Battery charge and discharge control system and battery charge and discharge control method

What is claimed is: 1. A battery charge and discharge control system, comprising: a first battery pack and a second battery pack connected in parallel; a state-of-charge (SOC) measuring unit configured to measure SOC of the first battery pack and SOC of the second battery pack; and a controller configured to adjust the SOC of the first battery pack and the SOC of the second battery pack, wherein, when a difference between the SOC of the first battery pack and the SOC of the second battery pack is less than a first threshold value, the controller is configured to perform an adjustment to adjust the SOC of the first battery pack and the SOC of the second battery pack so that the difference becomes equal to the first threshold value, and an average of the SOC of the first battery pack and the SOC of the second battery pack is unchanged before and after the adjustment, wherein the controller pulse-charges or pulse-discharges the first battery pack and the second battery pack using a first C-rate. 2. The battery charge and discharge control system according to claim 1 , wherein the controller is further configured to: adjust the SOC of the first battery pack and the SOC of the second battery pack so that a sum of a difference between the SOC of the first battery pack after the adjustment and a first reference value and a difference between the SOC of the second battery pack after the adjustment and the first reference value is increased, wherein the first reference value corresponds to an SOC value for reducing lifetime of the first battery pack and lifetime of the second battery pack. 3. The battery charge and discharge control system according to claim 1 , wherein: when the SOC of the first battery pack and the SOC of the second battery pack are equal to or less than 10% or equal to or greater than 90% before adjusting the SOC of the first battery pack and the SOC of the second battery pack, the controller does not adjust the SOC of the first battery pack and the SOC of the second battery pack. 4. The battery charge and discharge control system according to claim 1 , wherein the controller is configured to charge or discharge the second battery pack during a pulse-off time of a pulse charge and discharge operation of the first battery pack. 5. The battery charge and discharge control system according to claim 1 , wherein: when the difference between the SOC of the first battery pack and the SOC of the second battery pack is greater than a second threshold value, the controller charges or discharges the first battery pack and the second battery pack so that the difference between the SOC of the first battery pack and the SOC of the second battery pack is equal to the second threshold value. 6. The battery charge and discharge control system according to claim 1 , further comprising: a state-of-health (SOH) calculator to calculate SOH of the first battery pack and SOH of the second battery pack, wherein the controller adjusts the SOC of the first battery pack and the SOC of the second battery pack based on an SOH calculated by the SOH calculator. 7. The battery charge and discharge control system according to claim 6 , wherein the controller adjusts the SOC of the first battery pack and the SOC of the second battery pack when a difference between the SOH of the first battery pack and the SOH of the second battery pack is equal to or greater than a third threshold value. 8. The battery charge and discharge control system according to claim 1 , further comprising: a first switch to be turned on or turned off based on a first control signal, which is received from the controller, to charge or discharge the first battery pack; and a second switch to be turned on or turned off based on a second control signal, which is received from the controller, to charge or discharge the second battery pack. 9. A method for controlling a first battery pack and a second battery pack connected in parallel, the method comprising: (a) measuring charge state of charge (SOC) of the first battery pack and SOC of the second battery pack; (b) adjusting the SOC of the first battery pack and the SOC of the second battery pack when a difference between the SOC of the first battery pack and the SOC of the second battery pack is less than a first threshold value so that the difference becomes equal to the first threshold value; (c) adjusting the SOC of the first battery pack and the SOC of the second battery pack when the difference between the SOC of the first battery pack and the SOC of the second battery pack is greater than a second threshold value so that the difference becomes equal to the second threshold value; and (d) pulse-charging the first battery pack and the second battery pack using a first C-rate. 10. The method according to claim 9 , wherein at least one of (b) or (c) includes: performing an adjustment of adjusting the SOC of the first battery pack and the SOC of the second battery pack so that an average of the SOC of the first battery pack and the SOC of the second battery pack is unchanged before and after the adjustment. 11. The method according to claim 9 , wherein (b) includes: performing an adjustment of adjusting the SOC of the first battery pack and the SOC of the second battery pack so that a sum of a difference between a first reference value and the SOC of the first battery pack after the adjustment and a difference between the first reference value and the SOC of the second battery pack after the adjustment is increased or maximized, the first reference value corresponding to an SOC value for reducing or minimizing lifetime of the first battery pack and lifetime of the second battery pack. 12. The method according to claim 9 , further comprising: the SOC of the first battery pack and the SOC of the second battery pack are not adjusted when the SOC of the first battery pack and the SOC of the second battery pack are equal to or less than 10% or equal to or greater than 90% before adjusting the SOC of the first battery pack and the SOC of the second battery pack. 13. The method according to claim 9 , further comprising: charging the second battery pack during a pulse-off time of a pulse charge operation of the first battery pack. 14. The method according to claim 9 , further comprising: calculating a state of health (SOH) of the first battery pack and a SOH of the second battery pack, and adjusting the SOC of the first battery pack and the SOC of the second battery pack according to the SOH of the first battery pack and the SOH of the second battery pack. 15. The method according to claim 14 , further comprising: adjusting the SOC of the first battery pack and the SOC of the second battery pack when a difference between the SOH of the first battery pack and the SOH of the second battery pack is equal to or greater than a third threshold value. 16. An apparatus, comprising: an interface; and a controller configured to generate signals for output through the interface, the signals to perform an adjustment to adjust a state-of-charge (SOC) of each of a first battery pack and a second battery pack, wherein: when a difference between the SOC of the first battery pack and the SOC of the second battery pack is less than a first threshold value, the controller adjusts the SOC of the first battery pack and the SOC of the second battery pack so that the difference is equal to the first threshold value, an average of the SOC of the first battery pack and the SOC of the second battery pack is unchanged before and after the adjustment. 17. The apparatus according to claim