Abstract: A radio frequency (RF) coil array that includes an RF coil support structure, and a plurality of RF coils coupled to the RF coil support structure, the RF coil support structure configured to enable the plurality of RF coils to be positioned in an underlap configuration and repositioned to an overlap configuration. A medical imaging system and a method of manufacturing the RF coil array are also described herein.

Abstract: A method, system, and apparatus including a radio-frequency (RF) phased coil array for a magnetic resonance (MR) imaging apparatus that includes a first RF coil element tuned to a first frequency and configured to receive MR signals and a second RF coil element tuned to a second frequency different than the first frequency and configured to receive MR signals.

Abstract: A preamplifier is provided for a radio frequency (RF) receiver coil in a magnetic resonance imaging (MRI) system. The preamplifier includes an amplifier configured to receive at least one magnetic resonance (MR) signal from the RF receiver coil and configured to generate an amplified MR signal. An input circuit is electrically connected to the amplifier. The input circuit is configured to be electrically connected to an output of the RF receiver coil for transmitting the at least one MR signal from the RF receiver coil to the amplifier. The input circuit includes an impedance transformer and a field effect transistor (FET). The FET is electrically connected between the impedance transformer and the amplifier. The FET has an FET impedance. The impedance transformer is configured to transform a source impedance of at least approximately 100 ohms. The impedance transformer is further configured to transform the FET impedance into a preamplifier input impedance of less than approximately 5 ohms.

Abstract: A method, system, and apparatus including a magnetic resonance (MR) coil system that includes an MR coil element, a high input Pre-amplifier having a high input impedance field-effect-transistor (FET) with an impedance of one of substantially equal to 500 ohms and greater than 500 ohms, and a conductive path. The conductive path has a first end coupled to the MR coil element and a second end coupled to the high input Pre-amplifier such that the MR coil element is coupled in series with the high input Pre-amplifier. Further, the conductive path is free of a matching network intervening between the MR coil element and the high input Pre-amplifier.

Abstract: A system and method for providing power to a plurality of moving elements in a transport system that include: tracking a position of each of the plurality of moving elements in the transport system; and selectively operating a power system provided to the transport system based on the position of each of the plurality of the moving element such that power is independently transferred to each of the plurality of moving elements. In another embodiment, the system and method include: adapting the plurality of moving elements to receive power from a drive component used to drive the plurality of moving elements along the transport system; and controlling the drive component to provide power to the plurality of moving elements, and, in particular, while the moving elements are moving.

Abstract: A method, system, and apparatus including a magnetic resonance (MR) coil system that includes an MR coil element, a high input Pre-amplifier having a high input impedance field-effect-transistor (FET) with an impedance of one of substantially equal to 500 ohms and greater than 500 ohms, and a conductive path. The conductive path has a first end coupled to the MR coil element and a second end coupled to the high input Pre-amplifier such that the MR coil element is coupled in series with the high input Pre-amplifier. Further, the conductive path is free of a matching network intervening between the MR coil element and the high input Pre-amplifier.

Abstract: A method, system, and apparatus including a radio-frequency (RF) phased coil array for a magnetic resonance (MR) imaging apparatus that includes a first RF coil element tuned to a first frequency and configured to receive MR signals and a second RF coil element tuned to a second frequency different than the first frequency and configured to receive MR signals.

Abstract: Drug dosages and bar code labels are within a tamperproof, sealed container. A printer is configured to mark a drug dosage with an imprint in a form of a machine readable bar code. A method and product are provided to enable both the source of manufacture and distributor to be identified based on scanning a barcode from a label.

Abstract: The present invention is directed to a method and apparatus of multi-directional acceleration for parallel imaging. An RF coil assembly is constructed to have a plurality of RF coils arranged in axial and tangential direction for image data acquisition with acceleration in at least two dimensions.

Abstract: Drug dosages and bar code labels are within a tamperproof, sealed container. A printer is configured to mark a drug dosage with an imprint in a form of a machine readable bar code. A method and product are provided to enable both the source of manufacture and distributor to be identified based on scanning a barcode from a label.

Abstract: An acoustic device in the form of a loudspeaker is described. An envelope consisting of many discrete parts is driven by an internal driven element so that the parts of the envelope move alternately in unison in an outwards direction and in unison in an inwards direction. Inside the envelope is arranged a framework comprising struts and tensile members, and the envelope parts are mounted on these struts and tensile members. Operation of the driven element varies the distance between two parallel struts of the framework. The framework is thus caused to distort and so cause the desired movement of the envelope parts. The single internal driven element can be replaced with two or more such elements in a modified arrangement.