The present invention relates to a micro-electromechanical transducer comprising a pressure detection arrangement and a sub-assembly adapted to cooperate with the pressure detection arrangement via a coupling volume, said sub-assembly comprising one or more moveable masses, a suspension member suspending a number of moveable masses, wherein the coupling volume is at least partly defined by the suspension member, and wherein the coupling volume is acoustically connected to an interior volume of the pressure detection arrangement, and wherein the suspension member comprises a viscoelastic material with a predetermined viscous and sealant behaviour in order to dampen one or more resonance peaks of the micro-electromechanical transducer and acoustically seal the coupling volume. The present invention further relates to a hearing device comprising such a micro-electromechanical transducer.

A resonant pressure sensor with improved linearity includes: a substrate including a substrate-separated portion separated from a housing-fixed portion; a first resonator that: is disposed in the substrate-separated portion; and detects a change of a first resonance frequency based on a strain in the substrate caused by static pressure applied by a pressure-receiving fluid; a second resonator that: is disposed in the substrate; detects a change of a second resonance frequency based on the strain in the substrate; and has a pressure sensitivity of the second resonance frequency; and a processor that: measures the static pressure based on the detected change of the first resonance frequency; and corrects the static pressure according to internal temperature of the pressure sensor based on a difference between the second resonance frequency and the first resonance frequency.

An electromechanical pressure sensor includes an electromechanical resonator having a driving electrode, a sensing electrode, and a beam resonator arranged between the driving and sensing electrodes. The beam resonator includes a resonator beam coupled on a first end to a first fixed anchor and coupled on a second end to a fixed second fixed anchor. The electromechanical resonator also includes a first voltage source coupled to the driving electrode and configured to provide an alternating current to the driving electrode and a second voltage source coupled to the first fixed anchor. The second voltage source provides a DC bias to the resonator beam. The electromechanical resonator further includes a third voltage source coupled to the resonator beam via the first and second fixed anchors. The third voltage source is configured to supply a voltage to the resonator beam that results in a temperature differential between the resonator beam and the first and second fixed anchors. The electromechanical resonator also includes a processor coupled to the sensing electrode and configured to correlate a voltage on the sensing electrode with a pressure value.

An electromechanical pressure sensor includes an electromechanical resonator having a driving electrode, a sensing electrode, and a beam resonator arranged between the driving and sensing electrodes. The beam resonator includes a resonator beam coupled on a first end to a first fixed anchor and coupled on a second end to a fixed second fixed anchor. The electromechanical resonator also includes a first voltage source coupled to the driving electrode and configured to provide an alternating current to the driving electrode and a second voltage source coupled to the first fixed anchor. The second voltage source provides a DC bias to the resonator beam. The electromechanical resonator further includes a third voltage source coupled to the resonator beam via the first and second fixed anchors. The third voltage source is configured to supply a voltage to the resonator beam that results in a temperature differential between the resonator beam and the first and second fixed anchors. The electromechanical resonator also includes a processor coupled to the sensing electrode and configured to correlate a voltage on the sensing electrode with a pressure value.

An resonant pressure sensor, includes: a housing; a housing-fixed portion that is fixed to the housing; a substrate that includes a substrate-fixed portion that is fixed to the housing-fixed portion and a substrate-separated portion that is separated from the housing-fixed portion and extends from the substrate-fixed portion; a first resonator that is disposed in the substrate-separated portion and that detects a change of a resonance frequency based on a strain in the substrate caused by static pressure applied by the pressure-receiving fluid; and a processor. A pressure-receiving fluid is interposed in a gap between the housing-fixed portion and the substrate and envelops the substrate. The processor measures the static pressure based on the detected change of the resonance frequency.

A sensor unit includes a transducer element monitoring a measurand and generating an electrical output signal correlated with the measurand, a sensor substrate having a first surface and an opposite second surface, a recess extending from the first surface of the substrate through to the second surface of the substrate, and a circuit carrier. The transducer element and a first electrically conductive contact pad are arranged on the first surface and electrically connected. The circuit carrier has a second electrically conductive contact pad. The sensor substrate is mounted on the circuit carrier with the first surface facing the circuit carrier. The first electrically conductive contact pad and the second electrically conductive contact pad are interconnected by an electrically conductive material filled in from the second surface towards the first surface of the sensor substrate.

Provided are a resonator, a method of manufacturing the resonator, and a strain sensor and a sensor array including the resonator. The resonator is provided to extend in a lengthwise direction from a support. The resonator includes a single crystal material and is provided to extend in a crystal orientation that satisfies at least one from among a Young's modulus and a Poisson's ratio, from among crystal orientations of the single crystal material.

An environmental sensor including sensor elements to measure multiple physical quantities associated with a surrounding environment, and includes a state determination unit that determines whether the environmental sensor is in a first state in which the sensor is fixed at a predetermined installation location or in a second state in which the sensor is away from an installation location, and an operation switch unit that switches an operation of each sensor element that measures the physical quantities based on whether a state determined by the determination unit is the first state or the second state.

A pressure sensor which detects variation in pressures, the pressure sensor including a cantilever which is bent according to a pressure difference between the inside and the outside of a cavity in a sensor main body, and an intra-lever gap which is formed on a proximal end portion of the cantilever. The proximal end portion is partitioned into a first support portion and a second support portion by an intra-lever gap in a second direction orthogonal to a first direction in which the proximal end portion and a distal end portion are connected to each other in plan view. A doped layer which is provided on a portion of the first and second support portions forms a first displacement detection portion and a second displacement detection portion. Lengths of the first and second displacement detection portions are shorter than those of the first and second supports along the second direction.

An environmental sensor including sensor elements to measure multiple physical quantities associated with a surrounding environment, and includes a state determination unit that determines whether the environmental sensor is in a first state in which the sensor is fixed at a predetermined installation location or in a second state in which the sensor is away from an installation location, and an operation switch unit that switches an operation of each sensor element that measures the physical quantities based on whether a state determined by the determination unit is the first state or the second state.