Display device having counter electrodes configured to use as common electrodes and scan electrodes

What is claimed is: 1. A display device comprising: counter electrodes which are configured to be used as both common electrodes for displaying and scan electrodes for touch sensing; a first scan circuit which scans gate lines; and a second scan circuit which drives the counter electrodes, wherein: the display device is configured so that one frame period includes at least one write period for scanning the gate lines and at least one touch sensing period for scanning the scan electrodes; the display device has a first mode in which the write period and the touch sensing period appear alternately multiple times in one frame period and a second mode in which one frame period includes a write period for continuously scanning one screen and a touch sensing period existing between one-screen write period in a current frame and one-screen write period in a next frame; the second scan circuit includes a shift register unit and a switch unit; the first scan circuit and the second scan circuit include single-channel thin-film transistors; a switch unit includes a seventh thin-film transistor which outputs a direct current (DC) drive signal to an output node and an eighth thin-film transistor which outputs an alternating current (AC) drive signal to the output node; and a second control signal for fixing voltage of a third retention node to which a gate electrode of the seventh thin-film transistor is connected, the second control signal is inputted in the one-screen write period both in the current frame and the next frame of the second mode, the switch unit includes a tenth thin-film transistor for boosting voltage of a first node, to which a gate electrode of the eighth thin-film transistor is connected, according to a first selection signal, and the switch unit includes an eleventh thin-film transistor for further boosting the voltage of the first node according to a boost control signal. 2. The display device according to claim 1 , wherein the switch unit includes a ninth thin-film transistor for charging the third retention node according to the second control signal. 3. The display device according to claim 2 , wherein the switch unit includes retention capacitance which is connected to the third retention node. 4. The display device according to claim 1 , wherein the first scan circuit is arranged between the shift register unit and the switch unit in a plan view. 5. The display device according to claim 1 , further comprising sensing electrodes for the touch sensing. 6. A display device comprising: an array substrate including counter electrodes which are configured to be used as both common electrodes for displaying and scan electrodes for touch sensing, a first scan circuit which scans gate lines, and a second scan circuit which scans the counter electrodes; a counter substrate; and a control circuit, wherein: the display device is configured so that one frame period includes a write period for continuously scanning one screen and a touch sensing period existing between a write period in a current frame and a write period in a next frame; the first scan circuit scans the gate lines in the write period both in the current frame and the next frame; the second scan circuit scans the scan electrodes in the touch sensing period; the second scan circuit includes a shift register unit and a switch unit; the first scan circuit and the second scan circuit include single-channel thin-film transistors; the switch unit includes a seventh thin-film transistor which outputs a direct current (DC) drive signal to an output node and an eighth thin-film transistor which outputs an alternating current (AC) drive signal to the output node; a second control signal for fixing voltage of a third retention node to which a gate electrode of the seventh thin-film transistor is connected, the second control signal is inputted in the write period both in the current frame and the next frame, the switch unit includes a tenth thin-film transistor for boosting voltage of a first node, to which a gate electrode of the eighth thin-film transistor is connected, according to a first selection signal, and the switch unit includes an eleventh thin-film transistor for further boosting the voltage of the first node according to a boost control signal. 7. The display device according to claim 6 , wherein the switch unit includes a ninth thin-film transistor for charging the third retention node according to the second control signal. 8. The display device according to claim 7 , wherein the switch unit includes retention capacitance which is connected to the third retention node. 9. The display device according to claim 6 , wherein the display device is configured to be able to operate in a mode in which a write period and a touch sensing period appear alternately multiple times in one frame period. 10. The display device according to claim 6 , wherein the first scan circuit is arranged between the shift register unit and the switch unit in a plan view. 11. The display device according to claim 6 , wherein the counter substrate includes sensing electrodes for the touch sensing.