摘要:
A cooling device for cooling a light-emitting semiconductor device, such as a LED device (20), comprises a ceramic plate (15) having coolant-conveying channels (12) incorporated therein. The ceramic plate (15) is adapted for forming an integral part of the optical system of the light-emitting semiconductor device (20) and to cool a light-emitting portion (26) of the light-emitting semiconductor device (20). A method of forming a cooling device comprises the steps of forming a charge of ceramic particles, embossing the charge with a stamp to form coolant-conveying channels in the charge, hardening the charge, and providing a cover on top of the channels to seal them.
摘要:
The present invention relates to a light emitting device (10) comprising at least one inorganic light emitting diode (LED) (14) for emitting primary light, a luminescent plate (12) supporting on a first side the LED(s), which plate is adapted to convert the wavelength of at least part of said primary light from the LED(s), and light scattering means for coupling out light from the luminescent plate. The invention makes it possible to omit any bulky extraction optics, and allows for a flat and compact LED module design. The present invention also relates to a method for the manufacture of such a light emitting device.
摘要:
A cooling device for cooling a light-emitting semiconductor device, such as a LED device (20), comprises a ceramic plate (15) having coolant-conveying channels (12) incorporated therein. The ceramic plate (15) is adapted for forming an integral part of the optical system of the light-emitting semiconductor device (20) and to cool a light-emitting portion (26) of the light-emitting semiconductor device (20). A method of forming a cooling device comprises the steps of forming a charge of ceramic particles, embossing the charge with a stamp to form coolant-conveying channels in the charge, hardening the charge, and providing a cover on top of the channels to seal them.
摘要:
The invention relates to a light source for generating light having a spectral emittance in at least a part of the range of 380 nm to 780 nm, the light having a spectral power distribution E(λ) as a function of the wavelength λ, and a general color-rendering index Ra, wherein the ratio of the integral spectral power distribution over a first range of 575 nm≦λ≦650 nm to that of a second range of 380 nm≦λ≦780 nm is given by the relation: and wherein Bb, ≦0.15 and Ra≧20. The light generated by the light source has a relatively small disturbing effect on migrating birds, while it still allows acceptable visibility for human beings.
摘要:
The invention relates to a light source for generating light having a spectral emittance in at least a part of the range of 380 nm to 780 nm, the light having a spectral power distribution E(λ) as a function of the wavelength λ, and a general color-rendering index Ra, wherein the ratio of the integral spectral power distribution over a first range of 575 nm≦λ≦650 nm to that of a second range of 380 nm≦λ≦780 nm is given by the relation: and wherein Bb, ≦0.15 and Ra≧20. The light generated by the light source has a relatively small disturbing effect on migrating birds, while it still allows acceptable visibility for human beings.
摘要:
The invention describes a Light engine (1,2,3,4,5) comprising a chamber (6) with at least one aperture (7) and a number of LED elements (13) positioned inside this chamber, where effectively all inner surfaces of the chamber (6) are realized as high-reflective surfaces (20) which are essentially non-absorbing towards light within a desired wavelength region
摘要:
The invention describes a Light engine (1,2,3,4,5) comprising a chamber (6) with at least one aperture (7) and a number of LED elements (13) positioned inside this chamber, where effectively all inner surfaces of the chamber (6) are realized as high-reflective surfaces (20) which are essentially non-absorbing towards light within a desired wavelength region
摘要:
An electric lamp has a light-transmitting lamp vessel (1) in which a light source (2) is arranged. At least a portion of the lamp vessel is provided with an interference film (5) for allowing passage of visible-light radiation and reflecting infrared radiation. The interference film has either a first plurality of alternating layers of Si02 and TiO2 or a second plurality of alternating layers of SiO2, TiO2 and Ta2O5. The TiO2 layers in the first plurality of alternating layers have a geometrical thickness of at most 75 nm by inserting relatively thin Si02 interlayers into the TiO2 layers, and the SiO2 interlayers have a geometrical thickness of at least 1 nm and at most 7.5 nm. The TiO2 layers in the second plurality of alternating layers have a geometrical thickness of at most 25 nm by inserting relatively thin Ta2O5 interlayers into the TiO2 layers, and the Ta2O5 interlayers have a geometrical thickness of at least 1 nm and at most 5 nm.
摘要翻译:电灯具有布置有光源(2)的透光灯容器(1)。 灯容器的至少一部分设置有用于允许可见光辐射通过并反射红外辐射的干涉膜(5)。 干涉膜具有SiO 2和TiO 2的第一多个交替层或SiO 2,TiO 2和Ta 2 O 5的第二多个交替层。 通过将相对薄的SiO 2夹层插入TiO 2层中,第一多个交替层中的TiO 2层具有至多75nm的几何厚度,并且SiO 2夹层具有至少1nm且至多7.5nm的几何厚度。 第二多个交替层中的TiO 2层通过将相对薄的Ta 2 O 5夹层插入TiO 2层中而具有至多25nm的几何厚度,并且Ta 2 O 5夹层具有至少1nm且至多5nm的几何厚度。