Patent application number | Description | Published |
20080224056 | Energy Detector and Related Apparatus - A method includes purposefully electromagnetically shielding a portable x-ray detector. | 09-18-2008 |
20080296507 | SYSTEMS, METHODS AND APPARATUS FOR ROW-CORRELATED NOISE MONITORING IN DIGITAL X-RAY SYSTEMS - Systems, methods and apparatus are provided through which in some embodiments, row-correlated noise of a digital X-ray detector is monitored during idle operation of the digital X-ray detector and the magnitude of the row-correlated noise is compared to a visible threshold. | 12-04-2008 |
20090290686 | ARTIFACT REDUCTION SYSTEM AND METHOD FOR RADIOLOGICAL IMAGING SYSTEM - The effects of electromagnetic interference (EMI) on X-ray image data is corrected by characterizing the EMI and processing the image data to subtract the EMI effects from the image data. The X-ray image data, along with offset data, are collected in a conventional manner, affected by EMI if present, and EMI-characterizing data is immediately collected thereafter by disabling rows of a digital detector (FET off). The EMI-characterizing data, then, is not affected by the presence of image data, and can be used to characterize the amplitude and frequency of the EMI. The EMI-characterizing data is assured of being in phase with the collected image and offset data due to its collection in the same image acquisition sequence immediately following the collection of image and offset data. Artifacts due to the presence of EMI are thus eliminated from reconstructed images based upon the corrected data. | 11-26-2009 |
20100316194 | SHOCK ABSORBER FOR MEDICAL IMAGING DEVICE - Various embodiments of the invention provide a shock absorber. The shock absorber comprising a frame having three sides, namely a first side, a second side and a third side. The first side is contiguous with the second side, which is contiguous with the third side. Further, the first side makes an angle greater than zero degrees with the second side and the second side makes an angle greater than zero degrees with the third side. The frame is different from a housing. | 12-16-2010 |
20110139993 | SYSTEM AND METHOD OF ELIMINATING IMAGE ARTIFACTS - A system and method for eliminating image artifacts caused by electromagnetic interference (EMI) on a digital x-ray detector. The system and method includes a digital x-ray detector panel having an array of pixels in rows and columns, with a plurality of data lines coupled to the columns of pixels and a plurality of scan lines coupled to the rows of pixels. The system and method uses certain photodiodes in a row of the pixel array for measuring EMI with corresponding scan line and FETs deactivated and eliminating the EMI and image artifacts with the remaining photodiodes in the row with corresponding scan line and FETs activated. | 06-16-2011 |
20110233417 | ENERGY DETECTOR AND RELATED APPARATUS - A portable x-ray detector is disclosed that includes an x-ray detecting member and a user removable electromagnetic interference (EMI) shielding member. The user removable EMI shielding member is positioned to at least partially magnetically shield the x-ray detecting member of the portable x-ray detector by redirecting an impinging magnetic field around the x-ray detecting member. The user removable EMI shielding member includes a first magnetic shielding layer, a second magnetic shielding layer, and an intervening material, other than the x-ray detecting member, between the first magnetic shielding layer and the second magnetic shielding layer. | 09-29-2011 |
20120189098 | X-RAY SYSTEM AND METHOD WITH DIGITAL IMAGE ACQUISITION - An X-ray imaging system includes a digital X-ray detector configured to acquire X-ray image data without communication from a source controller and to send the X-ray image data to a portable detector control device for processing and image preview. The source controller is configured to command X-ray emissions of X-rays from an X-ray radiation source for image exposures. | 07-26-2012 |
20120189099 | X-RAY SYSTEM AND METHOD FOR PRODUCING X-RAY IMAGE DATA - An X-ray imaging method includes performing an X-ray exposure via an X-ray radiation source responsive to a source controller. The method also includes sampling X-ray image data via a digital detector without communication of timing signals from the source controller. The method further includes combining the sampled X-ray image data of at least one imaging frame or two or more imaging frames with at least one of the frames spanning a duration in which the exposure occurred, to produce X-ray image data capable of being reconstructed into a user-viewable image. | 07-26-2012 |
20120189100 | X-RAY SYSTEM AND METHOD FOR SAMPLING IMAGE DATA - An X-ray imaging method includes in a digital X-ray detector including an array of discrete picture elements each including a photodiode and a transistor, applying a first voltage to the transistors of the discrete picture elements. The method also includes preparing for acquisition of X-ray image data by sampling data from the discrete picture elements while applying a second voltage to the transistors of the discrete picture elements not then being sampled, the second voltage being more negative than the first voltage. The method further includes receiving X-ray radiation on the detector from a source. The method yet further includes sampling X-ray image data from the discrete picture elements while applying the second voltage to the transistors of the discrete picture elements not then being sampled. | 07-26-2012 |
20120275678 | X-RAY SYSTEM AND METHOD FOR PROCESSING IMAGE DATA - A method for processing X-ray image data includes exposing a digital detector to X-ray radiation. The method also includes sampling data via the digital detector including X-ray image data and offset image data. The method further includes calculating an average offset image without prior knowledge of a total number of offset image frames sampled. | 11-01-2012 |
20130136235 | PORTABLE RADIATION DETECTOR AND SYSTEM - A portable detector for use with an imaging system is disclosed. The portable detector automatically sets one or more operational states based on at least a determination as to whether the portable detector is connected to external power. An imaging system is also disclosed that ascertains whether the portable detector is connected via a tether. The imaging system may perform a compatibility check when connected to the portable detector to assess compatibility between the imaging system and the portable detector. | 05-30-2013 |