Patent application number | Description | Published |
20080240341 | HYBRID ENERGY DISCRIMINATING CHARGE INTEGRATING CT DETECTOR - An imaging system includes a gantry having a bore therethrough designed to receive a patient being translated through the bore an x-ray source disposed in the gantry and configured to emit x-rays toward the patient, and a detector module disposed in the gantry to receive x-rays attenuated by the patient. The detector module includes a scintillator configured to absorb the x-rays and to convert the x-rays into optical photons, a device configured to receive the optical photons and to convert the optical photons to electrical signals, and an adaptive data acquisition system (DAS) configured to switch an operating mode of the device from a charge integrating mode to a photon counting mode, and vice versa. | 10-02-2008 |
20090146069 | Reduced cost pixel design for flat panel x-ray imager - A pixel structure for a flat panel detector is constructed in which the diode silicon and the FET silicon are simultaneously etched to form isolated structures (array photodiodes, I/O elements, and so on) in which the edges or perimeters of the diode silicon features are self-aligned to the underlying FET SI features. The full, as-deposited, thickness of the FET gate dielectric and (at least) part of the FET silicon layer remains underneath the diode silicon across the entirety of the flat panel detector. | 06-11-2009 |
20100102242 | MULTI-LAYER RADIATION DETECTOR ASSEMBLY - A technique is provided for forming a multi-layer radiation detector. The technique includes a charge-integrating photodetector layer provided in conjunction with a photon-counting photodetector layer. In one embodiment, a plurality of photon-counting photosensor elements are disposed adjacent to a plurality of charge-integrating photosensor elements of the respective layers. Both sets of elements are connected to readout circuitry and a data acquisition system. The detector arrangement may be used for energy discriminating computed tomography imaging and similar computed tomography systems. | 04-29-2010 |
20100108900 | SOLID-STATE PHOTOMULTIPLIER HAVING IMPROVED TIMING RESOLUTION - A solid-state photomultiplier is provided for use in imaging detectors. The solid-state photomultiplier includes a plurality of microcells configured to detect impinging photons. Each of the plurality of microcells further includes a photodiode coupled to a common electrode through a quenching resistor and configured to convert the impinging photons into electrical signals, and an impedance device coupled in parallel with the quenching resistor so as to reduce overall quenching impedance at high frequency. Further, techniques are provided for implementing low impedance device with controllable value to the SSPM for optimized timing resolution. | 05-06-2010 |
20120074329 | DIGITAL X-RAY DETECTOR WITH INCREASED DYNAMIC RANGE - In one embodiment, a digital X-ray detector is provided with a plurality of pixel regions. Each pixel region includes a first photodiode having a first area and a second photodiode having a second area equal to or smaller than the first area. The digital X-ray detector also includes a shielding structure that overlies the first and second photodiodes of each pixel region with the shielding structure shielding proportionally less of the first photodiode than of the second photodiode to provide the first photodiode with a first sensitivity and the second photodiode with a second sensitivity lower than the first sensitivity. | 03-29-2012 |
20150034910 | ORGANIC X-RAY DETECTOR - An x-ray imaging system includes an organic x-ray detector having a layered structure composed of a scintillator layer disposed on a first electrode layer and an absorber layer sandwiched between the first electrode layer and a second electrode layer. The second electrode layer is disposed on a TFT array and the TFT array is disposed on a substrate. The absorber layer includes a donor material and an acceptor material, and the donor material contains a low bandgap polymer. | 02-05-2015 |
20150060676 | ORGANIC X-RAY DETECTOR ASSEMBLY AND METHOD OF MANUFACTURING SAME - An x-ray detector assembly is disclosed that includes a mounting substrate having a plurality of electrical contacts, the mounting substrate comprising one of an integrated circuit and a circuit board. The x-ray detector assembly also includes a first electrode patterned on a first portion of a top surface of the mounting substrate, wherein the first electrode is electrically coupled to the plurality of electrical contacts. An organic photodiode layer is formed atop the first electrode and has a bottom surface electrically connected to the first electrode. A second electrode is coupled to a top surface of the organic photodiode layer and a scintillator is coupled to the second electrode. | 03-05-2015 |
20150144889 | ORGANIC X-RAY DETECTOR WITH BARRIER LAYER - An organic x-ray detector and a method of making the organic x-ray detector are disclosed. The x-ray detector includes a TFT array disposed on a substrate, an organic photodiode layer disposed on the TFT array, a barrier layer disposed on the photodiode layer, and a scintillator layer disposed on the barrier layer, such that the barrier layer includes at least one inorganic material. | 05-28-2015 |