Spectral detection device for detecting spectral components of received light

The invention claimed is: 1. A spectral detection device for detecting spectral components of received light, wherein said spectral detection device comprises: a variable filtering structure arranged to filter the received light and to output light with a wavelength within a predetermined wavelength range, the variable filtering structure enabling a variation of said predetermined wavelength range over time, wherein the variable filtering structure includes a first switchable photonic band gap filter having a first reflecting band of frequencies and a second switchable photonic band gap filter having a second reflecting band of frequencies different from the first reflecting band of frequencies, such that the predetermined wavelength range lies between the first and the second reflecting bands of frequencies; a light sensor arranged to detect the light output by the variable filtering structure; and an angle selection element arranged to restrict an angle of incidence for the light received by the variable filtering structure to a predetermined angle of incidence, wherein said predetermined wavelength range is adjusted by applying external stimulus to the variable filtering structure, wherein said external stimulus is selected from the group consisting of an electric field, temperature and a mechanical force. 2. A spectral detection device according to claim 1 , wherein said predetermined wavelength range has a width between 20 nm and 200 nm. 3. A spectral detection device according to claim 1 , wherein the angle selection element is variable to allow a variation of said angle of incidence. 4. A spectral detection device according to claim 1 , wherein said angle selection element comprises a plurality of regions, wherein each region is adapted to accept light with a different angle of incidence. 5. A spectral detection device according to claim 1 , further comprising a diffuser. 6. An illumination device comprising: a plurality of light emitting devices of different colors; a spectral detection device according to claim 1 ; a control unit adapted to process a plurality of spectral components acquired from said spectral detection device, wherein said control unit is further adapted to control the plurality of light emitting devices based on the detected spectral components to achieve a predetermined lighting effect. 7. An illumination control system for controlling a plurality of luminaries, said system comprising: a spectral detection device according to claim 1 for detecting spectral components of light received from said luminaries; a control unit adapted to process the spectral components acquired from said spectral detection device, wherein said control unit is further adapted to control said luminaries based on the detected spectral components to achieve a predetermined lighting effect. 8. A spectral detection device according to claim 1 , wherein said predetermined wavelength range has a width between 20 nm and 50 nm. 9. The spectral detection device of claim 1 , wherein the first switchable photonic band gap filter is placed adjacent to the second switchable photonic band gap filter. 10. The spectral detection device of claim 1 , wherein the variable filtering structure comprises a pixelated filtering structure. 11. The spectral detection device of claim 10 , wherein the pixelated filtering structure comprises the first and the second switchable photonic band gap filters arranged in a first layer and a third and a fourth switchable photonic band gap filters are arranged in a second layer, wherein the first layer is disposed adjacent the second layer. 12. The spectral detection device of claim 11 , wherein the pixelated filtering structure is segmented into at least four regions, wherein light falling onto a first region passes the first switchable photonic band gap filter and the third switchable photonic band gap filter, wherein light falling onto a second region passes the second switchable photonic band gap filter and the fourth switchable photonic band gap filter, wherein light falling onto a third region passes the first switchable photonic band gap filter and the fourth switchable photonic band gap filter; and wherein light falling onto the fourth region passes the second switchable photonic band gap filter and the third switchable photonic band gap filter. 13. The spectral detection device of claim 11 , wherein the at least one light sensor comprises a light sensor corresponding to each of the pixels of the pixelated filtering structure. 14. An illumination device comprising: a plurality of light emitting devices of different colors; a spectral detection device for detecting spectral components of light received from the light emitting devices, comprising: a variable filtering structure arranged to filter the received light and to output light with a wavelength within a predetermined wavelength range, the variable filtering structure enabling a variation of said predetermined wavelength range over time; a light sensor arranged to detect the light output by the variable filtering structure; and an angle selection element arranged to restrict an angle of incidence for the light received by the variable filtering structure to a predetermined angle of incidence; and a control unit adapted to process a plurality of spectral components acquired from said spectral detection device, wherein said control unit is further adapted to control the plurality of light emitting devices based on the detected spectral components to achieve a predetermined lighting effect.