Apparatus for driving and controlling converters and switching element modules in a wind power generation system

What is claimed is: 1. An apparatus for driving switching element modules in a wind power generation system, the apparatus comprising: at least one converter coupled between a generator and a grid, the at least one converter including a plurality of switching element modules connected in parallel; and a switching element module controller configured to drive the plurality of switching element modules by sequentially driving the plurality of switching element modules one by one when an output power of a corresponding converter increases and sequentially stopping operations of the plurality of switching element modules one by one when the output power of the corresponding converter decreases, calculate a switching element module capacity for each switching element module based on a converter capacity of each of the at least one converter and a number of switching element modules in the corresponding converter, and calculate a switching element module operation capacity for each switching element module based on each calculated switching element module capacity and a switching element module operation capacity ratio. 2. The apparatus of claim 1 , wherein the switching element module controller is further configured to drive a next switching element module when a current capacity of a last switching element module exceeds a corresponding switching element module operation capacity. 3. The apparatus of claim 2 , wherein the switching element module controller is further configured to calculate a switching element module operation stop capacity for each switching element module based on each calculated switching element module capacity and a switching element module operation stop capacity ratio, and when a capacity of the last switching element becomes the switching element module operation stop capacity or less, stop an operation of the last switching element module. 4. The apparatus of claim 3 , wherein the switching element module operation capacity ratio and the switching element module operation stop capacity ratio are different. 5. The apparatus of claim 2 , wherein the switching element module controller is further configured to calculate the converter capacity of the corresponding converter by dividing a rating capacity of the grid by a number of converters and to calculate the switching element module capacity by dividing the calculated converter capacity by the number of switching element modules. 6. The apparatus of claim 2 , wherein the switching element module controller is further configured to drive a next converter if a current capacity of a switching element module included in a last converter being driven exceeds a corresponding switching element module operation capacity.