A pressure measuring device for a tyre includes an electronic circuit distributed over a first face and a second face of an electronic board and comprising a pressure sensor mounted on the first face of said electronic board; an antenna connected to the electronic circuit; a first housing part covering the first face such that together they delimit a first volume, and comprising channels fluidically connecting the first volume to the outside; a second housing part covering the second face such that together they delimit a second volume, and having a base for resting against an inner surface of a tread of the tyre, the second housing part being arranged such that the antenna projects laterally with respect to said second housing part and the housing has a centre of gravity located in the second volume spaced apart from the electronic board.

A pressure sensor and method of manufacturing the like are provided for determining a pressure of a fluid. An example pressure sensor includes a pressure sensor housing sealably attached to a diaphragm at a first end. The header includes a lip configured to engageably fit with the second end of the pressure sensor housing to create a hermetically sealed component compartment. The header also includes header pin(s) configured to transmit electrical signals between an interior and an exterior of the hermetically sealed component compartment. A sensing element and a processor are disposed within the hermetically sealed component compartment and in communication with one another. The sensing element is mounted to the processor within the hermetically sealed compartment. The corresponding method of manufacture is also provided.

A sensor module includes a container. The container has a closed wall extending between a first end of the container and a second end of the container. An exterior of the closed wall at least partly defines a seal-receiving channel. The seal-receiving channel extends around a circumference of the closed wall. The sensor module also includes a pedestal positioned between the first end and the second end and at least partly defining a first compartment and a second compartment surrounded by the closed wall. The sensor module further includes a sensor die positioned within the first compartment and mounted on the pedestal.

A pressure sensor and method of manufacturing the like are provided for determining a pressure of a fluid. An example pressure sensor includes a pressure sensor housing sealably attached to a diaphragm at a first end. The header includes a lip configured to engageably fit with the second end of the pressure sensor housing to create a hermetically sealed component compartment. The header also includes header pin(s) configured to transmit electrical signals between an interior and an exterior of the hermetically sealed component compartment. A sensing element and a processor are disposed within the hermetically sealed component compartment and in communication with one another. The sensing element is mounted to the processor within the hermetically sealed compartment. The corresponding method of manufacture is also provided.

Provided is a pressure sensor that is compact, ensures insulation, and is highly reliable. A pressure sensor (1) comprises: a sensor body (2); a pressure sensor element (21) provided on one surface side of the sensor body (2); a through hole (24) which is formed from the one surface side of the sensor body (2) toward another surface side of the sensor body, and through which a lead wire (3) electrically connected to the pressure sensor element (21) is passed; and an insulation layer (24a) formed in the inner wall of the through hole (24). Passed through the through hole (24) is a conducting body core part (32), which is a part of the lead wire (3) from which an insulation coating has been removed.

Example methods, apparatuses and systems for a combined temperature and pressure sensing device are provided. An example apparatus includes a media isolation chamber assembly having a sleeve member and a bellows member, a first circuit board element disposed in the bellows member and encapsulated by insulator media in the bellows member, a pressure sensing element disposed in the bellows member and electrically coupled to the first circuit board element; and a temperature sensing element disposed in the sleeve member and electrically coupled to the first circuit board element.

Various embodiments of a pressure sensor assembly and an implantable medical device that includes such assembly are disclosed. The assembly includes a substrate having a via that extends through the substrate along a via axis between a first major surface and a second major surface of the substrate, a membrane disposed on the first major surface of the substrate and over the via, and a patterned metal layer disposed on a first major surface of the membrane, a portion of such layer including a first capacitor plate. The assembly further includes an integrated circuit disposed adjacent to the first major surface of the membrane and electrically connected to the metal layer. The integrated circuit includes a second capacitor plate disposed on or within a substrate of the integrated circuit. The first capacitor plate and the second capacitor plate form a variable capacitor disposed along the via axis.

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 pressure sensor module including a housing, a pressure sensor chip, and one or more of an integrated passive device (IDP) chip and discrete passive devices are disclosed. The pressure sensor chip and one or more of the IPD chip and the discrete passive devices are arranged within the housing.

A pressure sensor system including at least one pressure sensor unit, the pressure sensor unit being configured with at least one sensor element which is situated in a cavity of a support structure, signal processing elements being integrated into support structure, the at least one sensor element being embeddable into the support structure to form the pressure sensor unit, and the support structure being formed by a land grid array/mold premold structure (LGA/MPM). The pressure sensor unit is introduced into a sensor housing to be provided with a diaphragm and is supported therein, a residual volume of the sensor housing, which is provided with at least one diaphragm and to the wiring of which the pressure sensor unit is electrically connected, being filled with an incompressible fluid. Also described is a method for manufacturing such a pressure sensor system and a measuring device.