A sensing unit with an enclosure senses an environmental parameter that includes an environmental sensor to sense the environmental parameter. A processor enclosed within the enclosure receives a sensor signal from the environmental sensor related to the environmental parameter. A wireless communication circuit enclosed within the enclosure receives data from the processor for being transmitted wirelessly related to the environmental parameter. The wireless communication circuit is configured to wirelessly transmit the received data from the processor. The processor and the wireless communication circuit, including the wireless communication circuit wirelessly transmitting the received data, only receives power from a 4-20 ma input signal to the sensing unit from a remote controller.

A sensor includes a port body which defines an axial passage for receiving fluid. An electrical connector extends through an opening in the port body near a crimp portion opposite the axial passage and forms an upper seal with the port body. Within the interior of the port body, a support ring and base cover form a cavity which retains a sensing element. The sensing element is exposed to the fluid within the axial passage and determines the pressure. An annular seal is retained by the base cover. The crimp portion of the port body is crimped to provide an upper seal and apply a force on the components within the interior, pinching the annular seal between the sensing element and the base of the port body to create a lower seal.

A flow-through pressure transducer comprising a cylindrical diaphragm positionable to allow fluid to flow therethrough which responds to variations in fluid pressure to generate an electrical signal proportional to such variations and which is incorporated in a housing for interconnecting with fluid delivery tubing. The diaphragm is made of relatively thin resilient metal, shaped to be a tube, elliptical in cross-section, with transducers, located on the elliptical major and minor axes which change their electrical state in response to movement of the diaphragm walls, and which are coupled in a bridge circuit for signal measurement. The housing is constructed for either gage or absolute fluid pressure measurements.

A pressure sensor device includes a semiconductor die of the pressure sensor device and a bond wire of the pressure sensor device. A maximal vertical distance between a part of the bond wire and the semiconductor die is larger than a minimal vertical distance between the semiconductor die and a surface of a gel covering the semiconductor die.

A probe for measuring static or parietal pressure includes a pressure sensor module, a mounting plate equipped with air inlets which is intended to be mounted on the skin of an aircraft, and a shut-off means equipped with shut-off fingers which are configured to plug the air inlets of the mounting plate, and an actuator, controlled by a control module, configured to move the shut-off means in a translational movement so as to plug or unplug the air inlets of the mounting plate by the shut-off fingers.

A pressure sensor assembly having a remotely parameterisable, electrical threshold device is provided. A transmission unit is connected at least to a sensor element and a data bus line leading to an external connection. A monitoring unit contains the threshold device and is connected to the sensor element and an actuator for generating an output signal. A closed housing has at least the transmission unit and the overload protection unit arranged therein. The transmission unit is connected to the monitoring unit via at least one internal data bus line, which is interrupted at an electrically switchable bridge switch element. At least one parameterisation module connected to the threshold device is provided in the monitoring unit for adjusting a lower and/or an upper pressure threshold value. The parameterisation module can be connected to the transmission unit via the internal data bus line by closing the bridge switch element.

Instead of insert molding a mold member with a resin case to integrate it, a filler is filled into a first opening formed in the resin case while the mold member is disposed therein, whereby integration is performed. This makes it possible to suppress peeling between the mold member and the resin case due to a thermal cycle, and also makes it possible to suppress leakage of a measurement medium to the outside through a gap between the mold member and the resin case.

A sensor includes a port body which defines an axial passage for receiving fluid. An electrical connector extends through an opening in the port body near a crimp portion opposite the axial passage and forms an upper seal with the port body. Within the interior of the port body, a support ring and base cover form a cavity which retains a sensing element. The sensing element is exposed to the fluid within the axial passage and determines the pressure. An annular seal is retained by the base cover. The crimp portion of the port body is crimped to provide an upper seal and apply a force on the components within the interior, pinching the annular seal between the sensing element and the base of the port body to create a lower seal.

A device for detecting at least one property of a fluid medium, and a method for its production. The method includes a) providing at least one housing, the housing having at least one electrical contact; introducing at least one sensor element for detecting the property into the housing; c) providing at least one pressure-pipe tube, the pressure-pipe tube including at least one contacting element; d) bringing the contacting element into contact with the sensor element in such a way that an electrical connection is established between the contacting element and the sensor element; and e) introducing at least one circuit substrate into the housing in such a way that the circuit substrate is electrically connected to the electrical contact of the housing and to the sensor element, the housing and the pressure-pipe tube being produced as separate components.

A piezoelectric pressure sensor includes a sensor housing that accommodates a membrane, a piezoelectric sensor, a charge pick-off and a pre-stressing assembly. The membrane captures a pressure profile, and polarization charges are generated accordingly on the piezoelectric sensor by the captured pressure profile. The pre-stressing assembly includes a pre-stressing body and a pre-stressing sleeve and mechanically pre-stresses the piezoelectric sensor. The charge pick-off receives the polarization charges and is electrically insulated from the pre-stressing sleeve by a second gap. The charge pick-off is mechanically connected to the pre-stressing body via a first electric insulation body on a side of the pre-stressing body that faces away from the membrane and seals the second gap in a pressure-tight manner from an environment of the second gap.