LED lighting device and method for operating an LED lighting device

The invention claimed is: 1. A method of operating an LED lighting device having at least two color channels, wherein each color channel comprises at least one LED, the LEDs of a color channel each have the same color, and each color channel is configured to be activated separately, and at least one photodetector, which is configured and arranged to detect a portion of the light radiated by the LEDs, the method comprising: switching over the LED lighting device from an operating phase into a measurement phase, wherein, in the measurement phase, the LEDs radiate sufficient light so that a current signal level of the at least one photodetector lies in a range from 75% to less than 100% of a peak current signal level of the at least one photodetector; activating temporally consecutively the color channels so that a light radiated during the measurement phase by the LEDs has an integral mixture that substantially corresponds to a color mixture of the operating phase, wherein, during the measurement phase, each color channel is activated separately by a pulse width modulation so that a ratio of pulse widths of the color channels during the measurement phase substantially corresponds to a ratio of the pulse widths of the color channels during the operating phase. 2. The method of claim 1 , wherein a deviation of a ratio of the pulse width of two color channels during the measurement phase does not deviate by more than 10% from the ratio of the pulse width of these two color channels during the operating phase. 3. The method of claim 2 , wherein the deviation is not more than 1%. 4. The method of claim 1 , further comprising setting a current level separately for each color channel so that a ratio of current levels of the current levels during the measurement phase substantially corresponds to a ratio of the current levels of the color channels during the operating phase. 5. The method of claim 4 , wherein the amount of light is set to the value by means of a search algorithm. 6. The method of claim 5 , wherein the search algorithm is a binary search algorithm. 7. The method of claim 1 , wherein the measurement phase includes turning off all color channels. 8. The method of claim 1 , wherein the measurement phase includes compensation periods during which the color channels are activated as during an operating phase. 9. The method of claim 1 , wherein the measurement phase lasts no longer than about 40 ms. 10. The method of claim 9 , wherein the measurement phase lasts no longer than about 10 ms. 11. The method of claim 1 , wherein a period of time between two measurement phases is not constant. 12. The method of claim 1 , wherein a sensor signal output during the measurement phase by the at least one photodetector is used at least in sections to adapt an activation in a following operating phase. 13. The method of claim 1 , further comprising, activating the color channel in the measurement phase in a sequence of a brightness of the color channels. 14. The method of claim 13 , further comprising activating the color channel in the measurement phase in sequence by ascending order of the brightness of the color channels. 15. The method of claim 1 , wherein the two color channels are of different colors. 16. An LED lighting device, comprising: at least two color channels, wherein each color channel comprises at least one LED of the same color and wherein each color channel is configured to be activated separately; at least one photodetector, which is configured and arranged to detect a portion of the light radiated by the LEDs; and a control device comprising: a switchover device for switching over the LED lighting device from an operating phase into a measurement phase; and a measurement phase scheduler, configured to activate the color channels one after another, wherein the control device is configured to cause the switchover device to switch over the LED lighting device from the operating phase into the measurement phase, and temporally consecutively activate the color channels so that a light radiated by the LEDs during the measurement phase has an integral color mixing that substantially corresponds to a color mixing of the operating phase, wherein the control device is configured to cause the LEDs during the measurement phase to radiate sufficient light so that a current signal level of the at least one photodetector lies in a range from 75% to less than 100% of a peak current signal level of the at least one photodetector, and wherein the control device is configured to activate each color channel separately during the measurement phase by a pulse width modulation so that a ratio of pulse widths of the color channels during the measurement phase substantially corresponds to a ratio of the pulse widths of the color channels during the operating phase. 17. The LED lighting device of claim 16 , wherein a deviation of a ratio of the pulse width of two color channels during the measurement phase does not deviate by more than 10% from the ratio of the pulse width of these two color channels during the operating phase. 18. The LED lighting device of claim 16 , wherein the control device is configured to set a current level separately for each color channel so that a ratio of current levels of the current levels during the measurement phase substantially corresponds to a ratio of the current levels of the color channels during the operating phase.