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    • 1. 发明申请
    • A LIGHT EMITTING MODULE, A LAMP, A LUMINAIRE AND A DISPLAY DEVICE
    • 发光模块,灯,灯和显示装置
    • WO2013041979A1
    • 2013-03-28
    • PCT/IB2012/051405
    • 2012-03-23
    • KONINKLIJKE PHILIPS ELECTRONICS N.V.JAGT, Hendrik Johannes BoudewijnVDOVIN, Olexandr ValentynovychVERSCHUREN, Coen AdrianusKLEIJNEN, ChristianDIJKEN, Durandus KorneliusKRIJN, Marcellinus Petrus Carolus Michael
    • JAGT, Hendrik Johannes BoudewijnVDOVIN, Olexandr ValentynovychVERSCHUREN, Coen AdrianusKLEIJNEN, ChristianDIJKEN, Durandus KorneliusKRIJN, Marcellinus Petrus Carolus Michael
    • H01L33/60H01L33/50
    • F21K9/62F21K9/64F21Y2113/13F21Y2115/10H01L33/507H01L33/60H01L2924/0002H01L2933/0091H01L2924/00
    • A light emitting module (150) emits light through a light exit window (104) and comprises a base (110), a solid state light emitter (154, 158) and a partially diffusive reflective layer (102). The base (110) has a light reflective surface (112) which faces towards the light exit window (104). The light reflective surface (112) has a base reflection coefficient Rbase which is defined by a ratio between the amount of light that is reflected by the light reflective surface and the amount of light that impinges on the light reflective surface. The solid state light emitter (154, 158) emits light of a first color range (114), comprises a top surface (152, 158) and has a solid state light emitter reflection coefficient R_SSL which is defined by a ratio between the amount of light that is reflected by the solid state emitter (154,156) and the amount of light that impinges on the top surface (152, 158) of the solid state light emitter (1154, 156). A largest linear size dssL of the top surface (106) of the at least one solid state light emitter is defined as the longest distance from a point on the top surface (152, 158) of the at least one solid state light emitter to another point on the top surface (152, 158) of the at least one solid state light emitter along a straight line. The light exit window (104) comprises at least a part of the partially diffusive reflective layer (102). A solid state light emitter area ratio ρ SSL is defined as the ratio between the area of the top surface of the at least one solid state light emitter and the area of the light reflective surface of the base. A gap with a distance h is present between the top surface (152, 158) of the at least one solid state light emitter (154, 156) and the partially diffusive reflective layer (102). A relatively efficient light emitting module is obtained if 0.3•d SSL ≤ h ≤ 5∙d SSL for 0 SSL SSL ≤ h ≤ 3∙d SSL for 0.1 ≤ ρ SSL ≤ 0.25, and 0.1∙d SSL ≤ h ≤ 2∙d SSL for ρ SSL > 0.25, and if the value of the base reflection coefficient Rbase is larger than 70% and larger than the solid state light emitter reflection coefficient R_SSL.
    • 发光模块(150)通过光出射窗(104)发射光,并且包括基底(110),固态光发射器(154,158)和部分漫反射层(102)。 基部(110)具有面向光出射窗(104)的光反射表面(112)。 光反射表面(112)具有由反射光反射表面反射的光量与入射到光反射表面上的光量之间的比值所限定的基底反射系数Rbase。 固态光发射器(154,158)发射第一颜色范围(114)的光,包括顶表面(152,158),并且具有固态光发射器反射系数R_SSL,其由 由固态发射器(154,156)反射的光和照射在固态光发射器(1154,156)的顶表面(152,158)上的光量。 至少一个固态光发射器的顶表面(106)的最大线性尺寸dssL被定义为从至少一个固态光发射器的顶表面(152,158)上的点到另一个的最长距离 沿着直线指向至少一个固态发光器的顶表面(152,158)。 光出射窗(104)包括部分漫反射层(102)的至少一部分。 固态发光体面积比rhoSSL被定义为至少一个固态光发射器的顶表面的面积与基底的光反射表面的面积之比。 在至少一个固态光发射器(154,156)的顶表面(152,158)和部分漫反射层(102)之间存在距离为h的间隙。 如果对于0.1 <= rhoSSL <= 0.25,对于0 0.25。
    • 4. 发明申请
    • METHOD OF MANUFACTURING A PHOSPHOR-ENHANCED LIGHT SOURCE
    • 磷光增强光源的制造方法
    • WO2013008157A1
    • 2013-01-17
    • PCT/IB2012/053460
    • 2012-07-06
    • KONINKLIJKE PHILIPS ELECTRONICS N.V.VERSCHUREN, Coen AdrianusKLEIJNEN, Christian
    • VERSCHUREN, Coen AdrianusKLEIJNEN, Christian
    • H01L33/46F21K99/00
    • H01L33/46F21K9/60F21V9/30F21V13/08F21V14/04F21V23/0457F21Y2115/10H01L33/0095H01L2933/0025
    • A method (100) of manufacturing a phosphor-enhanced light source, a phosphor-enhanced light source, and a multitude of phosphor-enhanced light sources are provided. The phosphor-enhanced light source has a predefined color characteristic. The method (100)comprises the steps of:(i) receiving (102) a phosphor-enhanced lighting module, the phosphor-enhanced lighting module comprises a light emitter, a luminescent material and a light exit window, the light emitter configured to emit light in a first spectral range, the luminescent material configured to absorb a portion of the light in the first spectral range and to convert at least a part of the absorbed light to light of a second spectral range, the phosphor-enhanced lighting module configured to emit a specific light emission distribution comprising light of the first spectral range and light of the second spectral range through the light exit window, (ii) selecting (104) a partially back-reflecting optical layer having a specific back-reflection characteristic being related to the specific light emission spectrum of the received phosphor-enhanced lighting module, the partially back-reflecting optical layer partially reflects back light that impinges on the partially back-reflecting optical layer and partially transmits light that impinges on the partially back-reflecting optical layer, the back-reflection characteristics being defined as a ratio between the amount of back- reflected light and the amount of transmitted light, (iii) assembling (106) the selected partially back-reflecting optical layer in front of the light exit window to partially reflect emitted light back to the luminescent material.
    • 提供了制造荧光增强光源,荧光增强光源和多种荧光增强光源的方法(100)。 荧光增强光源具有预定的颜色特性。 方法(100)包括以下步骤:(i)接收(102)荧光增强照明模块,所述荧光增强照明模块包括光发射器,发光材料和光出射窗,所述发光器被配置为发射 在第一光谱范围内的光,所述发光材料被配置为吸收第一光谱范围内的一部分光并将至少一部分吸收的光转换成第二光谱范围的光,所述荧光增强照明模块被配置为 通过光出射窗口发射包括第一光谱范围的光和第二光谱范围的光的特定发光分布;(ii)选择(104)具有特定背景反射特性的部分背反射光学层, 接收到的荧光增强照明模块的特定发光光谱,部分反射反射光学层部分地反射反射到部分b 反射光学层并且部分透射照射在部分背反射光学层上的光,背反射特性被定义为反射光量与透射光量之间的比率,(iii)组装( 106)在光出射窗前面的所选择的部分后反射光学层以将发射的光部分地反射回发光材料。