Method and system for controlling vehicular direct current converter

What is claimed is: 1. A method for controlling a vehicular direct current converter, comprising: detecting, by a controller, a state of charge (SOC) of a vehicular auxiliary battery; and when the detected SOC of the auxiliary battery falls within a predetermined setting range, adjusting, by the controller, an output voltage of a vehicular direct current converter to allow the auxiliary battery to have zero current and maintain the SOC of the auxiliary battery. 2. The method of claim 1 , wherein after detecting the SOC of the auxiliary battery, the method further includes: discharging, by the controller, the auxiliary battery when the detected SOC of the auxiliary battery is greater than values within the predetermined setting range; and charging, by the controller, the auxiliary battery when the detected SOC of the auxiliary battery is less than the values within the predetermined setting range. 3. The method of claim 1 , wherein, in the maintaining of the SOC of the auxiliary battery, the setting range includes a first setting range and a second setting range having values less than values within the first setting range, and the output voltage of the vehicular direct current converter is adjusted to allow the auxiliary battery to have zero current when the SOC of the auxiliary battery falls within the first setting range. 4. The method of claim 3 , wherein, when the SOC of the auxiliary battery falls within the second setting range, the output voltage of the vehicular direct current converter is adjusted to allow the auxiliary battery to have zero current based on a result obtained by determining whether regenerative braking is being performed or determining a state of an electric field load. 5. The method of claim 4 , wherein, when the SOC of the auxiliary battery falls within the second setting range and regenerative braking is not being performed or the electric field load is not in a preconfigured low-load state, the output voltage of the vehicular direct current converter is adjusted to allow the auxiliary battery to have zero current. 6. A method for controlling a vehicular direct current converter, comprising: selecting, by a controller, a control mode of a vehicular direct current converter based on a state of a vehicular auxiliary battery; when the selected control mode is a first control mode, detecting, by the controller, a state of charge (SOC) of the auxiliary battery and adjusting an output voltage of the vehicular direct current converter based on a map previously mapped with an SOC and an output voltage, corresponding to the SOC, of the vehicular direct current converter; and when the selected control mode is a second control mode, detecting, by the controller, an SOC of the vehicular auxiliary battery, and, when the detected SOC of the auxiliary battery falls within a predetermined setting range, adjusting the output voltage of the vehicular direct current converter to allow the auxiliary battery to have zero current and maintain the SOC of the auxiliary battery. 7. The method of claim 6 , wherein the maintaining of the SOC of the auxiliary battery includes: detecting, by the controller, the SOC of the vehicular auxiliary battery; discharging the auxiliary battery when the detected SOC of the auxiliary battery is greater than values within the predetermined setting range; and charging the auxiliary battery when the detected SOC of the auxiliary battery is less than the values within the predetermined setting range, wherein the setting range includes a first setting range and a second setting range having values less than those of the first setting range, and the output voltage of the vehicular direct current converter is adjusted to allow the auxiliary battery to have zero current when the SOC of the auxiliary battery falls within the first setting range. 8. The method of claim 7 , wherein, when the SOC of the auxiliary battery falls within the second setting range, the output voltage of the vehicular direct current converter is adjusted to allow the auxiliary battery to have zero current based on a result obtained by determining whether regenerative braking is being performed or determining a state of an electric field load. 9. The method of claim 8 , wherein, when the SOC of the auxiliary battery falls within the second setting range and regenerative braking is not being performed or the electric field load is not in a preconfigured low-load state, the output voltage of the vehicular direct current converter is adjusted to allow the auxiliary battery to have zero current. 10. The method of claim 6 , wherein the selecting of the control mode of the vehicular direct current converter includes: selecting, by the controller, the first control mode when the auxiliary battery is in a fail-safe state, an auxiliary battery protection state, or a high-electric-field-load-operation-requiring state; and selecting, by the controller, the second control mode when the auxiliary battery is in another state. 11. A system for controlling a vehicular direct current converter, comprising: a vehicular auxiliary battery configured to supply electric power to an electric field load; a vehicular direct current converter configured to change a voltage level to charge the auxiliary battery; an auxiliary battery sensor configured to measure a state of charge (SOC), a current, and a temperature of the auxiliary battery; and a controller configured to detect an SOC of the vehicular auxiliary battery and, when the detected SOC of the auxiliary battery falls within a predetermined setting range, adjust an output voltage of the vehicular direct current converter to allow the auxiliary battery to have zero current and maintain the SOC of the auxiliary battery. 12. The system of claim 11 , wherein the controller is configured to: select a control mode of the vehicular direct current converter based on a state of the vehicular auxiliary battery; when the selected control mode is a first control mode, detect the SOC of the auxiliary battery and adjust the output voltage of the vehicular direct current converter based on a map previously mapped with an SOC and an output voltage, corresponding to the SOC, of the vehicular direct current converter; and when the selected control mode is a second control mode, detect the SOC of the vehicular auxiliary battery and, when the detected SOC of the auxiliary battery falls within the predetermined setting range, adjust the output voltage of the vehicular direct current converter to allow the auxiliary battery to have zero current and maintain the SOC of the auxiliary battery. 13. The system of claim 11 , wherein the setting range includes a first setting range and a second setting range having values less than those of the first setting range, and the controller is configured to adjust the output voltage of the vehicular direct current converter to allow the auxiliary battery to have zero current when the SOC of the auxiliary battery falls within the first setting range. 14. The system of claim 13 , wherein the controller is configured to adjust the output voltage of the vehicular direct current converter to allow the auxiliary battery to have zero current when the SOC of the auxiliary battery falls within the second setting range and regenerative braking is not being performed or an electric field load is not in a preconfigured low-load state.