Abstract: A device and method for measuring the rotational position of a rotating feature, the device employing rotary to linear magnification. A connecting member is operatively connected to the rotating feature, the connecting member extending through one or more structural layers of an enclosure. An arm is operatively connected to the connecting member and located outside the enclosure. A target is arranged with respect to a position sensor, with the position sensor configured to measure the linear position of the target with respect to the position sensor. A cable is connected to the arm at an attachment point, the cable also being connected to the target. One or more pulleys are arranged to control the path of the cable between the attachment point on the arm and the target.

Abstract: Disclosed herein is an angular velocity sensor. The angular velocity sensor according to an embodiment of the present invention is configured to include a mass body, a first frame disposed at an outer side of the mass body so as to be spaced apart from the mass body, a first flexible part connecting the mass body to the first frame in an X-axis direction, a second flexible part connecting the mass body with the first frame in a Y-axis direction, a second frame disposed at an outer side of the first frame so as to be spaced apart from the first frame, a third flexible part connecting the first frame with the second frame in an X-axis direction, and a fourth flexible part connecting the first frame with the second frame in a Y-axis direction.

Abstract: Disclosed is phased array inspection system with automatically generated PAUT scan plan based on a set of configurable probe operation parameters and a combination of preferred code requirement and rules given by PAUT expertise. The complex code requirements and PAUT expertise are pre-assembled into a plurality of templates applicable to categories of inspection tasks by PAUT experts. Requirements and optimization scoring schemes are then used to automatically score each of specifically proposed scan plan setup, including the selection of probe operation parameters against the corresponding template for a specific task. This allows less skilled field inspector to operate with the correct interpretation of the complex code and accurate evaluation of the scan plan.

Abstract: An acceleration measuring device to offset the limiting factors associated with the maximum acceleration an accelerometer can measure by attaching the device onto a mount system pre-calibrated to a specified angle relative to the horizontal axis of the object on which the system is mounted on.

Abstract: A motion/vibration detection system and method therefore are provided. The system includes a transmitter and a receiver. The transmitter includes a transmit/receive antenna unit and a first oscillator. The receiver includes a receiving unit and a demodulation unit. The transmit/receive antenna unit receives an output signal from the first oscillator and transmits a detection signal. The detection signal is reflected from at least one object under detection into a reflected detection signal, which is received by the transmit/receive antenna unit. The transmit/receive antenna unit injects the reflected detection signal into the first oscillator and accordingly the first oscillator is under a self-injection locking mode. The receiving unit receives the detection signal. The demodulation unit demodulates the detection signal received by the receiving unit into a baseband output signal, to extract at least one motion/vibration information of the objection under detection.

Abstract: In an angular velocity sensor, when a width of a detection frequency band is set to f1 [Hz], a resonance frequency in a first rotational vibration mode in which a base portion rotates and vibrates around a detection axis with respect to fixing units in association with the deformation of beam portions is set to f2 [Hz], a detuning frequency is set to f3 [Hz], and a resonance frequency in a second rotational vibration mode, having a phase opposite to that of the first rotational vibration mode, in which the base portion rotates and vibrates around the detection axis with respect to the fixing units in association with the deformation of the beam portions is set to f4, a relation of f1<f2<f3<f4 or a relation of f1<f2<f4<f3 is satisfied.

Abstract: An angular velocity sensor includes fixing units, a base portion, beam portions that support the base portion with respect to the fixing units, driving vibrating arms connected to the base portion, and detection vibrating arms connected to the base portion. When a width of a detection frequency band is set to f1 [Hz], a resonance frequency in a rotational vibration mode in which the base portion rotates and vibrates around a detection axis with respect to the fixing units in association with the deformation of the beam portions is set to f2 [Hz], and a detuning frequency is set to f3 [Hz], the relation of f1<f2<f3 is satisfied.

Abstract: A cylinder-to-cylinder variation abnormality detecting device including a rotational fluctuation detecting module that detects a rotational fluctuation among cylinders of a multi-cylinder engine; a rotational fluctuation type abnormality determining module that determines whether a cylinder-to-cylinder variation abnormality is occurring, from the rotational fluctuation; an air-fuel ratio detecting module that detects an air-fuel ratio; an air-fuel ratio fluctuation type abnormality determining module that determines whether the abnormality is occurring, from a fluctuation in the air-fuel ratio; a frequency component type abnormality determining module that detects whether the abnormality is occurring, from a particular frequency component corresponding to one engine combustion cycle; and a cylinder-to-cylinder variation abnormality determination finalizing module that finalizes a determination of the abnormality, if the rotational fluctuation type determining module determines the abnormality and the air-fuel

Abstract: A vibrating element includes: drive vibrating arm supported to the base portion and extending in a direction of the second axis; and detection vibrating arm supported to the base portion at a position different from the drive vibrating arm and extending in the direction of the second axis. When the vibrating element is subjected to rotation about the second axis while the drive vibrating arm being reciprocally driven in a direction of the first axis, an amount of displacement of the detection vibrating arm in a direction of the third axis at a position distant from the base portion by a distance y1 along the direction of the second axis is greater than an amount of displacement of the drive vibrating arm in the direction of the third axis at a position distant from the base portion by the distance y1 along the direction of the second axis.

Abstract: A micromechanical acceleration sensor is provided, including a substrate, a first seismic mass, which is movably suspended on the substrate and deflectable in an acceleration acting on the substrate in a first direction, first detection means for detecting a deflection of the first seismic mass in an acceleration acting on the substrate in the first direction, a second seismic mass, which is movably suspended on the substrate and deflectable in an acceleration acting on the substrate in a second direction, the second direction running perpendicularly to the first direction, second detection means for detecting a deflection of the second seismic mass in an acceleration acting on the substrate in the second direction, the second seismic mass furthermore being deflectable in an acceleration acting on the substrate in a third direction, the third direction running perpendicularly to the first direction and to the second direction, and third detection means for detecting a deflection of the second seismic mass

Abstract: There is provided a barometric altimeter to detect a floor number at the current position in especially a high-rise building, and to calculate a height or a floor number more precisely. To this end, a barometric altimeter (100) stores, at a barometric pressure/height conversion coefficient storage unit (2), a plurality of barometric pressure/height conversion coefficients that is calculated beforehand based on temperature of air indoors in accordance with a month and a date, and an arithmetic expression, for which the plurality of barometric pressure/height conversion coefficients are used. For the actual operation, while a reference barometric pressure measurement/storage unit (1) measures and stores a barometric pressure at a position as reference barometric pressure, a current barometric pressure measurement unit (3) measures the barometric pressure at the position to be measured.

Abstract: Provided is an angular velocity sensor including a plurality of angular velocity detection units each outputting a different detection result, and including a common driving circuit to drive the angular velocity detection units. The angular velocity detection units of the angular velocity sensor of the present invention are configured to have different driving amplitudes when being driven by a driving signal at the same frequency.

Abstract: A detection device includes a drive circuit of a physical quantity transducer, a synchronization signal output circuit, and a detection circuit that performs detection of a physical quantity signal based on a physical quantity. The synchronization signal output circuit includes a delay locked loop (DLL) circuit that includes: a delay control circuit that outputs a delay control signal and a delay circuit that includes a plurality of delay units in which a delay time is controlled by the delay control signal; an adjustment circuit that includes at least one delay unit in which a delay time is controlled by the delay control signal, and outputs a signal obtained by delaying an input signal based on the output signal from the drive circuit to the DLL circuit; and an output circuit that outputs the synchronization signal based on multi-phase clock signals from the DLL circuit.

Abstract: The invention provides an MEMS device. The MEMS device includes: a substrate, a proof mass, a spring, a spring anchor, a first electrode anchor, and a second electrode anchor, a first fixed electrode and a second fixed electrode. The proof mass is connected to the substrate through the spring and the spring anchor. The proof mass includes a hollow structure inside, and the spring anchor, the first electrode anchor, and the second electrode anchor are located in the hollow structure. The proof mass and the first fixed electrode form a first capacitor, and the proof mass and the second fixed electrode form a second capacitor. There is neither any portion of the proof mass nor any portion of any fixing electrode located between the first electrode anchor, second electrode anchor, and the spring anchor.

Abstract: A system for detecting a vehicle speed, includes: a pulse ring including a pulse ring rotation part rotating according to travel of a vehicle, and a plurality of pitch units provided in the pulse ring rotation part at a predetermined interval; a vehicle speed sensor adjacently provided to the pulse ring and configured to output a voltage signal generated according to a distance between the vehicle speed sensor and a pitch unit; an output unit configured to output a voltage pulse signal and a voltage pulse amplitude change signal of the vehicle speed sensor; a first vehicle speed detection unit configured to detect the vehicle speed based on the voltage pulse signal of the output unit; and a second vehicle speed detection unit configured to detect the vehicle speed based on the voltage pulse amplitude change signal of the output unit, in which at least one of the plurality of pitch units has an adjacent distance which is different from an adjacent distance between another of the pitch units and the vehicle spe

Abstract: [Problem to be Solved] To provide a property measuring device for measuring a measurement object, which can highly reliably extract an electric signal serving as the measurement object from an electromagnetic field noise or the like generated by an acoustic wave generating source even if the acoustic wave is a continuous wave, while a high spatial resolution is maintained, by using an acoustic wave as a properly measuring means for measuring an object and method thereof.

Abstract: A sensor device includes a mounting board having a first rigid board on which an angular velocity sensor is mounted and a third rigid board on which an angular velocity sensor is mounted, and a pedestal for fixing the mounting board. Further, the pedestal includes a base section having a first fixation surface along an x axis and a y axis, and projecting sections disposed on the base section, and having a second fixation surface along the x axis and a z axis, and a third fixation surface along the y axis and the z axis, each of the rigid boards is supported by at least two of the first fixation surface, the second fixation surface, and the third fixation surface, and the angular velocity sensors have respective detection axes intersecting with each other.

Abstract: An ultrasonic probe for examining an object with ultrasound and a corresponding examination method are provided. The probe includes a plurality of emitter elements able to emit ultrasonic waves for emitting a focused ultrasonic beam into the object through an active area of a surface of the object, and a profilometer for determining the profile of the surface of the object and for controlling the emission of the ultrasonic beam depending on the determined profile. The profilometer includes an image-taking apparatus for taking at least one digital image of the active area and an image processing module able to determine the profile of the active area by analyzing the optical blurring of the or at least one image.

Abstract: A vibrating element includes a vibrating arm for detection. An electrode is provided on the vibrating arm for detection. A wiring line is connected to the electrode. The wiring line is arranged on a piezoelectric body of a base portion. At least a part of the wiring line is an electrode for adjustment. The electrode for adjustment generates an electrical signal with an opposite phase to an output signal of leak vibration of the vibrating arm for detection.

Abstract: Methods and apparatuses are provided wherein a sensor which comprises at least two electrodes and a movable part is alternately biased with at least two different voltages.