Loading effect control device and organic light emitting display device having the same

What is claimed is: 1. An organic light emitting display device, comprising: a display panel including a plurality of pixels; a power supplier to provide a first power voltage and a second power voltage to the display panel; a loading effect controller to calculate a difference between the first power voltage measured from the display panel and a predetermined first reference voltage, the difference corresponding to a detected amount of a load of the display panel, determine a control amount of the load based on the detected amount of the load and a loading effect setting, and to control a gamma reference voltage based on the determined control amount of the load; a data driver to provide a data signal to the display panel; a scan driver to provide a scan signal to the display panel; and a timing controller to generate a control signal to control the data driver and the scan driver, wherein the loading effect controller includes a first decoder to determine a magnitude of the control amount of the load based on the detected amount of the load and the loading effect setting, and a second decoder to determine a polarity of the control amount of the load based on the loading effect setting. 2. The display device as claimed in claim 1 , wherein the loading effect controller includes: a detecting line coupled a first power supply line in the display panel, the first power supply line to provide a first power voltage; a detector to measure the first power voltage in the display panel through the detecting line, to detect to the amount of the load of the display panel by comparing the measured first power voltage with a predetermined first reference voltage, and to output a first voltage corresponding to the detected amount of the load; a load controller to determine the control amount of the load based on the detected amount of the load and the loading effect setting and to output a second voltage corresponding to the determined control amount of the load; and a gamma reference voltage generator to control the gamma reference voltage based on the determined control amount of the load. 3. The display device as claimed in claim 2 , wherein the detector is to measure the first power voltage of the first power supply line at a position in which a voltage drop occurs. 4. The display device as claimed in claim 2 , wherein the detector includes a comparator to output the first voltage based on a difference between the first power voltage and the predetermined first reference voltage. 5. The display device as claimed in claim 2 , wherein the predetermined first reference voltage is based on the first power voltage measured when a white image is displayed on the display panel. 6. The display device as claimed in claim 2 , wherein the gamma reference voltage generator includes an operational amplifier to add the second voltage corresponding to the control amount of the load to a predetermined second reference voltage. 7. The display device as claimed in claim 1 , wherein the first decoder is to: generate divided voltages by dividing the first voltage based on a predetermined ratio, and output one of the divided voltages as a third voltage based on the loading effect setting. 8. The display device as claimed in claim 7 , wherein the second decoder includes: an inverter to reverse a polarity of the third voltage; and a buffer to maintain the polarity of the third voltage. 9. The display device as claimed in claim 8 , wherein the first decoder is to be selectively coupled to the inverter or the buffer. 10. A loading effect control device, comprising: a detecting line coupled to a first power supply line in a display panel, the first power supply line to provide a first power voltage; a detector to measure the first power voltage in the display panel through the detecting line, to detect an amount of a load of the display panel by comparing the measured first power voltage with a predetermined first reference voltage, and to output a first voltage corresponding to the detected amount of the load; a load controller to determine a control amount of the load based on the detected amount of the load and a loading effect setting and to output a second voltage corresponding to the determined control amount of the load; and a gamma reference voltage generator to control a gamma reference voltage based on the determined control amount of the load, wherein the load controller includes a first decoder to determine a magnitude of the control amount of the load based on the detected amount of the load and the loading effect setting, and a second decoder to determine a polarity of the control amount of the load based on the loading effect setting. 11. The control device as claimed in claim 10 , wherein the detector is to measure the first power voltage of the first power supply line at a position in which a voltage drop occurs. 12. The control device as claimed in claim 10 , wherein the first voltage is based on a difference between the first power voltage and the first reference voltage. 13. The control device as claimed in claim 10 , wherein the predetermined first reference voltage is based on the first power voltage measured when a white image is displayed on the display panel. 14. The control device as claimed in claim 10 , wherein the first decoder is to: generate divided voltages by dividing the first voltage based on a predetermined ratio, and output one of the divided voltages as a third voltage based on the loading effect setting. 15. The control device as claimed in claim 14 , wherein the second decoder includes: an inverter to reverse a polarity of the third voltage; and a buffer to maintain the polarity of the third voltage. 16. The control device as claimed in claim 15 , wherein the first decoder is to be selectively coupled to the inverter or the buffer. 17. The control device as claimed in claim 10 , wherein the gamma reference voltage generator includes an operational amplifier to add the second voltage corresponding to the control amount of the load to a second reference voltage. 18. An apparatus, comprising: an output; and a controller to determine a control amount of a load of a display panel based on a detected amount of the load of the display panel and a loading effect setting, and to output a voltage corresponding to the control amount of the load, wherein the voltage is to be sent through the output to a gamma reference voltage generator to control a gamma reference voltage, wherein the controller is to measure a power voltage at a predetermined position in the display panel and to detect the amount of the load of the display panel by comparing the measured first power voltage with a reference voltage, and wherein the controller includes a first decoder to determine a magnitude of the control amount of the load based on the detected amount of the load and the loading effect setting, and a second decoder to determine a polarity of the control amount of the load based on the loading effect setting.