Device and method for controlling inverter

What is claimed is: 1 . A method for controlling an inverter including at least one switching module including a plurality of switching elements connected in parallel in an apparatus of controlling the inverter, the method comprising: detecting a plurality of currents flowing through the plurality of switching elements of each switching module; determining, by a controller of the apparatus of controlling the inverter, duty cycles of a plurality of switching mode power supplies (SMPSs) corresponding to the plurality of switching elements based on the plurality of currents flowing through the plurality of switching elements; and controlling, by the controller, the plurality of currents flowing through the plurality of switching elements according to the duty cycles of the plurality of SMPSs, wherein the determining the duty cycles includes: determining a difference between the current of each switching element and an average of the plurality of currents flowing through the plurality of switching elements; controlling a duty cycle of an SMPS corresponding to each of the switching elements based on the difference between the current of each switching element and the average. 2 . The method of claim 1 , wherein the controlling the plurality of currents includes: decreasing a gate voltage applied to a gate electrode of a corresponding switching element when the duty cycle is decreased; and increasing a gate voltage applied to a gate electrode of a corresponding switching element when the duty cycle is increased. 3 . The method of claim 1 , wherein the controlling the duty cycle of the SMPS corresponding to each of the switching elements includes: decreasing a duty cycle of an SMPS corresponding to a switching element in which the difference has a positive value; and increasing a duty cycle of an SMPS corresponding to a switching element in which the difference has a negative value. 4 . A non-transitory computer readable storage medium on which a program for performing the method of claim 1 is recorded. 5 . An apparatus of controlling an inverter including at least one switching module including a plurality of switching elements connected in parallel, the apparatus comprising: a controller that is configured to detect a plurality of currents flowing through the plurality of switching elements of each switching module; a plurality of switching mode power supplies (SMPSs) that correspond to the plurality of switching elements, to determine a plurality of duty cycles according to a plurality of duty commands, respectively, and to control voltages applied to control electrodes of the plurality of switching elements according to the plurality of duty cycles; and a comparator that determines differences between the currents of the plurality of switching elements and an average of the plurality of currents flowing through the plurality of switching elements, wherein the controller connected to the comparator is configured to generate the plurality of duty commands corresponding to the plurality of SMPSs based on the differences. 6 . The apparatus of claim 5 , wherein the controller is configured to generate a first duty command for reducing a duty cycle of a corresponding SMPS when an amount of current of a first switching element among the plurality of switching elements increases, and to generate a second duty command for increasing a duty cycle of a corresponding SMPS when an amount of current of a second switching element among the plurality of switching elements decreases. 7 . The apparatus of claim 6 , wherein an SMPS corresponding to the first switching element decreases the voltage applied to a control electrode of the first switching element according to the reduced duty cycle in response to the first duty command, and an SMPS corresponding to the second switching element increases the voltage applied to the control electrode of the second switching element according to the increased duty cycle in response to the second duty command. 8 . The apparatus of claim 5 , wherein the controller is configured to generate a first duty command for decreasing a duty cycle of an SMPS corresponding to a first switching element in which the difference has a positive value among the plurality of switching elements, and to generate a second duty command for increasing a duty cycle of an SMPS corresponding to a second switching element in which the difference has a negative value among the plurality of switching elements. 9 . The apparatus of claim 8 , wherein the SMPS corresponding to the first switching element decreases the voltage applied to a control electrode of the first switching element according to the reduced duty cycle in response to the first duty command, and the SMPS corresponding to the second switching element increases the voltage applied to the control electrode of the second switching element according to the increased duty cycle in response to the second duty command. 10 . The apparatus of claim 5 , wherein the controller is configured for: determining the average of the plurality of currents and determining the differences between the currents of the plurality of switching elements and the average; and controlling a duty cycle of an SMPS corresponding to each of the switching elements based on the difference between the current of each switching element and the average. 11 . The apparatus of claim 10 , wherein in the controlling the duty cycle of the SMPS corresponding to each of the switching elements, the controller is configured for: decreasing a duty cycle of an SMPS corresponding to a switching element in which the difference has a positive value; and increasing a duty cycle of an SMPS corresponding to a switching element in which the difference has a negative value.