公开(公告)号：WO2009032640A3

公开(公告)日：2009-03-12

申请号：PCT/US2008/074352

申请日：2008-08-26

Applicant: THERMO NITON ANALYZERS LLC ,  DUGAS, Michael, E. ,  HAMILTON, Mark ,  MARTIN, Kenneth, P.

Inventor： DUGAS, Michael, E. ,  HAMILTON, Mark ,  MARTIN, Kenneth, P.

IPC: G01N35/00 ,  G01N23/223

Abstract: An analytical instrument (400, 500, 600) stores and/or reads information related to a sample (100, 904) in a contactless memory (102, 202, 422, 704, 706, 708, 802, 804, 806), such as a passive or active radio-frequency identification (RF-ID) tag. The information may include information about: composition of the sample, one or more analytical instruments (400, 500, 600) that were used to analyze the sample, operator(s) (902) who used the instrument(s) to analyze the sample, user-entered data about the sample (such as an origin of the sample) or a combination thereof or the like. The memory may be attached to the sample or to a container (300), in which the sample is stored or transported. One or more copies of such a memory may be loosely stored with the sample, such as with soil in a plastic bag or a rail car. When the memory is attached to, or stored with, the sample, the sample becomes essentially self- documenting. Information about the sample, such as its composition or origin, may be read by a contactless memory reader, such as an RF-ID reader. An analytical instrument (900) includes a contactless memory reader, such as an RF-ID reader. Each person (902) authorized to use the instrument carries a contactless memory (908), such as an RF-ID tag in an identification (ID) badge (906). The instrument (900) scans for a contactless memory (908) containing information identifying an authorized user (902) prior to performing an analysis or prior to operating in a predetermined mode, thus preventing unauthorized persons from operating the instrument (900) or from operating the instrument in an unauthorized mode. An analytical instrument (1000) may be docked in a stand (1002, 1200). The stand (1002, 1200) provides electrical power, cooling, gas to purge air from an analytical gap within the instrument and/or other supplies or services to the instrument (1000). The stand (1002, 1200) contains a contactless memory (1020, 1400), such as an RF-ID tag, which stores information about the supplies and/or services the stand (1002, 1200) is capable of providing to the instrument. The instrument (1000) reads the stand's contactless memory (1020, 1400) and automatically sets operational parameters of the instrument (1000) in accordance with the supplies and/or services the stand (1002, 1200) is capable of providing. Thus, the instrument may automatically operate in an enhanced mode, such as at a higher x-ray beam power, as a result of being mounted in the stand.

公开(公告)号：WO2005010514A1

公开(公告)日：2005-02-03

申请号：PCT/US2004/016296

申请日：2004-05-24

Applicant: NITON LLC. ,  MARTIN, Kenneth, P. ,  HONNELLIO, Anthony ,  GRODZINS, Lee

Inventor： MARTIN, Kenneth, P. ,  HONNELLIO, Anthony ,  GRODZINS, Lee

IPC: G01N23/223

CPC classification number: G01N23/223 ,  G01N2223/076

Abstract: A radiation shield and method for reducing ambient radiation levels at a distance from a surface irradiated by penetrating radiation emanating from an instrument. The shield attaches to an end of the instrument abutting an irradiated surface and has a platen of attenuating material disposed within a plane substantially transverse to the propagation direction of penetrating radiation and substantially adjacent to the irradiated surface.

Abstract translation: 一种辐射屏蔽和方法，用于减少与从仪器发射的穿透辐射辐射的表面相距一定距离处的环境辐射水平。 屏蔽件附接到仪器的与被照射表面邻接的端部，并且具有设置在基本上横贯穿透辐射的传播方向并且基本上与被照射表面相邻的平面内的衰减材料的压板。

公开(公告)号：WO2009032640A2

公开(公告)日：2009-03-12

申请号：PCT/US2008074352

申请日：2008-08-26

Applicant: THERMO NITON ANALYZERS LLC ,  DUGAS MICHAEL E ,  HAMILTON MARK ,  MARTIN KENNETH P

Inventor： DUGAS MICHAEL E ,  HAMILTON MARK ,  MARTIN KENNETH P

IPC: G01N35/00

CPC classification number: G01N35/00732 ,  G01N21/65 ,  G01N2035/00326 ,  G01N2035/00841 ,  G01N2035/00861 ,  G01N2223/0766 ,  G01N2223/301 ,  G06K7/0008

Abstract: An analytical instrument (400, 500, 600) stores and/or reads information related to a sample (100, 904) in a contactless memory (102, 202, 422, 704, 706, 708, 802, 804, 806), such as a passive or active radio-frequency identification (RF-ID) tag. The information may include information about: composition of the sample, one or more analytical instruments (400, 500, 600) that were used to analyze the sample, operator(s) (902) who used the instrument(s) to analyze the sample, user-entered data about the sample (such as an origin of the sample) or a combination thereof or the like. The memory may be attached to the sample or to a container (300), in which the sample is stored or transported. One or more copies of such a memory may be loosely stored with the sample, such as with soil in a plastic bag or a rail car. When the memory is attached to, or stored with, the sample, the sample becomes essentially self- documenting. Information about the sample, such as its composition or origin, may be read by a contactless memory reader, such as an RF-ID reader. An analytical instrument (900) includes a contactless memory reader, such as an RF-ID reader. Each person (902) authorized to use the instrument carries a contactless memory (908), such as an RF-ID tag in an identification (ID) badge (906). The instrument (900) scans for a contactless memory (908) containing information identifying an authorized user (902) prior to performing an analysis or prior to operating in a predetermined mode, thus preventing unauthorized persons from operating the instrument (900) or from operating the instrument in an unauthorized mode. An analytical instrument (1000) may be docked in a stand (1002, 1200). The stand (1002, 1200) provides electrical power, cooling, gas to purge air from an analytical gap within the instrument and/or other supplies or services to the instrument (1000). The stand (1002, 1200) contains a contactless memory (1020, 1400), such as an RF-ID tag, which stores information about the supplies and/or services the stand (1002, 1200) is capable of providing to the instrument. The instrument (1000) reads the stand's contactless memory (1020, 1400) and automatically sets operational parameters of the instrument (1000) in accordance with the supplies and/or services the stand (1002, 1200) is capable of providing. Thus, the instrument may automatically operate in an enhanced mode, such as at a higher x-ray beam power, as a result of being mounted in the stand.

Abstract translation: 分析仪器（400,500,600）在非接触式存储器（102,202,422,704,706,708,802,804,806）中存储和/或读取与样本（100,904）有关的信息，例如 作为无源或有源射频识别（RF-ID）标签。 该信息可能包括以下信息：样品组成，用于分析样品的操作员（902）的一个或多个分析仪器（400,500,600），使用该仪器分析样品 ，用户输入的关于样品的数据（例如样品的来源）或其组合等。 存储器可以附接到样品或容器（300），其中样品被储存或运输。 这样的存储器的一个或多个副本可能与样品松散存储，例如用土壤放在塑料袋或轨道车中。 当存储器连接到样品或与样品一起存储时，样品基本上是自动记录的。 关于样品的信息，例如其组成或来源，可以由诸如RF-ID读取器的非接触式存储器读取器读取。 分析仪器（900）包括非接触式存储器读取器，例如RF-ID读取器。 授权使用该仪器的每个人（902）携带无接触存储器（908），例如识别（ID）徽章（906）中的RF-ID标签。 仪器（900）在执行分析之前或之前以预定模式扫描包含识别授权用户（902）的信息的非接触存储器（908），从而防止未经授权的人员操作仪器（900）或操作 仪器处于未经授权的模式。 分析仪器（1000）可以对接在支架（1002,1200）中。 支架（1002,1200）提供电力，冷却，气体以从仪器内的分析间隙和/或对仪器（1000）的其它供应或服务中吹扫空气。 支架（1002,1200）包含诸如RF-ID标签的非接触式存储器（1020,1400），其存储关于支架（1002,1200）能够提供给仪器的供应和/或服务的信息。 仪器（1000）读取支架的非接触式存储器（1020,1400），并根据支架（1002,1200）能够提供的供应和/或服务自动设置仪器（1000）的操作参数。 因此，作为安装在支架中的结果，仪器可以以增强模式（例如，较高的X射线束功率）自动运行。

公开(公告)号：WO2008100914A9

公开(公告)日：2008-10-23

申请号：PCT/US2008053691

申请日：2008-02-12

Applicant: THERMO NITON ANALYZERS LLC ,  PIOREK STANISLAW ,  DUGAS MICHAEL E ,  ESTABROOKS PAUL ,  GRODZINS LEE ,  HAMILTON MARK ,  MARTIN KENNETH P ,  SREETHARAN PRATHEEV

Inventor： PIOREK STANISLAW ,  DUGAS MICHAEL E ,  ESTABROOKS PAUL ,  GRODZINS LEE ,  HAMILTON MARK ,  MARTIN KENNETH P ,  SREETHARAN PRATHEEV

CPC classification number: G01N23/223 ,  G01N2223/076

Abstract: A hand-held, self-contained x-ray fluorescence (XRF) analyzer (200) produces a small x-ray spot on a sample (604) to interrogate the elemental composition of a sample (604) region of millimeter-size characteristic dimension. The analyzer (200) includes an x-ray source for aiming an x-ray beam (304) toward a desired location on the sample (604). The analyzer (200) may include a digital camera (316) oriented toward the portion of the sample (604) that is, or would be, interrogated by the x-ray spot to facilitate aiming the analyzer (200). The analyzer may generate a reticule (908, 910) in a displayed image to indicate the portion of the sample (604) that is, or would be, illuminated by the x-ray beam (304). The analyzer (200) may include a detector collimator (1200) positioned along a light path between the spot and the detector (314). The analyzer (200) may include a chamber through which the beam (304) and the response signal (312) pass and a coupling for receiving an end of a purge gas tank (2502) for providing a purge gas to the chamber. The analyzer (200) may include a sensor operative to detect an amount of ambient gas present in the chamber. A calibration target (2200) and method (2300-2308) are disclosed for calibrating a location of a reticule in the analyzer (200).

Abstract translation: 手持式独立的x射线荧光（XRF）分析仪（200）在样品（604）上产生小的x射线斑点，以询问毫米尺寸特征尺寸的样品（604）区域的元素组成 。 分析器（200）包括用于将x射线束（304）朝向样品（604）上的期望位置瞄准的X射线源。 分析器（200）可以包括朝向被X射线点询问或将要被X射线点询问以便于对准分析器（200）的样本（604）的部分定向的数字照相机（316）。 所述分析器可以在所显示的图像中产生网状物（908,910），以指示被X射线束（304）照射或将由X射线束（304）照射的样本部分（604）。 分析器（200）可以包括沿着点和检测器（314）之间的光路定位的检测器准直器（1200）。 分析器（200）可以包括腔室，梁（304）和响应信号（312）通过该腔室，以及用于接收用于向腔室提供净化气体的吹扫气罐（2502）的端部的联接器。 分析器（200）可以包括可检测腔室中存在的环境气体量的传感器。 公开了用于校准分析器（200）中的网状物的位置的校准目标（2200）和方法（2300-2308）。

公开(公告)号：WO2008100914A2

公开(公告)日：2008-08-21

申请号：PCT/US2008/053691

申请日：2008-02-12

Applicant: THERMO NITON ANALYZERS LLC ,  PIOREK, Stanislaw ,  DUGAS, Michael, E. ,  ESTABROOKS, Paul ,  GRODZINS, Lee ,  HAMILTON, Mark ,  MARTIN, Kenneth, P. ,  SREETHARAN, Pratheev

Inventor： PIOREK, Stanislaw ,  DUGAS, Michael, E. ,  ESTABROOKS, Paul ,  GRODZINS, Lee ,  HAMILTON, Mark ,  MARTIN, Kenneth, P. ,  SREETHARAN, Pratheev

CPC classification number: G01N23/223 ,  G01N2223/076

Abstract: A hand-held, self-contained x-ray fluorescence (XRF) analyzer (200) produces a small x-ray spot on a sample (604) to interrogate the elemental composition of a sample (604) region of millimeter-size characteristic dimension. The analyzer (200) includes an x-ray source for aiming an x-ray beam (304) toward a desired location on the sample (604). The analyzer (200) may include a digital camera (316) oriented toward the portion of the sample (604) that is, or would be, interrogated by the x-ray spot to facilitate aiming the analyzer (200). The analyzer may generate a reticule (908, 910) in a displayed image to indicate the portion of the sample (604) that is, or would be, illuminated by the x-ray beam (304). The analyzer (200) may include a detector collimator (1200) positioned along a light path between the spot and the detector (314). The analyzer (200) may include a chamber through which the beam (304) and the response signal (312) pass and a coupling for receiving an end of a purge gas tank (2502) for providing a purge gas to the chamber. The analyzer (200) may include a sensor operative to detect an amount of ambient gas present in the chamber. A calibration target (2200) and method (2300-2308) are disclosed for calibrating a location of a reticule in the analyzer (200).

Abstract translation: 手持式自含式X射线荧光（XRF）分析仪（200）在样品（604）上产生小的X射线点以询问样品（604）的元素组成 ）毫米尺寸特征尺寸的区域。 分析器（200）包括用于将X射线束（304）瞄准样品（604）上的期望位置的X射线源。 分析器（200）可以包括朝向样本（604）的部分定向的数字照相机（316），该数字照相机朝向或将被x射线光斑询问以便于瞄准分析仪（200）。 分析器可以在显示的图像中生成标线（908,910）以指示正在或将被X射线束（304）照射的样本（604）的部分。 分析仪（200）可以包括沿着光点与检测器（314）之间的光路定位的检测器准直仪（1200）。 分析器（200）可以包括光束（304）和响应信号（312）通过的腔室和用于接收用于向腔室提供吹扫气体的吹扫气罐（2502）的端部的连接件。 分析仪（200）可以包括传感器，该传感器可操作以检测腔室中存在的环境气体的量。 公开了校准目标（2200）和方法（2300-2308），用于校准分析器（200）中的标线的位置。

公开(公告)号：WO2008100914A3

公开(公告)日：2009-03-26

申请号：PCT/US2008053691

申请日：2008-02-12

Applicant: THERMO NITON ANALYZERS LLC ,  PIOREK STANISLAW ,  DUGAS MICHAEL E ,  ESTABROOKS PAUL ,  GRODZINS LEE ,  HAMILTON MARK ,  MARTIN KENNETH P ,  SREETHARAN PRATHEEV

Inventor： PIOREK STANISLAW ,  DUGAS MICHAEL E ,  ESTABROOKS PAUL ,  GRODZINS LEE ,  HAMILTON MARK ,  MARTIN KENNETH P ,  SREETHARAN PRATHEEV

IPC: G01N23/223

CPC classification number: G01N23/223 ,  G01N2223/076

Abstract: A hand-held, self-contained x-ray fluorescence (XRF) analyzer (200) produces a small x-ray spot on a sample (604) to interrogate the elemental composition of a sample (604) region of millimeter-size characteristic dimension. The analyzer (200) includes an x-ray source for aiming an x-ray beam (304) toward a desired location on the sample (604). The analyzer (200) may include a digital camera (316) oriented toward the portion of the sample (604) that is, or would be, interrogated by the x-ray spot to facilitate aiming the analyzer (200). The analyzer may generate a reticule (908, 910) in a displayed image to indicate the portion of the sample (604) that is, or would be, illuminated by the x-ray beam (304). The analyzer (200) may include a detector collimator (1200) positioned along a light path between the spot and the detector (314). The analyzer (200) may include a chamber through which the beam (304) and the response signal (312) pass and a coupling for receiving an end of a purge gas tank (2502) for providing a purge gas to the chamber. The analyzer (200) may include a sensor operative to detect an amount of ambient gas present in the chamber. A calibration target (2200) and method (2300-2308) are disclosed for calibrating a location of a reticule in the analyzer (200).

Abstract translation: 手持式独立的x射线荧光（XRF）分析仪（200）在样品（604）上产生小的x射线斑点，以询问毫米尺寸特征尺寸的样品（604）区域的元素组成 。 分析器（200）包括用于将x射线束（304）朝向样品（604）上的期望位置瞄准的X射线源。 分析器（200）可以包括朝向被X射线点询问或将要被X射线点询问以便于对准分析器（200）的样本（604）的部分定向的数字照相机（316）。 所述分析器可以在所显示的图像中产生网状物（908,910），以指示被X射线束（304）照射或将由X射线束（304）照射的样本部分（604）。 分析器（200）可以包括沿着点和检测器（314）之间的光路定位的检测器准直器（1200）。 分析器（200）可以包括腔室，梁（304）和响应信号（312）通过该腔室，以及用于接收用于向腔室提供净化气体的吹扫气罐（2502）的端部的联接器。 分析器（200）可以包括可检测腔室中存在的环境气体量的传感器。 公开了用于校准分析器（200）中的网状物的位置的校准目标（2200）和方法（2300-2308）。