Display device and method for driving display device

What is claimed is: 1 . A display device, comprising: a reference voltage line electrically connected with a first node and receiving a sensing voltage reflecting a characteristic value of at least one subpixel; and an analog-to-digital converter including a second node, configured to receive the sensing voltage and output a digital value corresponding to the sensing voltage, wherein a voltage level of a driving reference voltage applied to the first node and a voltage level of an analog-to-digital converting reference voltage applied to the second node are changed depending on a voltage level of the sensing voltage. 2 . The display device of claim 1 , wherein a degree of the change in the voltage level of the driving reference voltage is identical to a degree of the change in the voltage level of the analog-to-digital converting reference voltage. 3 . The display device of claim 1 , further comprising a power management circuit configured to control the voltage level of the driving reference voltage and the voltage level of the analog-to-digital converting reference voltage. 4 . The display device of claim 3 , wherein the analog-to-digital converter is configured to convert an analog voltage in a predetermined voltage range from the analog-to-digital converting reference voltage into a digital value corresponding to the analog voltage and output the digital value. 5 . The display device of claim 4 , wherein the power management circuit performs at least one driving operation of: a first driving operation for decreasing the voltage levels of the analog-to-digital converting reference voltage and the driving reference voltage if the level of the sensing voltage is not greater than the analog-to-digital converting reference voltage; and a second driving operation for increasing the voltage levels of the analog-to-digital converting reference voltage and the driving reference voltage if the level of the sensing voltage is not less than the analog-to-digital converting reference voltage plus the predetermined voltage range. 6 . The display device of claim 4 , further comprising a controller configured to receive the digital value and performing a repeated sensing driving operation which repeatedly senses the characteristic value of the at least one subpixel if a first saturation value or a second saturation value is input to the controller. 7 . The display device of claim 6 , wherein the first saturation value is output from the analog-to-digital converter if the level of the sensing voltage of the at least one subpixel is not greater than the analog-to-digital converting reference voltage, and the second saturation value is output from the analog-to-digital converter the if the level of the sensing voltage of the at least one subpixel is not less than the voltage level of the analog-to-digital converting reference voltage plus the predetermined voltage range. 8 . The display device of claim 6 , wherein, during a period when the repeated sensing driving operation is performed, the power management circuit changes the voltage level of the analog-to-digital converting reference voltage by a preset voltage level and inputs the changed voltage level of the analog-to-digital converting voltage to the second node. 9 . The display device of claim 6 , wherein the controller performs the repeated sensing driving operation two or more times until the level of the sensing voltage is greater than the analog-to-digital converting reference voltage and smaller than the voltage level of the analog-to-digital converting reference voltage plus the predetermined voltage range. 10 . The display device of claim 6 , wherein the controller performs the repeated sensing driving operation for repeatedly sensing the characteristic value of the at least one subpixel after performing first sensing driving operation for sensing a characteristic value of a plurality of subpixels. 11 . The display device of claim 10 , further comprising a data driving circuit configured to control a data signal to input to a plurality of data lines, wherein the controller controls the data driving circuit to input a data signal reflecting the degree of change in the voltage levels of the analog-to-digital converting reference voltage and the driving reference voltage to remaining subpixels except for the at least one subpixel among the plurality of subpixels. 12 . The display device of claim 1 , wherein the display device has a driving period that includes an active period during which a data signal for image display is input to a plurality of data lines and a blank period between two different active periods, and wherein the driving reference voltage is a voltage input to the at least one subpixels electrically connected with the reference voltage line during the active period. 13 . A method for driving a display device, the method comprising: receiving a sensing voltage reflecting a characteristic value of at least one subpixel from a reference voltage line and outputting a digital value corresponding to the received sensing voltage to a controller, by an analog-to-digital converter; changing a voltage level of an analog-to-digital converting reference voltage input to the analog-to-digital converter based on the sensing voltage; and changing a voltage level of a driving reference voltage input to a first node based on a degree of the change in the voltage level of the analog-to-digital converting reference voltage, wherein the first node is a node electrically connected with the reference voltage line. 14 . The method of claim 13 , further comprising: determining whether the input digital value corresponds to a first saturation value or a second saturation value of the analog-to-digital converter, by the controller; and performing a repeated sensing driving operation on a subpixel for which a voltage reflecting a characteristic value of a subpixel is changed to the first saturation value or the second saturation value among the at least one subpixels, by the controller. 15 . The method of claim 14 , further comprising storing, in a memory, an additional compensation value calculated according to the repeated sensing driving operation by the controller. 16 . A display device, comprising: an analog-to-digital converter configured to receive a sensing voltage reflecting a characteristic value of at least one subpixel from a reference voltage line and to output a digital value corresponding to the received sensing voltage; a controller configured to receive the digital value from the analog-to-digital converter and to sense the characteristic value of the at least one subpixel when the received digital value is a first saturation value or a second saturation value; and a power management circuit configured to change an analog-to-digital converting reference voltage under control of the controller, wherein the controller is configured to control the analog-to-digital converter to change a voltage level of the analog-to-digital converting reference voltage during an off-sensing process period and to perform a sensing driving operation to compensate for characteristic values of the at least one subpixels during the off-sensing process period. 17 . The display device of claim 16 , wherein the at least one subpixels include normal subpixels having the digital value reflecting the characteristic value of a corresponding subpixel between the first saturation value and the second saturation value and abnormal subpixels having the digital value reflecting the characteristic value of a corres