Display device with a backlight

The invention claimed is: 1. A display comprising: a backlight portion comprising at least one broad spectrum emitter and at least one narrow spectrum emitter, wherein the broad spectrum emitter emits light of a broader spectrum that the narrow spectrum emitter; an image panel for displaying an image by spatial light modulation; and control electronics configured to receive input image data and output control signals to both the backlight portion and the image panel; wherein the control electronics is configured to use color rendering capabilities of the image panel under illumination from each of the emitter types individually to calculate a minimum power combination of emission from each emitter type required to display the input image data, and the control electronics is further configured to modify the input image data according to the calculated minimum power combination of emitter powers so a resulting display of colours in the image data remains despite changing illumination conditions. 2. The display of claim 1 , wherein the broad spectrum emitter is a white emitter and the narrow spectrum emitter is at least one of red, green, and blue spectrum emitters. 3. The display of claim 1 , wherein the image panel is operated without color filters, with the backlight to give time sequential color fields in multiple sub-frames, and the broad spectrum emitter is utilised either concurrently with one or more of the narrow spectrum emitters during any of the sub-frames, or in an additional sub-frame, to increase the brightness or power efficiency of the display at the expense of excess color saturation for one or more color components independently according to the input image data. 4. The display of claim 1 , wherein the image panel is a liquid crystal panel that has red, green, and blue color filters. 5. The display of claim 4 , wherein the liquid crystal panel further has a white color filter. 6. The display of claim 1 , wherein the control electronics processes the image data in a device independent color space to calculate the power combination of emitter powers. 7. The display of claim 6 , wherein emitter powers are calculated using an extent to which pixels of the liquid crystal panel are outside a gamut achievable by the broadband emitter to determine a balance between the narrow spectrum emitters and the broad spectrum emitters. 8. The display of claim 7 , wherein the emitter powers are calculated to minimize the power requirement of the backlight by solving a linear programming problem given by constraints of required brightness and required saturation. 9. The display of claim 1 , wherein display colors of the input image data are specified by a known colour standard, and the input image data modification is configured to maintain constancy of all input colours under different emitter power combinations. 10. The display of claim 9 , wherein the control electronics continuously controls a changing color appearance of image regions with constant input image data when other regions of the image are changed. 11. The display of claim 1 , wherein display colors of the input image data are a maximum gamut achievable by the display with all the narrow spectrum emitters on simultaneously. 12. The display of claim 1 , wherein display colors of the input image data are a maximum gamut achievable by the display with the narrow spectrum emitters on individually. 13. The display of claim 1 , wherein a measure of whether an increase or decrease in each of the emitter levels required is calculated, and the emitter power levels are incremented in a direction indicated according to the calculated increase or decrease requirement in each of the emitter levels. 14. The display of claim 1 , wherein the emitter power values are calculated for every frame of input image data input to the display. 15. The display of claim 1 , wherein the emitter power value calculations are performed asynchronously to the rest of the control electronics, and the image conversion uses most recently calculated and applied emitter powers. 16. The display of claim 1 , wherein previous results of the emitter power calculation are taken into account and a change in emitter power to a next output combination is restricted, so as to smooth sudden changes in display backlight illumination. 17. The display of claim 1 , wherein display colors of the input image data are based on a non-linear transformation of RGB data, or a blended combination of multiple color spaces based on the color's saturation level.