Device and method for controlling a storage battery system

The invention claimed is: 1. A device for controlling a storage battery system, the storage battery system having a plurality of storage battery modules connected in series and each of the storage battery modules including a battery and a DC/DC converter connected to the battery, the device comprising: a processor including processing circuitry configured to calculate state information on each of the batteries of the storage battery modules; the processor further configured to calculate a power conversion efficiency of each of the DC/DC converters of the storage battery modules; and the processor further selects one or a plurality of storage battery modules to be used while the storage battery system is charged or discharged and to determine a charge power or a discharge power of each of the selected one or plurality of storage battery modules, based on the state information of the batteries and the power conversion efficiencies of the DC/DC converters, wherein the processor selects the one or the plurality of storage battery modules to be used while the storage battery system is charged or discharged by stopping use of at least one of the plurality of storage battery modules. 2. The device according to claim 1 , wherein the processor is configured to select the one or plurality of storage battery modules so that a power conversion efficiency of the storage battery system reaches a target power conversion efficiency. 3. A device for controlling a storage battery system, the storage battery system having a plurality of storage battery modules connected in series and each of the storage battery modules including a battery and a DC/DC converter connected to the battery, the device comprising: a processor including processing circuitry configured to calculate state information on each of the batteries of the storage battery modules; the processor further configured to calculate a power conversion efficiency of each of the DC/DC converters of the storage battery modules; and the processor further selects one or a plurality of storage battery modules to be used while the storage battery system is charged or discharged and to determine a charge power or a discharge power of each of the selected one or plurality of storage battery modules, based on the state information of the batteries and the power conversion efficiencies of the DC/DC converters, wherein the processor calculates a power conversion efficiency of the storage battery system while all of the storage battery modules are charged/discharged as a pre-selection charge/discharge efficiency, calculates a power conversion efficiency of the storage battery system while the selected one or plurality of storage battery modules are charged/discharged as a post-selection charge/discharge efficiency, and charges/discharges the selected one or plurality of storage battery modules if the post-selection charge/discharge efficiency is higher than the pre-selection charge/discharge efficiency. 4. The device according to claim 1 , wherein the processor is configured to select the one or plurality of storage battery modules to be used, and to determine charge powers or discharge powers of the selected one or plurality of storage battery modules, based on a ratio among the charge powers or the discharge powers of the storage battery modules at maximum conversion efficiencies of the DC/DC converters. 5. The device according to claim 4 , wherein the processor is further configured to calculate a maximum charge power or a maximum discharge power of each of the storage battery modules, wherein the processor is configured to select the one or plurality of storage battery modules to be used, and to determine the charge powers or the discharge powers of the selected one or plurality of storage battery modules, based further on the maximum charge powers or the maximum discharge powers of the storage battery modules. 6. The device according to claim 4 , wherein the state information calculated by the processor includes at least one of a voltage, a state of charge, a temperature and an internal resistance of the battery. 7. The device according to claim 4 , wherein the processor is configured to calculate the power conversion efficiency of each of the DC/DC converters based on a voltage and a current before a conversion by the DC/DC converter and a voltage and a current after the conversion by the DC/DC converter. 8. The device according to claim 4 , wherein the charge power or the discharge power of each of the storage battery modules is controlled by controlling a voltage of the DC/DC converter on an opposite side of the battery. 9. A method for controlling a storage battery system, the storage battery system having a plurality of storage battery modules connected in series and each of the storage battery modules including a battery and a DC/DC converter connected to the battery; the method comprising the steps of: calculating state information on each of the batteries of the storage battery modules; calculating a power conversion efficiency of each of the DC/DC converters of the storage battery modules; and selecting one or a plurality of storage battery modules to be used while the storage battery system is charged or discharged and determining a charge power or a discharge power of each of the selected one or plurality of storage battery modules, based on the state information on the batteries and the power conversion efficiencies of the DC/DC converters, wherein the selecting the one or the plurality of storage battery modules to be used while the storage battery system is charged or discharged includes stopping use of at least one of the plurality of storage battery modules.