会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 31. 发明授权
    • Method and apparatus for reducing laser speckle using polarization averaging
    • 使用偏振平均减少激光散斑的方法和装置
    • US06956878B1
    • 2005-10-18
    • US09498703
    • 2000-02-07
    • Jahja I. Trisnadi
    • Jahja I. Trisnadi
    • G02B27/28G02B27/48H01S3/10H01S3/08
    • G02B27/48
    • A method and apparatus for reducing speckle uses polarization averaging. A polarizing beam splitter divides a first polarized laser output into a second polarized laser output and a third polarized laser output. A plurality of mirrors creates an optical path difference between the second and third polarized laser outputs. The optical path difference is at least about a coherence length for the first polarized laser output. The second and third polarized laser outputs are combined into a fourth laser output, which illuminates a depolarizing screen. If a human eye or an optical system having a intensity detector views the depolarizing screen, the eye or the intensity detector will detect reduced speckle, which results from uncorrelated speckle patterns created by the second polarized laser output and the third polarized laser output. A first alternative embodiment of the invention functions without the optical path difference being at least about the coherence length. In the first alternative embodiment, a piezoelectric transducer varies an optical path length by at least about a half wavelength of the first polarized laser output. By varying the optical path length by a sufficient frequency, the eye or the intensity detector will detect the reduced speckle. A second alternative embodiment combines two orthogonally polarized laser outputs, from two lasers, into a combined laser output. The combined laser output illuminates the depolarizing screen. A third alternative embodiment rotates the first laser output with a rotation frequency to form a rotating polarized laser output, which illuminates the depolarizing screen.
    • 减少斑点的方法和装置使用极化平均。 偏振分束器将第一偏振激光输出分为第二偏振激光输出和第三偏振激光输出。 多个反射镜在第二和第三偏振激光输出之间产生光程差。 光路差异至少约为第一偏振激光输出的相干长度。 第二和第三偏振激光输出组合成第四激光输出,其照亮去极化屏幕。 如果具有强度检测器的人眼或光学系统观察去极化屏幕,则眼睛或强度检测器将检测由第二偏振激光输出和第三偏振激光输出产生的不相关的斑点图案产生的减少的斑点。 本发明的第一替代实施例在没有光路差异至少约相干长度的情况下起作用。 在第一替代实施例中,压电换能器将光路长度改变至少第一偏振激光输出的一半波长。 通过以足够的频率改变光路长度,眼睛或强度检测器将检测到减少的斑点。 第二替代实施例将来自两个激光器的两个正交极化激光输出组合成组合的激光输出。 组合的激光输出照亮去极化屏幕。 第三替代实施例以旋转频率旋转第一激光输出以形成旋转偏振激光输出,其照亮去极化屏幕。
    • 32. 发明授权
    • Method, apparatus, and diffuser for reducing laser speckle
    • 用于减少激光斑点的方法,设备和扩散器
    • US06747781B2
    • 2004-06-08
    • US09898882
    • 2001-07-02
    • Jahja I. Trisnadi
    • Jahja I. Trisnadi
    • G02F101
    • G02B27/48
    • A method of reducing speckle includes dividing a laser illuminated area into phase cells, subdividing the phase cells into cell partitions, and applying a temporal phase variation to the cell partitions within an integration time of an intensity detector viewing the laser illuminated area. An apparatus for reducing speckle includes illumination optics, a diffuser, and projection optics. The illumination optics couple a laser illumination to the diffuser, which is located in a first image plane. The diffuser divides the laser illumination into the phase cells and subdivides the phase cells into the cell partitions. The diffuser also applies the temporal phase variation to the cell partitions. The projection optics project an image of the first image plane onto a diffuse surface. A display apparatus adds a light modulator to the apparatus for reducing speckle and places the light modulator in a third image plane located between a laser source and the diffuser. The diffuser includes first and second diffuser cells, each of which include first and second diffuser cell partitions. In use, the first diffuser cell partitions induce a first relative phase of zero while the second diffuser cell partitions induce a second relative phase of pi radians. The first and second diffuser cell partitions of the first diffuser cells are preferably arranged in a first Hadamard matrix pattern. The first and second diffuser cell partitions of the second diffuser cell are preferably arranged in a second Hadamard matrix pattern.
    • 减少斑点的方法包括将激光照射区域分为相位单元,将相位单元细分成单元分区,以及在观察激光照射区域的强度检测器的积分时间内对单元分区应用时间相位变化。 用于减少斑点的装置包括照明光学器件,漫射器和投影光学器件。 照明光学器件将激光照射耦合到位于第一像平面中的漫射器。 扩散器将激光照射分为相位单元,并将相位单元细分成单元分隔。 扩散器还将时间相位变化应用于单元分区。 投影光学器件将第一个图像平面的图像投影到漫射表面上。 显示装置将光调制器添加到用于减少斑点的装置中,并将光调制器放置在位于激光源和扩散器之间的第三像面中。 扩散器包括第一和第二扩散器单元,每个扩散器单元包括第一和第二扩散器单元隔板。 在使用中,第一扩散器单元分隔器引起第一相对相位为零,而第二扩散器单元分隔件引起第一相对相位的π弧度。 第一扩散器单元的第一和第二扩散器单元隔板优选地以第一Hadamard矩阵图案布置。 第二扩散器单元的第一和第二扩散器单元隔板优选地布置在第二Hadamard矩阵图案中。
    • 33. 发明授权
    • Method and apparatus for reducing laser speckle
    • 减少激光斑点的方法和装置
    • US06323984B1
    • 2001-11-27
    • US09687465
    • 2000-10-11
    • Jahja I. Trisnadi
    • Jahja I. Trisnadi
    • G02F103
    • G02B27/48H04N9/3126H04N9/3132
    • A method and apparatus for reducing laser speckle in a laser illuminated system where a line illumination produced by a laser is scanned across a diffuse service is preferably incorporated in a display apparatus where a two dimensional image is produced on a display screen. The display apparatus includes a light modulator, a wavefront modulator, and a projection/scanning optical arrangement. The light modulator modulates a laser illumination to form a line image made up of a linear array of pixels. The wavefront modulator varies a spatial phase across a width of the line image thus forming a phase modulated wavefront. The projection/scanning optical arrangement projects the line image onto the display screen and scans the line image over the display screen. The phase modulated wavefront produces multiple speckle patterns that are averaged as the line image is scanned and, thus, produces the reduced laser speckle.
    • 用于减少激光照射系统中的激光散斑的方法和装置,其中由激光产生的线照明在漫射服务上扫描,优选地结合在显示装置中,其中在显示屏上产生二维图像。 显示装置包括光调制器,波前调制器和投影/扫描光学装置。 光调制器调制激光照明以形成由线性像素阵列组成的线图像。 波前调制器在线图像的宽度上改变空间相位,从而形成相位调制的波前。 投影/扫描光学装置将线条图像投影到显示屏幕上,并通过显示屏幕扫描线条图像。 相位调制波阵面产生多个斑纹图案,其随着扫描线图像而被平均,并因此产生减少的激光散斑。
    • 35. 发明授权
    • Apparatus and method for recording an image on photographic film
    • 在摄影胶片上记录图像的装置和方法
    • US08285131B1
    • 2012-10-09
    • US12949618
    • 2010-11-18
    • Gregory A. MyattAlexander P. PayneJahja I. TrisnadiHarold A. Zarem
    • Gregory A. MyattAlexander P. PayneJahja I. TrisnadiHarold A. Zarem
    • G03B37/02
    • G02B26/0808G03B21/2033G03B27/528G03B27/73G03B33/06H04N5/846
    • A film recorder including a linear diffractive spatial light modulator (LDSLM) and methods of using the same to record a digital image on a strip of photographic film are provided. In one embodiment, the recorder includes: an illuminator including at least one monochromatic light source generating a light beam; a spatial light modulator assembly including at least one linear diffractive spatial light modulator (LDSLM) to receive the light beam from the illuminator and modulate the light beam from the illuminator; a film transport for transporting a photographic film on an imaging plane; and imaging optics disposed in a light path between the LDSLM and the imaging plane to image the light beam simultaneously on a substantially linear portion of the photographic film to record an image on the photographic film. Other embodiments are also provided.
    • 提供了一种包括线性衍射空间光调制器(LDSLM)的胶卷记录器及其使用方法,用于在照相胶片条上记录数字图像。 在一个实施例中,记录器包括:照明器,包括产生光束的至少一个单色光源; 空间光调制器组件,其包括至少一个线性衍射空间光调制器(LDSLM),以接收来自照明器的光束并调制来自照明器的光束; 用于在成像平面上传送照相胶片的胶片传送装置; 以及设置在LDSLM和成像平面之间的光路中的成像光学器件,以将光束同时成像在照相胶片的基本上线性的部分上,以在照相胶片上记录图像。 还提供了其他实施例。
    • 38. 发明申请
    • METHOD AND SYSTEM FOR THREE-DIMENSIONAL MOTION-TRACKING
    • 用于三维运动跟踪的方法和系统
    • US20160209929A1
    • 2016-07-21
    • US15000993
    • 2016-01-19
    • Jahja I. Trisnadi
    • Jahja I. Trisnadi
    • G06F3/01G06F3/03G01D5/34
    • G06F3/042G06F3/0304G06F2203/04101
    • One embodiment provides an apparatus for tracking movements of an object in a three-dimensional (3D) space. The apparatus can include one or more lasers, one or more optical sensors, and a processing unit. The total number of lasers and optical sensors is equal to or greater than three. A respective laser is configured to emit a laser beam onto a surface of the object and a respective optical sensor is configured to detect speckles of one or more lasers scattered from the surface of the object. The processing unit is configured to compute 3D displacement of the object based on outputs of the optical sensors and generate data associated with the 3D displacement.
    • 一个实施例提供了用于跟踪三维(3D)空间中的对象的运动的装置。 该装置可以包括一个或多个激光器,一个或多个光学传感器和处理单元。 激光器和光学传感器的总数等于或大于三。 相应的激光器被配置为将激光束发射到物体的表面上,并且相应的光学传感器被配置为检测从物体的表面散射的一个或多个激光器的斑点。 处理单元被配置为基于光学传感器的输出来计算对象的3D位移,并且生成与3D位移相关联的数据。
    • 39. 发明授权
    • Molded block optical system for volume holographic storage
    • 用于体积全息存储的模制块光学系统
    • US5896210A
    • 1999-04-20
    • US337161
    • 1994-11-09
    • Stephen R. RedfieldJahja I. Trisnadi
    • Stephen R. RedfieldJahja I. Trisnadi
    • G02B17/08G03H1/04G11B7/0065G11B7/135G11C13/04G03H1/00G02B5/04G03H1/12
    • G02B19/0085G02B17/086G02B19/0028G03H1/02G03H1/0248G11B7/0065G11B7/135G11C13/042G03H2001/0216G03H2001/0232
    • Molded block optics system (10) writes and reads data from an optical storage medium and includes first molded optics block (12) for receiving reference beam (60) and original object beam (46) that contains a predetermined data set. First molded optics block (12) includes reflective surfaces (18, 20, 22, and 24) and spatial light modulator (50). Reflective surfaces (18, 20, and 24) include reference beam surfaces (24) and object beam surfaces (18, 20, and 22). Reference beam surfaces (24) direct reference beam (60) to optical storage medium (16) at predetermined location (54). Spatial light modulator (50) modulates object beam (46) and directs modulated object beam (46) to predetermined location (54). Reference beam (60) and object beam (46) form an interference pattern that writes data on optical storage medium (16). First molded optics block (12) also directs reference beam (60) to optical storage medium (16) for generating reconstructed object beam (64). Second molded optics block (14) receives reconstructed object beam (64), and includes reflective surfaces that direct reconstructed object beam (64) to detector array (32).
    • 成型块光学系统(10)从光学存储介质写入和读取数据,并且包括用于接收参考光束(60)的第一模制光学块(12)和包含预定数据集的原始物体光束(46)。 第一模制光学块(12)包括反射表面(18,20,22和24)和空间光调制器(50)。 反射面(18,20和24)包括参考光束表面(24)和物体光束表面(18,20和22)。 参考光束表面(24)在预定位置(54)将参考光束(60)引导到光学存储介质(16)。 空间光调制器(50)调制物体光束(46)并将调制的物体光束(46)引导到预定位置(54)。 参考光束(60)和物体光束(46)形成在光学存储介质(16)上写入数据的干涉图案。 第一模制光学块(12)还将参考光束(60)引导到用于产生重建物体光束(64)的光学存储介质(16)。 第二模制光学块(14)接收重建的物体光束(64),并且包括将重建的物体光束(64)引导到检测器阵列(32)的反射表面。
    • 40. 发明授权
    • System and method for mounting an optical component to an integrated circuit package
    • 用于将光学部件安装到集成电路封装的系统和方法
    • US07816697B1
    • 2010-10-19
    • US11710034
    • 2007-02-23
    • Brett A. SpurlockEdward D. HuberJahja I. Trisnadi
    • Brett A. SpurlockEdward D. HuberJahja I. Trisnadi
    • H01L33/00
    • H01L33/58H01L27/14625H01L31/02325
    • A packaging structure and method are provided for packaging an optoelectronic device. Generally, the packaging structure includes: (i) an integrated circuit (IC) package to which the optoelectronic device is affixed; (ii) an optical plug mounted to the IC package, the optical plug positioned relative to the optoelectronic device to direct light to or from the optoelectronic device, the optical plug having an interior optical surface closest to the optoelectronic device that does not make physical contact with either the optoelectronic device or the IC package. Preferably, the packaging structure can further include air or an index matching fluid in a gap between the interior optical surface and the optoelectronic device or IC package. More preferably, both the IC package and the optical plug include features to facilitate alignment and mounting of the optical plug to the IC package during assembly. Other embodiments are also disclosed.
    • 提供了用于封装光电子器件的封装结构和方法。 通常,封装结构包括:(i)集成电路(IC)封装,光电子器件固定到该封装上; (ii)安装到所述IC封装的光学插头,所述光学插头相对于所述光电子器件定位以将光引导到所述光电子器件或从所述光电子器件引导光,所述光学插头具有最接近所述光电器件的内部光学表面,所述内部光学表面不进行物理接触 使用光电子器件或IC封装。 优选地,包装结构还可以包括在内部光学表面和光电子器件或IC封装之间的间隙中的空气或折射率匹配流体。 更优选地,IC封装和光学插头都包括有助于在组装期间将光学插头对准和安装到IC封装的特征。 还公开了其他实施例。