Abstract: The present invention relates to a transducer (11) comprising—a membrane (31) configured to change shape in response to a force, the membrane (31) having a first major surface (16) and a second major surface (17), —a piezoelectric layer (18) formed over the first major surface (16) of the membrane (31), the piezoelectric layer (18) having an active portion, —first and second electrodes (19) in contact with the piezoelectric layer (18), wherein an electric field between the first and second electrodes (19) determines the mechanical movement of the piezoelectric layer (18), —support structures (40) at the second major surface (17) of the membrane (15) on adjacent sides of the active portion of the piezoelectric layer (18), at least part of the support structures (40) forming walls perpendicular, or at least not parallel, to the second major surface (17) of the membrane (31), so as to form a trench (41) of any shape underlying the active portion, so that an ultrasound transducer is obtained with a high output pr

Abstract: An ultrasound system which is capable of biplane imaging is able to display, store and export independent image frames of only the reference image (90) or only the variable orientation image, or the standard display of both images. The system is also able to sweep through a range of image plane orientations and to automatically acquire a sequence of images (92) comprising an image in each orientation over the range of plane orientations. The system is preferably operable in the biplane tilt mode, the biplane rotate mode, or the biplane elevation tilt mode.

Abstract: An opto-electrical device is provided that comprises a cover (10), a barrier structure (20), an opto-electrical structure (30) and a plurality of transverse electrical conductors (40).

Abstract: Embodiments of the invention include a semiconductor light emitting device (10) capable of emitting first light having a first peak wavelength and a semiconductor wavelength converting element (12) capable of absorbing the first light and emitting second light having a second peak wavelength. The semiconductor wavelength converting element (12) is attached to a support (51) and disposed in a path of light emitted by the semiconductor light emitting device. The semiconductor wavelength converting element is patterned to include at least two first regions (46) of semiconductor wavelength converting material and at least one second region (48) without semiconductor wavelength converting material disposed between the at least two first regions.

Abstract: The present disclosure provides systems and methods for tracking and guiding high intensity focused ultrasound beams (HIFU). More particularly, the disclosed systems and methods involve use of acoustic radiation force impulse (ARFI) imaging to detect the focal position of an HIFU capable transducer relative to a target area. The focal position may then be 5 compared to a desired treatment location and the orientation and focus of the transducer may be adjusted accordingly so as to reconfigure and/or refocus the HIFU beam relative to the desired treatment location. The desired treatment location may be dynamically determined using bleed detection and localization (BD&L) techniques. Thus, the desired treatment location may be determined using 3D Doppler ultrasound based techniques, wherein changes in quantitative 10 parameters extracted from the Doppler spectra, e.g., Resistance Index (RI), are used to detect and localize a bleeding site for treatment.

Abstract: An instrument system that includes an elongate body, an optical fiber, a localization sensor and a controller is provided. The optical fiber is operatively coupled to the elongate body and has a strain sensor provided on the optical fiber. The localization sensor is operatively coupled to the elongate body. The controller is operatively coupled to the optical fiber and to the localization sensor and is adapted to receive a first signal from the strain sensor, receive a second signal from the localization sensor, and determine a position or orientation of the elongate body based on the first signal and the second signal.

Abstract: A curved high intensity focused ultrasound (HIFU) transducer comprising a plurality of curved composite ceramic piezoelectric tiles having opposite convex and concave surfaces, each tile having electrodes on the surfaces electrically coupled to the composite ceramic piezoelectric material, and a plurality of acoustic transmission areas located on each tile and actuated through electrodes on the convex surface, the transmission areas and electrodes being acoustically separated from surrounding areas by cuts into the composite ceramic piezoelectric material, the plurality of tiles fitting together to form a substantially continuous curved composite piezoelectric surface which transmits HIFU acoustic energy.

Abstract: A display includes a vertical stack of at least two different color absorbing layers of pixels. The pixel resolution of at least two of the layers is different.

Abstract: An organic electroluminescence device (OLED) has a substrate, a first electrode layer, a layer of organic electroluminescence material, a second electrode layer, a cover layer, a moisture-absorber and a separating foil of resilient material. The separating foil is positioned between the second electrode layer and the moisture-absorber. Spacer structures such as dots are applied on the separating foil between the foil and the cover.

Abstract: A PFC converter (100) is disclosed that includes a voltage rectifier circuit (126, 127, 153) and a voltage regulator circuit (81, 90, 33, 54). The PFC converter (100) also includes an inductor (140) having a plurality of auxiliary windings (141, 142) coupled to the voltage rectifier circuit (126, 27, 153) and the voltage regulator circuit (81, 90,33, 54). One of the auxiliary windings (142) is arranged to supply a start up voltage (V1), during a start up stage, using the voltage rectifier circuit (126, 127, 153) to the voltage regulator circuit (81, 90, 33, 54). Another of the auxiliary windings (141) is arranged to supply a voltage (V1), during a steady-state stage, using the voltage rectifier circuit (126, 127, 153) to the voltage regulator circuit (81, 90, 33, 54).

Abstract: It is described a method for medical image comparison purposes, comprising the step of generating a first global image or mask with increased similarity to a second global image, wherein the first global image comprises at least partially a composition of different pre-captured images of a patient; wherein the pre-captured images are captured at different times.

Abstract: Disclosed is a method for contacting a device with a conductor 6, the device 1 comprising a substrate 2 with at least one cell 3, a contact region 4 and an encapsulation 5, wherein the encapsulation 5 encapsulates at least the contact region 4, the method comprising the steps of arranging the conductor 6 on the encapsulation 5, and interconnecting the conductor 6 with the contact region 4 without removing the encapsulation 5 between the conductor 6 and the contact region 4 beforehand. This invention is advantageous as the encapsulation 5 between the conductor 6 and the contact region 4 does not need to be removed beforehand anymore.

Abstract: An ultrasonic diagnostic imaging system produces an image with an extended focal range by transmitting a plurality of beams spaced along an array for multiline reception. The receive multilines of a plurality of transmit beams are spatially aligned and are combined with phase adjustment between the respective receive multilines to prevent undesired phase cancellation. The combined multilines produce the effect of an extended transmit focus so that an image produced using the combined multilines exhibits an extended focal range. To prevent motion artifacts the multiline order is adjustable as a function of image motion.

Abstract: An ultrasound probe (202) having an operational indicator assembly (204) for indicating operational data relating to the ultrasound probe (202), and especially data relating to the sterility of the ultrasound probe (202), is provided. The ultrasound probe (202) has a housing (203) fabricated from materials suitable for internal and non-internal medical use. At least one ultrasound transducer (209) is housed by the housing (203) and positioned to direct ultrasound energy along a propagation path to the patient. The operational indicator assembly (204) indicates operational data relating to the ultrasound probe (202) to an operator thereof, and especially data relating to the disinfection status of the ultrasound probe (202).

Abstract: A coffee beverage system is described including a coffee bean packaging cartridge and a coffee brewing apparatus. The packaging cartridge includes a container holding coffee beans and transportation component for transporting the coffee beans towards an exit opening of the cartridge. The coffee apparatus comprises a grinder for grinding the coffee beans from the cartridge and a brewing device for brewing coffee on the basis of ground coffee obtained by means of the grinder. The system is further provided with a metering chamber for receiving coffee beans which are transported with the aid of the transportation component into the metering chamber. In use, the metering chamber will hold a predetermined amount of coffee beans. The metering chamber comprises a bottom portion which forms a part of the grinder, said bottom portion being arranged in the coffee apparatus for rotating around an axis extending in a vertical direction.

Abstract: An apparatus for use in a magnetic resonance system including an operative component configured to perform a useful operation in a magnetic resonance system; an electrical cable connected with the operative component to provide electrical communication with the operative component; and a resonant circuit including at least a portion of the electrical cable, the resonant circuit having a first impedance pole at a first magnetic resonance frequency and a second impedance pole at a second magnetic resonance frequency different from the first magnetic resonance frequency.

Abstract: A coffee beverage system is described including a coffee bean packaging cartridge and a coffee brewing apparatus. The packaging cartridge includes a container holding coffee beans and transportation component for transporting coffee beans towards an exit opening of the cartridge. The coffee apparatus comprises a grinder for grinding the coffee beans from the cartridge and a brewing device for brewing coffee from ground coffee obtained by the grinder. A metering chamber holds a predetermined amount of coffee beans and comprises a bottom portion which forms a part of the grinder, said bottom portion rotates around an axis extending in a vertical direction. A second coffee bean packaging cartridge includes a second dosing device separate from the first dosing device for preparing and/or supplying a dose of coffee beans to the entrance opening of the coffee brewing apparatus independent of the coffee brewing apparatus.

Abstract: Cartridge for holding and supplying coffee bean material. The cartridge includes a housing enclosing an interior volume. The housing has an outlet for releasing the coffee bean material from the interior volume and for supplying the coffee bean material to an external apparatus. The cartridge further includes a conveyor for transporting the coffee bean material towards the outlet. The conveyor include a moveable structure for contacting the coffee bean material. The moveable structure is, at least partly, present in the interior volume. The conveyor further include manually operable actuation component for manually actuating the moveable structure. The manually operable actuation component is, at least partly, provided outside of the interior volume.

Abstract: A laser-based light source includes a laser device configured to generate laser light of a predetermined laser wavelength and emit this laser light as a laser beam. A light-conversion device is configured to convert at least part of the laser light into converted light and a laser-output sensor is configured to determine a laser-output signal proportional to the output of laser light emitted by the laser device. Further, a converted-light sensor is configured to determine a converted-light signal proportional to the output of converted light emitted by the light-conversion device. A controller is configured to receive the laser-output signal and the converted-light signal, to determine a safe-to-operate parameter, based on the laser-output signal and the converted-light signal, and to control the operation of the laser-based light source based on a comparison of the safe-to-operate parameter with a at least one predefined threshold.

Abstract: A medical diagnostic method, system and related equipment particularly adapted to diagnose disorders of the blood circulation serving the head and neck, and especially the brain. A preferred use of the system is early, rapid, accurate, diagnosis of stroke, especially whether the stroke is due to blockage of a blood vessel or leakage from the blood vessel.