Battery pack and method for controlling the same

What is claimed is: 1 . A battery pack comprising: a plurality of rechargeable battery units; and a battery management system configured to: control charging and discharging of the plurality of battery units; calculate an idle state time of the plurality of battery units by monitoring the plurality of battery units; determine whether a state of charge (SOC) value of a first battery unit of the battery units is within a SOC range; and cause electrical energy to move from the first battery unit to a second battery unit of the battery units, or to move from the second battery unit to the first battery unit, when the idle state time exceeds a reference time, such that SOC values of the first battery unit and the second battery unit are outside of the SOC range. 2 . The battery pack as claimed in claim 1 , further comprising: a plurality of switch units coupled to respective ones of the plurality of battery units; and a direct current-to-direct current (DC-DC) converter coupled to at least one of the battery units through the switch unit. 3 . The battery pack as claimed in claim 2 , wherein the battery management system is further configured to: control the DC-DC converter; and control the switch units to cause the electrical energy to move between the first battery unit and the second battery unit. 4 . The battery pack as claimed in claim 3 , wherein the battery management system is further configured to control the switch units such that a first switch unit of the switch units that is coupled to the first battery unit and that is coupled to a first end of the DC-DC converter, and such that a second switch unit of the switch units that is coupled to the second battery unit and that is coupled to a second end of the DC-DC converter, are turned on to cause the electrical energy to move between the first battery unit and the second battery unit. 5 . The battery pack as claimed in claim 1 , wherein the battery management system is further configured to cause the electrical energy to move from the first battery unit to the second battery unit, or to move from the second battery unit to the first battery unit, after determining that the SOC value of the first battery unit is within the SOC range. 6 . The battery pack as claimed in claim 5 , wherein the battery management system is further configured to calculate a movement amount of the electrical energy that is to be transferred between the first battery unit and the second battery unit. 7 . The battery pack as claimed in claim 5 , wherein the battery management system is further configured to select any one of the plurality of battery units having a SOC value outside of the SOC range as the second battery unit. 8 . The battery pack as claimed in claim 1 , wherein the battery management system is further configured to: select a battery unit of the plurality of battery units having a smallest SOC value as the second battery unit; and cause the electrical energy to move from the first battery unit to the second battery unit after determining that the SOC value of the first battery unit is within the SOC range. 9 . The battery pack as claimed in claim 8 , wherein the battery management system is further configured to: re-calculate the SOC value of each of the battery units when the SOC value of the first battery unit continues to be within the SOC range after causing the electrical energy to move from the first battery unit to the second battery unit when the second battery unit is fully charged; and re-select a remaining battery unit of the battery units having a smallest SOC value not within the SOC range as the second battery unit. 10 . The battery pack as claimed in claim 1 , wherein the battery management system is further configured to: select a battery unit of the battery units having a largest SOC value as the second battery unit; and cause the electrical energy to move from the second battery unit to the first battery unit after determining that the SOC value of the first battery unit is within the SOC range. 11 . The battery pack as claimed in claim 6 , wherein the battery management system is further configured to cause the electrical energy to move to the second battery unit from the first battery unit when an amount of electrical energy stored in the second battery unit is the same or smaller than the calculated movement amount of the electrical energy. 12 . The battery pack as claimed in claim 1 , wherein the battery management system is further configured to cause the electrical energy to move between ones of the battery units having SOC values within the SOC range. 13 . A method of controlling a battery pack comprising a plurality of rechargeable battery units, and a battery management system configured to control charging and discharging of the battery units, the method comprising: determining whether the plurality of battery units are in an idle state by monitoring the plurality of battery units; determining whether one of the battery units has a SOC value within a SOC range; and controlling charging and discharging of the battery units after determining that the one of the battery units has the SOC value within the SOC range by moving electrical energy between the one of the battery units and respective ones of the battery units such that a SOC value of each of the battery units is out of the SOC range when an idle state time of the plurality of battery units exceeds a reference time.