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    • 1. 发明申请
    • METHOD OF CALIBRATING AN X-RAY DETECTOR
    • 校准X射线探测器的方法
    • US20110233394A1
    • 2011-09-29
    • US13002545
    • 2010-11-30
    • Francis GlasserMichel Garcin
    • Francis GlasserMichel Garcin
    • G01D18/00
    • G01T7/005G01T1/247
    • The general field of the invention includes methods of calibrating X-ray detection systems, the systems including at least one X-ray generator and a detection array having a matrix of detecting semiconductor pixels and processing and calibration electronics. The calibration method includes, for all or some of the pixels: operating the X-ray generator at its nominal high voltage, the generator being placed opposite the detector; counting, using the processing and calibration electronics, the pulses emitted by each pixel through the effect of the radiation produced by the generator; establishing, for each pixel, an amplitude distribution for the counted pulses; applying, to each amplitude distribution, a statistical indicator so as to identify a particular amplitude, this particular amplitude then corresponding to the energy corresponding to said statistical indicator; and adjusting, using the processing and calibration electronics, calibration parameters for each pixel, taking account of the energy-amplitude relationship thus established.
    • 本发明的一般领域包括校准X射线检测系统的方法,所述系统包括至少一个X射线发生器和具有检测半导体像素的矩阵的检测阵列以及处理和校准电子器件。 校准方法包括对于所有或某些像素:将X射线发生器以其标称高电压操作,发生器放置在与检测器相对的位置; 使用处理和校准电子元件计数由每个像素通过发生器产生的辐射的影响发射的脉冲; 为每个像素建立计数脉冲的幅度分布; 向每个幅度分布施加统计指示符,以便识别特定幅度,该特定幅度然后对应于对应于所述统计指标的能量; 并且考虑到如此建立的能量 - 幅度关系,对每个像素调整使用处理和校准电子学的校准参数。
    • 2. 发明授权
    • Method of calibrating an X-ray detector
    • 校准X射线探测器的方法
    • US08491190B2
    • 2013-07-23
    • US13002545
    • 2010-11-30
    • Francis GlasserMichel Garcin
    • Francis GlasserMichel Garcin
    • G01T7/00
    • G01T7/005G01T1/247
    • The general field of the invention includes methods of calibrating X-ray detection systems, the systems including at least one X-ray generator and a detection array having a matrix of detecting semiconductor pixels and processing and calibration electronics. The calibration method includes, for all or some of the pixels: operating the X-ray generator at its nominal high voltage, the generator being placed opposite the detector; counting, using the processing and calibration electronics, the pulses emitted by each pixel through the effect of the radiation produced by the generator; establishing, for each pixel, an amplitude distribution for the counted pulses; applying, to each amplitude distribution, a statistical indicator so as to identify a particular amplitude, this particular amplitude then corresponding to the energy corresponding to said statistical indicator; and adjusting, using the processing and calibration electronics, calibration parameters for each pixel, taking account of the energy-amplitude relationship thus established.
    • 本发明的一般领域包括校准X射线检测系统的方法,所述系统包括至少一个X射线发生器和具有检测半导体像素的矩阵的检测阵列以及处理和校准电子器件。 校准方法包括对于所有或某些像素:将X射线发生器以其标称高电压操作,发生器放置在与检测器相对的位置; 使用处理和校准电子元件计数由每个像素通过发生器产生的辐射的影响发射的脉冲; 为每个像素建立计数脉冲的幅度分布; 对每个幅度分布应用统计指示符,以便识别特定幅度,该特定幅度然后对应于对应于所述统计指标的能量; 并且考虑到如此建立的能量 - 幅度关系,对每个像素调整使用处理和校准电子学的校准参数。
    • 9. 发明授权
    • Digital radiography device protected against risk of electrocution
    • 数字放射摄影装置可防止触电
    • US06295337B1
    • 2001-09-25
    • US09403957
    • 1999-11-17
    • Bernard TheveninFrancis Glasser
    • Bernard TheveninFrancis Glasser
    • H05G154
    • A61B6/145
    • The present invention relates to a digital radiography device with protection against electrical risks, having: a radiation source (10); a sensor (12) connected to an electronic card (13) of a computer (14), first and second assemblies (20, 21) isolated from each other from the galvanic point of view, the first assembly (20) comprising electronic means connected to the sensor (12), the second assembly (21) comprising means for supplying a voltage for supplying the sensor (12) during the presence of radiation and a voltage for supplying the sensor part of the card (13), and means for providing management of the sensor, recovery of the data and processing thereof; the two assemblies (20, 21) exchanging information by optical means.
    • 本发明涉及一种具有防电风险的数字放射摄影装置,具有:辐射源(10);连接到计算机(14)的电子卡(13)的传感器(12),第一和第二组件 ,21),从电流角度彼此隔离,所述第一组件(20)包括连接到所述传感器(12)的电子装置,所述第二组件(21)包括用于提供用于供应所述传感器(12)的电压的装置, 在存在辐射和用于供应卡(13)的传感器部分的电压的情况下,以及用于提供传感器的管理,数据的恢复和处理的装置; 两个组件(20,21)通过光学装置交换信息。