), which is a change in a polarization voltage with respect to the charge/discharge electricity amount in the usable domain, that is determined depending on the physical properties and the state of charging or discharging of the secondary battery, wherein the estimated charge/discharge electricity amount calculation part calculates the estimated charge/discharge electricity amount ΔQe as a function of the change in the no-load voltage or the open circuit voltage ΔVb using an equation expressed as: ΔQe=Kb×(Vb +ΔVbc)/(Keq+Kpol ). 7. An apparatus for estimating a polarization voltage of a secondary battery, comprising: a current measurement part that measures current flowing through the secondary battery as current data, a voltage measurement part that measures a terminal voltage of the secondary battery as voltage data, a no-load voltage calculation part that obtains a plurality of pairs of data consisting of current data from the current measurement part and voltage data corresponding to this current data from the voltage measurement part, and that, when specific selection conditions are satisfied, the specific selection conditions including (i) the current in charging and discharging the secondary battery is within a first predetermined range, (ii) a number of the plurality of pairs of data is greater than or equal to a predetermined number, and (iii) a charge/discharge electricity amount during collection of the plurality of pairs of data is within a second predetermined range, calculates a no-load voltage as a voltage intercept at a current of zero in a straight-line approximation obtained by statistical processing with respect to the plurality of pairs of data, an open circuit voltage calculation part that, when the specific selection conditions are not satisfied and one of specific current conditions and voltage conditions continue to be met for a certain amount of time, calculates an open circuit voltage from the terminal voltage of the secondary battery, the component resistance of the secondary battery and an average current, a charge-in-measured-voltage calculation part that calculates a change (ΔVb) in the no-load voltage or the open circuit voltage over a predetermined period of time, and an estimated charge/discharge electricity amount calculation part that calculates an estimated charge/discharge electricity amount (ΔQe) of the secondary battery based on the change in the no-load voltage or the open circuit voltage, and a polarization voltage recalculation part that recalculates a polarization voltage of the secondary battery based on the estimated charge/discharge electricity amount. 8. An apparatus for estimating a state of charge of a secondary battery, comprising: a current measurement part that measures current flowing through the secondary battery as current data, a voltage measurement part that measures a terminal voltage of the secondary battery as voltage data, a no-load voltage calculation part that obtains a plurality of pairs of data consisting of current data from the current measurement part and voltage data corresponding to this current data from the voltage measurement part, and that, when specific selection conditions are satisfied, the specific selection conditions including (i) the current in charging and discharging the secondary battery is within a first predetermined range, (ii) a number of the plurality of pairs of data is greater than or equal to a predetermined number, and (iii) a charge/discharge electricity amount during collection of the plurality of pairs of data is within a second predetermined range, calculates a no-load voltage as a voltage intercept at a current of zero in a straight-line approximation obtained by statistical processing with respect to the plurality of pairs of data, an open circuit voltage calculation part that, when the specific selection conditions are not satisfied and one of specific current conditions and voltage conditions continue to be met for a certain amount of time, calculates an open circuit voltage from the terminal voltage of the secondary battery, the component resistance of the secondary battery and an average current, a charge-in-measured-voltage calculation part that calculates a change (ΔVb) in the no-load voltage or the open circuit voltage over a predetermined period of time, and an estimated charge/discharge electricity amount calculation part that calculates an estimated charge/discharge electricity amount (ΔQe) of the secondary battery based on the change in the no-load voltage or the open circuit voltage, and a state of charge calculation part that calculates a state of charge of a secondary battery based on the estimated charge/discharge electricity amount.
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