System and method for controlling LDC voltage of hybrid vehicle

What is claimed is: 1. A method for controlling a low-voltage direct current-direct current (DC-DC) converter (LDC) voltage of a hybrid vehicle having a high-voltage battery and an auxiliary battery separately, comprising: determining, by a controller, whether the hybrid vehicle is driven in a regenerative braking mode; determining, by the controller, whether a value of a state of charge (SOC) of the auxiliary battery is equal to or greater than a first critical value set as a value charging of the auxiliary battery is unnecessary during the driving in the regenerative braking mode; and when the value of the SOC of the auxiliary battery is equal to or greater than the set first critical value, switching, by the controller, the driving mode of the vehicle from the regenerative braking mode to an electric vehicle (EV) mode, and variably adjusting an LDC target voltage based on the voltage of the auxiliary battery in the EV mode, wherein the LDC target voltage is adjusted to be decreased when the hybrid vehicle enters into the regenerative braking mode in which the SOC the auxiliary battery is equal to or greater than a predetermined value. 2. The method of claim 1 , wherein when a regenerative braking on time for which the regenerative braking mode is maintained in the state in which the SOC of the auxiliary battery is equal to or greater than the first critical value is equal to or greater than a predetermined second critical value, the driving mode of the vehicle is switched from the regenerative braking mode to the EV mode to delay the entry into the EV mode. 3. The method of claim 1 , wherein the LDC target voltage is variably adjusted in the EV mode during a regenerative braking off time for which the entry into the EV mode is maintained, and when the regenerative braking off time is equal to or greater than a predetermined third critical value, the driving mode of the vehicle is switched from the EV mode to the regenerative braking mode. 4. The method of claim 1 , wherein when the regenerative braking on time for which the regenerative braking mode is maintained in the state in which the value of the SOC of the auxiliary battery is equal to or greater than the first critical value is less than the predetermined second critical value, the LDC target voltage is variably adjusted in the regenerative braking mode. 5. A system for controlling a low-voltage direct current-direct current (DC-DC) converter (LDC) voltage of a hybrid vehicle having a high-voltage battery and an auxiliary battery separately, comprising: a memory configured to store program instructions; and a processor configured to execute the program instructions, the program instructions when executed configured to: determine whether the hybrid vehicle is driven in a regenerative braking mode; determine whether a value of a state of charge (SOC) of the auxiliary battery is equal to or greater than a first critical value set as a value charging of the auxiliary battery is unnecessary during the driving in the regenerative braking mode; and when the value of the SOC of the auxiliary battery is equal to or greater than the set first critical value switch the driving mode of the vehicle from the regenerative braking mode to an electric vehicle (EV) mode, and variably adjusting an LDC target voltage based on the voltage of the auxiliary battery in the EV mode, wherein the LDC target voltage is adjusted to be decreased when the hybrid vehicle enters into the regenerative braking mode in which the SOC of the auxiliary battery is equal to or greater than a predetermined value. 6. The system of claim 5 , wherein when a regenerative braking on time for which the regenerative braking mode is maintained in the state in which the SOC of the auxiliary battery is equal to or greater than the first critical value is equal to or greater than a predetermined second critical value, the driving mode of the vehicle is switched from the regenerative braking mode to the EV mode to delay the entry into the EV mode. 7. The system of claim 5 , wherein the LDC target voltage is variably adjusted in the EV mode during a regenerative braking off time for which the entry into the EV mode is maintained, and when the regenerative braking off time is equal to or greater than a predetermined third critical value, the driving mode of the vehicle is switched from the EV mode to the regenerative braking mode. 8. The system of claim 5 , wherein when the regenerative braking on time for which the regenerative braking mode is maintained in the state in which the value of the SOC of the auxiliary battery is equal to or greater than the first critical value is less than the predetermined second critical value, the LDC target voltage is variably adjusted in the regenerative braking mode. 9. A non-transitory computer readable medium containing program instructions executed by a processor or controller, the computer readable medium comprising: program instructions that determine whether a hybrid vehicle having a high-voltage battery and an auxiliary battery separately is driven in a regenerative braking mode; program instructions that determine whether a value of a state of charge (SOC) of an auxiliary battery is equal to or greater than a first critical value set as a value charging of the auxiliary battery is unnecessary during the driving in the regenerative braking mode; and program instructions that when the value of the SOC of the auxiliary battery is equal to or greater than the set first critical value switch the driving mode of the vehicle from the regenerative braking mode to an electric vehicle (EV) mode, and variably adjusting a low-voltage direct current-direct current converter (LDC) target voltage based on the voltage of the auxiliary battery in the EV mode, wherein the LDC target voltage is adjusted to be decreased when the hybrid vehicle enters into the regenerative braking mode in which the SOC of the auxiliary battery is equal to or greater than a predetermined value. 10. The non-transitory computer readable medium of claim 9 , wherein when a regenerative braking on time for which the regenerative braking mode is maintained in the state in which the SOC of the auxiliary battery is equal to or greater than the first critical value is equal to or greater than a predetermined second critical value, the driving mode of the vehicle is switched from the regenerative braking mode to the EV mode to delay the entry into the EV mode. 11. The non-transitory computer readable medium of claim 9 , wherein the LDC target voltage is variably adjusted in the EV mode during a regenerative braking off time for which the entry into the EV mode is maintained, and when the regenerative braking off time is equal to or greater than a predetermined third critical value, the driving mode of the vehicle is switched from the EV mode to the regenerative braking mode. 12. The non-transitory computer readable medium of claim 9 , wherein when the regenerative braking on time for which the regenerative braking mode is maintained in the state in which the value of the SOC of the auxiliary battery is equal to or greater than the first critical value is less than the predetermined second critical value, the LDC target voltage is variably adjusted in the regenerative braking mode.