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公开(公告)号:US20190041666A1
公开(公告)日:2019-02-07
申请号:US15857219
申请日:2017-12-28
Applicant: Nicolas Abele , Michel Olivieri
Inventor: Nicolas Abele , Michel Olivieri
IPC: G02C11/00
Abstract: Electronically reinforced head-wearable apparatus and related methods are disclosed. Example glasses include a frame to carry a first lens. The frame defines a first body. A first stem and a second stem are to couple to the frame. The first stem and the second stem define a second body and a third body, respectively. A circuit board defines a circuit to implement the glasses. The circuit board is shaped to define a framework of at least one of the first body of the frame, the second body of the first stem or the third body of the second stem.
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公开(公告)号:US09417450B2
公开(公告)日:2016-08-16
申请号:US14356754
申请日:2012-08-15
Applicant: Lucio Kilcher , Nicolas Abele
Inventor: Lucio Kilcher , Nicolas Abele
CPC classification number: G02B27/0101 , G02B5/02 , G02B13/22 , G02B27/48 , G02B2027/0118 , G02B2027/013
Abstract: The present invention provides a projection system (10), preferably for a head-up display e.g. on board a vehicle, comprising a laser source (1), a diffuser (3) and telecentric optics (2) disposed between the laser and the diffuser so that the telecentric optics outputs parallel rays to the diffuser, the diffused light being thus independent from the incidence angle; each pixel of the projected image has the same brightness, regardless of the angle or of the position from which it is viewed.
Abstract translation: 本发明提供一种投影系统(10),优选用于平视显示器 在车辆上,包括设置在激光器和扩散器之间的激光源(1),漫射器(3)和远心光学器件(2),使得远心光学器件将平行射线输出到扩散器,因此漫射光从而独立于 入射角; 投影图像的每个像素具有相同的亮度,而与角度或其所看到的位置无关。
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公开(公告)号:US20160150201A1
公开(公告)日:2016-05-26
申请号:US14947938
申请日:2015-11-20
Applicant: LUCIO KILCHER , NICOLAS ABELE
Inventor: LUCIO KILCHER , NICOLAS ABELE
CPC classification number: H04N9/3129 , G02B3/14 , G02B7/08 , G02B26/004 , G02B26/101 , G02B26/105 , G02B27/0103 , G02B2027/0127 , G03H2001/266
Abstract: Disclosed herein are systems and techniques related to virtual image projection systems. In some examples, the system may include a scanning mirror arrangement for receiving a light beam and reflecting the light beam to a projection surface and a dynamic optical lens for focusing the light beam at a focal plane so that the light beam reflected from the projection surface is collimated or diverging enabling the projected image to be perceived as a virtual image.
Abstract translation: 本文公开了与虚拟图像投影系统相关的系统和技术。 在一些示例中,系统可以包括用于接收光束并将光束反射到投影表面的扫描镜装置和用于将光束聚焦在焦平面处的动态光学透镜,使得从投影表面反射的光束 被准直或发散,使得投影图像被感知为虚像。
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公开(公告)号:US08864316B2
公开(公告)日:2014-10-21
申请号:US13638217
申请日:2010-04-28
Applicant: Lucio Kilcher , Nicolas Abele , Faouzi Khechana
Inventor: Lucio Kilcher , Nicolas Abele , Faouzi Khechana
CPC classification number: G02B27/48 , G02B5/0215 , G02B5/0231 , G02B5/0278 , G02B26/0833 , G03B21/28
Abstract: Optical MEMS scanning micro-mirror comprising: —a movable scanning micro-mirror (101) pivotally connected to a MEMS body (102) substantially surrounding the lateral sides of the micro-mirror; —an transparent prism (500, 600) substantially covering the reflection side of the micro-mirror; —wherein said prism has its outer face non-parallel to the micro-mirror neutral plane N-N, thereby providing a dual anti-speckle and anti-reflection effect, namely against parasitic light. The invention also provides the corresponding micro-projection system and method for reducing speckle.
Abstract translation: 光学MEMS扫描微镜包括: - 可枢转地连接到基本上围绕微镜的侧面的MEMS主体(102)的可移动扫描微镜(101) - 基本上覆盖微反射镜的反射面的透明棱镜(500,600); - 其中所述棱镜的外表面不平行于微镜中性面N-N,从而提供双重防斑和抗反射效果,即抵抗寄生光。 本发明还提供了相应的微投影系统和减少斑点的方法。
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5.发明申请公开(公告)号:US20090120193A1
公开(公告)日:2009-05-14
申请号:US12120073
申请日:2008-05-13
Applicant: Nicolas Abele
Inventor: Nicolas Abele
Abstract: A micro scale includes one substrate forming a first zone constituting a first terminal, one conducting vibrating beam which has two opposite ends affixed on two supporting areas on the substrate, the conductive beam forming a second terminal; wherein the conductive beam is made of polymer gel having metallic microparticles in low quantity so as to avoid any contamination of a biological material to measure, the density of the metallic microparticles being high enough to achieve electrical conduction of the second terminal. A manufacturing process of such a micro scale circuit is also provided.
Abstract translation: 微尺度包括形成构成第一端子的第一区域的一个衬底,一个导电振动梁,其具有固定在衬底上的两个支撑区域上的两个相对端,所述导电梁形成第二端子; 其特征在于,所述导电性束由低分子量金属微粒的聚合物凝胶构成,以避免对所述生物材料的任何污染物进行测量,所述金属微粒的密度足够高以实现所述第二末端的导电。 还提供了这种微尺度电路的制造工艺。
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Patent Agency Ranking
公开(公告)号:US20150277213A1
公开(公告)日:2015-10-01
申请号:US14417018
申请日:2012-08-06
Applicant: Lucio Kilcher , Nicolas Abele
Inventor: Lucio Kilcher , Nicolas Abele
CPC classification number: H04N9/3135 , G02B26/101 , G02B27/0101 , G02B27/0149 , G02B2027/0112 , G02B2027/0154 , G03B21/142 , G03B21/28 , H04N9/3129 , H04N9/3164 , H04N9/317 , H04N9/3194 , Y10T29/49826
Abstract: According to the present invention there is provided a method of manufacturing a projecting device comprising the steps of fixing the positions of a red light source, green light source and blue light source so that the light sources are immovable; providing a mirror which is configured to oscillate such that it can scan light it receives across a display screen; positioning an optical component, which is configured to deflect light, such that it can receive red, green and blue light beams outputted from the red, green and blue light sources respectively; adjusting the optical component such that the optical component compensates for variation between the light sources, in the direction in which the red, green and blue light beams are output from the red, green and blue light sources, so that each of the red, green and blue light beams are directed to the same point on the display screen. There is further provided a corresponding projection device.
Abstract translation: 根据本发明,提供一种制造投影装置的方法,包括以下步骤:固定红色光源,绿色光源和蓝色光源的位置,使得光源不可移动; 提供被配置为振荡以使得其可以扫描通过显示屏幕接收的光的反射镜; 定位被配置为偏转光的光学部件,使得其可以分别接收从红色,绿色和蓝色光源输出的红色,绿色和蓝色光束; 调整光学部件,使得光学部件补偿从红色,绿色和蓝色光源输出红色,绿色和蓝色光束的方向上的光源之间的变化,使得每个红色,绿色 并且蓝光束被引导到显示屏上的相同点。 还提供了相应的投影装置。
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公开(公告)号:US08878790B2
公开(公告)日:2014-11-04
申请号:US12170849
申请日:2008-07-10
Applicant: Nicolas Abele
Inventor: Nicolas Abele
CPC classification number: G06K9/0002 , G06F3/0412
Abstract: A microelectronic pressure sensor comprises a MOSFET transistor adapted with a mobile gate and a cavity between the mobile gate and a substrate. The sensor includes a gate actuator configured to move mobile gate in response to a pressure being exercised. A fingerprint recognition system includes a matrix of such sensors.
Abstract translation: 微电子压力传感器包括适用于移动栅极和移动栅极与衬底之间的空腔的MOSFET晶体管。 传感器包括门致动器,该门致动器被配置为响应于正在施加的压力移动移动门。 指纹识别系统包括这种传感器的矩阵。
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公开(公告)号:US20140285899A1
公开(公告)日:2014-09-25
申请号:US14356754
申请日:2012-08-15
Applicant: Lucio Kilcher , Nicolas Abele
Inventor: Lucio Kilcher , Nicolas Abele
CPC classification number: G02B27/0101 , G02B5/02 , G02B13/22 , G02B27/48 , G02B2027/0118 , G02B2027/013
Abstract: The present invention provides a projection system (10), preferably for a head-up display e.g. on board a vehicle, comprising a laser source (1), a diffuser (3) and telecentric optics (2) disposed between the laser and the diffuser so that the telecentric optics outputs parallel rays to the diffuser, the diffused light being thus independent from the incidence angle; each pixel of the projected image has the same brightness, regardless of the angle or of the position from which it is viewed.
Abstract translation: 本发明提供一种投影系统(10),优选用于平视显示器 在车辆上,包括设置在激光器和扩散器之间的激光源(1),漫射器(3)和远心光学器件(2),使得远心光学器件将平行射线输出到扩散器,因此漫射光从而独立于 入射角; 投影图像的每个像素具有相同的亮度,而与角度或其所看到的位置无关。
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公开(公告)号:US20130242275A1
公开(公告)日:2013-09-19
申请号:US13638217
申请日:2010-04-28
Applicant: Lucio Kilcher , Nicolas Abele , Faouzi Khechana
Inventor: Lucio Kilcher , Nicolas Abele , Faouzi Khechana
CPC classification number: G02B27/48 , G02B5/0215 , G02B5/0231 , G02B5/0278 , G02B26/0833 , G03B21/28
Abstract: Optical MEMS scanning micro-mirror comprising:—a movable scanning micro-mirror (101) pivotally connected to a MEMS body (102) substantially surrounding the lateral sides of the micro-mirror;—an transparent prism (500, 600) substantially covering the reflection side of the micro-mirror;—wherein said prism has its outer face non-parallel to the micro-mirror neutral plane N-N, thereby providing a dual anti-speckle and anti-reflection effect, namely against parasitic light. The invention also provides the corresponding micro-projection system and method for reducing speckle.
Abstract translation: 光学MEMS扫描微镜包括: - 可枢转地连接到基本上围绕微镜的侧面的MEMS主体(102)的可移动扫描微镜(101); - 基本上覆盖所述微镜的横向侧的透明棱镜(500,600) 反射镜; - 其中所述棱镜的外表面不平行于微镜中性面NN,从而提供双重防斑和抗反射效应,即抵抗寄生光。 本发明还提供了相应的微投影系统和减少斑点的方法。
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公开(公告)号:US20130235354A1
公开(公告)日:2013-09-12
申请号:US13638279
申请日:2010-04-28
Applicant: Lucio Kilcher , Faouzi Khechana , Nicolas Abele
Inventor: Lucio Kilcher , Faouzi Khechana , Nicolas Abele
CPC classification number: G02B27/48 , G02B26/0833 , G02B26/101 , G03B21/16 , H04N9/3129
Abstract: A micro-projection system for projecting light on a projection surface (104), comprising: at least one coherent light source (101); optical elements (102, 108, 109) in the optical path between said coherent light source and said projection surface; said optical elements including at least one reflective member (102) actuated by a drive signal for deviating light from said light source so as to scan a projected image onto said projecting surface; said optical elements including at least one pixel displacement unit (106) for providing a displacement signal synchronized with the image scanning signal so as to reduce speckle onto said projecting surface. The corresponding method for reducing speckle is also provided.
Abstract translation: 一种用于在投影表面(104)上投射光的微投影系统,包括:至少一个相干光源(101); 在所述相干光源和所述投影表面之间的光路中的光学元件(102,108,109); 所述光学元件包括由驱动信号驱动的至少一个反射构件(102),用于偏离来自所述光源的光,以将投影图像扫描到所述突出表面上; 所述光学元件包括至少一个像素位移单元(106),用于提供与图像扫描信号同步的位移信号,以便减少所述突出表面上的斑点。 还提供了减少斑点的相应方法。
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