Display driver, and display device and system including the same

What is claimed is: 1. A display driver comprising: an interface circuit configured to receive n-bit image data from a host, n being an integer greater than zero; a graphics memory configured to store m-bit data per pixel corresponding to the n-bit image data received by the interface circuit, m being an integer greater than zero and less than n; a color converter configured to convert the m-bit data per pixel stored in the graphics memory into n-bit data per pixel and to output n-bit converted data; a selector configured to output the n-bit converted data based on a selection signal indicating a first mode and output the n-bit image data received from the host based on the selection signal indicating a second mode; and a source driver configured to drive a display panel based on output data of the selector. 2. The display driver of claim 1 , further comprising a register configured to store a register setting, wherein the color converter is further configured to convert the n-bit data according to the register setting. 3. The display driver of claim 1 , wherein the color converter is further configured to output first predetermined RGB data as the n-bit converted data in response to the m-bit data per pixel being one, and output second predetermined RGB data as the n-bit converted data in response to the m-bit data per pixel being zero. 4. The display driver of claim 1 , wherein integer m being one; and the color converter is further configured to output first predetermined RGB data as the n-bit converted data in response to the m-bit data per pixel being one and corresponding to a first area, output second predetermined RGB data as the n-bit converted data in response to the m-bit data per pixel being one and corresponding to a second area, output third predetermined RGB data as the n-bit converted data in response to the m-bit data per pixel being zero and corresponding to the first area, and output fourth predetermined RGB data as the n-bit converted data in response to the m-bit data per pixel being zero and corresponding to the second area. 5. The display driver of claim 1 , further comprising a register configured to store at least one conversion data set which defines a mapping between the m-bit data per pixel and the n-bit converted data. 6. The display driver of claim 5 , wherein the display driver is further configured to change the at least one conversion data set in the register in response to receiving a register setting command from the host. 7. The display driver of claim 5 , wherein the at least one conversion data set comprises a first conversion data set of a plurality of conversion data sets corresponding to a first area of a plurality of display areas and a second conversion data set of the plurality of conversion data sets corresponding to a second area of the plurality of display areas. 8. The display driver of claim 5 , wherein the at least one conversion data set comprises a first conversion data set of a plurality of conversion data sets corresponding to a first time period of a plurality of time periods and a second conversion data set of the plurality of conversion data sets corresponding to a second time period of the plurality of time periods. 9. The display driver of claim 5 , wherein the register is further configured to store: a color mode field indicating a number of bits per pixel in the n-bit image data; and a color programming field indicating whether the at least one conversion data set can be changed. 10. The display driver of claim 1 , further comprising a pixel encoder configured to encode the n-bit image data received by the interface circuit into the m-bit data per pixel according to a predetermined encoding rule. 11. A display device comprising: a display panel configured to display an image signal; and a display driver configured to drive the display panel, the display driver comprising: an interface circuit configured to receive n-bit image data per pixel from a host, n being an integer greater than zero; a converted data generator configured to generate n-bit converted data per pixel based on at least one conversion data set which defines a mapping between m-bit data and n-bit data, m being an integer greater than zero and less than n, and a source driver configured to drive the display panel based on the n-bit converted data while the display device is operating in a first mode and drive the display panel based on the n-bit image data received by the interface circuit while the display device is operating in a second mode, wherein a first conversion data set of the at least one conversion data set corresponds to one among a first time period of a plurality of time periods and a first display area of a plurality of display areas. 12. The display device of claim 11 , wherein the display driver further comprises a register configured to store a plurality of conversion data sets, each of the plurality of conversion data sets corresponding to one among the plurality of time periods and the plurality of display areas. 13. The display device of claim 12 , wherein a conversion data set of the plurality of conversion data sets is changed according to a register setting command of the host. 14. The display device of claim 12 , wherein the converted data generator comprises: a graphics memory configured to store the m-bit data per pixel; and a color converter configured to convert the m-bit data per pixel data into the n-bit converted data per pixel converted data according to a conversion data set of the plurality of conversion data sets. 15. The display device of claim 14 , wherein the converted data generator further comprises a pixel encoder configured to encode the n-bit image data received by the interface circuit into the m-bit data per pixel according to a predetermined encoding rule. 16. The display device of claim 14 , wherein m is selected from among one and two. 17. The display device of claim 14 , wherein the plurality of display areas comprises a first area and a second area, and the register is further configured to store the first conversion data set corresponding to the first area and a second conversion data set corresponding to the second area. 18. A display driver comprising: an interface circuit configured to receive n-bit image data from a host, n being an integer greater than zero; a graphics memory configured to store m-bit data per pixel corresponding to the n-bit image data received from the host, m being an integer greater than zero and less than n; a color converter configured to convert the m-bit data per pixel stored in the graphics memory into n-bit data per pixel and to output n-bit converted data; a selector configured to output the n-bit converted data based on a selection signal indicating a first mode and output the n-bit image data received from the host based on the selection signal indicating a second mode; a data processor configured to perform image processing on output data of the selector and generate a processed image signal; and a source driver configured to drive a display panel based on the processed image signal. 19. The display driver of claim 18 , further comprising a pixel encoder configured to encode the n-bit image data received by the interface circuit into the m-bit data per pixel according to a predetermined encoding rule and output the m-bit data per pixel to the graphics memory.