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    • 1. 发明授权
    • Radiation detector array using radiation sensitive bridges
    • 辐射检测器阵列使用辐射敏感桥
    • US5010251A
    • 1991-04-23
    • US463563
    • 1990-01-11
    • Jan GrinbergMurray S. WelkowskyChiung-Sheng WuPaul O. Braatz
    • Jan GrinbergMurray S. WelkowskyChiung-Sheng WuPaul O. Braatz
    • G01J5/10G01J5/20G01J5/22G01J5/52
    • G01J5/10G01J5/20G01J5/22G01J5/522
    • An infrared (IR) simulator is disclosed in which an array of pixels is defined on an insulative substrate by resistor bridges which contact the substrate at spaced locations and are separated from the substrate, and thereby thermally insulated therefrom, between the contact locations. Semiconductor drive circuits on the substrate enable desired current flows through the resistor bridges in response to input control signals, thereby establishing the appropriate IR radiation from each of the pixels. The drive circuits and also at least some of the electrical lead lines are preferably located under the resistor bridges. A thermal reflector below each bridge shields the drive circuit and reflects radiation to enhance the IR output. The drive circuits employ sample and hold circuits which produce a substantially flicker-free operation, with the resistor bridges being impedance matched with their respective drive circuits. The resistor bridges may be formed by coating insulative base bridges with a resistive layer having the desired properties, and overcoating the resistive layers with a thermally emissive material. The array is preferably formed on a silicon-on-sapphire (SOS) wafer. Arrays of electromagnetic radiation bridge detectors may also be formed, with the bridges having either resistor, thermocouple or Schottky junction constructions.
    • 公开了一种红外(IR)模拟器,其中像素阵列通过电阻器桥限定在绝缘衬底上,电阻器桥在间隔开的位置处接触衬底,并且在接触位置之间与衬底分离,从而与衬底隔离。 衬底上的半导体驱动电路响应于输入控制信号使期望的电流流过电阻器桥,从而从每个像素建立适当的红外辐射。 驱动电路以及至少一些电引线优选位于电阻桥下。 每个桥下的热反射器屏蔽驱动电路并反射辐射以增强IR输出。 驱动电路采用产生基本上无闪烁操作的采样和保持电路,其中电阻器桥与它们各自的驱动电路阻抗匹配。 可以通过用具有期望特性的电阻层涂覆绝缘基桥来形成电阻器桥,并用热发射材料覆盖电阻层。 阵列优选形成在蓝宝石(SOS)硅晶片上。 也可以形成电磁辐射桥接检测器阵列,其中桥具有电阻器,热电偶或肖特基结结构。
    • 2. 发明授权
    • Infrared transducer and goggles incorporating the same
    • 红外线传感器和护目镜结合在一起
    • US5389788A
    • 1995-02-14
    • US166790
    • 1993-12-13
    • Jan GrinbergRaymond BalcerakChiung-Sheng WuUzi EfronPaul O. Braatz
    • Jan GrinbergRaymond BalcerakChiung-Sheng WuUzi EfronPaul O. Braatz
    • G01J5/04G01J5/20G02F1/135H01L27/146G02F1/136
    • H01L27/146G02B23/125G02F1/1354H04N5/3651H04N5/33
    • An infrared (IR) radiation transducer integrates an IR detector array with a liquid crystal (LC) readout. The IR detector is preferably a pixelized bolometer array, but other detectors such as pyroelectric materials are possible. To modulate the LC in response to detected IR radiation, a modulating section is provided that includes a charge injection structure which injects electrical charge in response to the detected IR radiation, and a charge transfer structure that transfers the injected charge to the LC readout section. During its active phase the charge transfer layer is depleted of majority charge carriers, and the charge injection and transfer mechanism operates in a manner analogous to a bipolar transistor. A visible readout is obtained by directing readout light through the LC, where it is modulated in accordance with the detected IR image. The transducers are small and light weight enough to be incorporated into a pair of goggles, for which no separate cooling is required.
    • 红外(IR)辐射传感器将IR检测器阵列与液晶(LC)读数器集成。 IR检测器优选地是像素化的测辐射热计阵列,但是其他检测器如热电材料也是可能的。 为了响应于检测到的IR辐射来调制LC,提供了调制部分,其包括响应于检测到的IR辐射而注入电荷的电荷注入结构,以及将注入的电荷传送到LC读出部分的电荷转移结构。 在其活性阶段期间,电荷转移层耗尽多数电荷载流子,并且电荷注入和转移机制以类似于双极晶体管的方式工作。 通过将读出光引导通过LC获得可见读出,其中根据检测到的IR图像进行调制。 传感器体积小巧,重量轻,可以并入一副护目镜,不需要单独的冷却。
    • 3. 发明授权
    • LCLV having photoconductive pedestals each having a cross-sectional area
no greater than 5 percent of the area of its respective reflective pad
    • 具有感光基座的LCLV各自具有不大于其相应反射板的面积的5%的横截面积
    • US5612800A
    • 1997-03-18
    • US333533
    • 1994-11-02
    • Paul O. BraatzChiung-Sheng Wu
    • Paul O. BraatzChiung-Sheng Wu
    • G02B26/08G02F1/1335G02F1/1343G02F1/135H04N5/74
    • G02F1/1354G02F1/133526
    • A liquid crystal light valve is provided with an array of photoconductive pedestals surrounded by a dielectric matrix material. Metal mirror pads are formed on top of each pedestal to form a high resolution metal matrix mirror, with each pedestal/mirror combination servicing one image pixel. The dielectric matrix forms a potential barrier between the individual photoconductive pedestals which prevents lateral charge migration between pedestals. The metal matrix mirror also shields the underlying photoconductive pedestal from photoactivation by the readout beam. The dielectric matrix material has a lower dielectric constant than the photoconductive pedestals, allowing the impedance of the photoconductive pedestals to match the impedance of the liquid crystal layer with a much thinner layer of photoconductive material than in prior LCLVs using a continuous photoconductive layer. The thinner photoconductive layer results in higher electric fields which improve the LCLV's response time, photodegradation rate, spatial resolution and spectral response.
    • 液晶光阀设置有由电介质基质材料包围的感光基座的阵列。 金属镜垫形成在每个基座的顶部,以形成高分辨率金属矩阵镜,每个基座/镜组合服务于一个图像像素。 电介质矩阵在各个感光基座之间形成一个势垒,防止基座之间的横向电荷迁移。 金属矩阵镜还屏蔽下面的光导基座,使其不受光读出光束的影响。 介质矩阵材料的介电常数低于光导基座,使得光电基座的阻抗与使用连续光电导层的现有LCLV相比,液晶层的阻抗与光电导材料的厚度相比更薄。 较薄的光电导层导致更高的电场,这提高了LCLV的响应时间,光降解速率,空间分辨率和光谱响应。
    • 4. 发明授权
    • Holographic lenses with wide angular and spectral bandwidths for use in
a color display device
    • 具有宽角度和光谱带宽的全息透镜,用​​于彩色显示设备
    • US5680231A
    • 1997-10-21
    • US465848
    • 1995-06-06
    • Jan GrinbergAnson AuChiung-Sheng Wu
    • Jan GrinbergAnson AuChiung-Sheng Wu
    • G02B3/00G02B5/20G03H1/26G02B5/32G02F1/1335
    • G02B3/005G02B3/0062G02B3/0068G02B5/203G03H1/26
    • The angular and/or spectral bandwidth of a holographic lens assembly can be widened to accomodate highly diverging and/or wide spectral bandwidth illumination sources, respectively. Each lens in the lens assembly is comprised of a plurality of angularly customized holograms (an angularly customized hologram set). Each of the individual holograms in an angularly customized hologram set has an acceptance angle range that is centered on a discrete peak acceptance angle. The separation between the holograms' peak acceptance angles is chosen so that the acceptance angle ranges of the individual holograms overlap. The resulting cumulative acceptance angle range of each angularly customized hologram set provides a holographic lens assembly that has a wider angular bandwidth than prior holographic lenses. The spectral bandwidth of the lens assembly can be similarly widened by adding a spectrally customized hologram set to the lens assembly in which the spectral waveband of each of the individual spectrally customized holograms partially overlap. Specific applications to various types of displays are disclosed, as well as preferred fabrication techniques for the holographic lenses.
    • 全息透​​镜组件的角度和/或光谱带宽可以分别加宽以适应高度发散和/或宽的光谱带宽照明源。 透镜组件中的每个透镜由多个角度定制的全息图(角度定制的全息图组)组成。 角度定制的全息组中的每个单独全息图具有以离散的峰值接受角为中心的接受角度范围。 选择全息图峰值接收角之间的间隔,使得各个全息图的接受角度范围重叠。 每个角度定制的全息组的所得到的累积接受角范围提供具有比现有全息透镜更宽的角带宽的全息透镜组件。 透镜组件的光谱带宽可以通过将光谱定制的全息图组添加到其中每个光谱定制全息图中的每个光谱波段部分重叠的透镜组件相似地加宽。 公开了各种类型的显示器的具体应用,以及全息透镜的优选制造技术。
    • 5. 发明授权
    • Liquid crystal display method and apparatus with tuneable phase
compensation
    • 具有可调谐相位补偿的液晶显示方法和装置
    • US5245451A
    • 1993-09-14
    • US766943
    • 1991-09-27
    • Shin-Tson WuChiung-Sheng Wu
    • Shin-Tson WuChiung-Sheng Wu
    • G02F1/1347
    • G02F1/13471
    • A liquid crystal (LC) display method and apparatus applies respective active LC bias voltages to both a master LC cell, and a phase compensation LC cell for the master cell. The bias voltages are selected to reduce the response time of the master cell, and to establish a common multicolor dark state for that cell. With a proper selection of the bias voltages, the products of the liquid crystal thickness and birefringence for each cell are substantially equal and mutually cancel. A bias voltage is first established for one cell, and the bias voltage for the other cell is then scanned to locate the point of mutual cancellation. A range of different bias voltages are possible, and a suitable bias is selected to balance response time against the required operating voltage range. A multicolor display system using only a single light valve can be realized.
    • 液晶(LC)显示方法和装置对主LC单元和主单元的相位补偿LC单元都应用各自的有源LC偏置电压。 选择偏置电压以减少主单元的响应时间,并为该单元建立常见的多色暗状态。 通过适当选择偏置电压,每个单元的液晶厚度和双折射的乘积基本相等并相互抵消。 首先为一个单元建立偏置电压,然后扫描另一个单元的偏置电压以定位相互抵消的点。 一系列不同的偏置电压是可能的,并且选择适当的偏置以平衡响应时间与所需的工作电压范围。 可以实现仅使用单个光阀的多色显示系统。
    • 7. 发明授权
    • System and method for detecting moving objects using video capturing device
    • 使用视频捕获设备检测移动物体的系统和方法
    • US08958598B2
    • 2015-02-17
    • US13631702
    • 2012-09-28
    • Chiung-Sheng Wu
    • Chiung-Sheng Wu
    • G06K9/00
    • G06T7/254G06T2207/20036G06T2207/30196
    • Provided is a system for detecting moving objects. The system includes a video capturing device and a detection unit. The video capturing device captures “n” pieces of consecutive images during a time period, where “n” represents a positive integer. The detecting unit selects one of the images as a reference images and processes the other n−1 pieces of images. The detecting unit differentiates the n−1 pieces of images relative to the reference image, grays the differentiated n−1 pieces of images, binarizes the grayed n−1 pieces of imaged, blurs the binarized n−1 pieces of images, dilates the blurred n−1 pieces of images, and detects edges from the dilated n−1 pieces of images.
    • 提供了一种用于检测移动物体的系统。 该系统包括视频捕获设备和检测单元。 视频拍摄装置在一段时间内捕获“n”个连续图像,其中“n”表示正整数。 检测单元选择一个图像作为参考图像,并处理其它n-1个图像。 检测单元相对于参考图像区分n-1个图像,对差分的n-1个图像进行灰化,对灰度的n-1个成像进行二值化,模糊二进制的n-1个图像,使模糊的 n-1张图像,并且从扩张的n-1张图像中检测边缘。