The objective of the present invention is to provide a hydraulic breaker comprising: a hydraulic breaker body part; a sensor part sensing vibration generated in the hydraulic breaker body part when objects to be crushed, including bedrocks, are crushed, so as to output a sensing signal; and a control part receiving the sensing signal so as to calculate the time for which the hydraulic breaker body part vibrates, thereby calculating an operating time.

A method determines a fluid quantity relating to a fluid flowing in a measuring device. The measuring device has a measuring tube which receives the fluid, and first and second oscillation transducers. An excitation of a total wave, which is conducted through a wall of the measuring tube, by the first and/or second oscillation transducer, by wave components which are conducted in the wall being excited by the oscillation transducers in a plurality of excitation regions. These wave components are superposed to form the total wave. A distance between the centers of the excitation regions and the excitation frequency are selected such that an oscillation mode to be attenuated is quenched by destructive interference of the wave components in a propagation direction. Excitation of a compression oscillation of the fluid by the total wave occurs. Measurement data relating to the compression oscillation is used to determine the fluid quantity.

According to one embodiment, a structure evaluation system includes an impact imparting unit, a sensor, and a structure evaluation device. The impact imparting unit applies impacts to a structure. The impact imparting unit applies the impacts at a frequency equal to or less than a frequency determined in accordance with an intensity at which the impacts are imparted. The sensor detects elastic waves. The structure evaluation device evaluates a deterioration state of the structure on the basis of the detected elastic waves.

An electronic device is provided that includes a first casing and a second casing, and a distortion sensor attached to an inner wall of the casing. One side of the first casing is opened by a first opening, one side of the second casing is opened by a second opening, the casing is formed by fixing the first casing to the second casing to face each other. Moreover, the first and second casings are fixed by two or more fixing portions, the distortion sensor has a strip shape having first and second ends in the longitudinal direction, and the distortion sensor is attached to an inner wall of the second casing such that the longitudinal direction is a direction along an edge of the second opening, the first end is relatively close to the fixing portion, and the second end is far from the fixing portion.

An electronic device is provided that includes a first casing and a second casing, and a distortion sensor attached to an inner wall of the casing. One side of the first casing is opened by a first opening, one side of the second casing is opened by a second opening, the casing is formed by fixing the first casing to the second casing to face each other. Moreover, the first and second casings are fixed by two or more fixing portions, the distortion sensor has a strip shape having first and second ends in the longitudinal direction, and the distortion sensor is attached to an inner wall of the second casing such that the longitudinal direction is a direction along an edge of the second opening, the first end is relatively close to the fixing portion, and the second end is far from the fixing portion.

Noise and vibration sensing includes generating with an acceleration sensor a sense signal representative of the acceleration that acts on the acceleration sensor, and processing the sense signal to provide a processed sense signal having an adjustable signal bandwidth and an adjustable signal dynamic. The signal bandwidth extends between a lowest frequency and a highest frequency of the sense signal, and the signal dynamic is the ratio between a maximum amplitude of the sense signal and an output noise floor generated by the acceleration sensor. Noise and vibration sensing further includes adjusting the signal bandwidth and the signal dynamic in accordance with a control signal so that the signal bandwidth increases when the signal dynamic decreases and vice versa.

A vibration sensor assembly having a rigid surface and a transducer integrated with the rigid surface. The transducer measures structure-borne sound waves that cause vibration motion of the rigid surface. The rigid surface may be glass, metal or plastic and may be part of an interior part or panel, or an exterior panel, of a vehicle.

A vibration sensor assembly having a rigid surface and a transducer integrated with the rigid surface. The transducer measures structure-borne sound waves that cause vibration motion of the rigid surface. The rigid surface may be glass, metal or plastic and may be part of an interior part or panel, or an exterior panel, of a vehicle.

A sensor may include a housing configured to couple to a machine; at least one processor within the housing; a battery within the housing; a communication adapter within the housing and coupled to the at least one processor; and a measurement device within the housing and coupled to the at least one processor and the battery. The communication adapter may be configured to wirelessly connect to a communication network. The measurement device may be configured to: obtain measurements of a physical characteristic of the machine to which the housing is coupled and transmit the measurements via the communication adapter, and automatically switch between a first measurement mode comprising a first sampling rate and a second measurement mode comprising a second sampling rate, different from the first sampling rate, without human intervention.

A sensor may include a housing configured to couple to a machine; at least one processor within the housing; a battery within the housing; a communication adapter within the housing and coupled to the at least one processor; and a measurement device within the housing and coupled to the at least one processor and the battery. The communication adapter may be configured to wirelessly connect to a communication network. The measurement device may be configured to: obtain measurements of a physical characteristic of the machine to which the housing is coupled and transmit the measurements via the communication adapter, and automatically switch between a first measurement mode comprising a first sampling rate and a second measurement mode comprising a second sampling rate, different from the first sampling rate, without human intervention.