Method for determining the actual amount of energy available in an energy storage module
First Claim
1. A method for determining an amount of energy actually available in an energy storage module having a plurality of individual storage cells connected in series, the method comprising the acts of:
- determining dynamically, by a control unit operatively coupled with the energy storage module, an upper and a lower limit voltage for the energy storage module, wherein the following acts occur;
(a) during a charging operation of the energy storage module, upon reaching a maximally permissible upper cell voltage on at least one storage cell, the upper limit voltage of the energy storage module is determined by summing all cell voltages existing at that point-in-time for all of the plurality of individual storage cells; and
(b) during a discharging operation of the energy storage module, upon reaching a minimally permissible lower cell voltage on at least one storage cell, the lower limit voltage of the energy module is determined by summing all cell voltages existing at that point-in-time for all of the plurality of individual storage cells;
determining, by the control unit, the amount of energy actually available in the energy storage module as a function of a determined actual storage capacity and the upper limit voltage and the lower limit voltage of the energy storage module.
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Abstract
The amount of energy actually available in an energy storage module having a plurality of individual storage elements connected in series is determined. An upper and/or a lower limit voltage for the energy storage module is determined dynamically. During a charging operation of the energy storage module, in the event that a maximally permissible upper cell voltage is reached on at least one storage cell, the upper limit voltage of the energy storage module is determined by summing all cell voltages of all storage elements existing at that point-in-time. During a discharging operation, if a minimally permissible lower cell voltage is reached on at least one storage element, the lower limit voltage is determined by summing all cell voltages existing at that point-in-time. The actually available amount of energy is computed as a function of the determined limit voltage or voltages and of the determined actual storage capacity.
13 Citations
14 Claims
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1. A method for determining an amount of energy actually available in an energy storage module having a plurality of individual storage cells connected in series, the method comprising the acts of:
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determining dynamically, by a control unit operatively coupled with the energy storage module, an upper and a lower limit voltage for the energy storage module, wherein the following acts occur; (a) during a charging operation of the energy storage module, upon reaching a maximally permissible upper cell voltage on at least one storage cell, the upper limit voltage of the energy storage module is determined by summing all cell voltages existing at that point-in-time for all of the plurality of individual storage cells; and (b) during a discharging operation of the energy storage module, upon reaching a minimally permissible lower cell voltage on at least one storage cell, the lower limit voltage of the energy module is determined by summing all cell voltages existing at that point-in-time for all of the plurality of individual storage cells; determining, by the control unit, the amount of energy actually available in the energy storage module as a function of a determined actual storage capacity and the upper limit voltage and the lower limit voltage of the energy storage module. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. An electric system, comprising:
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an energy storage module having a plurality of individual storage cells connected in series, the energy storage module being operatively configurable for supplying an electric machine of a hybrid vehicle; a control unit operatively coupled with the energy storage module, the control unit including a non-transitory computer readable medium containing program code segments that determines dynamically, during a discharging operation of the energy storage module, upon reaching a minimally permissible lower cell voltage on at least one storage cell, a lower limit voltage of the energy storage module by summing all cell voltages existing at that point-in-time for all of the plurality of individual storage cells; and determines the amount of energy actually available in the energy storage module as a function of a determined actual storage capacity and the lower limit voltage of the energy storage module. - View Dependent Claims (11)
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12. A method for determining an amount of energy actually available in an energy storage module having a plurality of individual storage cells connected in series, the method comprising the acts of:
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determining dynamically, by a control unit operatively coupled with the energy storage module, a lower limit voltage for the energy storage module, wherein during a discharging operation of the energy storage module, upon reaching a minimally permissible lower cell voltage on at least one storage cell, the lower limit voltage of the energy module is determined by summing all cell voltages existing at that point-in-time for all of the plurality of individual storage cells; and determining, by the control unit, the amount of energy actually available in the energy storage module as a function of a determined actual storage capacity and the lower limit voltage of the energy storage module. - View Dependent Claims (13, 14)
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Specification