A light source composed of a planar, or substantially level, flat or curved, rigid or flexible, matrix of microfilaments integrated on a single substrate and capable of emitting light by incandescence when supplied by an electric current.
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1. Light source, comprising a planar, or substantially level, flat or curved, rigid or flexible matrix of microfilaments integrated on a single substrate and suitable to emit light by incandescence when supplied by an electric current, said device comprising:a reflecting or transparent substrate,a p
1. Light source, comprising a planar, or substantially level, flat or curved, rigid or flexible matrix of microfilaments integrated on a single substrate and suitable to emit light by incandescence when supplied by an electric current, said device comprising:a reflecting or transparent substrate,a plurality of metal microfilaments capable of emitting light by incandescence,a grid of conducting tracks to supply the current to said microfilaments,a transparent covering layer to permit emission of the luminous radiation, andelectronic control means to switch on part or all of the microfilaments of the matrix,said source comprising a layer for the energy conversion of infrared radiation into visible radiation,wherein at least one intermediate layer is interposed between the substrate and the covering layer, with a purely mechanical function or comprising optics to control the light beam emitted, andwherein said intermediate layer has a plurality of holes the internal surface of which performs an additional optical function to the function of the optical surfaces of the substrate. 2. Light source according to claim 1, wherein a vacuum is produced in the space inside the device, between the substrate and the covering layer. 3. Light source according to claim 1, wherein a mixture of inert gases or halogens is provided in the space inside the device, between the substrate and the covering layer. 4. Light source according to claim 1, wherein the upper layer is produced with transparent material, such as glass or plastic material. 5. Light source according to claim 1, wherein the substrate is reflecting. 6. Light source according to claim 5, in which the reflecting substrate is an electric conductor, and is insulated from the conducting tracks by a layer of dielectric material. 7. Light source according to claim 1, wherein the substrate is transparent. 8. Light source according to claim 1, wherein said substrate has a flat reflecting surface. 9. Light source according to claim 8, wherein the reflecting substrate is metal or composed of nonmetal material such as glass, quartz, plastic, aluminium, silicon, provided with a metal coating. 10. Light source according to claim 1, wherein said substrate has a plurality of curved reflecting surfaces, preferably in the form of cavities, at the different microfilaments, said surfaces being of the type chosen from paraboloid surfaces, spherical surfaces, cylindrical surfaces or similar. 11. Light source according to claim 1, wherein said substrate is flat, or has a plurality of refractive or diffractive microridges on its surface with the object of reducing divergence and directing the light beam. 12. Light source according to claim 1 , wherein the light source comprises several intermediate layers, for example in a symmetrical configuration with the transparent substrate. 13. Light source according to claim 1, wherein each microfilament comprises a bundle of filaments in the form of a winding. 14. Light source according to claim 1, wherein the microfilaments are composed of a material chosen from tungsten or tungsten-based metal alloys. 15. Light source according to claim 1, wherein the metal tracks are produced with a technique chosen from: screen printing, ink-jet, bonding metal plate tracks to the substrate, etching techniques starting from a single layer of metal plate. 16. Light source according to claim 1, wherein the conducting tracks have portions carrying the ends of each microfilament which project inside the respective cavity of the substrate and which are supported by arms produced in the substrate. 17. Light source according to claim 1, wherein the light source includes coloured filters. 18. Light source according to claim 1, wherein the internal surface of the transparent covering layer has a coating capable of reflecting infrared radiation and transmitting visible radiation, so as to re-use the infrared radiation emitted to maintain the temperature of the microfilament. 19. Light s ource according to claim 1, wherein the transparent covering layer has an internal coating capable of absorbing photons in the infrared spectral band and re-emitting photons in the visible spectral band, thus converting infrared to visible and increasing the luminous efficiency of the source. 20. Light source according to claim 19, wherein the conversion from infrared radiation to visible radiation occurs through the combined effect of generating second harmonics and harmonics of a higher order caused by multiphoton absorption effects and stimulated Raman inelastic scattering. 21. Light source according to claim 19, wherein the conversion from infrared radiation to visible radiation is caused by polymer type organic conductive material inserted in a transparent porous film deposited on the reflector or on the transparent optics. 22. “Light source according to claim 19, wherein the conversion from infrared radiation to visible radiation is caused by a film of organic conductive material of the family of modified thiophens having temperature stability, excellent photoluminescent efficiency on a very wide spectrum, environmental stability and in particular a low reactivity with water, hydrogen and oxygen”. 23. Light source according to claim 21, wherein the substrate, which is in transparent material, also has an internal surface with a lens of a type chosen from refractive lens, Fresnel lens, diffractive lens or GRIN lens. 24. Light source according to claim 19, wherein the conversion from infrared radiation to visible radiation is caused by a coating composed of a uniform or porous dielectric layer including metal or semiconductor particles of dimensions in the order of 1 nm. 25. Light source according to claim 1, wherein the light source comprises two intermediate layers which define two reflecting cavities in line with each microfilament to control the output angle of the light beam in two opposed directions. 26. Light source according to claim 1, wherein the transparent covering layer has an internal surface with a lens of a type chosen from refractive lens, Fresnel lens, diffractive lens or GRIN lens. 27. Light source according to claim 1, in which two intermediate layers are provided to define reflecting cavities with CPC characteristics. 28. Light source according to claim 1, wherein the substrate has spherical reflecting cavities suitable to send part of the rays emitted by the respective microfilament back to it, so as to contribute towards maintaining it at operating temperature. 29. Light source according to claim 1, wherein the microfilaments are connected to one another according to a layout in a series of parallels. 30. Light source according to claim 1, wherein the microfilaments are connected to one another according to a layout in a parallel in series. 31. Light source according to claim 1, wherein the microfilaments are connected to one another according to a layout in a network. 32. Light source according to claim 1, wherein the microfilaments of the matrix may be controlled separately, individually or in groups, by means of a connection layout in rows and columns. 33. Lighting device for motor vehicles, wherein it comprises at least one light source according to claim 1. 34. Lighting device for environments inside buildings, wherein it comprises at least one light source according to claim 1. 35. Lighting device for outdoor environments, wherein it comprises at least one light source according to claim 1. 36. Modular lighting device according to claim 1 wherein it is composed of modules at the sides of which connections are provided to allow coupling for the purpose of forming luminous plates or strips supplied from one side only. 37. Light source, comprising a planar, or substantially level, flat or curved, rigid or flexible matrix of microfilaments integrated on a single substrate and suitable to emit light by incandescence when supplied by an electric current, said device comprising:a reflect ing or transparent substrate,a plurality of metal microfilaments capable of emitting light by incandescence,a grid of conducting tracks to supply the current to said microfilaments,a transparent covering layer to permit emission of the luminous radiation, andelectronic control means to switch on part or all of the microfilaments of the matrix,said source comprising a layer for the energy conversion of infrared radiation into visible radiation,wherein at least one intermediate layer is interposed between the substrate and the covering layer, with a purely mechanical function or comprising optics to control the light beam emitted, andwherein said intermediate layer is composed of metal material, or non-metal material with metal coating. 38. Light source, comprising a planar, or substantially level, flat or curved, rigid or flexible matrix of microfilaments integrated on a single substrate and suitable to emit light by incandescence when supplied by an electric current, said device comprising:a reflecting or transparent substrate,a plurality of metal microfilaments capable of emitting light by incandescence,a grid of conducting tracks to supply the current to said microfilaments,a transparent covering layer to permit emission of the luminous radiation, andelectronic control means to switch on part or all of the microfilaments of the matrix,said source comprising a layer for the energy conversion of infrared radiation into visible radiation,wherein at least one intermediate layer is interposed between the substrate and the covering layer, with a purely mechanical function or comprising optics to control the light beam emitted, andwherein said intermediate layer is an electric conductor and is insulated from the supply tracks by an insulating layer. 39. Light source, comprising a planar, or substantially level, flat or curved, rigid or flexible matrix of microfilaments integrated on a single substrate and suitable to emit light by incandescence when supplied by an electric current, said device comprising:a reflecting or transparent substrate,a plurality of metal microfilaments capable of emitting light by incandescence,a grid of conducting tracks to supply the current to said microfilaments,a transparent covering layer to permit emission of the luminous radiation, andelectronic control means to switch on part or all of the microfilaments of the matrix,said source comprising a layer for the energy conversion of infrared radiation into visible radiation, andwherein each microfilament is laid continuously along all the metal tracks and have active portions with higher resistance, arranged at a distance from the respective reflecting surface of the substrate, between the respective rheophores. 40. Light source, comprising a planar, or substantially level, flat or curved, rigid or flexible matrix of microfilaments integrated on a single substrate and suitable to emit light by incandescence when supplied by an electric current, said device comprising:a reflecting or transparent substrate,a plurality of metal microfilaments capable of emitting light by incandescence,a grid of conducting tracks to supply the current to said microfilaments,a transparent covering layer to permit emission of the luminous radiation, andelectronic control means to switch on part or all of the microfilaments of the matrix,said source comprising a layer for the energy conversion of infrared radiation into visible radiation, andwherein the substrate has a reflecting cavity of the CPC type for each microfilament.
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