Abstract: A transmitter for pilot tone navigation in a magnetic resonance tomography system includes a power supply and an antenna. The transmitter is configured to transmit a pilot tone signal via the antenna. The transmitter also includes a decoupling element in order to protect a transmitter output from signals that the antenna receives with excitation pulses of the magnetic resonance tomography system during a magnetic resonance tomography. In a method, movement-dependent changes to the pilot tone signal of the transmitter are identified by a controller of the magnetic resonance tomography system.

Abstract: An automated circuitry that can co-exist in any chip and that allows for a accurate characterization of I*R drops at a block and/or whole chip level is described.

Abstract: The invention relates to a method (100) for detecting faults in a LVDC electric line (500) characterized in that it comprises the following steps: acquiring (101) a first detection signal (VLOW) indicative of low-frequency components of an unbalancing current (IG) between a plurality of conductors of said electric line, said first detection signal being obtained by means of a low-pass filtering of a corresponding measuring signal (VM1) indicative of said unbalancing current; acquiring (102) a second detection signal (VHIGH) indicative of high-frequency components of an unbalancing current (IG) between a plurality of conductors of said electric line, said second detection signal being obtained by means of a high-pass filtering of a corresponding measuring signal (VM2) indicative of said unbalancing current; obtaining (103) a third detection signal (RT) by calculating the ratio between said first and second detection signals (VLOW, VHIGH); checking (104) whether a DC current (IF) is present by comparing said

Abstract: In a method and an apparatus for magnetic resonance tomography, an eddy current field is compensated by taking into account its progression over time and its dependence on a sensed value, by having a sensor determine the sensed value and, on the basis of the sensed value, a current strength for a conductor in order to generate an opposing field to reduce the eddy current field is determined, and supplied to the conductor.

Abstract: A mineralogy composition of a formation of interest is determined using core samples or downhole measurements. A dry permittivity is determined for each identified mineral. A volumetric mixing law is employed using the determined mineralogy composition and the determined dry permitivities. An effective matrix permittivity is determined using results from the volumetric mixing law. Dielectric dispersion measurements of the subject formation are acquired using the core samples or the downhole measurements. A dielectric petrophysical model is produced using the dielectric dispersion measurements and the effective matrix permittivity. A water saturation is estimated based on the dielectric petrophysical model. Nuclear magnetic resonance (NMR) T2 measurements having short echo spacings are acquired. A NMR petrophysical model is generated based on the NMR T2 measurements. A total porosity is determined based on the generated NMR petrophysical model.

Abstract: A corrosion detection system and a method for operating a corrosion detection system are provided. The system, may include, but is not limited to, a PCB, a corrosion sensor, a first, second, third and fourth standoff coupled between the PCB and a chassis, a constant current circuit coupled to the first standoff, a first trace coupled between the third standoff and a first input of the corrosion sensor, and a second trace coupled between the fourth standoff and a second input of the corrosion sensor, wherein the corrosion sensor is configured to output a signal proportional to the resistance of the chassis based upon a voltage induced at the first input and the second input, and a processor configured to receive the signal proportional to the resistance of the chassis and determine a corrosion level of the chassis by comparing the signal to reference data stored in memory.

Abstract: In a method for generating an image data set for display, magnetic resonance data of a patient are provided to a computer that contains parameters of the protons underlying the measured magnetic resonance signal in measured voxels. The image data set is generated dependent on at least one user specification, taking into consideration at least two parameters per voxel.

Abstract: In a method for the acquisition of magnetic resonance (MR) data relating to a pre-determined two-dimensional volume segment of an examination object with an MR apparatus, a randomized determination of points to be sampled in the raw data space is made, such that the raw data space is undersampled when only the determined points to be sampled are then sampled. MR data relating to the specified points to be sampled are acquired by operation of the MR apparatus. Alternatively, a determination of points to be sampled in the raw data space is made using radial or spiral trajectories in k-space that begin in the center k-space. Each specified point to be sampled is then moved to an FFT grid point, and MR data relating to the determined points to be sampled is implemented by operation of the MR apparatus.

Abstract: A device for monitoring an electrical insulation in a vehicle electrical system comprises a voltage source that generates DC voltages and a determining unit, configured to determine an insulation resistance between the vehicle electrical system and ground and from current measurement values of at least two current measuring units and from the first and second voltage values.

Abstract: A device that will increase an inductive proximity sensor's detection distance and detection position is disclosed. The device uses a housing in combination with a sensor and axially magnetized magnet and a target magnet to achieve the increased detection distance and position. The device can be defined as universal because it allows different manufacturers and sizes of sensors to be used and calibrated. An optional threaded end section of the device allows connection of standard conduit fittings.

Abstract: An apparatus for measuring flowable substance which has at least three microwave sensor elements arranged at separate locations in a measurement chamber in contact with the flowable substance. The sensor elements operate as at least two transmitter-receiver pairs, which transmit and receive microwave radiation via at last two paths of different lengths, through layers of dirt on the sensor elements and the flowable substance for eliminating an effect of dirt layers on the sensor elements from the measurement result. A signal processing unit has a controller which is configured to control feed of at least one substance which has an effect on the measured value of the flowable substance to the chamber on the basis of the measured value of the desired property of the flowable substance.

Abstract: In an apparatus and method for pulse optimization adjustment a checking is made as to whether the optimization time resulting from a calculation time for pulse optimization of a pulse sequence section for a modifiable time interval at a predefined gradient grid density, and an associated implementation time, exceeds a real time resulting from the time interval and a buffer time. The gradient grid density for pulse optimization is reduced by a factor f if the optimization time exceeds the real time.

Abstract: The method can include the steps of: providing a given current across each one of a plurality of current paths linking two opposite faces of the anode, the current paths being dispersed along a median plane located between the two opposite faces; measuring a voltage value independently across each one of a plurality of voltage paths linking the two opposite faces of the anode, each one of the plurality of voltage paths being positioned adjacent to a corresponding one of the current paths and forming a corresponding pair therewith, the path pairs thus being dispersed along the median plane; and processing an independent resistivity value for each one of the path pairs based at least on its given current and its measured voltage value.

Abstract: A structure and method for providing a housing which includes a high frequency (HF) connection between a device under test (DUT) having a wave port 20 and a load board via a waveguide structure. The waveguide includes a wave insert 42, a waveguide adapter 24 and a conductive compliant member 40 which maintains bias between the adapter 24 and the DUT HF port 20 while also maintaining an RF shield despite the variable height of the DUT wave port. The adapter may also include a projection 64 which is received in a recess in the waveguide so that the shielding between the waveguide and adapter has full integrity.

Abstract: To enable improved magnetic resonance imaging in the vicinity of an interference object that produces a magnetic interference field in an examination region, in a method and apparatus for magnetic resonance imaging of the examination region magnetic resonance raw data are acquired from the examination region by execution of a magnetic resonance sequence having multiple repetition intervals and refocusing of spins in the examination region at the end of each repetition interval repetition intervals. During at least part of the duration of the acquisition of the magnetic resonance raw data, a magnetic compensation gradient is activated that is opposed to the magnetic interference field.

Abstract: A magnetic resonance imaging system (1) includes at least one processor (28) configured to receive (48) diffusion weighted imaging data based on a diffusion weighted imaging sequence with magnetic gradient fields applied in different directions and with different b-values. The at least one processor (28) is further configured to detect (50) motion corrupted data present in the received imaging data based on a comparison of data redundant in the received data, and substitute (52) alternative data for detected motion corrupted data.

Abstract: A computer-implemented method for performing multi-slice magnetic resonance imaging with comparable contrast between simultaneously excited slices includes applying a first pulse sequence to a volume of interest to acquire a first k-space dataset. This first pulse sequence comprises a plurality of single-band slice-selective pulses applied in a first predefined order. One or more additional pulse sequences are also applied to the volume of interest to acquire one or more additional k-space datasets. Each additional pulse sequence comprises the plurality of single-band slice-selective pulses applied in one or more additional predefined orders that are distinct from the first predefined order. One or more final images are reconstructed using the first k-space dataset and the one or more additional k-space datasets.

Abstract: Various embodiments of the present disclosure present unwrapping based B0 mapping systems and methods. An initial B0 map is obtained by unwrapping a pseudo-in-phase complex data that is generated from selected echoes of multi-echo gradient echo image data. Global and local phase errors that are present in the initial B0 map are corrected to produce a phase-error-corrected B0 map. A bias frequency shift is employed to produce a corrected fat-fraction map based on the phase-error-corrected B0 map. The corrected fat-fraction map is employed to generate a final B0 map.

Abstract: The present invention provides a radio field intensity measurement device having a display portion with improved visibility, in the case of measuring a weak radiowave from a long distance. In the radio field intensity measurement device, a battery is provided as a power source for power supply and the battery is charged by a received radiowave. When a potential of a signal obtained from the received radiowave is higher than an output potential of the battery, the power is stored in the battery. On the other hand, when the potential of the signal obtained from the received radiowave is lower than the output potential of the battery, power produced by the battery is used as power to drive the radio field intensity measurement device. As an element to display the radio field intensity, a thermochromic element or an electrochromic element is used.

Abstract: A magnetic resonance (MR) coil array (26, 28) connected by way of a single transmission line (46, 48) is provided. The MR coil array (26, 28) includes a coil element (34) and a corresponding coil element circuit (32). The coil element circuit (32) includes at least one active component (40) powered by a power signal carried on the coaxial transmission line (46, 48). The voltage of the power signal varies between first and second direct current (DC) voltages of the same polarity. The coil element circuit (32) further includes a tune/detune circuit (42) connected to the coaxial transmission line (46, 48). The tune/detune circuit (42) tunes or detunes the coil element (34) based on the first and second DC voltages. An MR system (10) using the MR coil array (26, 28) and a method (10) for tuning or detuning the MR coil (26, 28) are also provided.