Color display calibration system

What is claimed is: 1. A display calibration system for calibrating a display, comprising: control circuitry; an electrically tunable filter with a transmission characteristic that is controlled by the control circuitry, wherein the electrically tunable filter comprises first and second polarizers, a liquid crystal cell that is interposed between the first and second polarizers, and electrodes with which the control circuitry adjusts the liquid crystal cell in accordance with a plurality of filter settings; and an image sensor that receives light from the display through the electrically tunable filter, wherein the control circuitry captures images of the display corresponding to each of the filter settings to produce calibration data to calibrate the display. 2. The display calibration system defined in claim 1 further comprising at least one lens interposed between the display and the image sensor. 3. The display calibration system defined in claim 2 wherein the control circuitry is configured to process the images of the display to produce the display calibration data. 4. The display calibration system defined in claim 3 wherein the control circuitry is configured to load the display calibration data into the display to calibrate the display. 5. The display calibration system defined in claim 1 wherein the control circuitry is configured to adjust the electrically tunable filter to implement at least one color matching function. 6. The display calibration system defined in claim 5 wherein the control circuitry processes the captured images to produce the display calibration data and stores the display calibration data in the display to calibrate the display. 7. The display calibration system defined in claim 1 wherein the transmission characteristic varies as a function of wavelength. 8. The display calibration system defined in claim 1 wherein each electrode comprises an array of individually controllable electrodes. 9. A display calibration system for calibrating a display, comprising: control circuitry; an electrically tunable filter with a transmission characteristic that is controlled by the control circuitry, wherein the electrically tunable filter comprises a liquid crystal cell with an electrically controllable birefringence and transparent electrodes to which the control circuitry applies adjustable voltages to adjust the electrically tunable filter; and an image sensor that receives light from the display through the electrically tunable filter, wherein the control circuitry adjusts the electrically tunable filter in accordance with a plurality of filter settings and captures images of the display corresponding to each of the filter settings to produce calibration data to calibrate the display. 10. The display calibration system defined in claim 9 wherein the electrically tunable filter comprises an input polarizer and an analyzer polarizer and wherein the liquid crystal cell is interposed between the input polarizer and the analyzer polarizer. 11. The display calibration system defined in claim 9 further comprising at least one lens interposed between the display and the image sensor. 12. The display calibration system defined in claim 11 wherein the control circuitry is configured to process the images of the display to produce the display calibration data and is configured to load the display calibration data into the display to calibrate the display. 13. The display calibration system defined in claim 9 wherein the liquid crystal cell is interposed between the transparent electrodes. the transmission characteristic in accordance with a plurality of filter settings, wherein the image sensor receives the light from the display while the electrically tunable filter is adjusted in accordance with each of the filter settings. 14. A method of calibrating a display that emits light, comprising: with an image sensor, receiving light from the display through an electrically tunable filter having first and second polarizers and transparent electrodes and having a transmission characteristic that varies as a function of wavelength; and applying adjustable voltages to the electrodes to adjust the electrically tunable filter to change the transmission characteristic in accordance with a plurality of filter settings, wherein the image sensor receives the light from the display while the electrically tunable filter is adjusted in accordance with each of the filter settings. 15. The method defined in claim 14 wherein the electrically tunable filter comprises an electrically controllable birefringence cell and wherein applying adjustable voltages to the electrodes electrically adjusts the electrically controllable birefringence cell. 16. The method defined in claim 15 wherein the electrically controllable birefringence cell comprises a liquid crystal cell and wherein applying adjustable voltages to the electrodes electrically adjusts the liquid crystal cell. 17. The method defined in claim 16 wherein the liquid crystal cell is interposed between the first and second polarizers. 18. The method defined in claim 17 wherein at least one setting of the plurality of filter settings is a color matching setting.