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    • 2. 发明申请
    • Self-Aligned Epitaxially Grown Bipolar Transistor
    • 自对准外延生长双极晶体管
    • US20090203184A1
    • 2009-08-13
    • US11574013
    • 2005-08-19
    • Peter MagneeWibo Van NoortJohannes Donkers
    • Peter MagneeWibo Van NoortJohannes Donkers
    • H01L21/331
    • H01L29/66242H01L21/8249
    • The illumination system has a light source (1) with a plurality of light emitters (R, G, B). The light emitters comprise at least a first light-emitting diode of a first primary color and at least a second light-emitting diode of a second primary color, the first and the second primary colors being distinct from each other. The illumination system has a facetted light-collimator (2) for collimating light emitted by the light emitters. The facetted lightcollimator is arranged along a longitudinal axis (25) of the illumination system. Light propagation in the facetted light-collimator is based on total internal reflection or on reflection at a reflective coating provided on the facets of the facetted light-collimator. The facetted light-collimator merges into a facetted light-reflector (3) at a side facing away from the light source. The illumination system further comprises a light-shaping diffuser (17). The illumination system emits light with a uniform spatial and spatio-angular color distribution.
    • 照明系统具有具有多个发光体(R,G,B)的光源(1)。 光发射体至少包括第一原色的第一发光二极管和第二原色的至少第二发光二极管,第一和第二原色彼此不同。 照明系统具有用于准直由发光体发射的光的分面光准直器(2)。 分面光学增白器沿照明系统的纵向轴线(25)布置。 在分面光准直仪中的光传播基于全内反射或基于设置在刻面光准直仪的面上的反射涂层的反射。 分面光准直器在远离光源的一侧融合成分面的光反射器(3)。 照明系统还包括光成形漫射器(17)。 照明系统以均匀的空间和空间角色彩分布发光。
    • 4. 发明授权
    • Self-aligned epitaxially grown bipolar transistor
    • 自对准外延生长双极晶体管
    • US07883954B2
    • 2011-02-08
    • US11574013
    • 2005-08-19
    • Peter MagneeWibo Van NoortJohannes Donkers
    • Peter MagneeWibo Van NoortJohannes Donkers
    • H01L21/8238
    • H01L29/66242H01L21/8249
    • The illumination system has a light source (1) with a plurality of light emitters (R, G, B). The light emitters comprise at least a first light-emitting diode of a first primary color and at least a second light-emitting diode of a second primary color, the first and the second primary colors being distinct from each other. The illumination system has a facetted light-collimator (2) for collimating light emitted by the light emitters. The facetted lightcollimator is arranged along a longitudinal axis (25) of the illumination system. Light propagation in the facetted light-collimator is based on total internal reflection or on reflection at a reflective coating provided on the facets of the facetted light-collimator. The facetted light-collimator merges into a facetted light-reflector (3) at a side facing away from the light source. The illumination system further comprises a light-shaping diffuser (17). The illumination system emits light with a uniform spatial and spatio-angular color distribution.
    • 照明系统具有具有多个发光体(R,G,B)的光源(1)。 光发射体至少包括第一原色的第一发光二极管和第二原色的至少第二发光二极管,第一和第二原色彼此不同。 照明系统具有用于准直由发光体发射的光的分面光准直器(2)。 分面光学增白器沿照明系统的纵向轴线(25)布置。 在分面光准直仪中的光传播基于全内反射或基于设置在刻面光准直仪的面上的反射涂层的反射。 分面光准直器在远离光源的一侧融合成分面的光反射器(3)。 照明系统还包括光成形漫射器(17)。 照明系统以均匀的空间和空间角色彩分布发光。
    • 9. 发明申请
    • Method of manufacturing a semiconductor device and semiconductor device obtained by means of said method
    • 通过所述方法获得的制造半导体器件和半导体器件的方法
    • US20070197043A1
    • 2007-08-23
    • US10599032
    • 2005-03-11
    • Wibo Van NoortEyup Aksen
    • Wibo Van NoortEyup Aksen
    • H01L21/31
    • H01L21/76229H01L21/02002
    • The invention relates to a method of manufacturing a semiconductor device comprising a substrate (1) and a semiconductor body (2) in which at least one semiconductor element is formed, wherein, in the semiconductor body (2), a semiconductor island (3) is formed by forming a first cavity (4) in the surface of the semiconductor body (2), the walls of said first cavity being covered with a first dielectric layer (6), after which, by means of underetching through the bottom of the cavity (4), a lateral part of the semiconductor body (2) is removed, thereby forming a cavity (20) in the semiconductor body (2) above which the semiconductor island (3) is formed, and wherein a second cavity (5) is formed in the surface of the semiconductor body (2), the walls of said second cavity being covered with a second dielectric layer, and one of the walls covered with said second dielectric layer forming a side wall of the semiconductor island (3). According to the invention, the same dielectric layer (6) is chosen for the first and the second dielectric layer, a lateral size of the second cavity (5) and the thickness of the dielectric layer (6) are chosen such that the second cavity (5) becomes nearly completely filled by the dielectric layer (6), and the lateral sizes of the first cavity (4) are chosen such that the walls and the bottom of the first cavity (4) are provided with a uniform coating by the dielectric layer (6). In this way, a semiconductor island (3) which is isolated from its environment can be made using a minimum number of (masking) steps.
    • 本发明涉及一种制造半导体器件的方法,该半导体器件包括其中形成有至少一个半导体元件的衬底(1)和半导体本体(2),其中在半导体本体(2)中,半导体岛(3) 通过在半导体本体(2)的表面中形成第一空腔(4)形成,所述第一腔的壁被第一介电层(6)覆盖,之后借助于穿过半导体本体 空腔(4),半导体主体(2)的侧面部分被去除,从而在半导体主体(2)中形成空腔(20),在半导体主体(2)之上形成半导体岛(3),并且其中第二腔 )形成在半导体本体(2)的表面中,所述第二腔的壁被第二电介质层覆盖,并且覆盖有形成半导体岛(3)的侧壁的所述第二电介质层的一个壁, 。 根据本发明,为第一和第二介电层选择相同的介电层(6),第二腔(5)的横向尺寸和电介质层(6)的厚度被选择为使得第二腔 (5)变得几乎完全被电介质层(6)填充,并且第一空腔(4)的横向尺寸被选择为使得第一空腔(4)的壁和底部被均匀地涂覆 电介质层(6)。 以这种方式,可以使用最少数量(掩蔽)步骤来制造与其环境隔离的半导体岛(3)。
    • 10. 发明申请
    • Inductive and capacitvie elements for semiconductor techinologies with minimum pattern density requirements
    • 具有最小图案密度要求的半导体技术的感性和电容元件
    • US20060163692A1
    • 2006-07-27
    • US10564582
    • 2004-07-15
    • Celine DetecheverryWibo Van Noort
    • Celine DetecheverryWibo Van Noort
    • H01L29/00
    • H01L23/5222H01F2017/008H01L23/5227H01L27/08H01L2924/0002H01L2924/00
    • The present invention provides a semiconductor device comprising a plurality of layers, the semiconductor device comprising:—a substrate having a first major surface,—an inductive element fabricated on the first major surface of the substrate, the inductive element comprising at least one conductive line, and—a plurality of tilling structures in at least one layer, wherein the plurality of tilling structures are electrically connected together and are arranged in a geometrical pattern so as to substantially inhibit an inducement of an image current in the tilling structures by a current in the inductive element. It is an advantage of the above semiconductor device that, by using such tilling structures, an inductive element with improved quality factor is obtained. The present invention also provides a method for providing an inductive element in a semiconductor device comprising a plurality of layers.
    • 本发明提供一种包括多个层的半导体器件,所述半导体器件包括: - 具有第一主表面的衬底, - 在所述衬底的第一主表面上制造的电感元件,所述电感元件包括至少一个导线 以及 - 至少一层中的多个耕作结构,其中所述多个耕作结构电连接在一起并且被布置成几何图案,以便基本上禁止通过所述耕作结构中的电流来诱导所述耕作结构中的图像电流 电感元件。 上述半导体器件的优点是,通过使用这种耕作结构,获得了具有改善的品质因数的电感元件。 本发明还提供一种在包括多个层的半导体器件中提供电感元件的方法。