Abstract: A system for characterizing a quiet zone of an over-the-air testing space includes at least one measurement antenna and at least one scattering member. The measurement antenna is configured to at least transmit electromagnetic signals. The scattering member includes predefined scattering properties. The scattering member is enabled to scatter the electromagnetic signals so as to generate scattered electromagnetic signals that are transmitted in a defined manner. Further, a method of characterizing a quiet zone of an over-the-air testing space is described.

Abstract: A sensor substrate includes a multi-layered substrate and a plurality of coils formed on the substrate, an upper-side coil includes a first sub coil including a plurality of conductor patterns connected in series with each other in the substrate, and a second sub coil including a plurality of conductor patterns connected in series with each other in the substrate, and in any of the even number of layers, the conductor pattern belonging to the first sub coil and the conductor pattern belonging to the second sub coil are aligned alternately in a planar direction, and one end of the first sub coil is connected to one terminal of a short land, while one end of the second sub coil is connected to the other terminal of the short land separated from the one terminal in the planar direction.

Abstract: A sensor device comprises a sensor unit for generating a signal indicative of a physical quantity. The device comprises a processing unit for receiving the signal, in which the processing unit comprises a storage memory for storing data derived from the signal as provided by the sensor unit at at least two points in time. The device comprises a bus interface for communicating with an electronic control unit via a digital communication bus. When a read command is received from the electronic control unit, an estimate of the physical quantity is sent in response to the electronic control unit. The processing unit comprises an estimator for calculating the estimate at a reference point in time based on the data stored in the storage memory, in which the reference point in time differs from the point in time at which the read command is received by substantially a predetermined offset.

Abstract: A tuner system for conducting measurements on a Device Under Test (DUT) includes at least one passive tuner, and calibration data for the at least one passive tuner including a set of s-parameters at a set of calibration frequencies. A measurement on the DUT is done at a measurement frequency at which the at least one passive tuner is not calibrated. The tuner s-parameters at the measurement frequency are determined by interpolation between or extrapolation from the s-parameters at calibration frequencies.

Abstract: A touch sensor comprises a first electrode, a second electrode arranged spaced apart from the first electrode, and an insulator arranged between the first electrode and the second electrode, wherein at least one of the first electrode and the second electrode is energized, and an energy difference exists between the first electrode and the second electrode. At least one of the first electrode and the second electrode is a stressed electrode. When the stressed electrode is not stressed, no electrical signal is generated, and when the stressed electrode is stressed, the stressed electrode deforms at a stressed point and changes the distance between the stressed point and the other electrode to generate a tunneling current, and the touch sensor generates the electrical signal according to whether the tunneling current is generated. Therefore, the invention solves a limitation of the conventional touch sensor in touching and provides good touching sensitivity.

Abstract: A blade tip sensor may be provided that includes a bridge-network circuit embedded in a composite body such as a ceramic matrix composite body. The bridge-network circuit may include a first resistor-capacitor circuit on a first branch and a second resistor-capacitor circuit on a second branch. Each of the first resistor-capacitor circuit and the second resistor-capacitor circuit includes a corresponding capacitor having a capacitance that depends on a distance between the corresponding capacitor and a blade of a rotor.

Abstract: A system for measuring an electrical quantity of a current circulating in an electrical device mounted on a mounting support, including an electrical power supply device, the device for measuring the current circulating in the device, the device for tapping the voltage at the terminals of the device, and the device for measuring this voltage, device for processing the measurement information, and device for communicating the measurement information to a receiver.

Abstract: A method for verifying the wiring of an electrical energy meter, the meter comprising an upstream phase terminal, a downstream phase terminal and a cut-off member mounted between the upstream phase terminal and the downstream phase terminal, the verification method comprising the steps of: opening the cut-off member; measuring an upstream phase voltage upstream from the cut-off member and a downstream phase voltage downstream from the cut-off member; detecting, particularly according to a measurement of the upstream phase voltage and a measurement of the downstream phase voltage, a possible wiring error; if a wiring error is detected, generating and alert; if no wiring error is detected, closing the cut-off member and putting the meter in a nominal operating mode.

Abstract: Methods and apparatus are disclosed for calibration determinations for handheld moisture meters in the field. A calibration reference stand emulates a sample with an equivalent moisture content, allowing rapid determination whether a moisture meter is out of calibration, or determination of a new calibration value. The calibration reference stand includes an electromagnetic load, which can be formed of a metal sheet or high dielectric constant material, supported on a platform, and mechanical fixturing for reproducible positioning of a moisture meter on the stand. Associated methods and variations are disclosed.

Abstract: This disclosure regards a magnetic resonance imaging system including a scanner, and gradient drivers. The scanner is to be implemented within a scan room that is shielded from electromagnetic interference. Gradient coils are designed to create a linear gradient in the magnetic field generated in the scanner by a primary magnet. These coils are energized by gradient drivers. The gradient drivers use transformers and other electrical devices in a switching stage configured to generate pulse-width-modulated power. The transformers may have non-magnetic cores to facilitate implementing the gradient drivers within the scan room. The gradient drivers also use a filtering stage which uses inductors and other electrical devices to smooth the pulse-width-modulated power. The inductors within the filters may have non-magnetic cores to facilitate implementing the gradient driver within the scan room. Additionally, an inductor with a hollow wire may be used to circulate fluid to facilitate cooling the gradient driver.

Abstract: A rotational speed sensor arrangement is provided that includes a transmitter wheel, which has signal markers that are spaced apart from one another; a sensor with at least two Hall sensor elements that form a differential Hall sensor and that each output a Hall signal as a function of the position and/or motion of the signal markers; and a signal circuit that determines an output signal based on the Hall signal, and defines a rotational position of the transmitter wheel based on the output signal, wherein the signal markers have radially extending tooth elements with two switching flanks, and the switching flanks converge in a switching edge. A drive shaft arrangement, an internal combustion engine, and a motor vehicle are also provided.

Abstract: Provided is a wire rope flaw detector according to the present invention includes a magnetizer configured to form a magnetic path in a predetermined segment of a wire rope, a magnetic sensor configured to detect a leakage magnetic flux generated from the wire rope, and a protective cover configured to prevent the wire rope from being brought into contact with the magnetic sensor. The wire rope flaw detector further includes a magnetic sensor protecting member configured to prevent the protective cover from being brought into contact with an upper face of the magnetic sensor so as to prevent application of a pressure equal to or larger than a predetermined pressure to the magnetic sensor.

Abstract: A method and system for determining properties of a pipe string using multi-channel induction measurements. The method may comprise disposing a multi-channel induction tool in a cased hole, obtaining a multi-channel measurement, forming a log from the multi-channel measurement, extracting at least one abnormality that corresponds to known metal thickness, performing a search to find a set of pipe material properties that minimize a mismatch between the abnormality and a simulated response, and inverting the log to estimate the set of pipe material properties at one or more depth points using the set of pipe material properties. The system may comprise a multi-channel induction tool. The multi-channel induction tool may comprise at least one transmitter, at least one receiver, and an information handling system.

Abstract: A process monitor circuitry is described that can measure the electron mobility (?), oxide capacitance (Cox) and threshold voltage (Vth) of an integrated circuit.

Abstract: Various embodiments relate to a resonator system that can be used to monitor proteins, cells, or small molecules in a container. A resonant sensor, embedded in or on the container, can have an inductive element and a capacitive element, where the container and resonant sensor are structured such that, when a concentration of the proteins, cells, or small molecules in the container changes, dielectric permittivity and conductivity of the proteins, cells, or small molecules contributes to capacitance of the resonant sensor to affect a resonant frequency shift of the resonant sensor. Interrogating the resonant sensor can be conducted wirelessly along with wirelessly transmitting data collected from the interrogation. Additional apparatus, systems, and methods are disclosed.

Abstract: A multi-station concurrent testing method, comprising: a step A in which the control station controls the handler to send SOT signal(s) of corresponding testing station(s) based on previous testing results at adjacent testing stations of the testing stations; a step B in which the control station constructs an SOT signal sequence based on the received SOT signal(s) and in correspondence to orders of the testing stations; and a step C in which the control station compares the SOT signal sequence and an SOT signal prediction value sequence generated by the control station, wherein if the SOT signal sequence and the SOT signal prediction value sequence match, the corresponding testing station(s) executes the test of device(s) under test, and otherwise, the handler is controlled to purge the devices under test at the testing stations, the SOT signal prediction value sequence is generated based on previous testing results at the testing stations.

Abstract: An electromigration (EM) test structure for localizing EM-induced voids is provided. The EM test structure includes an EM test element, a via, and a stress line. The EM test element includes a first force pad and a first sense pad. The via electrically connects the EM test element to the stress line. A second end portion of the stress line includes a second force pad and a second sense pad. The second force pad defines, at least in part, a conductive pathway between the first and second force pads. The second sense pad defines, at least in part, a conductive pathway between the first and second sense pads to facilitate four-terminal resistance measurements. A first end portion of the stress line includes a third sense pad that defines, at least in part, a conductive pathway between the first and third sense pads to facilitate four-terminal resistance measurements.

Abstract: A system may include a resonant phase sensing system comprising a resistive-inductive-capacitive sensor and a measurement circuit communicatively coupled to the resistive-inductive-capacitive sensor, and a compensation circuit. The measurement circuit may be configured to use a phase detector to measure phase information associated with the resistive-inductive-capacitive sensor and based on the phase information, determine a displacement of a metal plate relative to the resistive-inductive-capacitive sensor. The compensation circuit may be configured to detect a change in a physical property associated with the resistive-inductive-capacitive sensor other than the displacement and compensate the phase information to correct for the change in the physical property.

Abstract: An adjustment structure for an electric eddy current sensor is provided in the present invention, which includes an electric eddy current fixing base, an electric eddy current base plate, a spring buffer mechanism, a rotation adjustment mechanism and an electric eddy current mechanism. The rotation adjustment mechanism is disposed on the electric eddy current fixing base, the electric eddy current mechanism is disposed on the rotation adjustment mechanism, the electric eddy current base plate is disposed on a bottom of the electric eddy current fixing base, and the spring buffer mechanism is disposed on a bottom of the electric eddy current base plate. With provision of the rotation adjustment structure, the control system on the inspection robot drives the adjustment motor to start working, thereby driving the reducer to start working. The output torque of the active adjustment shaft is increased through the action of the reducer.

Abstract: A capacitive matrix suction sensor measures the matrix suction exhibited by a porous medium surrounding the sensor. The sensor is constructed from a capacitive moisture probe having a sensing body, and a jacket that encases the sensing body. The jacket is made of a hydrophilic, non-conductive, porous (HN-CP) material. In operation, the sensing body is energized, and the voltage produced is read. The matrix suction exhibited by the HN-CP jacket material is then computed based on the voltage, and an indicator of the current value of the matrix suction exhibited by the porous medium is established based on the matrix suction computed for the HN-CP jacket material.