| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | LAMP FIXTURE WITH ONBOARD MEMORY, AND CORRESPONDING LAMP DRIVING SYSTEM | EP13771277.4 | 2013-09-16 | EP2901817A1 | 2015-08-05 | JHAWAR, Manoj Kumar; HERZOG, Gregory Lance |
| A system (100) having a host device (102) and a lamp fixture (116) is presented here. The host device (102) includes a lamp receptacle and a host controller coupled to the lamp receptacle. The lamp fixture includes a lamp bulb body, an electrical interface, and a memory circuit (508) coupled to the electrical interface. The electrical interface of the lamp fixture and the lamp receptacle of the host device are physically and electrically compatible with each other. The memory circuit is configured to store operating data associated with the lamp fixture, and the host controller is configured to operate the lamp fixture and to manage data reading and writing operations that involve the memory circuit. | ||||||
| 122 | BEAM POSITION MONITOR DEVICE AND PARTICLE RAY TREATMENT DEVICE | EP12769303 | 2012-01-20 | EP2639598A4 | 2015-07-01 | HONDA TAIZO; HARADA HISASHI; PU YUEHU; IKEDA MASAHIRO; HANAKAWA KAZUSHI; OTANI TOSHIHIRO; KATAYOSE TADASHI; YAMADA YUKIKO |
| The objective is to shorten the obtaining cycle for a charged particle beam irradiation position even in the case where radiations, emitted when a charged particle beam is irradiated, provide an effect. The beam position monitor (30) is provided with a plurality of position monitors (4) and a beam data processing device (11) that performs calculation processing of the state of a charged particle beam (1), based on a plurality of signals outputted from the position monitors. The beam data processing device (11) includes a plurality of channel data conversion units (21) that perform AD conversion processing of the plurality of signals outputted from the position monitors (4); a position size processing unit (23), for each of the position monitors (4), that calculates the beam position of the beam (1), based on voltage information obtained through the AD conversion processing; and an integrated control unit (40) that controls the plurality of channel data conversion units (21) in such a way that while the beam (1) is irradiated onto an irradiation subject (15), AD conversion processing of the signals is performed at different timings for the respective position monitors (4). | ||||||
| 123 | DUAL ELLIPTICAL REFLECTOR WITH A CO-LOCATED FOCI FOR CURING OPTICAL FIBERS | EP12832516 | 2012-09-17 | EP2756345A4 | 2015-06-17 | CHILDERS DOUG |
| A device for UV curing a coating or printed ink on an workpiece such as an optical fiber comprises dual elliptical reflectors arranged to have a co-located focus. The workpiece is centered at the co-located focus such that the dual elliptical reflectors are disposed on opposing sides of the workpiece. Two separate light sources are positioned at a second focus of each elliptical reflector, wherein light irradiated from the light sources is substantially concentrated onto the surface of the workpiece at the co-located focus. | ||||||
| 124 | METHOD AND DEVICE FOR RADIATION THERAPY TREATMENT OF MULTIPLE TARGETS | EP11787690.4 | 2011-11-23 | EP2782642A1 | 2014-10-01 | VILSMEIER, Stefan |
| The present invention is directed to a data processing method for determining a treatment plan for radiation therapy treatment of at least two spatially separate targets by means of a treatment device constituted to treat the at least two targets by means of one or more sub-beams during a treatment time, the one or more sub-beams constituting at least one treatment beam which is to pass through the at least two targets in accordance with a treatment plan during the treatment time, the treatment device being further constituted to allow for simultaneous treatment of the at least two targets by at least two of the sub-beams at least during a time interval during the treatment time. | ||||||
| 125 | PHOSPHOR COMPOSITIONS AND METHODS OF MAKING THE SAME | EP12753289.3 | 2012-08-14 | EP2744870A1 | 2014-06-25 | MIYAGAWA, Hiroaki; ZHANG, Bin; SHIH, James Chienchung |
| Disclosed herein are emissive ceramic elements having low amounts of certain trace elements. Applicants have surprisingly found that a lower internal quantum efficiency (IQE) may be attributed to specific trace elements that, even at very low amounts (e.g., 50 ppm or less), can cause significant deleterious effects on IQE. In some embodiments, the emissive ceramic element includes a garnet host material and an amount of Ce dopant. The emissive ceramic element may, in some embodiments, have an amount of Na in the composition less than about 67 ppm, an amount of Mg in the composition less than about 23 ppm, or an amount of Fe in the composition less than about 21 ppm. | ||||||
| 126 | USE OF LUMINESCENT NANOSYSTEMS FOR AUTHENTICATING SECURITY DOCUMENTS | EP12729488.2 | 2012-06-14 | EP2721414A1 | 2014-04-23 | LOPEZ QUINTELA, Manuel, Arturo; GARCÍA JUEZ, Vicente |
| The present invention relates to the use of nanosystems as non deactivable security markers comprising metal atomic quantum clusters (AQCs) of at least two different size distributions encapsulated in a cavity with an inner diameter less than or equal to approximately 10 nm. These nanosystems are luminescence, particularly fluorescence after external excitation. The invention also relates to security documents, articles or elements incorporating these markers as well as to a method and a system for detecting the same. | ||||||
| 127 | A method for coincident alignment of a laser beam and a charged particle beam | EP13183272.7 | 2013-09-06 | EP2706556A2 | 2014-03-12 | Straw, Marcus; Emerson, Mark |
A method and apparatus for aligning a laser beam (216) coincident with a charged particle beam (350). The invention described provides a method for aligning the laser beam through the center of an objective lens (214) and ultimately targeting the eucentric point of a multi-beam system (300). The apparatus takes advantage of components of the laser beam alignment system being positioned within and outside of the vacuum chamber (360) of the charged particle system.
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| 128 | NEUTRON RAY IRRADIATION DEVICE, AND METHOD FOR CONTROL OF NEUTRON RAY IRRADIATION DEVICE | EP11812263 | 2011-07-12 | EP2600356A4 | 2014-01-22 | MITSUMOTO TOSHINORI |
| 129 | BEAM POSITION MONITOR DEVICE AND PARTICLE RAY TREATMENT DEVICE | EP12769303.4 | 2012-01-20 | EP2639598A1 | 2013-09-18 | HONDA Taizo; HARADA Hisashi; PU Yuehu; IKEDA Masahiro; HANAKAWA Kazushi; OTANI Toshihiro; KATAYOSE Tadashi; YAMADA Yukiko |
The objective is to shorten the obtaining cycle for a charged particle beam irradiation position even in the case where radiations, emitted when a charged particle beam is irradiated, provide an effect. The beam position monitor (30) is provided with a plurality of position monitors (4) and a beam data processing device (11) that performs calculation processing of the state of a charged particle beam (1), based on a plurality of signals outputted from the position monitors. The beam data processing device (11) includes a plurality of channel data conversion units (21) that perform AD conversion processing of the plurality of signals outputted from the position monitors (4); a position size processing unit (23), for each of the position monitors (4), that calculates the beam position of the beam (1), based on voltage information obtained through the AD conversion processing; and an integrated control unit (40) that controls the plurality of channel data conversion units (21) in such a way that while the beam (1) is irradiated onto an irradiation subject (15), AD conversion processing of the signals is performed at different timings for the respective position monitors (4). |
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| 130 | RESPIRATION-INDUCTION DEVICE, RESPIRATION-INDUCTION PROGRAM, AND PARTICLE-BEAM THERAPY DEVICE | EP10859863.2 | 2010-11-16 | EP2586495A1 | 2013-05-01 | IWATA Takaaki |
The objective is to obtain a respiratory induction apparatus and a particle beam therapy system in which respiration can appropriately be induced by accurately evaluating the respiration. There are provided a respiratory induction control unit (7cC) that generates a desired respiratory signal (Rtj(t)) for respiratory induction; a real respiration measurement unit (7a) that outputs a real respiratory signal (Rrl(t)) obtained by measuring real respiration of a patient; and a respiration evaluation unit (7cE) in which by, as a unit, utilizing data of a single period (Tres) of the desired respiratory signal (Rtj(t)), there is calculated a pair of coefficients (a1 and b1), of trigonometric functions, which correspond to the 1st-order terms at a time when Fourier series expansion is applied to data of the desired respiratory signal (Rtj(t)) and data of the real respiratory signal (Rrl(t)), which is acquired in synchronization with the data of the desired respiratory signal (Rtj(t)), and there are performed comparisons between the respective gains (Gtj and Grl) and between the respective phases (φtj and φrl), which are obtained from the coefficients (a1 and b1), so that there is evaluated a misalignment of the real respiration from the desired respiratory signal. |
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| 131 | APPARATUS FOR PRODUCING A RADIOISOTOPE COMPRISING MEANS FOR MAINTENANCE AND METHOD OF MAINTENANCE FOR SAID APPARATUS | EP11722805.6 | 2011-05-31 | EP2578066A1 | 2013-04-10 | LAMBERT, Bernard; GEETS, Jean-michel; COMOR, Jozef J.; JOVANOVIC, Djuro |
| The present invention relates to an apparatus for producing a radioisotope by irradiating a target fluid comprising a precursor of said radioisotope with a particle beam produced by a particle accelerator, the apparatus comprising: -a housing comprising a target cavity for receiving said target fluid, said housing having an opening for allowing the passage of the said particle beam into the said cavity; -a dual foil flange for closing said opening of the target cavity, said dual foil flange comprising : -a standoff comprising a central hole; -a first and a second foil able to allow the passage of the said particle beam and located respectively on a first side and a second side of the said standoff, covering the said central hole and forming a cooling cavity; -a first flange and a second flange for sealing respectively the said first and second foil on said standoff; -at least an inlet channel and at least an outlet channel, for flowing a cooling fluid through the cavity of the dual foil flange; -guiding means for positioning said dual foil flange in an in-line position in which a said foil is facing said opening of said housing. | ||||||
| 132 | MARKING PAPER PRODUCTS | EP10823969.0 | 2010-10-12 | EP2488918A1 | 2012-08-22 | MEDOFF, Marshall |
| Methods of marking paper products and marked paper products are provided. Some methods include irradiating the paper product to alter the functionalization of the paper. | ||||||
| 133 | DIRECTED-ENERGY SYSTEMS AND METHODS FOR DISRUPTING ELECTRONIC CIRCUITS | EP08850913 | 2008-11-12 | EP2223326A4 | 2012-03-14 | CORNWELL JAMES |
| 134 | DIRECTED-ENERGY SYSTEMS AND METHODS FOR DISRUPTING ELECTRONIC CIRCUITS | EP08850913.8 | 2008-11-12 | EP2223326A2 | 2010-09-01 | CORNWELL, James |
| Disclosed are directed-energy systems and methods for disrupting electronic circuits, especially those containing semiconductors. A directed-energy system can include a charged particle generator configured to generate plural energized particles and a charge transformer configured to receive the plural energized particles that include charged particles and to output energized particles that include particles having substantially zero charge. The charged particle generator can be configured to direct the plural energized particles through the charge transformer in a predefined direction. A method for disrupting electronic circuits can include generating plural energized particles, directing the plural energized particles to an incident surface of a charge transformer and transforming the plural energized particles within the charge transformer. The transformed particles can be at substantially zero charge. The method can further include generating a wavefront at an exit surface of the charge transformer including the transformed particles and impinging an electronic circuit with the wavefront. | ||||||
| 135 | Markierungsverfahren zur Ausschussmarkierung von Testelementen | EP07116749.8 | 2007-09-19 | EP2040079B1 | 2009-05-20 | Röper, Dr.Josef K.; Frank, Martin; Schmidt, Günter; Finke, Dr.Werner; Dick, Siegfried; Stubenbord, Peter |
| 136 | Markierungsverfahren zur Ausschussmarkierung von Testelementen | EP07116749.8 | 2007-09-19 | EP2040079A1 | 2009-03-25 | Röper, Dr.Josef K.; Frank, Martin; Schmidt, Günter; Finke, Dr.Werner; Dick, Siegfried; Stubenbord, Peter |
Es wird ein Markierungsverfahren zur Markierung von Testelementen (112, 114, 116; 246, 254) vorgeschlagen. Die Testelemente (112, 114, 116; 246, 254) sind eingerichtet, um mindestens einen Analyten in einer Probe (220) nachzuweisen. Die werden Testelemente (112, 114, 116; 246, 254) zumindest teilweise mit einer Fehlermarkierung versehen, welche eine Information über eine Fehlerhaftigkeit der Testelemente (112, 114, 116; 246, 254) beinhaltet. Die Testelemente (112, 114, 116; 246, 254) weisen mindestens ein strahlungssensitives Material (202) auf. Die Testelemente (112, 114, 116; 246, 254) werden mit mindestens einer Strahlung (156) beaufschlagt, wobei die Strahlung (156) eingerichtet ist, um eine Markierung in Form mindestens einer optisch nachweisbaren Änderung in dem strahlungssensitiven Material (202) zu bewirken.
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| 137 | Bestrahlungsanordnung und Energieübertragung für solche Anordnung | EP02024015.6 | 2002-10-28 | EP1320152A3 | 2004-01-14 | Droste, Thomas, Dipl.-Ing.; Götte, Bethold |
Die Erfindung betrifft eine Vorrichtung zur Lagerung einer an gegenüberliegenden Stirnseiten jeweils einen Sockel aufweisenden langgestreckten Strahlungsquelle sowie zur Übertragung elektrischer Energie auf einen Anschluss an der Strahlungsquelle. Um eine Drehung der Strahlungsquelle mit regelmäßiger Richtungsänderung zu ermöglichen, wird erfindungsgemäß vorgeschlagen,
Außerdem betrifft die Erfindung eine Anordnung zur Bestrahlung von Objekten mit elektromagnetischer Strahlung. |
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| 138 | Bestrahlungsanordnung und Energieübertragung für solche Anordnung | EP02024015.6 | 2002-10-28 | EP1320152A2 | 2003-06-18 | Droste, Thomas, Dipl.-Ing.; Götte, Bethold |
Die Erfindung betrifft eine Vorrichtung zur Lagerung einer an gegenüberliegenden Stirnseiten jeweils einen Sockel aufweisenden langgestreckten Strahlungsquelle sowie zur Übertragung elektrischer Energie auf einen Anschluss an der Strahlungsquelle. Um eine Drehung der Strahlungsquelle mit regelmäßiger Richtungsänderung zu ermöglichen, wird erfindungsgemäß vorgeschlagen,
Außerdem betrifft die Erfindung eine Anordnung zur Bestrahlung von Objekten mit elektromagnetischer Strahlung. |
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| 139 | Processing apparatus using fast atom beam | EP94110368.1 | 1994-07-04 | EP0633714B1 | 1999-10-20 | Hatakeyama, Masahiro |
| 140 | Apparatus for the emission of a flow of electronic radiations and large spectrum electromagnetic radiations | EP95120358.7 | 1995-12-21 | EP0721193A3 | 1996-11-06 | Totti, Costante |
Apparatus for the emission of a combined flow of electrons and large spectrum electromagnetic radiations having a wavelength ranging from the spectrum of the Hertzian waves to the spectrum of X rays and beyond, comprising two electric circuits (2, 2') having opposite polarities, positive (+) and negative (-). Each circuit (2, 2') comprises an electric or electronic device (7, 7'), suitable to supply a direct current whose voltage is comprised between 4000 and 80,000 V, and whose intensity is comprised between 0.05 and 0.5 mA, and a plate-like end conductor (9, 9') provided with one or more bundles of carbon fibres which act as pointed conductors, which terminal is connected to the outlet (8, 8') of said electric or electronic device. When the two plates (9, 9') provided with bundles of carbon fibres (11, 11') are positioned and approached one in front of the other, a combined flow of electrons and electromagnetic waives circulating from pole (-) to pole (+) is obtained. |
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