Converter interconnected with a wind power generation farm to enable continuous power transmission and operating method thereof

What is claimed is: 1. A converter interconnected with a wind power generation farm, the converter comprising: a power monitor configured to measure a direct-current voltage of a system interconnected with the converter; a controller configured to determine whether the measured direct-current voltage of the system is included in a preset range of a reference voltage and adjust an alternating-current voltage that is output to the wind power generation farm to a preset value, when it is determined that the measured direct-current voltage of the system is outside of the preset range of the reference voltage; and a switch configured to perform a switching operation to output the adjusted alternating-current voltage, wherein the adjusting of the alternating-current voltage to a preset value includes adjusting a frequency of the alternating-current voltage to a preset frequency value and adjusting a magnitude of the alternating-current voltage to a preset magnitude value, and wherein the controller is further configured to: control a magnitude of the alternating-current voltage to increase at a preset rate when it is determined that the measured direct-current voltage of the system is inside of the preset range of the reference voltage; and adjust the alternating-current voltage to the preset value to lower the frequency and the magnitude of the alternating-current voltage that is output to the wind power generation farm and reduce an amount of power generation of the wind power generation farm that is supplied with the adjusted alternating-current voltage when it is determined that the measured direct-current voltage of the system is outside of the preset range of the reference voltage. 2. The converter according to claim 1 , wherein the power monitor measures an alternating current between the converter and the wind power generation farm, and wherein the controller determines whether a variation in the measured alternating current is equal to or greater than a preset variation. 3. The converter according to claim 2 , wherein the controller comprises a frequency controller configured to adjust the frequency of the alternating-current voltage to increase at a preset rate when it is determined that the variation in the measured alternating current is equal to or greater than the preset variation. 4. The converter according to claim 3 , wherein the controller comprises an operation controller configured to control the switching operation of the switch based on the frequency of the alternating-current voltage that increases at the preset rate. 5. The converter according to claim 1 , further comprising a protector configured to block an overcurrent having a magnitude equal to or greater than a preset magnitude from flowing to the converter, wherein the protector includes a resistor that limits a current value. 6. The converter according to claim 1 , wherein the controller comprises: a comparator configured to determine whether the measured direct-current voltage of the system is included in the preset range of the reference voltage; a frequency controller configured to adjust the frequency of the alternating-current voltage to the preset frequency value; a voltage magnitude controller configured to adjust the magnitude of the alternating-current voltage to a magnitude of the alternating-current voltage corresponding to the preset frequency value of the alternating-current voltage; a phase controller configured to adjust a phase of the alternating-current voltage to a phase of the alternating-current voltage corresponding to the preset frequency value of the alternating-current voltage; and an operation controller configured to control the switch based on either the adjusted magnitude or the adjusted phase of the alternating-current voltage or both thereof.