Method for determining the state of charge of storage batteries
First Claim
1. A method for determining the state of charge of a storage battery comprising:
- substantially simultaneously applying at least two methods having different steps to determine the state of charge of the battery, wherein at least one of the different methods uses integration of current flowing through the storage battery to determine changes in charge content of the storage battery, from which changes in the state of charge are determined, and wherein at least one other of the different methods uses a mathematical model that simulates behavior of the storage battery;
weighting individually obtained results of the different methods based on their respective reliability in the respective current or former operating situation of the storage battery; and
determining a weighted mean value of the individual methods thus obtained as a final variable.
1 Assignment
0 Petitions
Accused Products
Abstract
A method for determining the state of charge of a storage battery, wherein at least two methods of different approach for determining state of charge are simultaneously applied. The individually obtained results of the different methods are weighted in accordance with their respective reliability in the respective current or former operating situation of the storage battery, and the weighted mean value of the individual methods thus obtained is used as final output variable of the method and displayed. The voltage of the storage battery, the current flowing through it and its temperatures are measured, and the different methods use these input variables and variables derived from these input variables as final input variables. At least one of the different methods uses the integration of the current flowing through the storage battery to determine the changes in the charge content of the storage battery. At least one other of the different methods uses a mathematical model which is implemented on an electronic computer and simulates the behavior of the storage battery.
-
Citations
14 Claims
-
1. A method for determining the state of charge of a storage battery comprising:
-
substantially simultaneously applying at least two methods having different steps to determine the state of charge of the battery, wherein at least one of the different methods uses integration of current flowing through the storage battery to determine changes in charge content of the storage battery, from which changes in the state of charge are determined, and wherein at least one other of the different methods uses a mathematical model that simulates behavior of the storage battery;
weighting individually obtained results of the different methods based on their respective reliability in the respective current or former operating situation of the storage battery; and
determining a weighted mean value of the individual methods thus obtained as a final variable. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
-
-
5. The method as claimed in claim 1, wherein each method evaluates its own current reliability and determines a selected value for α
- (k) from a value range from 0 to 1, wherein the method normalizes the selected values such that their sum is 1, and wherein a change in the state of charge or a state of charge is calculated.
-
6. The method as claimed in claim 1, wherein the state of charge changes Δ
- SOCi(k) determined in a interval Ti using the methods are used to calculate state of charges SOCi(k) assigned to the methods, and a state of charge SOCi of the method is determined therefrom as a weighted mean;
- SOCi(k) determined in a interval Ti using the methods are used to calculate state of charges SOCi(k) assigned to the methods, and a state of charge SOCi of the method is determined therefrom as a weighted mean;
-
7. The method as claimed in claim 1, wherein weighting factors α
- (k) of the state of charge changes Δ
SOCi(k) determined using the methods are selected to be;a) large in time intervals Ti in which at any one time a small current was flowing, in methods based on mathematical models, and small in methods based on current integration, b) small in computing time intervals Ti in which a large current was flowing but a change in the state of charge is only slight, in methods based on mathematical models, and large in methods based on current integration, c) of the same order of magnitude in computing time intervals Ti in which a substantial state of charge change occurred, in methods based on mathematical models and in methods based on current integration, and d) determined in computing time intervals Ti in which none of the preconditions a), b) or c) obtained by interpolation between these cases.
- (k) of the state of charge changes Δ
-
8. The method as claimed in claim 1, wherein the determined state of charge value or another function of the state of charge values obtained or their absolute values, relative magnitude, their change or rate of change is displayed, and used to control a function in the system connected to the storage battery.
-
9. The method as claimed in claim 1, further comprising displaying the final output variable.
-
10. A method for determining the state of charge of a storage battery comprising:
-
substantially simultaneously applying at least two methods having different steps to determine the state of charge of the battery, wherein at least one of the methods used is employed to determine at least one of
1)service age of the storage battery or a need to replace it,
2) current or future efficiency or
3) current or future availability of the storage battery;
weighting individually obtained results of the different methods based on their respective reliability in the respective current or former operating situation of the storage battery; and
determining a weighted mean value of the individual methods thus obtained as a final output variable. - View Dependent Claims (11, 12, 13, 14)
-
-
12. The method as claimed in claim 11, wherein the state of charge changes Δ
- SOCi(k) determined in a interval Ti using the methods are used to calculate state of charges SOCi(k) assigned to the methods, and a state of charge SOCi of the method is determined therefrom as a weighted mean;
- SOCi(k) determined in a interval Ti using the methods are used to calculate state of charges SOCi(k) assigned to the methods, and a state of charge SOCi of the method is determined therefrom as a weighted mean;
-
13. The new method as claimed in claim 10, wherein weighting factors α
- (k) of the state of charge changes Δ
SOCi(k) determined using the methods are selected to be;a) large in time intervals Ti in which at any one time a small current was flowing, in methods based on mathematical models, and small in methods based on current integration, b) small in computing time intervals Ti in which a large current was flowing but a change in the state of charge is only slight, in methods based on mathematical models, and large in methods based on current integration, c) of the same order of magnitude in computing time intervals Ti in which a substantial state of charge change occurred, in methods based on mathematical models and in methods based on current integration, and d) determined in computing time intervals Ti in which none of the preconditions a), b) or c) obtained by interpolation between these cases.
- (k) of the state of charge changes Δ
-
14. The method as claimed in claim 11, wherein each method evaluates its own current reliability and determines a selected value for α
- (k) from a value range from 0 to 1, wherein the method normalizes the selected values such that their sum is 1, and wherein a change in the state of charge or a state of charge is calculated.
Specification