Power supply system, vehicle provided with the same and control method of power supply system
First Claim
1. A power supply system comprising:
- a plurality of power storage mechanisms allowing charging and discharging;
a charger for receiving a power from an external power supply and externally charging said plurality of power storage mechanisms;
a state-estimating unit for estimating a remaining capacity of each of said plurality of power storage mechanisms;
a power storage mechanism temperature obtaining unit for obtaining a temperature of each of said plurality of power storage mechanisms, and obtaining a rise temperature of each of said plurality of power storage mechanisms based on the temperature of the corresponding one of said plurality of power storage mechanisms;
a power storage mechanism voltage value obtaining unit for obtaining the voltage value of each of said plurality of power storage mechanisms; and
a control unit for controlling the charging of said plurality of power storage mechanisms, said control unit including;
a charging unit for charging said plurality of power storage mechanisms with a charge current supplied from said charger when said plurality of power storage mechanisms attain a state allowing the charging by the external power supply,a charge-allowed power deriving unit for deriving a charge-allowed power of each of said plurality of power storage mechanisms based on the estimated remaining capacity while said plurality of power storage mechanisms are being externally charged,a first determining unit for determining a relationship in magnitude between a charge-allowed power total value being a total value of the derived charge-allowed powers of the respective power storage mechanisms and a predetermined preset value,a charge ending unit for ending the external charging of said plurality of power storage mechanisms when said first determining unit determines that said charge-allowed power total value is equal to or smaller than said predetermined value,a second determining unit for setting the remaining capacity target value of said plurality of power storage mechanisms based on the obtained temperature of each of said plurality of power storage mechanisms, and determining whether the estimated remaining capacity of each of said plurality of power storage mechanisms has reached said remaining capacity target value or not,a third determining unit for determining whether the obtained temperature of each of said plurality of power storage mechanisms has reached a predetermined allowed upper-limit temperature or not,a fourth determining unit for determining whether the obtained rise temperature of each of said plurality of power storage mechanisms is equal to or larger than a predetermined reference value or not,a fifth determining unit for determining whether the obtained voltage value of each of said plurality of power storage mechanisms has reached a predetermined upper-limit voltage value or not, anda sixth determining unit for calculating an estimated full-charge time required for completing the external charging of said plurality of power storage mechanisms, based on a difference between the estimated remaining capacity of each of said plurality of power storage mechanisms and the fully charged state, and determining whether an execution time of the external charging has reached said estimated full-charge time or not,wherein;
said plurality of power storage mechanisms are connected in parallel to said charger, andsaid charge ending unit ends the external charging of said plurality of power storage mechanisms, in response to satisfaction of one of such conditions that said first determining unit determines that said total value of the charge-allowed powers is equal to or smaller than said predetermined value, that said second determining unit determines that the remaining capacity of one of said plurality of power storage mechanisms has reached said remaining capacity target value, that said third determining unit determines that the temperature of one of said plurality of power storage mechanisms has reached said predetermined allowed upper-limit temperature, that said fourth determining unit determines that the rise temperature of one of said plurality of power storage mechanisms is equal to or larger than said predetermined reference value, that said fifth determining unit determines that the voltage value of one of said plurality of power storage mechanisms has reached said predetermined upper-limit voltage value, and that said sixth determining unit determines that the execution time of the external charging of one of said plurality of power storage mechanisms has reached said estimated full-charge time.
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Accused Products
Abstract
A power supply system includes power storage units formed of battery assemblies, respectively, converters corresponding to the power storage units, respectively, and a charger receiving an electric power from an external power supply for externally charging the power storage units. An ECU estimates an SOC of each power storage unit based on the SOC of a battery block of the smallest SOC in the power storage unit. When the power storage unit attains a state allowing charging by the external power supply, the ECU controls the corresponding converter to charge the power storage unit with the charge current supplied from the charger, and derives, for each power storage unit, a charge-allowed power based on the SOC of the battery block of the largest SOC. When a total value of the derived charge-allowed powers of the respective power storage units is equal to or smaller than an actual value of the supply power supplied from the external power supply, the ECU ends the external charging of the power storage units.
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Citations
16 Claims
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1. A power supply system comprising:
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a plurality of power storage mechanisms allowing charging and discharging; a charger for receiving a power from an external power supply and externally charging said plurality of power storage mechanisms; a state-estimating unit for estimating a remaining capacity of each of said plurality of power storage mechanisms; a power storage mechanism temperature obtaining unit for obtaining a temperature of each of said plurality of power storage mechanisms, and obtaining a rise temperature of each of said plurality of power storage mechanisms based on the temperature of the corresponding one of said plurality of power storage mechanisms; a power storage mechanism voltage value obtaining unit for obtaining the voltage value of each of said plurality of power storage mechanisms; and a control unit for controlling the charging of said plurality of power storage mechanisms, said control unit including; a charging unit for charging said plurality of power storage mechanisms with a charge current supplied from said charger when said plurality of power storage mechanisms attain a state allowing the charging by the external power supply, a charge-allowed power deriving unit for deriving a charge-allowed power of each of said plurality of power storage mechanisms based on the estimated remaining capacity while said plurality of power storage mechanisms are being externally charged, a first determining unit for determining a relationship in magnitude between a charge-allowed power total value being a total value of the derived charge-allowed powers of the respective power storage mechanisms and a predetermined preset value, a charge ending unit for ending the external charging of said plurality of power storage mechanisms when said first determining unit determines that said charge-allowed power total value is equal to or smaller than said predetermined value, a second determining unit for setting the remaining capacity target value of said plurality of power storage mechanisms based on the obtained temperature of each of said plurality of power storage mechanisms, and determining whether the estimated remaining capacity of each of said plurality of power storage mechanisms has reached said remaining capacity target value or not, a third determining unit for determining whether the obtained temperature of each of said plurality of power storage mechanisms has reached a predetermined allowed upper-limit temperature or not, a fourth determining unit for determining whether the obtained rise temperature of each of said plurality of power storage mechanisms is equal to or larger than a predetermined reference value or not, a fifth determining unit for determining whether the obtained voltage value of each of said plurality of power storage mechanisms has reached a predetermined upper-limit voltage value or not, and a sixth determining unit for calculating an estimated full-charge time required for completing the external charging of said plurality of power storage mechanisms, based on a difference between the estimated remaining capacity of each of said plurality of power storage mechanisms and the fully charged state, and determining whether an execution time of the external charging has reached said estimated full-charge time or not, wherein; said plurality of power storage mechanisms are connected in parallel to said charger, and said charge ending unit ends the external charging of said plurality of power storage mechanisms, in response to satisfaction of one of such conditions that said first determining unit determines that said total value of the charge-allowed powers is equal to or smaller than said predetermined value, that said second determining unit determines that the remaining capacity of one of said plurality of power storage mechanisms has reached said remaining capacity target value, that said third determining unit determines that the temperature of one of said plurality of power storage mechanisms has reached said predetermined allowed upper-limit temperature, that said fourth determining unit determines that the rise temperature of one of said plurality of power storage mechanisms is equal to or larger than said predetermined reference value, that said fifth determining unit determines that the voltage value of one of said plurality of power storage mechanisms has reached said predetermined upper-limit voltage value, and that said sixth determining unit determines that the execution time of the external charging of one of said plurality of power storage mechanisms has reached said estimated full-charge time.
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2. A power supply system comprising:
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a plurality of power storage mechanisms allowing charging and discharging; a charger for receiving a power from an external power supply and externally charging said plurality of power storage mechanisms; a state-estimating unit for estimating a remaining capacity of each of said plurality of power storage mechanisms; a power storage mechanism temperature obtaining unit for obtaining a temperature of each of said plurality of power storage mechanisms, and obtaining a rise temperature of each of said plurality of power storage mechanisms based on the temperature of the corresponding one of said plurality of power storage mechanisms; a power storage mechanism voltage value obtaining unit for obtaining the voltage value of each of said plurality of power storage mechanisms; and a control unit for controlling the charging of said plurality of power storage mechanisms, said control unit including; a charging unit for charging said plurality of power storage mechanisms with a charge current supplied from said charger when said plurality of power storage mechanisms attain a state allowing the charging by the external power supply, a charge-allowed power deriving unit for deriving a charge-allowed power of each of said plurality of power storage mechanisms based on the estimated remaining capacity while said plurality of power storage mechanisms are being externally charged, and a charge ending unit for ending the external charging of said plurality of power storage mechanisms, wherein said charge ending unit ends the external charging of said plurality of power storage mechanisms in response to satisfaction of one of such conditions that a charge-allowed power total value being a total value of the derived charge-allowed powers of the respective power storage mechanisms is equal to or smaller than a predetermined value, that the remaining capacity of one of said plurality of power storage mechanisms has reached the remaining capacity target value of said plurality of power storage mechanisms, that the temperature of one of said plurality of power storage mechanisms has reached a predetermined allowed upper-limit temperature, that the rise temperature of one of said plurality of power storage mechanisms is equal to or larger than a predetermined reference value, that the voltage value of one of said plurality of power storage mechanisms has reached a predetermined upper-limit voltage value, and that the execution time of the external charging of one of said plurality of power storage mechanisms has reached an estimated full-charge time required for completing the external charging of said plurality of power storage mechanisms. - View Dependent Claims (3, 4, 5, 6, 7, 8, 16)
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9. A control method of a power supply system,
the power supply system including: - a plurality of power storage mechanisms allowing charging and discharging, a charger for receiving a power from an external power supply and externally charging said plurality of power storage mechanisms, a state-estimating unit for estimating a remaining capacity of each of said plurality of power storage mechanisms, a power storage mechanism temperature obtaining unit for obtaining a temperature of each of said plurality of power storage mechanisms, and obtaining a rise temperature of each of said plurality of power storage mechanisms based on the temperature of the corresponding one of said plurality of power storage mechanisms, and a power storage mechanism voltage value obtaining unit for obtaining the voltage value of each of said plurality of power storage mechanisms, said control method comprising steps of;
charging said plurality of power storage mechanisms with a charge current supplied from said charger when said plurality of power storage mechanisms attain a state allowing the charging by the external power supply; deriving a charge-allowed power of each of said plurality of power storage mechanisms based on the estimated remaining capacity while said plurality of power storage mechanisms are being externally charged; and ending the external charging of said plurality of power storage mechanisms in response to satisfaction of one of such conditions that a charge-allowed power total value being a total value of the derived charge-allowed powers of the respective power storage mechanisms is equal to or smaller than a predetermined value, that the remaining capacity of one of said plurality of power storage mechanisms has reached the remaining capacity target value of said plurality of power storage mechanisms, that the temperature of one of said plurality of power storage mechanisms has reached a predetermined allowed upper-limit temperature, that the rise temperature of one of said plurality of power storage mechanisms is equal to or larger than a predetermined reference value, that the voltage value of one of said plurality of power storage mechanisms has reached a predetermined upper-limit voltage value, and that the execution time of the external charging of one of said plurality of power storage mechanisms has reached an estimated full-charge time required for completing the external charging of said plurality of power storage mechanisms. - View Dependent Claims (10, 11, 12, 13, 14, 15)
- a plurality of power storage mechanisms allowing charging and discharging, a charger for receiving a power from an external power supply and externally charging said plurality of power storage mechanisms, a state-estimating unit for estimating a remaining capacity of each of said plurality of power storage mechanisms, a power storage mechanism temperature obtaining unit for obtaining a temperature of each of said plurality of power storage mechanisms, and obtaining a rise temperature of each of said plurality of power storage mechanisms based on the temperature of the corresponding one of said plurality of power storage mechanisms, and a power storage mechanism voltage value obtaining unit for obtaining the voltage value of each of said plurality of power storage mechanisms, said control method comprising steps of;
Specification