Display Device and Display Driving Method

What is claimed is: 1 . A display device comprising: a display panel including a plurality of subpixels, a plurality of gate lines, a plurality of data lines, and a plurality of driving transistors each included in a corresponding subpixel from the plurality of subpixels; a data driving circuit configured to convert image data into data voltages and apply the data voltages to the plurality of data lines; and a timing controller configured to control the data driving circuit and switch between a first compensation mode and a second compensation mode responsive to a driving frequency variation of the display device during which the display device switches between different driving frequencies exceeding a reference value, wherein, in the first compensation mode, the data voltages of the plurality of driving transistors in an entire area of the display panel are compensated through a real-time sensing process of characteristic values of the plurality of driving transistors during a blank period of a frame period, the frame period including a display driving period during which the data voltages are applied and the blank period during which the data voltages are maintained, and in the second compensation mode, the data voltages of the plurality of driving transistors in at least a partial area of the display panel are compensated for according to a temperature value of the display panel. 2 . The display device of claim 1 , wherein the driving frequency variation is determined based on a difference between a number of pulses of a horizontal synchronization signal in a current frame and a number of pulses of the horizontal synchronization signal in a previous frame. 3 . The display device of claim 1 , wherein the reference value is a value greater than or equal to 20% of a maximum driving frequency from amongst a frequency range of operation of the display device. 4 . The display device of claim 1 , wherein, in the second compensation mode, the data voltages applied to the plurality of driving transistors in the entire area of the display panel are compensated for according to the temperature value. 5 . The display device of claim 1 , wherein in the second compensation mode, data voltages of first driving transistors from the plurality of driving transistors in a first area of the display panel are compensated through the real-time sensing process of the characteristic values of the first driving transistors during the blank period, and data voltages of second driving transistors from the plurality of driving transistors in a second area of the display panel that excludes the first area are compensated according to the temperature value of the display panel. 6 . The display device of claim 5 , wherein the first area includes an area with a brightness deviation smaller than a predetermined value of a brightness deviation due to the driving frequency variation in the display panel. 7 . The display device of claim 6 , wherein the first area includes an upper area of the display panel where less than 5% of the plurality of gate lines are disposed in the display panel are disposed and a lower area of the display panel where less than 5% of the plurality of gate lines are disposed in the display panel. 8 . The display device of claim 1 , wherein the characteristic value of at least one driving transistor of the plurality of driving transistors is a mobility of the driving transistor and the mobility of the driving transistor is sensed during the real-time sensing process of the first compensation mode. 9 . The display device of claim 1 , wherein the timing controller switches to the first compensation mode from the second compensation mode responsive to elapsing of a reference time from when the second compensation mode began. 10 . The display device of claim 9 , wherein the reference time for the frame period is determined according to a speed of the image data. 11 . The display device of claim 9 , wherein, the timing controller initializes switching from the first compensation mode to the second compensation mode responsive to the driving frequency variation exceeding the reference value within the reference time. 12 . The display device of claim 1 , wherein the timing controller applies a recovery voltage that resets a subpixel from the plurality of subpixels after the real-time sensing process during the blank period. 13 . The display device of claim 1 , further comprising: a temperature sensor configured to measure the temperature value that is indicative of the temperature of the display panel. 14 . The display device of claim 1 , wherein the temperature value is determined based on a histogram for each gradation of the image data. 15 . The display device of claim 1 , wherein the temperature value is based an on-pixel ratio of the display panel due to the image data. 16 . A display driving method of a display device including a display panel including a plurality of subpixels, a plurality of gate lines, a plurality of data lines, and a plurality of driving transistor transistors each included in a corresponding subpixel from the plurality of subpixels, and a data driving circuit configured to convert image data into data voltages and apply the data voltages to the plurality of data lines, the method comprising: operating in a first compensation mode during which the data voltages applied to the plurality of driving transistors in an entire area of the display panel are compensated for through a real-time sensing process of characteristic values of the plurality of driving transistors during a blank period of a frame period, the frame period including a display driving period during which the data voltages are applied and the blank period during which the data voltages are maintained; calculating a driving frequency variation between a driving frequency of a current frame and a driving frequency of a previous frame that is prior to the current frame; comparing the frequency variation with a reference value; and switching from operating in the first compensation mode to operating in a second compensation mode responsive to the frequency variation being greater than the reference value, wherein, during the second compensation mode, the data voltages applied to the plurality of driving transistors in at least a partial area of the display panel are compensated according to a temperature value of the display panel. 17 . The display driving method of claim 16 , wherein operating in the second compensation mode comprises: counting a number of frames since a start of the second compensation mode; comparing the counted number of frames with a reference frame threshold; and switching operation from the second compensation mode to operating in the first compensation mode responsive to the counted number of frames being greater than the reference frame threshold. 18 . The display driving method of claim 17 , further comprising: initializing the counted number of frames to a predetermined value responsive to the driving frequency variation being greater than the reference value and the counted number of frames being less than the reference frame threshold. 19 . The display driving method of claim 16 , wherein, during the second compensation mode, data voltages applied to first driving transistors from the plurality of driving transistors in a first area of the display panel are compensated through the real-time sensing process of characteristic values of the first driving transistors during the blank period, and