The device comprises a case body comprising a base body provided with a chamber for measuring the fluid and an electrical connector body, assembled to delimit together a housing internal to the case body, a detection element, an intermediate part for positioning the detection element including a transverse space for receiving the detection element and an environment gasket for sealing the internal housing with respect to the external environment. The part and the connector are shaped to cooperate by nesting in order to ensure a relative positioning of the part relative to the connector body and in a nested position, the part and the connector delimit together an external peripheral groove configured to receive the environment gasket.

A pressure sensor for a vehicle includes a housing, in which at least one sensor unit is arranged. The at least one sensor unit determines a pressure difference between a pressure at a measurement connection point and atmospheric pressure. The at least one sensor unit senses the atmospheric pressure at at least two reference pressure bores. The disclosure further relates to a braking system for a vehicle, having at least one such pressure sensor. A sensor dewatering means comprises a connection channel, which connects the at least two reference pressure bores to each other.

A temperature-pressure integrated sensor, includes the following sequentially connected components: an electrical connecting member, a pressure sensor element, and a basal body assembly. A flexible modulation circuit board is provided between the pressure sensor element and the electrical connecting member. The pressure sensor element is directly connected to the flexible modulation circuit board. The flexible modulation circuit board is connected to a conductive extension portion. The conductive extension portion extends from a top end of the pressure sensor element to a bottom end surface of the basal body assembly. A bottom end of the conductive extension portion is provided with a temperature sensor element. The flexible modulation circuit board is coupled to the pressure sensor element and the temperature sensor element, such that the flexible modulation circuit processes and converts both a pressure signal and a temperature signal, and a temperature-pressure integrated sensor is acquired.

A pressure sensor includes a housing, a pressure chamber defined within the housing, and a pressure transducer. The pressure sensor also includes a header that seals the pressure chamber and supports the pressure transducer in the pressure chamber. A plurality of pins extend through respective openings in the header. The sensor pins have first ends electrically connected to the pressure transducer in the pressure chamber and second ends electrically connected to sensor electronics outside the pressure chamber. The pins are electrically insulated from the header. The header is configured so that the electrical insulation of at least one pin from the header is less than the electrical insulation of the remaining pins from the header.

A piezoelectric transducer includes a transducer unit disposed within a watertight and gas-tight housing and having at least one piezoelectric element contacted by at least two electrodes. A signal lead-through is electrically connected to the electrodes and configured conducting polarization charges as signals from the piezoelectric element through the housing to an environment outside of the housing. A signal cable arranged outside of the housing includes at least two signal conductors. The signal lead-through includes a support element having at least two conducting paths in electrical contact with one of the signal conductors.

A protective housing for protecting an electronic device includes a plurality of walls defining a casing, a plurality of partitions, and at least one flow groove. One of the walls of the housing, referred to as the main wall, has an opening covered with a membrane for exposing a part of a measuring device to atmospheric pressure. The plurality of partitions are arranged on the outer surface of the main wall and separated from each other by passages. The plurality of partitions are arranged around the opening to completely surround the opening and protect the membrane. The at least one flow groove is arranged next to the opening, in order to allow liquid that may accumulate around the opening and/or against the partitions to be discharged. The present disclosure also concerns a pressure sensor, in particular, for a tank of a motor vehicle, using such a protective housing.

A pressure and temperature measuring device with improved fluid flow control having a metal bulb that houses a temperature-sensitive element and a base with an orifice for the passage of fluid and tabs that project from the base, extending outside a plastic body, and an axial seal positioned between the conduit and the orifice; with the base of the metal bulb facing the plastic body, with the conduit and the orifice aligned to allow the passage of fluid, with the axial seal compressed axially.

A pressure sensor assembly, which includes a support substrate, circuitry mounted to the support substrate, at least one conductor mounted to the support substrate and in electrical communication with the circuitry, and at least one vertically conductive path connected to and in electrical communication with the at least one conductor. The pressure sensor assembly also includes a diaphragm, at least one sealing glass section connected to the diaphragm and the support substrate, and at least one lateral conductive feed-through mounted to the diaphragm. At least one conductive joint is connected to the vertically conductive path and the lateral conductive feed-through, and the conductive joint provides electrical communication between the vertically conductive path and the lateral conductive feed-through.

A sensor apparatus having a crimped housing and a method of assembling a sensor apparatus having a crimped housing are disclosed. The sensor apparatus comprises a sensor port, a tubular thin-walled housing coupled to the sensor port and comprising a crimping portion, a base portion, and a step feature that is formed in the housing, the step feature partitioning the crimping portion from the base portion, sensor components disposed within the interior of the base portion of the housing, and an electrical connector coupled the housing and comprising leads electrically coupled to the sensor components and a connector flange, wherein a rim of the crimping portion of the housing is crimped onto the connector flange such that the electrical connector is retained in the housing. Dimples, created by protrusions on the crimp dye, on both housing rim and connector flange assure the housing rim hold the connector in rotation direction.

A pressure sensor comprises a housing, a flexible membrane which, together with the housing, forms a hermetically closed cavity, a sensor element arranged in the cavity, and a gaseous medium in the cavity.