Patents by Inventor Yuuichirou Ueno
Yuuichirou Ueno has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 7217931Abstract: A radiological imaging apparatus capable of improving an arrangement density of semiconductor radiation detectors and detector units thereof, each detector unit consisting of a plurality of combined substrates having a detector substrate which includes semiconductor radiation detectors and a signal processing substrate which includes integrated circuits, housed in a housing. The detector substrate protrudes outward from an opening of the housing. A plurality of detector units are attached to a ring-shaped unit support section in a circumferential direction thereof. More specifically, the detector substrate protrudes inward from the unit support section and the housing is attached to the unit support section.Type: GrantFiled: January 11, 2005Date of Patent: May 15, 2007Assignee: Hitachi, Ltd.Inventors: Yuuichirou Ueno, Shinichi Kojima, Norihito Yanagita, Kensuke Amemiya, Hiroshi Kitaguchi, Katsutoshi Tsuchiya, Kazuma Yokoi, Takafumi Ishitsu
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Patent number: 7218701Abstract: The image pickup apparatus of the radiological imaging apparatus of the present invention includes many detector units, a ring-shaped detector support member and an X-ray source circumferential transport apparatus. Each of the detector units is attached to the detector support section in a detachable manner. A plurality of radiation detectors provided for the detector units are arranged in three layers in the radius direction of the detector support member and in three columns in the axial direction of the detector support member. Since the radiation detectors are arranged in three layers in the radius direction, it is possible to recognize the detection position of radiation in the radius direction in detail. Furthermore, since the detector units are attached in a detachable manner, it is easy to replace damaged radiation detectors.Type: GrantFiled: March 9, 2006Date of Patent: May 15, 2007Assignee: Hitachi, Ltd.Inventors: Yuuichirou Ueno, Hiroshi Kitaguchi, Kensuke Amemiya, Kikuo Umegaki, Norihito Yanagita, Shinichi Kojima, Kazuma Yokoi
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Publication number: 20070080296Abstract: A nuclear medicine diagnostic apparatus is provided that can improve time resolution and energy resolution and diagnosing accuracy by enhancing radiation detectors in terms of moisture-proofing and dust-proofing effects while efficiently cooling the radiation detectors. The apparatus has a first region A in which radiation detectors are to be accommodated, and a second region B in which signal processors are to be accommodated. These regions are provided inside a housing member 5 via an adiabatic member 7. The housing member 5 also has a ventilation port 8 formed to communicate with the first region A and equipped with an anti-dust filter. Ventilation holes 34 are formed to communicate with the first region B and serving as entrances for cooling air. Unit fans 33 serve as exits for the cooling air.Type: ApplicationFiled: September 22, 2006Publication date: April 12, 2007Inventors: Yuuichirou Ueno, Takafumi Ishitsu, Keiji Kobashi, Kensuke Amemiya, Katsutoshi Tsuchiya
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Patent number: 7202480Abstract: The semiconductor radiological detector 1 minimizes a dead space resulting from the draw-out of a signal line from an electrode and which allows a number of semiconductor devices to be densely arranged to improve sensitivity and spatial resolution. The semiconductor radiological detector 1 comprises a semiconductor device 2, an anode 3 attached to one surface of the semiconductor device 2, and a cathode 4 attached to the other surface of the semiconductor device 2. A signal line 5 is provided on the anode 3; the signal line 5 extends straight from the anode 3 and is connected to an X axis wire 12. Another signal line 13 is provided on the cathode 4; the signal line 13 extends straight from the cathode 4 and is connected to a Y axis wire 14.Type: GrantFiled: September 28, 2004Date of Patent: April 10, 2007Assignee: Hitachi, Ltd.Inventors: Kazuma Yokoi, Hiroshi Kitaguchi, Takafumi Ishitsu, Kensuke Amemiya, Yuuichirou Ueno, Katsutoshi Tsuchiya, Norihito Yanagita, Shinichi Kojima
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Publication number: 20070057191Abstract: The radiological imaging system which can improve an energy resolution and perform a diagnosis with high accuracy includes a bed for carrying an examinee H, first and second imaging apparatuses and disposed along the longitudinal direction of the bed. The first imaging apparatus has a plurality of semiconductor radiation detectors for detecting ?-rays emitted from the examinee H, arranged around the bed, the second imaging apparatus has an X-ray source for emitting X-rays to the examinee H and a radiation detector for detecting X-rays which have been emitted from the X-ray source and passed through the examinee H, and the bed is shared by the first imaging apparatus and the second imaging apparatus.Type: ApplicationFiled: November 15, 2006Publication date: March 15, 2007Inventors: Yuuichirou Ueno, Hiroshi Kitaguchi, Katsutoshi Tsuchiya, Kensuke Amemiya, Kazuma Yokoi, Shinichi Kojima, Norihito Yanagita, Takafumi Ishitsu
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Publication number: 20070058773Abstract: The image pickup apparatus of the radiological imaging apparatus of the present invention includes many detector units, a ring-shaped detector support member and an X-ray source circumferential transport apparatus. Each of the detector units is attached to the detector support section in a detachable manner. A plurality of radiation detectors provided for the detector units are arranged in three layers in the radius direction of the detector support member and in three columns in the axial direction of the detector support member. Since the radiation detectors are arranged in three layers in the radius direction, it is possible to recognize the detection position of radiation in the radius direction in detail. Furthermore, since the detector units are attached in a detachable manner, it is easy to replace damaged radiation detectors.Type: ApplicationFiled: September 7, 2006Publication date: March 15, 2007Inventors: Yuuichirou Ueno, Hiroshi Kitaguchi, Kensuke Amemiya, Kikuo Umegaki, Norihito Yanagita, Shinichi Kojima, Kazuma Yokoi
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Patent number: 7183557Abstract: A radiological imaging apparatus allowing semiconductor radiation detectors to be easily replaced with new ones and densely arranged. Terminals (31cjk) and (33cjk) are provided on a bottom surface of a detector aggregate (40mn) including a plurality of semiconductor radiation detectors (1); the terminals is connected to electrodes (3 and 4) of the detectors (1). A plurality of zero insertion force connectors (56) are provided on a connecting device (33jk) installed on a support substrate (32h). The terminals (31cjk and 33cjk) are detachably attached to the zero insertion force connectors (56) to mount the detector aggregates (40mn) that are the semiconductor radiation detectors (1), on the support substrate (32h). When the detector aggregates (40mn) are attached to the zero insertion force connectors (56), since no frictional force acts on the terminals, the size of the gap between the detector aggregates (40mn) is reduced.Type: GrantFiled: October 25, 2005Date of Patent: February 27, 2007Assignee: Hitachi, Ltd.Inventors: Kazuma Yokoi, Hiroshi Kitaguchi, Takafumi Ishitsu, Naoyuki Yamada, Kensuke Amemiya, Yuuichirou Ueno, Katsutoshi Tsuchiya, Norihito Yanagita
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Publication number: 20070034801Abstract: A practical semiconductor radiation detector capable of collecting electrons rapidly with a large volume is disclosed. A multiple layers of grid electrodes around an anode formed on a semiconductor element limits the generation of the induced charge signal for the anode to the space in the neighborhood of the anode, while at the same time making it possible to collect the electrons rapidly. As a result of limiting the space for generating the induced charge by the grid electrodes, the energy resolution is improved even for a thick semiconductor element. Also, the capability of rapidly collecting the electrons due to the high field strength generated by the grid electrodes makes a sensitive volume of the whole semiconductor and thus achieves a high radiation detection efficiency.Type: ApplicationFiled: October 20, 2006Publication date: February 15, 2007Inventors: Kazuma Yokoi, Hiroshi Kitaguchi, Kikuo Umegaki, Kensuke Amemiya, Yuuichirou Ueno, Norihito Yanagita, Shinichi Kojima
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Patent number: 7157716Abstract: The present invention provides a semiconductor radiation detector and radiation detection apparatus capable of improving energy resolution and the semiconductor radiation detection apparatus includes a semiconductor radiation detector and a signal processing circuit which processes a radiation detection signal output from the semiconductor radiation detector. The semiconductor radiation detector is provided with anode electrodes A and cathode electrodes C disposed so as to face each other with semiconductor radiation detection elements placed in-between. The semiconductor radiation detection element is made up of a single crystal of thallous bromide containing trivalent thallium (e.g., tribromobis thallium). The semiconductor radiation detector containing such a semiconductor radiation detection element reduces lattice defects in the single crystal and thereby increases charge collection efficiency.Type: GrantFiled: January 31, 2005Date of Patent: January 2, 2007Assignee: Hitachi, Ltd.Inventors: Hiroshi Kitaguchi, Kensuke Amemiya, Kazuma Yokoi, Yuuichirou Ueno, Katsutoshi Tsuchiya, Norihito Yanagita, Shinichi Kojima, Keitaro Hitomi, Tadayoshi Shoji
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Publication number: 20060293584Abstract: An X-ray CT image of a low spatial resolution image is acquired by employing a PET-X-ray CT examination apparatus. Also, a PET image is acquired by employing the PET-X-ray CT examination apparatus. Furthermore, an X-ray CT image of a high spatial resolution image is acquired by employing another X-ray CT examination apparatus. Then, the X-ray CT image equal to the low spatial resolution image is corrected by employing the X-ray CT image, so that an X-ray CT image equal to a high spatial resolution image is obtained. Since a positional relationship of the resulting X-ray CT image with respect to the PET image can be grasped, this PET image can be simply synthesized with the X-ray CT image.Type: ApplicationFiled: August 8, 2006Publication date: December 28, 2006Inventors: Shinichi Kojima, Yuuichirou Ueno, Kensuke Amemiya, Norihito Yanagita, Hiroshi Kitaguchi, Katsutoshi Tsuchiya, Kazuma Yokoi
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Patent number: 7154989Abstract: The image pickup apparatus of the radiological imaging apparatus of the present invention includes many detector units, a ring-shaped detector support member and an X-ray source circumferential transport apparatus. Each of the detector units is attached to the detector support section in a detachable manner. A plurality of radiation detectors provided for the detector units are arranged in three layers in the radius direction of the detector support member and in three columns in the axial direction of the detector support member. Since the radiation detectors are arranged in three layers in the radius direction, it is possible to recognize the detection position of radiation in the radius direction in detail. Furthermore, since the detector units are attached in a detachable manner, it is easy to replace damaged radiation detectors.Type: GrantFiled: October 21, 2003Date of Patent: December 26, 2006Assignee: Hitachi, Ltd.Inventors: Yuuichirou Ueno, Hiroshi Kitaguchi, Kensuke Amemiya, Kikuo Umegaki, Norihito Yanagita, Shinichi Kojima, Kazuma Yokoi
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Patent number: 7149565Abstract: An X-ray CT examination using a radiation examining apparatus corresponding to an X-ray CT is effected on an unbreathed examinee. A tomogram creating apparatus creates a first tomogram, based on an X-ray detect signal outputted from a corresponding radiation detector of the radiation examining apparatus. An X-ray CT examination and a PET examination using a radiation examining apparatus are effected on the breathed examinee. The tomogram creating apparatus creates a second tomogram, based on an X-ray detect signal outputted from a corresponding radiation detector of the radiation examining apparatus and creates a third tomogram, based on a ?-ray detect signal outputted from the corresponding radiation detector. Correction information is created based on the first and second tomograms. The third tomogram is corrected using the correction information. Therefore, the corrected third tomogram can be obtained which is not affected by a swing produced with breathing.Type: GrantFiled: September 30, 2003Date of Patent: December 12, 2006Assignee: Hitachi, Ltd.Inventors: Shinichi Kojima, Kikuo Umegaki, Yuuichirou Ueno, Kensuke Amemiya, Hiroshi Kitaguchi, Takashi Okazaki, Kazuma Yokoi
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Publication number: 20060273250Abstract: A processing circuit, which carries out coincidence counting, acquires calibration data so that time delays of ?-ray detection signals from radiation detectors coincide with one another. A technique for acquiring calibration data faster and easily is provided to attain high time precision and respond to multi-channeling of detectors. A signal from a test signal generator is sent to signal processing apparatuses and coincidence count events are generated as a test. The events generated are processed by a delay time control apparatus and a variable delay circuit is controlled to improve the accuracy of coincidence counting.Type: ApplicationFiled: August 14, 2006Publication date: December 7, 2006Inventors: Takafumi Ishitsu, Kensuke Amemiya, Yuuichirou Ueno, Takashi Matsumoto, Takashi Matsumoto
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Patent number: 7141797Abstract: A practical semiconductor radiation detector capable of collecting electrons rapidly with a large volume is disclosed. A multiple layers of grid electrodes around an anode formed on a semiconductor element limits the generation of the induced charge signal for the anode to the space in the neighborhood of the anode, while at the same time making it possible to collect the electrons rapidly. As a result of limiting the space for generating the induced charge by the grid electrodes, the energy resolution is improved even for a thick semiconductor element. Also, the capability of rapidly collecting the electrons due to the high field strength generated by the grid electrodes makes a sensitive volume of the whole semiconductor and thus achieves a high radiation detection efficiency.Type: GrantFiled: April 1, 2003Date of Patent: November 28, 2006Assignee: Hitachi, Ltd.Inventors: Kazuma Yokoi, Hiroshi Kitaguchi, Kikuo Umegaki, Kensuke Amemiya, Yuuichirou Ueno, Norihito Yanagita, Shinichi Kojima
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Publication number: 20060261281Abstract: In a gamma camera, a plurality of radiation detector elements having a rod-shaped first electrode, a semiconductor device surrounds the first electrode to contact with it for entering a radiation, and a second electrode provided for the side surface of the semiconductor device are detachably attached to a holding member. The holding member has a first electrode contact portion contacted with the first electrode and a second electrode contact portion contacted with the second electrode. A collimator in which a plurality of radiation paths provided corresponding to the plurality of radiation detector elements are formed is arranged on the radiation entering side of the plurality of radiation detector elements. A ?-ray detection signal outputted from the first electrode contact portion is sent to a signal processing integrated circuit. A high voltage is applied to the second electrode via the second electrode contact portion.Type: ApplicationFiled: July 24, 2006Publication date: November 23, 2006Inventors: Katsutoshi Tsuchiya, Hiroshi Kitaguchi, Kazuma Yokoi, Kikuo Umegaki, Kensuke Amemiya, Yuuichirou Ueno, Norihito Yanagita, Shinichi Kojima
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Publication number: 20060243915Abstract: Each semiconductor radiation detector used for a nuclear medicine diagnostic apparatus (PET apparatus) is constructed with an anode electrode A facing a cathode electrode C sandwiching a CdTe semiconductor member S which generates charge through interaction with ?-rays. Then, a thickness t of the semiconductor member S sandwiched between these mutually facing anode electrode A and cathode electrode C is set to 0.2 to 2 mm. Furthermore, the devices are mounted (laid out) on substrates in such a way that the distance (distance of conductor) between the semiconductor radiation detector and an analog ASIC which processes the signal detected by this detector is shortened. Furthermore, the substrates on which the detectors are mounted are housed in a housing as a unit (detector unit).Type: ApplicationFiled: May 17, 2006Publication date: November 2, 2006Inventors: Kensuke Amemiya, Yuuichirou Ueno, Hiroshi Kitaguchi, Osamu Yokomizo, Shinichi Kojima, Katsutoshi Tsuchiya, Norihito Yanagita, Kazuma Yokoi
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Patent number: 7129476Abstract: A processing circuit, which carries out coincidence counting, acquires calibration data so that time delays of ?-ray detection signals from radiation detectors coincide with one another. A technique for acquiring calibration data faster and easily is provided to attain high time precision and respond to multi-channeling of detectors. A signal from a test signal generator is sent to signal processing apparatuses and coincidence count events are generated as a test. The events generated are processed by a delay time control apparatus and a variable delay circuit is controlled to improve the accuracy of coincidence counting.Type: GrantFiled: July 6, 2005Date of Patent: October 31, 2006Assignee: Hitachi, Ltd.Inventors: Takafumi Ishitsu, Kensuke Amemiya, Yuuichirou Ueno, Takashi Matsumoto, Takashi Matsumoto
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Publication number: 20060241386Abstract: A radiological imaging apparatus which can keep detectors at a low temperature, improve a time resolution and an energy resolution and perform an accurate diagnosis is provided. In the radiological imaging apparatus, an imaging apparatus imaging a testing subject supported by a bed couples a detector board having placed thereon radiation detectors detecting radiations emitted from the testing subject and a signal processing board having placed thereon a signal processing circuit processing detection signals of the radiation detectors via an intermediate board by connectors, and separates a detector space including the radiation detectors and a signal processing circuit space including the signal processing circuit.Type: ApplicationFiled: February 17, 2006Publication date: October 26, 2006Inventors: Norihito Yanagita, Tsutomu Imai, Takashi Matsumoto, Kensuke Amemiya, Yuuichirou Ueno, Tomoyuki Seino
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Patent number: 7127026Abstract: A radiological imaging apparatus of the present invention includes an X-ray source for emitting an X-ray, a ?-ray detecting section for outputting a detection signal of a ?-ray, and an X-ray detecting section for outputting a detecting signal of an X-ray. The X-ray source moves around a bed for placing an examinee. The ?-ray detecting section has a plurality of radiation detectors aligned in the longitudinal direction of the bed and placed around the bed. The X-ray detecting section is positioned in a region formed between one end and the other end of the ?-ray detecting section in the longitudinal direction of the bed. The X-ray source is also positioned in the region. Since the X-ray detecting section is placed in the region, it is possible to accurately combine a PET image and an X-ray computed tomographic image.Type: GrantFiled: September 24, 2003Date of Patent: October 24, 2006Assignee: Hitachi, Ltd.Inventors: Kensuke Amemiya, Yuuichirou Ueno, Hiroshi Kitaguchi, Kikuo Umegaki, Shinichi Kojima, Norihito Yanagida, Kazuma Yokoi, Takashi Okazaki
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Patent number: 7119340Abstract: In a gamma camera, a plurality of radiation detector elements having a rod-shaped first electrode, a semiconductor device surrounds the first electrode to contact with it for entering a radiation, and a second electrode provided for the side surface of the semiconductor device are detachably attached to a holding member. The holding member has a first electrode contact portion contacted with the first electrode and a second electrode contact portion contacted with the second electrode. A collimator in which a plurality of radiation paths provided corresponding to the plurality of radiation detector elements are formed is arranged on the radiation entering side of the plurality of radiation detector elements. A ?-ray detection signal outputted from the first electrode contact portion is sent to a signal processing integrated circuit. A high voltage is applied to the second electrode via the second electrode contact portion.Type: GrantFiled: October 6, 2003Date of Patent: October 10, 2006Assignee: Hitachi, Ltd.Inventors: Katsutoshi Tsuchiya, Hiroshi Kitaguchi, Kazuma Yokoi, Kikuo Umegaki, Kensuke Amemiya, Yuuichirou Ueno, Norihito Yanagita, Shinichi Kojima