Display device and driving method thereof

What is claimed is: 1. A display device, comprising: a display unit which includes a plurality of pixels including organic light emitting diodes (OLEDs), the plurality of pixels being divided into a plurality of light emitting groups; a light emitting driving unit which generates a plurality of light emitting signals controlling a light emitting period and a non-light emitting period of each of the plurality of light emitting groups; a touch sensing unit which includes a plurality of first electrodes formed on the plurality of pixels in a first direction and corresponding to each of the plurality of light emitting groups, and a plurality of second electrodes formed on the plurality of first electrodes in a second direction, having an insulating layer therebetween, and outputs a magnitude of voltage between the first electrode and the second electrode by a touch from the outside as a sensing signal; and a touch determination unit which applies a plurality of touch scan signals to each of the plurality of first electrodes during the non-light emitting period of each of the plurality of light emitting groups and determines a touched position in response to the sensing signal of the touch sensing unit, wherein the touch determination unit includes a plurality of signal controllers which generate the plurality of touch scan signals, and each of the plurality of signal controllers includes: a plurality of first transistors which are turned on in response to each of the plurality of scan signals applied to the plurality of scan lines to output a voltage level higher than a first power supply voltage: and a plurality of second transistors which output the first power supply voltage in response to a light emitting signal applied to the corresponding light emitting group. 2. The display device of claim 1 , wherein each of the first electrodes is a cathode electrode. 3. The display device of claim 2 , wherein the touch scan signal has the voltage level higher than the first power supply voltage during the non-light emitting period. 4. The display device of claim 2 , wherein the touch scan signal alternately has the voltage level higher than the first power supply voltage and the first power supply voltage during the non-light emitting period. 5. The display device of claim 4 , further comprising: a scan driving unit which selectively applies a plurality of scan signals to a plurality of scan lines formed in a region corresponding to the corresponding light emitting group during the non-light emitting period of each of the plurality of light emitting groups. 6. The display device of claim 5 , wherein: the touch determination unit outputs the touch scan signal having the voltage level higher than a first power supply voltage to the corresponding first electrode using the plurality of scan signals during the non-light emitting period of each of the plurality of light emitting groups. 7. The display device of claim 6 , wherein: the touch determination unit outputs the first power supply voltage in response to the light emitting signal of the corresponding light emitting group during the light emitting period of each of the plurality of light emitting groups. 8. The display device of claim 2 , further comprising: a scan driving unit which selectively applies a plurality of first and second scan signals to a plurality of first and second scan lines formed in the corresponding region during the non-light emitting period of each of the plurality of light emitting groups. 9. The display device of claim 8 , wherein each pixel of the region corresponding to each light emitting group includes: a first transistor having a control electrode, a first electrode is electrically connected to a first power supply, and a second electrode in which current corresponding to voltage between the control electrode and the first electrode flows; a second transistor which is turned on in response to the corresponding first scan signal to apply initialization voltage to the control electrode of the first transistor; a third transistor which is turned on in response to the corresponding second scan signal to diode-connect the first transistor; a fourth transistor which is turned on in response to the corresponding second scan signal to apply corresponding data voltage to the first electrode of the first transistor; and a fifth transistor which is turned on in response to the corresponding light emitting signal to transfer current to the OLED, and the second transistor is turned on by the corresponding first scan signal and then the third and fourth transistors are turned on by the corresponding second scan signal. 10. The display device of claim 9 , wherein: the touch determination unit outputs a touch scan signal alternately having the first power supply voltage and the voltage level higher than the first power supply voltage using the plurality of first and second scan signals during the non-light emitting period of each of the plurality of light emitting groups. 11. The display device of claim 9 , wherein the touch determination unit includes a plurality of signal controllers which generate the plurality of touch scan signals, and each of the plurality of signal controllers includes: a plurality of sixth transistors which are turned on in response to each of the plurality of first scan signals applied to the plurality of first scan lines corresponding to the corresponding light emitting groups to output a first voltage level higher than the power supply voltage; a plurality of seventh transistors which are turned on in response to each of the plurality of second scan signals applied to the plurality of second scan lines corresponding to the corresponding light emitting groups to output the power supply voltage; and a plurality of eighth transistors which output the power supply voltage in response to a light emitting signal applied to the corresponding light emitting group. 12. The display device of claim 9 , wherein each pixel corresponding to each light emitting group further includes a capacitor which is connected between the first power supply and the control electrode of the first transistor. 13. A driving method of a display device displaying an image through a plurality of pixels each of which is connected to a plurality of data lines, a plurality of scan lines, and a plurality of light emitting control lines and includes a plurality of organic light emitting diodes (OLEDs), the driving method comprising: applying first voltage level of light emitting signals to light emitting control lines of a first light emitting group among a plurality of light emitting groups during a first period to block a supply of current to the OLED of the first pixel group corresponding to the first light emitting group; applying a plurality of scan signals applied to a plurality of scan lines of the first pixel group among the plurality of scan lines during the first period; applying second voltage level of light emitting signals to light emitting control lines of the first light emitting group during a second period to transfer current corresponding to a plurality of first data voltages to the OLED of the first pixel group; and generating a touch scan signal having a voltage level higher than a first power supply voltage by a plurality of first transistors which are turned on in response to each of the plurality of scan signals during the first period; generating the touch scan signal having the first power supply voltage by a plurality of second transistors in response to the second voltage level of light emitting signals during the second period; applying the touch scan signal to a first touc