Apparatus for modifying voltage command for detecting output current in inverter

What is claimed is: 1. An apparatus for modifying voltage command for detecting output current in inverter, the apparatus comprising: a first determiner configured to determine a sector in a voltage hexagon that is output voltage vectors corresponding to switch states defined by the voltage hexagon, the sector having a PWM voltage command therein, by comparing each of 3-phase components in the PWM voltage command, and determine a maximum voltage, an intermediate voltage and a minimum voltage at a 3-phase PWM voltage command using the determination of the sector; a second determiner configured to determine an area, the area having the PWM voltage command, within a current detection disabled area by converting a minimum sampling time to a minimum sampling PWM and using the converted minimum sampling PWM, wherein the second determiner does not modify the PWM voltage command by determining that the area positioned with the PWM voltage command is a current detectable area, when a voltage deducted of a minimum sampling PWM from a maximum value of PWM triangular wave is greater than or equal to the intermediate voltage; and a command modification unit configured to determine an adjusting voltage and a restoring voltage using a minimum injection voltage based on the determined area and to modify the PWM voltage command, wherein the adjusting voltage is a modified voltage in an OFF sequence by deducing the minimum injection voltage from the PWM voltage command to move the PWM voltage command out of the current detection disabled area to a current detectable area within the voltage hexagon, the restoring voltage is a modified voltage in an ON sequence by adding the minimum injection voltage to the PWM voltage command to compensate for a difference of the adjusting voltage; and the minimum injection voltage is provided by using a geometry property in the voltage hexagon. 2. The apparatus of claim 1 , wherein the second determiner determines the area having the PWM voltage command as a first area when the restoring voltage is smaller than or equal to a maximum voltage. 3. The apparatus of claim 2 , wherein the first area is defined by an area where a zero vector application time of the adjusting voltage and the restoring voltage is unchanged. 4. The apparatus of claim 2 , wherein the command modification unit determines the adjusting voltage and the restoring voltage by applying each application time of voltage vector to the PWM voltage command by calculating said each application time of voltage vector using geometric nature of the voltage hexagon. 5. The apparatus of claim 1 , wherein the second determiner determines the area having the PWM voltage command as a second area when a zero vector application time of restoring voltage is greater than zero. 6. The apparatus of claim 5 , wherein the second area is defined by an area where a zero vector application time of the restoring voltage grows smaller than a zero vector application time of PWM voltage command. 7. The apparatus of claim 5 , wherein the command modification unit determines the adjusting voltage and the restoring voltage by applying each application time of voltage vector to the PWM voltage command by calculating said each application time of voltage vector using geometric nature of the voltage hexagon. 8. The apparatus of claim 1 , wherein the second determiner determines as a third area when a difference between the intermediate voltage and the minimum voltage is smaller than a difference between the twice the maximum value of the PWM triangular wave and the minimum value divided by 2. 9. The apparatus of claim 8 , wherein the third area is defined by an area where a zero vector application time of the adjusting voltage also changes. 10. The apparatus of claim 8 , wherein the command modification unit determines an injection voltage to allow the minimum voltage to be injected in an area that satisfies a first condition where the PWM voltage command deviates from the current unmeasurable area by the injection voltage, and a second condition where a compensation voltage must exist within a voltage hexagon, and determines the adjusting voltage and the restoring voltage using said determination. 11. The apparatus of claim 8 , wherein the second determiner determines as a fourth area when a difference between the intermediate voltage and the minimum voltage is greater than or equal to a difference between the twice the maximum value of the PWM triangular wave and the minimum value divided by 2. 12. The apparatus of claim 11 , wherein the command modification unit determines the adjusting voltage and the restoring voltage within the current measurable area in consideration of an amount of voltage error. 13. The apparatus of claim 1 , wherein the PWM voltage command is generated by an inverter controller, wherein the inverter controller includes a converter configured to convert a 2-phase voltage command outputted from a 3-phase inverter to a 3-phase voltage command, an application unit configured to convert the 3-phase voltage command to a terminal voltage command using a space vector, a generator configured to generate a PWM voltage command using the terminal voltage command, and a modifier configured to modify the PWM voltage command when the PWM voltage command is positioned at the current detection disabled area within the voltage hexagon.