System and methods for aging compensation in AMOLED displays

What is claimed is: 1. A display panel having a display area containing multiple pixels and allowing measurement of effects on pixels in the display panel, the display panel comprising: a plurality of normal pixels for displaying an image under an image display operating condition; a plurality of reference pixels included in the display area; a readout circuit coupled to said normal pixels and said reference pixels for reading at least one of current, voltage, and charge from said normal and reference pixels when said normal and reference pixels are supplied with known input signals, generating measured data; and a controller coupled to each of said plurality of reference pixels and each of said plurality of normal pixels and configured to control said reference pixels so that they are subject to global effects on said display panel and not subject to the image display operating condition; correct the measured data from the reference pixels by subtracting an effect of the global effects from the data measured from the reference pixels, trim the data measured from the normal pixels with the corrected data read from the reference pixels, and compensate the signals supplied to said normal pixels based on said trimmed data. 2. The display panel of claim 1 , wherein said global effects comprise temperature effects. 3. The display panel of claim 1 , wherein said global effects affect both of said normal pixels and said reference pixels. 4. The display panel of claim 1 , wherein said effect of global effects is determined for each reference pixel with use of measured data from at least one other reference pixel. 5. The display panel of claim 1 , wherein said effect of global effects is determined by averaging the measured data from at least a selected group of said reference pixels. 6. A display panel having a display area containing multiple pixels and allowing measurement of effects on pixels in the display panel, the display panel comprising: a plurality of normal pixels to display an image under an operating condition, each normal pixel being coupled to a supply line and a programming line for displaying images under said operating condition; a plurality of reference pixels included in the display area and coupled to said supply line and said programming line in a manner that said reference pixels are controlled so that they are subject to global effects on said display panel and not subject to said operating condition; and a controller coupled to each of said plurality of reference pixels and each of said plurality of normal pixels and configured to supply said normal and reference pixels with known input signals and measure data from said normal and reference pixels, the measured data comprising at least one of current data, voltage data, and charge data; correct the measured data from the reference pixels by subtracting an effect of the global effects from the data measured from the reference pixels, trim the data measured from the normal pixels with the corrected data read from the reference pixels, and compensate the signals supplied to said normal pixels based on said trimmed data. 7. The display panel of claim 6 , wherein said global effects comprise temperature effects. 8. The display panel of claim 6 , wherein said global effects affect both of said normal pixels and said reference pixels. 9. The display panel of claim 6 , wherein said effect of global effects is determined for each reference pixel with use of measured data from at least one other reference pixel. 10. The display panel of claim 6 , wherein said effect of global effects is determined by averaging the measured data from at least a selected group of said reference pixels. 11. A method of compensating signals supplied to normal pixels of a display panel having a display area comprising a plurality of normal pixels and a plurality of reference pixels, the method comprising: operating the plurality of normal pixels to display images under an image display operating condition; operating the plurality of reference pixels in a manner that said reference pixels are subject to global effects on said display panel and not subject to the image display operating condition; supplying said normal and reference pixels with known input signals; reading at least one of current, voltage, and charge from said normal and reference pixels in response to supplying said normal and reference pixels with known input signals generating measured data; correcting the measured data from the reference pixels by subtracting an effect of the global effects from the data measured from the reference pixels; trimming the data measured from the normal pixels with the corrected data read from the reference pixels; and compensating the signals supplied to said normal pixels based on said trimmed data. 12. The method of claim 11 , wherein said global effects comprise temperature effects. 13. The method of claim 11 , wherein said global effects affect both of said normal pixels and said reference pixels. 14. The method of claim 11 , further comprising: determining said effect of global effects for each reference pixel with use of measured data from at least one other reference pixel. 15. The method of claim 11 , further comprising: determining said effect of global effects by averaging the measured data from at least a selected group of said reference pixels.