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    • 1. 发明申请
    • Biochip scanner device
    • 生物芯片扫描仪装置
    • US20050233376A1
    • 2005-10-20
    • US11166238
    • 2005-06-27
    • Jiann-Hua WangHui-Ju ChenTzu-Chiang WuChien-Ho ChuangTsung-Kai Chuang
    • Jiann-Hua WangHui-Ju ChenTzu-Chiang WuChien-Ho ChuangTsung-Kai Chuang
    • C12M1/34C12Q1/68G01N21/64
    • G01N21/6428G01N21/6452G01N21/6456
    • A biochip scanner device includes a light source for emitting a light beam; a light processing unit for focusing the light beam onto the biochip to excite fluorescence from a sample spot on the biochip; a filter for filtering off the light beam from the light source and the scattered light from the surface on the biochip; a photomultiplier tube (PMT) for detecting and converting the fluorescence into a current signal; and an output device for outputting/displaying the current signal detected by the PMT. The output device controls the platform to match the pattern of the biochip. No conversion of the output signal of the output device into image data is needed. A real-time analysis proceeds while samples are being scanned on the biochip. The biochip scanner device of the present invention reads the current signal from PMT directly without processing it into image data and setting lens before the PMT is no longer needed. As a result, the structure of the device is simplified and the cost for production is reduced.
    • 生物芯片扫描器装置包括用于发射光束的光源; 光处理单元,用于将光束聚焦到生物芯片上以从生物芯片上的样品点激发荧光; 用于滤除来自光源的光束的滤光器和来自生物芯片上的表面的散射光; 用于检测并将荧光转换成电流信号的光电倍增管(PMT); 以及用于输出/显示由PMT检测的电流信号的输出装置。 输出设备控制平台以匹配生物芯片的图案。 不需要将输出设备的输出信号转换为图像数据。 在生物芯片上扫描样品时,进行实时分析。 本发明的生物芯片扫描器装置在PMT不再需要之前直接从PMT读取当前信号而不将其处理成图像数据和设置透镜。 结果,简化了装置的结构,降低了生产成本。
    • 2. 发明授权
    • Fluorescent microarray analyzer
    • 荧光微阵列分析仪
    • US07042565B2
    • 2006-05-09
    • US10777720
    • 2004-02-13
    • Jiann-Hua WangHui Ju ChenTzu-Chiang WuChien-Ho ChuangTsung-Kai Chuang
    • Jiann-Hua WangHui Ju ChenTzu-Chiang WuChien-Ho ChuangTsung-Kai Chuang
    • G01N21/64
    • G01N21/6452G01N2021/6417
    • A fluorescent microarray analyzer includes a light source for emitting a light beam, a light processing unit for focusing the light beam on the biochip and exciting fluorescent targets on the biochip to produce fluorescence, a focusing lens for focusing the fluorescence on a spectrophotometer, a spectrophotometer for detecting signal of the fluorescence, and an output device for selectively outputting/displaying the signal detected by the spectrophotometer. The resulting signal of the output device does not need to be converted into image data for analysis. For acquiring a more accurate result of detection of signal of fluorescence from the fluorescent targets, the photomultiplier tube of the conventional biochip scanner device is replaced with the spectrophotometer of fluorescent microarray analyzer of the present invention and the filter is removed. Without converting the signal into an image, no errors arise as what happened in process of converting an electrical signal into image data in the conventional biochip. Also, a real-time analysis of the signal proceeds while scanning samples on the biochip.
    • 荧光微阵列分析仪包括用于发射光束的光源,用于将光束聚焦在生物芯片上并激发生物芯片上的荧光靶产生荧光的光处理单元,用于将荧光聚焦在分光光度计上的聚焦透镜,分光光度计 用于检测荧光信号;以及输出装置,用于选择性地输出/显示由分光光度计检测的信号。 输出装置的结果信号不需要转换为图像数据进行分析。 为了从荧光靶获得更准确的荧光信号结果,用本发明的荧光微阵列分析仪的分光光度计代替常规生物芯片扫描器装置的光电倍增管,并除去滤光片。 在不将信号转换为图像的情况下,在传统生物芯片中将电信号转换为图像数据的过程中没有发生错误。 此外,在生物芯片上扫描样品时,信号的实时分析进行。
    • 4. 发明申请
    • Biochip scanner device
    • 生物芯片扫描仪装置
    • US20050157300A1
    • 2005-07-21
    • US10760465
    • 2004-01-21
    • Jiann-Hua WangHui ChenTzu-Chiang WuChien-Ho ChuangTsung-Kai Chuang
    • Jiann-Hua WangHui ChenTzu-Chiang WuChien-Ho ChuangTsung-Kai Chuang
    • C12M1/34C12Q1/68G01N21/64
    • G01N21/6456G01N21/6428G01N21/6452
    • A biochip scanner device includes a light source for emitting a light beam; a light processing unit for focusing the light beam onto the biochip to excite fluorescence from a fluorescent target on the biochip; a filter for filtering off the light beam from the light source; a photomultiplier tube (PMT) for detecting and converting the fluorescence into an electrical signal; and an output device for outputting/displaying the electrical signal detected by the PMT. No conversion of the output signal of the output device into image data is needed. A real-time analysis proceeds while samples are being scanned on the biochip. The biochip scanner device of the present invention reads the electrical signal from PMT directly without processing it into image data and setting lens before the PMT is no longer needed. As a result, the structure of the device is simplified and the cost for production is reduced.
    • 生物芯片扫描器装置包括用于发射光束的光源; 光处理单元,用于将光束聚焦到生物芯片上以从生物芯片上的荧光目标激发荧光; 用于滤除来自光源的光束的滤光器; 用于检测和转换荧光成电信号的光电倍增管(PMT); 以及用于输出/显示由PMT检测的电信号的输出装置。 不需要将输出设备的输出信号转换为图像数据。 在生物芯片上扫描样品时,进行实时分析。 本发明的生物芯片扫描器装置在PMT不再需要之前,直接从PMT读取电信号而不将其处理成图像数据和设置透镜。 结果,简化了装置的结构,降低了生产成本。
    • 5. 发明授权
    • Method for setting up system of reagent chip analyzer
    • 方法设置试剂芯片分析仪系统
    • US08195408B2
    • 2012-06-05
    • US11964152
    • 2007-12-26
    • Tzu-Chiang WuChien-Ho ChuangTsung-Kai ChuangJiann-Hua Wang
    • Tzu-Chiang WuChien-Ho ChuangTsung-Kai ChuangJiann-Hua Wang
    • G01N31/00
    • G01N35/00732G01N2035/00851
    • A method for setting up a system of a reagent chip analyzer is provided. The method is adapted to modify parameters and testing conditions according to data of an authorization tag, so as to improve the adaptability range of the reagent chip analyzer for reagent chips of multiple specifications. The method includes: reading an identification code, authorization times, and specifications and analysis parameters of the reagent chip from an RFID tag; determining whether to load the specifications and the analysis parameters of the reagent chip according to the identification code and the authorization times; and if it is determined to load the specifications and the analysis parameters of the reagent chip, decreasing the authorization times by one, and analyzing the reagent chip according to the specifications and the analysis parameters of the reagent chip.
    • 提供了一种用于设置试剂芯片分析仪的系统的方法。 该方法适用于根据授权标签的数据修改参数和测试条件,以提高多种规格的试剂芯片的试剂芯片分析仪的适应范围。 该方法包括:从RFID标签读取试剂芯片的识别码,授权时间,规格和分析参数; 根据识别码和授权时间确定是否加载试剂芯片的规格和分析参数; 如果确定加载试剂芯片的规格和分析参数,则将授权时间减少一次,并根据试剂芯片的规格和分析参数对试剂芯片进行分析。
    • 6. 发明申请
    • CCD-based biochip reader
    • 基于CCD的生物芯片阅读器
    • US20050179900A1
    • 2005-08-18
    • US10777651
    • 2004-02-13
    • Jiann-Hua WangTsung-Kai ChuangTzu-Chiang WuChien-Ho Chuang
    • Jiann-Hua WangTsung-Kai ChuangTzu-Chiang WuChien-Ho Chuang
    • G01N21/64
    • G01N21/6452G01N21/6428G01N21/6456
    • A CCD-based biochip reader includes a light source for emitting light beams, a collimating lens for converting the light beams into wide parallel rays of light, passing said wide parallel rays of light through a biochip and exciting fluorescence from fluorescent targets on the biochip, a focusing lens for focusing the fluorescence, a filter for filtering out said parallel rays of light, and a charge-coupled device camera for generating images from said fluorescence. For recording intensity of the fluorescence from the fluorescent targets, images of the charge-coupled device camera is converted into digital data through an image converting device. Wide parallel laser beams are produced by the laser and through the collimating lens, and excite all samples on the biochip with high efficiency at the same time. In addition, time for analysis is saved when fluorescent images of a large area on biochips are collected and analyzed through the charge-coupled device camera.
    • 基于CCD的生物芯片读取器包括用于发射光束的光源,用于将光束转换成宽平行光线的准直透镜,使所述宽平行光线通过生物芯片并从生物芯片上的荧光目标激发荧光, 用于聚焦荧光的聚焦透镜,用于滤出所述平行光线的滤光器和用于从所述荧光产生图像的电荷耦合器件相机。 为了记录来自荧光目标的荧光的强度,电荷耦合器件相机的图像通过图像转换装置转换成数字数据。 通过激光和准直透镜产生宽平行激光束,同时以高效率激发生物芯片上的所有样品。 此外,通过电荷耦合器件相机收集和分析生物芯片上大面积的荧光图像时,可节省分析时间。
    • 7. 发明授权
    • CCD-based biochip reader
    • 基于CCD的生物芯片阅读器
    • US07173701B2
    • 2007-02-06
    • US10777651
    • 2004-02-13
    • Jiann-Hua WangTsung-Kai ChuangTzu-Chiang WuChien-Ho Chuang
    • Jiann-Hua WangTsung-Kai ChuangTzu-Chiang WuChien-Ho Chuang
    • G01J21/64
    • G01N21/6452G01N21/6428G01N21/6456
    • A CCD-based biochip reader includes a light source for emitting light beams, a collimating lens for converting the light beams into wide parallel rays of light, passing said wide parallel rays of light through a biochip and exciting fluorescence from fluorescent targets on the biochip, a focusing lens for focusing the fluorescence, a filter for filtering out said parallel rays of light, and a charge-coupled device camera for generating images from said fluorescence. For recording intensity of the fluorescence from the fluorescent targets, images of the charge-coupled device camera is converted into digital data through an image converting device. Wide parallel laser beams are produced by the laser and through the collimating lens, and excite all samples on the biochip with high efficiency at the same time. In addition, time for analysis is saved when fluorescent images of a large area on biochips are collected and analyzed through the charge-coupled device camera.
    • 基于CCD的生物芯片读取器包括用于发射光束的光源,用于将光束转换成宽平行光线的准直透镜,使所述宽平行光线通过生物芯片并从生物芯片上的荧光目标激发荧光, 用于聚焦荧光的聚焦透镜,用于滤出所述平行光线的滤光器和用于从所述荧光产生图像的电荷耦合器件相机。 为了记录来自荧光目标的荧光的强度,电荷耦合器件相机的图像通过图像转换装置转换成数字数据。 通过激光和准直透镜产生宽平行激光束,同时以高效率激发生物芯片上的所有样品。 此外,通过电荷耦合器件相机收集和分析生物芯片上大面积的荧光图像时,可节省分析时间。