公开(公告)号：US20160007432A1

公开(公告)日：2016-01-07

申请号：US14853389

申请日：2015-09-14

Applicant: FUJIFILM Corporation

Inventor： Yasunori OHTA ,  Naoyuki NISHINO ,  Haruyasu NAKATSUGAWA

IPC: H05G1/10 ,  H05G1/32 ,  A61B6/00

CPC classification number: H05G1/32 ,  A61B6/42 ,  A61B6/4208 ,  A61B6/4233 ,  A61B6/4283 ,  A61B6/44 ,  A61B6/4405 ,  A61B6/4411 ,  A61B6/4429 ,  A61B6/4452 ,  A61B6/4494 ,  A61B6/54 ,  A61B6/542 ,  A61B6/548 ,  A61B6/56 ,  G01T1/24 ,  H05G1/10 ,  H05G1/26 ,  H05G1/265 ,  H05G1/30

Abstract: A radiographic image capturing apparatus has a radiation source device including a radiation source for outputting radiation, and a detector device including a radiation detector for detecting radiation that is transmitted through a subject when the subject is irradiated with radiation by the radiation source, and converting the detected radiation into a radiographic image. At least one of the radiation source device and the detector device has an electric power supply limiting unit for limiting supply of electric power, and the electric power supply limiting unit controls supply of electric power between the radiation source device and the detector device, depending on timing of an image capturing process.

Abstract translation: 放射线照相图像拍摄设备具有包括用于输出辐射的辐射源的辐射源装置，以及包括用于检测当受试者被辐射源照射被摄体时通过被摄体透射的辐射的辐射检测器的检测器装置， 将辐射检测到射线照相图像。 辐射源装置和检测装置中的至少一个具有用于限制电力供应的电力供给限制单元，并且电力供给限制单元控制在辐射源装置和检测器装置之间的电力供应，这取决于 图像捕获过程的定时。

公开(公告)号：US20150204987A1

公开(公告)日：2015-07-23

申请号：US14670086

申请日：2015-03-26

Applicant: FUJIFILM CORPORATION

Inventor： Yoshihiro OKADA ,  Haruyasu NAKATSUGAWA

IPC: G01T1/20 ,  A61B6/00 ,  G01T1/202

CPC classification number: G01T1/2018 ,  A61B6/4216 ,  G01T1/202

Abstract: In a photoelectric conversion panel, a plurality of TFTs are formed over an insulating substrate. The TFTs are covered by a first planarizing film. A plurality of photodiodes are formed over the first planarizing film. The photodiodes and the first planarizing film are covered by a second planarizing film. A scintillator contains cesium iodide and is directly vapor-deposited over the photoelectric conversion panel. The scintillator is formed in an area, over the second planarizing film, extending to the outside of an area in which the TFTs and the photodiodes are formed and located inside edges of the first and second polarizing films.

Abstract translation: 在光电转换面板中，在绝缘基板上形成多个TFT。 TFT由第一平面化膜覆盖。 在第一平坦化膜上形成多个光电二极管。 光电二极管和第一平面化膜被第二平面化膜覆盖。 闪烁体含有碘化铯，并直接气相沉积在光电转换面板上。 闪烁体形成在第二平坦化膜上的区域中，延伸到其中形成TFT和光电二极管的区域的外部，并且位于第一和第二偏振膜的边缘内。

公开(公告)号：US20140161228A1

公开(公告)日：2014-06-12

申请号：US14179219

申请日：2014-02-12

Applicant: FUJIFILM Corporation

Inventor： Kouichi KITANO ,  Naoyuki NISHINO ,  Yasunori OHTA ,  Naoto IWAKIRI ,  Haruyasu NAKATSUGAWA

IPC: A61B6/00

CPC classification number: A61B6/542 ,  A61B6/06 ,  A61B6/545 ,  A61B6/548 ,  A61B6/586 ,  A61B2018/00898 ,  A61N5/1064 ,  A61N5/1065 ,  A61N5/1067 ,  G01T7/00

Abstract: In a radiography system and radiography method according to the present invention, the radiography system comprises: a radiography device further comprising a radiation device further comprising a radiation source, and a radiation detection device which converts radiation which passes through a radiography subject into radiography information; and a system control portion which controls the radiography device to execute radiography at a set frame rate. The system control portion further comprises: a radiation emission disabling portion which interrupts the irradiation of radiation from the radiation source at least in a case where an error occurs with the radiography device; and a recovery processing portion which implements control so as to set the irradiation energy of the radiation source to a preset low irradiation energy and execute the radiography in a case where recovering from the error state.

Abstract translation: 在根据本发明的射线照相系统和放射照相方法中，射线照相系统包括：射线照相装置，还包括辐射装置，其还包括辐射源，以及辐射检测装置，其将通过射线摄影对象的辐射转换成射线照相信息; 以及系统控制部分，其控制放射线照相设备以设定的帧速率进行射线照相。 系统控制部分还包括：辐射发射禁止部分，至少在放射摄影装置发生错误的情况下中断来自辐射源的辐射照射; 以及恢复处理部，其进行控制，以将辐射源的照射能量设定为预设的低照射能量，并且在从错误状态恢复的情况下执行射线照相。

公开(公告)号：US20140110595A1

公开(公告)日：2014-04-24

申请号：US14139306

申请日：2013-12-23

Applicant: FUJIFILM CORPORATION

Inventor： Naoto IWAKIRI ,  Naoyuki NISHINO ,  Yasunori OHTA ,  Kouichi KITANO ,  Haruyasu NAKATSUGAWA

IPC: G01T1/16

CPC classification number: G01T1/16 ,  A61B6/4233 ,  A61B6/4283 ,  A61B6/54 ,  H04N5/32 ,  H04N5/353 ,  H04N5/374

Abstract: A determination section of an FPD checks external information against a determination table and determines whether detection of a rise of X-ray pulses is allowed based on an output voltage from a short-circuited pixel. The FPD detects X-ray images. The external information is transmitted from an imaging control device. The X-ray pulses are sequentially generated by an X-ray generating apparatus. A controller selects a pulse irradiation mode in a case where the detection of the rise of the X-ray pulse is allowed. If not, a successive irradiation mode is selected. In the pulse irradiation mode, the rise and the fall of the X-ray pulse are detected and timing of storage operation is synchronized with the detected timing of the rise. In the successive irradiation mode, the storage operation is performed at predetermined time intervals without the detection of the rise and the fall of the X-ray pulse.

Abstract translation: FPD的确定部分根据确定表检查外部信息，并且基于来自短路像素的输出电压来确定是否允许检测X射线脉冲的上升。 FPD检测X射线图像。 外部信息从成像控制装置发送。 X射线脉冲由X射线产生装置依次产生。 在允许检测X射线脉冲的上升的情况下，控制器选择脉冲照射模式。 如果不是，则选择连续的照射模式。 在脉冲照射模式中，检测X射线脉冲的上升和下降，并且存储操作的定时与检测到的上升时间同步。 在连续照射模式中，以预定的时间间隔进行存储操作，而不检测X射线脉冲的上升和下降。

公开(公告)号：US20140107463A1

公开(公告)日：2014-04-17

申请号：US14134857

申请日：2013-12-19

Applicant: FUJIFILM Corporation

Inventor： Naoyuki NISHINO ,  Haruyasu NAKATSUGAWA ,  Yasunori OHTA ,  Naoto IWAKIRI

IPC: A61B6/00

CPC classification number: A61B6/4208 ,  A61B6/4233 ,  A61B6/4283 ,  A61B6/486 ,  A61B6/54

Abstract: A radiation image capturing system and a radiation image capturing method, wherein this radiation image capturing system comprises a radiation source, a radiation detection device provided with a radiation detector for converting radiation that has been transmitted through at least a subject from the radiation source into radiation image information, a photographing sequence setting unit for setting the photographing sequence of radiation photographing when successive radiation photographing is performed, and a photographing sequence display unit (a display device, a cassette display unit, a terminal display unit) for displaying the set photographing sequence.

Abstract translation: 一种放射线图像捕获系统和放射线图像捕获方法，其中该放射线图像捕获系统包括辐射源，辐射检测装置，其具有辐射检测器，用于将已经从至少一个受试者传播的辐射从辐射源转换成辐射 图像信息，用于设置执行连续辐射拍摄时的辐射拍摄的拍摄顺序的拍摄序列设置单元和用于显示设置的拍摄序列的拍摄序列显示单元（显示装置，盒式显示单元，终端显示单元） 。

公开(公告)号：US20140086391A1

公开(公告)日：2014-03-27

申请号：US14094234

申请日：2013-12-02

Applicant: FUJIFILM CORPORATION

Inventor： Yasunori OHTA ,  Kouichi KITANO ,  Naoyuki NISHINO ,  Haruyasu NAKATSUGAWA ,  Naoto IWAKIRI

IPC: A61B6/00

CPC classification number: A61B6/542 ,  A61B6/4233 ,  A61B6/4283 ,  H04N5/2351 ,  H04N5/32 ,  H04N5/353 ,  H04N5/374

Abstract: An X-ray image detecting device has an FPD having a matrix of pixels each for accumulating signal charge in accordance with an X-ray irradiation amount. An imaging area of the FPD is partitioned into a plurality of divided sections A to I. Each of the divided sections A to I has a short pixel for detecting X-ray irradiation. In a synchronization control for controlling the FPD in synchronization with detection of a start of X-ray emission from an X-ray source, a control unit for controlling the X-ray image detecting device uses all the divided sections A to I. In an automatic exposure control for stopping the X-ray emission from the X-ray source by detecting a total X-ray irradiation amount, the control unit uses part of the divided sections, e.g. the short pixels of the divided sections that are judged to be opposed to an object in the synchronization control.

Abstract translation: X射线图像检测装置具有按照X射线照射量累积信号电荷的像素矩阵的FPD。 FPD的成像区域被划分为多个分割区域A至I.分割区域A至I中的每一个具有用于检测X射线照射的短像素。 在与从X射线源开始的X射线发射的检测同步地控制FPD的同步控制中，用于控制X射线图像检测装置的控制单元使用所有分割部分A至I.在 通过检测总X射线照射量来停止来自X射线源的X射线发射的自动曝光控制，控制单元使用分割部分的一部分，例如 被判断为与同步控制中的对象相对的分割部分的短像素。

公开(公告)号：US20140072103A1

公开(公告)日：2014-03-13

申请号：US14080575

申请日：2013-11-14

Applicant: FUJIFILM Corporation

Inventor： Kouichi KITANO ,  Naoyuki NISHINO ,  Yasunori OHTA ,  Naoto IWAKIRI ,  Haruyasu NAKATSUGAWA

IPC: A61B6/00

CPC classification number: A61B6/542 ,  A61B6/4233 ,  A61B6/4283 ,  A61B6/56 ,  A61B8/54

Abstract: An X-ray imaging apparatus includes an FPD and short-circuited pixels. The FPD has pixels arranged in arrays for detecting an X-ray image. The short-circuited pixels detect a radiation dose of X-rays in the FPD. The X-ray imaging apparatus is changed over between first and second operating modes. The first operating mode is selected in case of combining with an X-ray generating apparatus with communication compatibility, and performs an exposure control for controlling a total radiation dose according to a detection signal from the short-circuited pixels. The second operating mode is selected in case of combining with an X-ray generating apparatus with communication incompatibility, and performs control of start synchronization for synchronizing operation of the FPD with the emission start of X-rays according to a detection signal from the short-circuited pixels. Thus, control of the X-ray imaging apparatus is changed over appropriately.

Abstract translation: X射线成像装置包括FPD和短路像素。 FPD具有排列成用于检测X射线图像的阵列的像素。 短路像素检测FPD中X射线的辐射剂量。 X射线成像装置在第一和第二操作模式之间切换。 在与具有通信兼容性的X射线产生装置组合的情况下选择第一操作模式，并且根据来自短路像素的检测信号执行用于控制总辐射剂量的曝光控制。 在与具有通信不兼容性的X射线产生装置组合的情况下选择第二操作模式，并且根据来自短路的检测信号，执行FPD的同步操作的开始同步的控制与X射线的发射开始， 电路像素。 因此，适当地改变对X射线摄像装置的控制。

公开(公告)号：US20140061496A1

公开(公告)日：2014-03-06

申请号：US13859763

申请日：2013-04-10

Applicant: FUJIFILM CORPORATION

Inventor： Haruyasu NAKATSUGAWA ,  Yasunori OHTA ,  Naoyuki NISHINO ,  Naoto IWAKIRI

IPC: A61B6/00

CPC classification number: A61B6/4233 ,  A61B6/4283 ,  A61B6/5205 ,  A61B6/542 ,  A61B6/548 ,  A61B6/563 ,  G01T1/17 ,  G01T1/24 ,  G03B42/04 ,  H04N5/32

Abstract: There is provided a radiographic imaging device including: a radiation detector including plural radiographic image acquisition pixels that are arranged in a matrix in an imaging region for capturing a radiographic image and that acquire image information representing the radiographic image by converting applied radiation into electric charges and storing the electric charges and plural radiation detection pixels that are arranged in the imaging region, that have mutually different characteristics, and that detect the applied radiation by converting the applied radiation into electric charges and storing the electric charges; and a detecting unit that uses the radiation detection pixels selectively according to the characteristics to detect a state of application of the radiation.

Abstract translation: 提供了一种射线照相成像装置，包括：放射线检测器，包括在用于捕获放射线照相图像的成像区域中以矩阵布置的多个放射线照相图像获取像素，并且通过将施加的辐射转换为电荷来获取表示放射线照相图像的图像信息， 存储布置在成像区域中的具有相互不同的特性的电荷和多个放射线检测像素，并且通过将施加的辐射转换成电荷并存储电荷来检测施加的辐射; 以及根据特性选择性地使用放射线检测像素以检测辐射的应用状态的检测单元。

公开(公告)号：US20130284934A1

公开(公告)日：2013-10-31

申请号：US13927529

申请日：2013-06-26

Applicant: FUJIFILM Corporation

Inventor： Yasuhisa KANEKO ,  Haruyasu NAKATSUGAWA ,  Keiichirou SATO ,  Makoto KITADA ,  Kei MIURA

IPC: G01T1/202 ,  B05D5/06

CPC classification number: G01T1/202 ,  A61B6/4216 ,  B05D5/06 ,  C23C14/243 ,  G01T1/2018 ,  G21K4/00 ,  G21K2004/06

Abstract: A radiological image conversion panel 2 is provided with a phosphor 18 containing a fluorescent material that emits fluorescence by radiation exposure, in which the phosphor includes, a columnar section 34 formed by a group of columnar crystals which are obtained through columnar growth of crystals of the fluorescent material, and a non-columnar section 36, the columnar section and the non-columnar section are integrally formed to overlap in a crystal growth direction of the columnar crystals, and a thickness of the non-columnar section along the crystal growth direction is non-uniform in a region of at least a part of the non-columnar section.

Abstract translation: 放射性图像转换面板2设置有荧光体18，荧光体18含有荧光体，其中荧光体包括通过辐射曝光发射荧光的荧光体，由通过柱状晶体的柱状生长获得的一组柱状晶体形成的柱状部分34 荧光材料和非柱状部分36，柱状部分和非柱状部分一体地形成为在柱状晶体的晶体生长方向上重叠，并且沿着晶体生长方向的非柱状部分的厚度为 在非柱状部分的至少一部分的区域中不均匀。

公开(公告)号：US20130284933A1

公开(公告)日：2013-10-31

申请号：US13926170

申请日：2013-06-25

Applicant: FUJIFILM CORPORATION

Inventor： Haruyasu NAKATSUGAWA ,  Yasuhisa KANEKO ,  Keiichirou SATO ,  Makoto KITADA ,  Kei MIURA

IPC: G01T1/20

CPC classification number: G01T1/2006 ,  G01T1/202

Abstract: The device includes: a scintillator 200 configured to emit fluorescence by irradiation of radiation, and a photodetector 40 configured to detect the fluorescence emitted from the scintillator 200 as an electrical signal, wherein the scintillator 200 includes a columnar section 20 which is disposed at a rear side of the photodetector 40 in a travel direction of the radiation and at the same time is formed by a group of columnar crystals 20A obtained through columnar growth of crystals of a fluorescent material, and a first non-columnar section 23 which is provided at the photodetector 40 side of the columnar section 20.

Abstract translation: 该装置包括：被配置为通过辐射照射来发射荧光的闪烁体200以及被配置为检测从闪烁体200发射的荧光作为电信号的光检测器40，其中闪烁体200包括设置在后方的柱状部分20 并且同时由通过荧光材料的晶体的柱状生长获得的一组柱状晶体20A和设置在荧光体的晶体的第一非柱状部23形成。 柱状部20的光电检测器40侧。