A sensor assembly is provided for conductivity measurement and ultrasonic temperature measurement. The assembly includes an elongated sensor body aligned along a longitudinal axis extending from an electronics housing. The sensor body has a plurality of elongated electrodes disposed about the longitudinal axis defining a measurement section, and a pair of ultrasonic transceivers mounted to the body in spaced relationship across the measurement section, in which a first transceiver of the pair is attached to a proximal end of the sensor body and a second transceiver of the pair is attached to a distal end of the sensor body across the measurement section. The electronics housing is in operable communication with the plurality of electrodes and to the pair of ultrasonic transceivers to measure fluid parameters within the measurement section.

A computer and an automatic protection method thereof are provided. The automatic protection method includes the following steps. A sound receiving unit of the computer receives a sound signal. Whether a fan error event occurs is determined according to the sound signal. If the fan error event occurs, then a first data protection procedure is performed. Whether a disaster event occurs is determined according to the sound signal. If the disaster event occurs, then a second data protection procedure is performed. Whether the computer is at a locking status is determined. If the computer is at the locking status, then whether an information security hazard event occurs is determined according to the sound signal. If the information security hazard event occurs, then a third data protection procedure is performed.

A container for a pharmaceutical composition in which the container has a cover, and a cavity holding a sensor capable of detecting temperature and/or humidity. The sensor is capable of detecting when conditions of temperature and/or humidity fall outside of predetermined ranges. The sensor is further capable of sending a signal to a receiver outside of the container indicating the present or historical conditions of temperature and/or humidity.

A liquid immersion sensor for a mobile device with at least two acoustic transducers is described. The liquid immersion sensor may include a signal generator having a signal generator output configured to generate a signal for transmission via a first acoustic transducer, and a signal receiver having a signal receiver input configured to receive a delayed version of the generated signal via a second acoustic transducer. The signal receiver includes a signal receiver output. The liquid immersion sensor includes a controller having a first controller input for receiving a reference signal and a second controller input coupled to the signal receiver output. The controller determines a time lag value between the reference signal and the delayed signal and generates a control output signal dependent on the phase difference. The control output signal indicates if the mobile device is immersed in liquid.

A system for measuring a gas concentration, the system including: a first oscillator including a first surface for placement in a sampling location, wherein the first oscillator oscillates at a frequency greater than 20,000 Hz but less than 300,000,000 Hz; a first counter to accumulate a count of oscillations of the first oscillator; and a comparator to calculate a difference between the accumulated counts of the first oscillator and a reference, wherein the difference calculated by the comparator is sampled at a frequency of less than 100 Hz.

A measurement method performed by a semiconductor manufacturing apparatus including a chamber is provided. In the measurement method, first measurement data including a signal of a resonance frequency of the chamber is acquired as reference data, in response to transmitting an electrical signal into the chamber while a jig capable of performing wireless communication is not placed in the chamber. Subsequently, second measurement data including the signal of the resonance frequency of the chamber and including a signal of a resonance frequency of a sensor installed in the jig is acquired, in response to transmitting an electrical signal into the chamber while the jig is placed in the chamber. By subtracting the reference data from the second measurement data, third measurement data is calculated.

Systems, apparatuses, and methods for evaluation of fluid quality are provided. The system includes a vessel containing a quantity of fluid. At least one sensor is positioned to emit at least one signal into the quantity of fluid. A temperature sensor is configured to sense a temperature of the quantity of fluid. A computerized device is in communication with the at least one sensor and the temperature sensor. The processor of the computerized device calculates at least a fluid identity of the quantity of fluid and determines a quality of the quantity of fluid based on the at least one signal from the at least one sensor and the sensed temperature of the quantity of fluid. The system may have a particular benefit in evaluating dielectric fluid degradation used in liquid cooled centers and other settings.

Disclosed are devices, systems and methods for touch, force and/or thermal sensing by an ultrasonic transceiver chip. In some aspects, an ultrasonic transceiver sensor device includes a semiconductor substrate; a CMOS layer attached to the substrate; an array of piezoelectric transducers coupled to the CMOS layer to generate ultrasonic pulses; and a contact layer attached to the substrate on a side opposite the substrate for providing a surface for contact with an object, where an ultrasonic pulse generated by a piezoelectric transducer propagates through the substrate and the contact layer, such that when the object is in contact with the surface of the contact layer, a reflected ultrasonic pulse is produced and propagates through the contact layer and the substrate to be received at the array of piezoelectric transducers, and the CMOS layer receive and process outputs from the piezoelectric transducers produced in response to the received reflected ultrasonic pulses.

A sensor device that includes an integrated sensor assembly having a surface acoustic wave (SAW) sensor disposed on a piezoelectric substrate. The SAW sensor is adapted to measure an environmental condition of an environment in response to an RF signal. The SAW sensor includes an interdigitated transducer (IDT) formed on a substrate having at least a layer of a piezoelectric material. The SAW sensor includes either one or more SAW reflectors of a second IDT formed on the piezoelectric material. The SAW sensor further includes an RF antenna formed on the piezoelectric material. The SAW sensor and the RF antenna are integrated with one another on the piezoelectric material.

A method for determining properties of a hydrocarbon-containing gas mixture includes determining a thermal conductivity value, density measurement, viscosity measurement, and temperature and pressure. The method also includes determining a hydrogen content of the gas mixture on the basis of the thermal conductivity value and the temperature and pressure, determining a density measurement and associated temperature and pressure, and determining the mean molar mass or standard density on the basis of the density measurement and the temperature and pressure. The method further includes determining the mean molar mass or standard density of a hydrogen-free residual gas mixture based on the mean molar mass or standard density and the hydrogen fraction, determining the Wobbe index of the residual gas mixture based on the viscosity measurement and the temperature and pressure, and determining a calorific value based on the mean molar mass or standard density and the Wobbe index.