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    • 1. 发明申请
    • APPARATUS AND METHODS FOR PHOTO-ELECTRIC MEASUREMENT
    • 用于照相电测量的装置和方法
    • WO2004106874A1
    • 2004-12-09
    • PCT/EP2003/005758
    • 2003-06-02
    • SENSOVATION AGHING, Paul, Anthony
    • HING, Paul, Anthony
    • G01J3/28
    • G01J3/2803G01N21/31
    • The invention relates to an apparatus and a method for photo-electric measurement. The apparatus comprises a single or a plurality of photo-electric conversion devices, preferably array sensor(s) such as CCD, CMOS, CID and the like, an optical system which is modularly expandable in one axis or a plurality of axes in order to acquire electromagnetic radiation from a line or area of any desired size on an object, with any desired resolution, wherein the said optical system preferably separates the said electromagnetic radiation modularly into a plurality of smaller segments, and projects electromagnetic radiation corresponding to the said smaller segments onto said single or a plurality of individual photo-electric conversion devices and sensor electronics related to said photo-electric conversion device(s) which enable the operating mode and functionality of said photo-electric conversion device(s) to be defined and changed in real-time, whereby functions such as the readout sequence of pixels and unlimited flexibility of pixel binning in two dimensions are fully programmable, and said photo-electric conversion device(s) may operate and/or be controlled independently and/or simultaneously.
    • 本发明涉及光电测量的装置和方法。 该装置包括单个或多个光电转换装置,优选地诸如CCD,CMOS,CID等的阵列传感器,可以在一个轴或多个轴上模块地展开的光学系统,以便 以任何期望的分辨率从物体上的任何所需尺寸的线或区域获取电磁辐射,其中所述光学系统优选地将所述电磁辐射模块化地分离成多个较小的部分,并且投射对应于所述较小部分的电磁辐射 在与所述光电转换装置相关的所述单个或多个单独的光电转换装置和传感器电子装置上,使得所述光电转换装置的操作模式和功能能够被定义和改变 实时的,像素的读出顺序和二维像素分档的无限灵活性等功能完全是专业的 并且所述光电转换装置可以独立地和/或同时地操作和/或被控制。
    • 2. 发明申请
    • IMAGE SENSOR DEVICE, APPARATUS AND METHOD FOR OPTICAL MEASUREMENTS
    • 图像传感器装置,用于光学测量的装置和方法
    • WO0225934A3
    • 2002-12-12
    • PCT/EP0111027
    • 2001-09-24
    • SENSOVATION AGHING PAUL ANTHONY
    • HING PAUL ANTHONY
    • G01J3/02G01J3/28H04N5/335H04N3/15
    • G01J3/02G01J3/0286G01J3/2803H04N5/341H04N5/374H04N5/3765
    • The invention relates to an apparatus and processes for optical measurement and detection with real-time closed-loop controls, which enable higher levels of performance. The invention is especially suitable for applications such as spectroscopy; microscopy; biochemical assays; processes and reactions on miniaturized formats (such as those involving micro-/nano-plates, micro-formats & micro-arrays, chemistry-on-chip, lab-on-chip, micro-channels and micro-fluidics, where dimensions are on micron scale and columes are in the sub-nanoliter range). Such "intelligent sensing" allows higher data quality and reliability, higher measurement and analysis throughput and lower cost. The invention uses fast real-time adaptive digital signal processing and controls directly at the point where data is sensed. Through real-time adaptive control of sensors, chemical/opto-mechanical/opto-electronic processes and other components during the measurement process, consistently higher quality results and higher reliability are achieved. This invention furthermore includes an improved image sensor architecture that enables very intra-array dynamic range at fast frame rates and low noise performance.
    • 本发明涉及一种用于实时闭环控制的光学测量和检测的装置和方法,其实现更高水平的性能。 本发明特别适用于光谱学; 显微镜; 生化测定; 微型化格式的过程和反应(如涉及微/纳米板,微格式和微阵列,片上化学,片上实验室,微通道和微流体学的方法和反应,其尺寸在 微米级和串联在亚纳升范围内)。 这种“智能感应”可以提供更高的数据质量和可靠性,更高的测量和分析吞吐量以及更低的成本。 本发明使用快速实时自适应数字信号处理和直接在数据被感测的位置进行控制。 通过在测量过程中通过传感器,化学/光电机械/光电子工艺和其他部件的实时自适应控制,实现了更高质量的结果和更高的可靠性。 本发明还包括改进的图像传感器架构,其能够以快速帧速率和低噪声性能实现非常阵列内的动态范围。