Method of controlling charging and discharging of battery energy storage device and the battery energy storage device for the same

What is claimed is: 1. A method of charging and discharging battery energy storage device, comprising: storing, in a data storage, data necessary for a voltage droop control and a frequency droop control for a battery; measuring, via a SOC measuring unit, a SOC value of the battery; measuring, via a grid voltage and frequency measuring unit, a voltage and a frequency of the grid; performing, via a charging and discharging control unit, the voltage droop control and frequency droop control corresponding to the voltage and frequency of the grid by using the data stored in the data storage, a SOC offset value, and a SOC feedback gain value of the battery, which are calculated on the basis of the SOC value; outputting, via the charging and discharging control unit, a control signal for performing charging and discharging on the battery while preventing overcharging and over-discharging at the time of charging and discharging the battery; and charging or discharging the battery, via a charging and discharging unit, according to the control signal. 2. The method according to claim 1 , wherein charging or discharging the battery comprises adjusting a charging period and a discharging period of an entire period on the basis of the SOC offset value. 3. The method according to claim 2 , wherein the SOC offset value is calculated according to the following equation: SOC offset = SOC ref - SOC feed 100 * P ⁢ ⁢ max where, SOCref denotes a reference SOC value, SOCfeed denotes a SOC value measured in the battery, and Pmax denotes maximum power of the grid. 4. The method according to claim 3 , wherein the SOCref is a median value 50% of the SOC, and when the SOC is 50%, the SOC offset value becomes 0, when the SOC is between 0% and 50%, an absolute value of the SOC offset value increases as the SOC approaches 0% in a state where the SOC offset value has a positive value, and when the SOC value is between 50% and 100%, the absolute value of the SOC offset value increases as the SOC approaches 100% in a state where the SOC offset value has a negative value. 5. The method according to claim 1 , wherein charging or discharging the battery comprises adjusting a charging amount and a discharging amount on the basis of the SOC feedback gain value. 6. The method according to claim 5 , wherein the SOC feedback gain value is calculated by the following equation: If ⁢ ⁢ SOC ≤ 50 SOC feed 100 * 2 Else ⁢ ⁢ if ⁢ ⁢ SOC > 50  SOC feed 100 * 2 - 2  where, SOCfeed denotes a SOC value of the battery. 7. The method according to claim 1 , wherein charging or discharging the battery comprises: operating the SOC offset value to a grid target power value set in the grid and outputting a first operation result; operating a frequency droop coefficient to a frequency difference between a reference frequency of the grid and a measured frequency of the grid and outputting a second operation result; operating the SOC feedback gain value to the frequency droop coefficient operation result and outputting a second operation result; operating the second operation result to the first operation result and outputting a reference power value; and obtaining a difference between the reference power value and a power value of the grid and performing a charging and discharging control. 8. The method according to claim 1 , wherein charging or discharging the battery comprises: operating a frequency droop coefficient to a frequency difference between a reference frequency of the grid and a measured frequency of the grid; operating the SOC feedback gain value to the frequency droop coefficient operation result and outputting a first operation result; operating the first operation result to the grid target power value set to the grid and outputting a second operation result; operating the SOC offset value to the second operation result and outputting a reference power value; and obtaining a difference between the reference power value and the grid power value and controlling the charging and discharging. 9. The method according to claim 1 , wherein charging or discharging the battery comprises: operating a frequency droop coefficient to a frequency difference value between a reference frequency of the grid and the measured frequency of the grid; operating the SOC feedback gain value to the frequency droop coefficient operation result and outputting a first operation result; operating the SOC offset value and the first operation result and outputting a second operation result; operating the second operation result to the grid target power value set to the grid and outputting a reference power value; and obtaining a difference value between the reference power value and a power value of the grid and performing a charging and discharging control. 10. A battery energy storage device comprising: a battery; a data storage unit configured to store data necessary for a voltage droop control and a frequency droop control for the battery; a SOC measuring unit configured to measure a SOC value of the battery; a grid voltage and frequency measuring unit configured to measure a voltage and a frequency of the grid; a charging and discharging control unit configured to: perform the voltage droop control and frequency droop control corresponding to the voltage and frequency of the grid by using the data stored in the data storage unit, a SOC offset value and a SOC feedback gain value of the battery, which are calculated on the basis of the SOC value; and output a control signal for performing charging and discharging on the battery while preventing overcharging and over-discharging at the time of charging and discharging the battery; and a charging and discharging unit configured to charge or discharge the battery according to the