Data driver and driving method with control of bias current based on pixel image data

What is claimed is: 1. A data driver comprising: a plurality of buffers that respectively output data voltages corresponding to pixel image data; a plurality of bias units that correspond to the buffers in a one-to-one correspondence and drive the buffers, respectively; and a global setting part that applies a plurality of control level values to the bias units, and further applies a plurality of activation signals to the bias units, the plurality of activation signals each defining a transition period and a control period, wherein each of the bias units comprises: a bias signal generating unit that selects one control level value among the control level values and one activation signal among the plurality of activation signals based on a corresponding pixel image data among the pixel image data and generates a bias signal having a transition level value during the transition period of the selected activation signal and having the selected control level value during the control period of the selected activation signal; and a current generating unit that generates a corresponding bias current in response to the bias signal and applies the corresponding bias current to a corresponding buffer among the buffers. 2. The data driver of claim 1 , further comprising: a sampling latch that receives input image data and samples the pixel image data from the input image data in response to a sampling signal; and a digital-to-analog converter that converts the pixel image data to the data voltages and respectively applies the data voltages to the buffers, wherein the bias signal generating unit receives the corresponding pixel image data from the sampling latch among the pixel image data. 3. The data driver of claim 2 , wherein the bias signal generating unit comprises a variation detector, an activation multiplexer, a level multiplexer, and a bias signal generator, the variation detector receives the corresponding pixel image data and generates a selection signal based on the corresponding pixel image data, the activation multiplexer selects one activation signal among the activation signals in response to the selection signal and outputs the selected activation signal as a selection activation signal, the level multiplexer selects one control level value among the control level values in response to the selection signal and outputs the selected control level value as a selection control level value, and the bias signal generator selects the transition level value during the transition period of the selected activation signal in response to the selection activation signal and selects the selected control level value during the control period of the selected activation signal in response to the selection activation signal to generate the bias signal. 4. The data driver of claim 3 , wherein the control periods and the transition periods are provided in every horizontal period. 5. The data driver of claim 4 , wherein the transition periods precede the control periods in the horizontal period and the transition level value is greater than the control level value. 6. The data driver of claim 3 , wherein the corresponding pixel image data of the pixel image data comprises a previous pixel image data provided in an (L−1)th horizontal period and a present pixel image data provided in an L-th horizontal period, and the variation detector comprises: a pixel memory that stores the previous pixel image data; and a comparator that calculates an absolute value of a difference between a previous grayscale value of the previous pixel image data and a present grayscale value of the present pixel image data and generates the selection signal in accordance with the calculated absolute value. 7. The data driver of claim 6 , wherein the comparator compares upper i (“i” is a natural number) bits of the previous pixel image data and upper i bits of the present pixel image data to generate the selection signal, and there are 2i number of each of the control level values and the activation signals. 8. The data driver of claim 7 , wherein i is equal to 1 and the comparator receives the previous pixel image data and the present pixel image data and performs an exclusive-OR calculation on the previous pixel image data and the present pixel image data. 9. The data driver of claim 2 , wherein the global setting part comprises a control level value generator that subtracts each of bias different values from the transition level value to generate the control level values. 10. The data driver of claim 9 , wherein the global setting part further comprises a activation signal generator that generates the activation signals based on control start time points having information about start points of the control periods and control end time points having information about end points of the control periods. 11. The data driver of claim 10 , wherein the global setting part further comprises an image controller that receives the input image data, analyzes the input image data, and generates at least one of the transition level value, the bias different values, the control start time points, and the control end time points based on the analyzed result. 12. The data driver of claim 11 , wherein the image controller analyzes the input image data every horizontal period and generates at least one of the transition level value, the bias different values, the control start time points, and the control end time points. 13. A method of driving a data driver, comprising: outputting a plurality of data voltages corresponding to pixel image data through a plurality of buffers, respectively; driving the buffers using a plurality of bias units that correspond to the buffers in a one-to-one correspondence; applying a plurality of control level values to the bias units; and applying a plurality of activation signals to the bias units, the plurality of activation signals each defining a transition period and a control period; wherein driving the buffers comprises: selecting one control level value among the control level values and one activation signal among the activation signals based on a corresponding pixel image data among the pixel image data; generating a bias signal having a transition level value during the transition period of the selected activation signal and having the selected control level value during the control period of the selected activation signal; generating a bias current in response to the bias signal; and applying the bias current to a corresponding buffer among the buffers. 14. A display device comprising: a display panel configured to output a pixel image data; and a data driver configured to output a plurality of data voltages to the display panel, wherein the data driver comprises: a plurality of buffers that respectively output the data voltages corresponding to the pixel image data; a plurality of bias units that correspond to the buffers in a one-to-one correspondence and drive the buffers, respectively; and a global setting part that applies a plurality of control level values to the bias units, and further applies a plurality of activation signals to the bias units, the plurality of activation signals each defining a transition period and a control period, wherein each of the bias units comprises: a bias signal generating unit that selects one control level value among the control level values and one activation signal among the plurality of activation signals based on a corresponding pixel image data among the pixel image data and generates a bias signal having a transition level value during the transition period of the selected activation si