Method for classifying light-emitting semiconductor components and image sensor application having an image sensor and a semiconductor element

The invention claimed is: 1. A method for classifying a light-emitting semiconductor component for an image sensor application, wherein the light-emitting semiconductor component is configured as a light source for an image sensor, comprising: providing the light-emitting semiconductor component comprising at least two light-emitting semiconductor chips; determining at least one of R, G, or B of a light emitted during operation with an emission spectrum by the light-emitting semiconductor component; wherein R=∫q R (λ)· S (λ) dλ·t exp ; wherein G=∫q G (λ)· S (λ) dλ·t exp ; wherein B=∫q B (λ)· S (λ) dλ·t exp ; wherein q R (λ), q G (λ) and q B (λ) are spectral sensitivities of a red, green, and blue color channel of the image sensor, S(λ) is the emission spectrum of the light-emitting semiconductor component, t exp is an exposure time, and λ designates a wavelength; categorizing the light-emitting semiconductor component in a class from a group of classes which are characterized by different value ranges of at least one parameter that depends on at least one of R, G, or B; selecting the light-emitting semiconductor component for use with one or more other light-emitting semiconductor components having a same class as the class of the light-emitting semiconductor component; and illuminating the light source based on the selecting. 2. The method according to claim 1 , wherein the light-emitting semiconductor component is categorized in the class from the group of classes which are characterized by respective value ranges of parameters: rg 1 =R/ ( R+G+B ), or bg 1 =B/ ( R+G+B ), or both. 3. The method according to claim 1 , wherein the light-emitting semiconductor component is categorized in the class from the group of classes which are characterized by respective value ranges of parameters: rg 2 =G/R , or bg 2 =G/B , or both. 4. The method according to claim 1 , wherein the light-emitting semiconductor component is categorized in the class from the group of classes which are characterized by respective value ranges of parameters: rg 3 =G/R , or bg 3 =G/B , or both. 5. The method according to claim 2 , wherein the class in which the light-emitting semiconductor component is categorized is characterized by rg1 and bg1 values which correspond to corresponding rg1 and bg1 values of sunlight or of light according to a standard illuminant A or D or light of a Planckian emitter. 6. The method according to claim 1 , wherein the image sensor forms part of a video camera, a photographic apparatus, a mobile telephone, or a medical imaging device. 7. The method according to claim 1 , wherein the light-emitting semiconductor component forms part of a video camera, a photographic apparatus, a mobile phone, a stadium lighting system, a stage lighting system, a studio lighting system, or a medical imaging device. 8. The method according to claim 1 , wherein the light-emitting semiconductor component emits white light during operation. 9. The method according to claim 1 , wherein the image sensor is a CCD sensor or a CMOS sensor. 10. An apparatus comprising: an image sensor; and a light-emitting semiconductor component which is configured as a light source for the image sensor and comprises at least two light-emitting semiconductor chips, wherein the light-emitting semiconductor component is selected by: determining at least one of R, G, or B of a light emitted during operation with an emission spectrum by the light-emitting semiconductor component; wherein R=∫q R (λ)· S (λ) dλ·t exp ; wherein G=∫q G (λ)· S (λ) dλ·t exp ; wherein B=∫q B (λ)· S (λ) dλ·t exp ; wherein q R (λ), q G (λ) and q B (λ) are spectral sensitivities of a red, green, and blue color channel of the image sensor, S(λ) is the emission spectrum of the light-emitting semiconductor component, t exp is an exposure time, and λ designates a wavelength; categorizing the light-emitting semiconductor component in a class from a group of classes which are characterized by different value ranges of at least one parameter that depends on at least one of R, G, or B; selecting the light-emitting semiconductor component for use with one or more other light-emitting semiconductor components having a same class as the class of the light-emitting semiconductor component; and illuminating the light source. 11. The method according to claim 3 , wherein the class in which the light-emitting semiconductor component is categorized is characterized by rg2 and bg2 values which correspond to corresponding rg2 and bg2 values of sunlight or of light according to a standard illuminant A or D or light of a Planckian emitter. 12. The method according to claim 4 , wherein the class in which the light-emitting semiconductor component is categorized is characterized by rg3 and bg3 values which correspond to corresponding rg3 and bg3 values of sunlight or of light according to a standard illuminant A or D or light of a Planckian emitter. 13. The method of claim 1 , wherein the light-emitting semiconductor component and the one or more other light-emitting semiconductor components having the same class are configured for use in an illuminating application of the image sensor. 14. A method for classifying a light-emitting semiconductor component for an image sensor application, wherein the light-emitting semiconductor component is configured as a light source for an image sensor, comprising: providing the light-emitting semiconductor component comprising at least two light-emitting semiconductor chips; determining at least one of R, G, or B of a light emitted during operation with an emission spectrum by the light-emitting semiconductor component; wherein R=∫q R (λ)· S (λ) dλ·t exp ; wherein G=∫q G (λ)· S (λ) dλ·t exp ; wherein B=∫q B (λ)· S (λ) dλ·t exp ; wherein q R (λ), q G (λ) and q B (λ) are spectral sensitivities of a red, green, and blue color channel of the image sensor, S(λ) is the emission spectrum of the light-emitting semiconductor component, t exp is an exposure time, and λ designates a wavelength; categorizing the light-emitting semiconductor component in a class from a group of classes which are characterized by different value ranges of at least one parameter that depends on at least one of R, G, or B; sorting the light-emitting semiconductor component into a category from a group of categories; and selecting the light-emitting semiconductor component during illumination for use with one or more other light-emitting semiconductor components having a same class as the class of the light-emitting semiconductor component.