Solar pump system and method for controlling solar pump system

What is claimed is: 1. A solar pump system comprising: a solar module configured to generate DC power from sunlight; a water pump; an inverter connected between the solar module and the water pump to convert the DC power into AC power in order to drive the water pump; and a controller configured to generate a control signal for controlling an output frequency of the AC power such that a DC link voltage of the DC power is constantly maintained, wherein the controller: compares the DC link voltage with a first reference level, determines the output frequency to prevent the DC link voltage from being equal to or less than a power failure reference level if the DC link voltage is less than the first reference level, checks whether a power failure occurs if the DC link voltage is less than the first reference level, determines the output frequency based on a predetermined frequency command, a slip frequency, and error information, upon determining that the power failure occurs, and wherein the error information is an error between the DC link voltage and a DC link reference level. 2. The solar pump system according to claim 1 , wherein, if the output frequency of the AC power is determined, the controller generates a control signal for controlling the inverter at the determined output frequency. 3. The solar pump system according to claim 1 , wherein the controller checks whether the DC link voltage is decreased if the DC link voltage is greater than the first reference level, and decreases the output frequency of the AC power if the DC link voltage is decreased. 4. The solar pump system according to claim 1 , wherein the controller increases the output frequency of the AC power if the DC link voltage is greater than the first reference level and is stable or increased. 5. The solar pump system according to claim 1 , wherein the controller determines that the power failure occurs if the DC link voltage is less than the power failure reference level. 6. The solar pump system according to claim 1 , wherein the determined output frequency is obtained by adding the predetermined frequency command, the slip frequency and the error between the DC link voltage and the DC link reference level. 7. A method of controlling a solar pump system for controlling an inverter for converting DC power received from a solar module into AC power, the method comprising: comparing the DC link voltage with a first reference level, adjusting the output frequency of the AC power if the DC link voltage is greater than the first reference level, and determining the output frequency to prevent the DC link voltage from being equal to or less than a power failure reference level, if the DC link voltage is less than the first reference level, wherein determining the output frequency further includes: checking whether power failure occurs if the DC link voltage is less than the first reference level, and determining the output frequency by adding a predetermined frequency command, a slip frequency, and an error between the DC link voltage and a DC link reference level if the power failure occurs. 8. The method according to claim 7 , wherein the adjusting of the output frequency of the AC power further includes, if the output frequency of the AC power is decreased, generating a control signal for controlling the inverter at the decreased output frequency. 9. The method according to claim 7 , wherein the determining of the output frequency further includes, if the output frequency of the AC power is determined, generating a control signal for controlling the inverter at the determined output frequency. 10. The method according to claim 7 , wherein adjusting the output frequency includes checking whether the DC link voltage is decreased if the DC link voltage is greater than the first reference level, and decreasing the output frequency of the AC power if the DC link voltage is decreased. 11. The method according to claim 10 , wherein adjusting the output frequency further includes increasing the output frequency of the AC power if the DC link voltage is stable or increased.