In-cell type touch display device including switching part and method of driving the same

What is claimed is: 1. An in-cell type touch display device, comprising: a panel including a plurality of electrodes, a display driver integrated circuit (IC) and a switching part, the plurality of electrodes being divided into a plurality of groups; and a touch IC generating a touch scan signal and applying the touch scan signal to the switching part, wherein the display driver IC generates a common voltage and applies the common voltage to the switching part, wherein the switching part applies the common voltage to the plurality of electrodes when a driving mode of the panel is a display driving mode, and sequentially applies the touch scan signal to the electrodes in the plurality of groups with respect to each group when a driving mode of the panel is a touch driving mode, wherein the plurality of groups includes a first group and a second group, wherein the touch driving mode includes a first touch driving mode and a second touch driving mode next to the first touch driving mode, wherein the switching part sequentially applies the touch scan signal to the electrodes in the first group when a driving mode of the panel is the first touch driving mode, and sequentially applies the touch scan signal to the electrodes in the second group when a driving mode of the panel is the second touch driving mode, wherein the display driver IC is configured to: generate a sync signal for the driving mode of the panel, generate a control signal for supplying the common voltage to the plurality of electrodes when the sync signal is a first sync signal for the display driving mode, and sequentially connect the electrodes in the plurality of groups with the touch IC when the sync signal is a second sync signal for the touch driving mode, and wherein the touch IC detects a self-capacitive type variation of an electrostatic capacitance of each of the plurality of electrodes. 2. The in-cell type touch display device according to claim 1 , wherein the panel is divided into a display region and a non-display region, and wherein the plurality of electrodes are formed in the display region, and the display driver IC and the switching part are formed in the non-display region. 3. The in-cell type touch display device according to claim 1 , wherein the plurality of electrodes serve as a common electrode when the driving mode of the panel is the display driving mode, and each of the plurality of electrodes serves as a touch electrode when the driving mode of the panel is the touch driving mode. 4. The in-cell type touch display device according to claim 1 , wherein the switching part includes a first switching part operating according to the sync signal and a second switching part operating according to the control signal. 5. The in-cell type touch display device according to claim 4 , wherein the first switching part is connected to the common voltage generating part and the touch IC, wherein the first switching part connects the common voltage generating part with the second switching part when the sync signal is the first sync signal for the display driving mode, and the first switching part connects the touch IC with the second switching part when the sync signal is the second sync signal for the touch driving mode, wherein the second switching part is connected to the first switching part and one electrode of each group, and wherein the second switching part connects the first switching part with the electrodes when the sync signal is the first sync signal, and the second switching part sequentially connects the first switching part with the electrodes in the plurality of groups when the sync signal is the second sync signal. 6. The in-cell type touch display device according to claim 4 , wherein the first switching part includes a plurality of 2:1 MUXes. 7. The device according to claim 1 , wherein the plurality of electrodes and the switching part are directly connected to each other by a plurality of lines. 8. The device according to claim 1 , wherein in the first touch driving mode, the switching part does not apply the touch scan signal to the electrodes in the second group while sequentially applying the touch scan signal to the electrodes in the first group, and wherein in the second touch driving mode, the switching part does not apply the touch scan signal to the electrodes in the first group while sequentially applying the touch scan signal to the electrodes in the second group. 9. A method of driving an in-cell type touch display device including a panel and a touch IC generating a touch scan signal, the panel including a plurality of electrodes divided into a plurality of groups, a display driver IC generating a common voltage, and a switching part applying the common voltage or the touch scan signal into the plurality of electrodes, the touch IC applying the touch scan signal to the switching part, the method comprising: applying the common voltage to the plurality of electrodes when a driving mode of the panel is a display driving mode; and sequentially applying the touch scan signal to the plurality of electrodes in the plurality of groups with respect to each group when the driving mode of the panel is a touch driving mode, wherein the plurality of groups includes a first group and a second group, wherein the touch driving mode includes a first touch driving mode and a second touch driving mode next to the first touch driving mode, and wherein the sequentially applying the touch scan signal to the plurality of electrodes in the plurality of groups includes: sequentially applying the touch scan signal to the electrodes in the first group when a driving mode of the panel is the first touch driving mode; and sequentially applying the touch scan signal to the electrodes in the second group when a driving mode of the panel is the second touch driving mode, wherein the display driver IC is configured to: generate a sync signal for the driving mode of the panel, generate a control signal for supplying the common voltage to the plurality of electrodes when the sync signal is a first sync signal for the display driving mode, and sequentially connect the electrodes in the plurality of groups with the touch IC when the sync signal is a second sync signal for the touch driving mode, and wherein the touch IC detects a self-capacitive type variation of an electrostatic capacitance of each of the plurality of electrodes. 10. The method according claim 9 , wherein the switching part includes a first switching part operating according to the sync signal and a second switching part operating according to the control signal, and wherein the applying the common voltage to the plurality of electrodes includes: connecting the common voltage generating part with the second switching part when the first switching part receives the first sync signal for the display driving mode; and connecting the first switching part with the electrodes when the second switching part receives the first sync signal for the display driving mode. 11. The method according claim 9 , wherein the switching part includes a first switching part operating according to the sync signal and a second switching part operating according to the control signal, and wherein the sequentially applying the touch scan signal to the plurality of electrodes in the plurality of groups includes: connecting the touch IC with the second switching part when the first switching part receives the second sync signal for the touch driving mode; and sequentially connecting the first switching part with the plurality of electrodes in the plurality of groups when the second switching part receives the control signal according to the sec