| CPC H01M 10/4264 (2013.01) [H01M 10/44 (2013.01); H01M 10/48 (2013.01); H01M 2010/4271 (2013.01)] | 10 Claims |
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1. A power storage system comprising:
a storage unit including
a plurality of capacitor elements connected in series to one another, each of the plurality of capacitor elements having both ends,
a plurality of resistors connected to the plurality of capacitor elements, and
a plurality of switch elements connected to the plurality of capacitor elements and the plurality of resistors;
a charging circuit configured to supply a charging current to the storage unit; and
a controller connected to the storage unit, wherein
one of both ends of each capacitor element of the plurality of capacitor elements is connected to one end of a corresponding resistor of the plurality of resistors,
another of the both ends of the each capacitor element is connected to one end of a corresponding switch element of the plurality of switch elements,
another end of the corresponding resistor is connected to another end of the corresponding switch element,
the corresponding switch element is configured to selectively switch between a connected state in which the one end of the corresponding switch element is connected to the another end of the corresponding switch element and a disconnected state in which the one end of the corresponding switch element is disconnected from the another end of the corresponding switch element,
when the charging circuit supplies the charging current to the storage unit, the controller is configured to:
detect storage voltages across respective both ends of the plurality of capacitor elements by detecting a storage voltage across the both ends of the each capacitor element;
providing a single reference voltage configured to change according to the detected storage voltages across the respective both ends of the plurality of capacitor elements, the single reference voltage increasing as the plurality of capacitor elements are charged;
compare the detected storage voltages across the respective both ends of the plurality of capacitor elements with the single reference voltage by comparing the detected storage voltages across the respective both ends of the plurality of capacitor elements with the single reference voltage by comparing the detected storage voltage across the both ends of the each capacitor element with the single reference voltage;
cause the corresponding switch element to be in the disconnected state when a difference between the storage voltage of the each capacitor element and the reference voltage is equal to or larger than a predetermined first voltage difference value; and
cause the corresponding switch element to be in the connected state when the difference between the storage voltage of the each capacitor element and the single reference voltage is larger than the predetermined first voltage difference value, and then, switch the corresponding switch element from the connected state to the disconnected state when the difference between the storage voltage of the each capacitor element and the single reference voltage becomes smaller than a predetermined second voltage difference value,
the controller is configured to cause the charging circuit to stop supplying the charging current to the storage unit when the single reference voltage is higher than a predetermined first upper limit voltage,
one of both ends of a certain capacitor element of the plurality of capacitor elements is connected to one end of a certain resistor of the plurality of resistors,
another of the both ends of the certain capacitor element is connected to one end of a certain switch element of the plurality of switch elements,
another end of the certain resistor is connected to another end of the certain switch element,
the certain switch element is configured to selectively switch between a connected state in which the one end of the certain switch element is connected to the another end of the certain switch element and a disconnected state in which the one end of the certain switch element is disconnected from the another end of the certain switch element, and
the controller is configured to:
when a storage voltage across the both ends of the certain capacitor element reaches a predetermined second upper limit voltage that is higher than the predetermined first upper limit voltage while the charging circuit supplies the charging current to the storage unit, cause the charging circuit to stop supplying the charging current to the storage unit and cause the certain switch element to be in the connected state; and
then, switch the certain switch element from the connected state to the disconnected state, and cause the charging circuit to start supplying the charging current to the storage unit when the storage voltage of the certain capacitor element is lower than the single reference voltage.
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