Display apparatus and method of driving the same

What is claimed is: 1. A display apparatus comprising: a mode determiner configured to compare image signals of a previous frame and a current frame and to determine an image mode of the current frame; a sync signal generator configured to generate a panel sync signal with a low frequency corresponding to the image mode using an original sync signal with a normal frequency, the low frequency being a non-divisor frequency of the normal frequency and lower than the normal frequency; a data driver configured to drive a data line of a display panel using a data sync signal based on the panel sync signal with the low frequency; and a gate driver configured to drive a gate line of the display panel using a gate sync signal based on the panel sync signal with the low frequency, wherein the sync signal generator is configured to generate a vertical sync signal with the low frequency based on a vertical sync signal with the normal frequency, and the vertical sync signal with the low frequency has a first frame period and a second frame period different from the first frame period, and wherein the first frame period and the second frame period have an active period the same as each other and a vertical blanking period different from each other. 2. The display apparatus of claim 1 , wherein the sync signal generator is configured to generate a low-frequency data enable signal activated respectively corresponding to the active period of the first and second frames. 3. The display apparatus of claim 1 , wherein the sync signal generator is configured to generate a reference vertical sync signal having a first starting pulse corresponding to the first frame period and a second starting pulse corresponding to the second frame period, and to generate a low-frequency vertical starting signal having a first starting pulse and a second starting pulse, one of the first and second starting pulses of the low-frequency vertical starting signal shifted from a corresponding pulse of the reference vertical sync signal. 4. The display apparatus of claim 3 , wherein the first and second starting pulses of the low-frequency vertical starting signal are repeated by a substantially same period as each other. 5. The display apparatus of claim 3 , wherein the gate driver starts an operation in response to the low-frequency vertical starting signal. 6. The display apparatus of claim 1 , wherein the low-frequency vertical sync signal has the first frame period and the second frame period, and the first and second frame periods are repeated in an order of the first, second, second and first frame periods, respectively. 7. The display apparatus of claim 5 , wherein the data driver is configured to output a data voltage which swings between a positive polarity and a negative polarity opposite to the positive polarity with respect to a reference voltage. 8. A method of driving a display apparatus comprising: determining an image mode of a current frame using image signals of a previous frame and the current frame; generating a panel sync signal with a low frequency corresponding to the image mode using an original sync signal with a normal frequency, the low frequency being a non-divisor frequency of the normal frequency and being lower than the normal frequency; driving a data line of a display panel using a data sync signal based on the panel sync signal with the low frequency; and driving a gate line of the display panel using a gate sync signal based on the panel sync signal with the low frequency, further comprising: generating a vertical sync signal with the low frequency base on a vertical sync signal with the normal frequency, wherein the vertical sync signal with the low frequency has a first frame period and a second frame period different from the first frame period, and wherein the first frame period and the second frame period have an active period the same as each other and a vertical blanking period different from each other. 9. The method of claim 8 , further comprising generating a low-frequency data enable signal activated respectively corresponding to the active period of the first and second frames. 10. The method of claim 8 , further comprising: generating a reference vertical sync signal having a first starting pulse corresponding to the first frame period and a second starting pulse corresponding to the second frame period, and generating a low-frequency vertical starting signal having a first starting pulse and a second starting pulse, one of the first and second starting pulses of the low-frequency vertical starting signal shifted from a corresponding pulse of the reference vertical sync signal. 11. The method of claim 10 , wherein the first and second starting pulses of the low-frequency vertical starting signal are repeated with a same period. 12. The method of claim 8 , wherein the low-frequency vertical sync signal has the first frame period and the second frame period, and the first and second frame periods are repeated in an order as the first, second, second and first frame periods, respectively. 13. The method of claim 12 , further comprising: outputting a data voltage which swings between a positive polarity and a negative polarity opposite to the positive polarity with respect to a reference voltage, to the data line. 14. A timing controller for an image display apparatus, the timing controller comprising: an image data input configured to receive a plurality of original image frames; a memory coupled to the image data input; a mode determiner coupled to the memory and configured to receive present frame image data from at least one of the image data input or the memory, retrieve previous frame image data from the memory, compare the present frame image data with the previous frame image data to determine whether one of a plurality of low frequencies is achievable, and generate mode information indicative of a low frequency corresponding to a substantially lowest achievable frequency of the plurality of low frequencies; and a sync signal generator connected to the mode determiner and configured to receive the mode information, generate at least one of a start signal or a data enable signal, and output the at least one generated signal, wherein the sync signal generator is configured to generate a vertical sync signal with the low frequency based on a vertical sync signal with the normal frequency, and the vertical sync signal with the low frequency has a first frame period and a second frame period different from the first frame period, and wherein the first frame period and the second frame period have an active period the same as each other and a vertical blanking period different from each other. 15. The timing controller of claim 14 , further comprising at least one of a synchronization signal input or a data enable signal input coupled to the sync signal generator. 16. The timing controller of claim 14 , wherein the image data input is configured to receive original image data having an original frame frequency, the mode determiner is configured to generate mode information indicative of a low frequency corresponding to a frame frequency lower than the original frame frequency, where the original frame frequency may be unequally divisible by the low frequency, and the sync signal generator is configured to generate a synchronization signal corresponding to the low frequency by at least one of adjusting a start time of one of a plurality of alternating sub-frames within each frame or inverting an order of alternating sub-frames within each frame.