A wearable universal blast sensor includes an underwater pressure sensing transducer and at least one blast parameter sensing transducer to measure a blast parameter from the blast other than pressure, an analog-to-digital converter having an analog input and a digital output, the analog input coupled to the pressure sensing transducer and a digital output, a rolling memory buffer coupled to the digital output of the analog-to-digital converter, at least one controller coupled to the rolling memory buffer and configured to store a time sequence of digital pressure signals from the digital output of the analog-to-digital converter, write into a blast event memory data from the rolling memory buffer including data corresponding to the blast event if one of the digital pressure signals exceeds a set first threshold, generate a first blast magnitude indicator signal if any of the digital pressure signals exceeds a second set threshold.

The invention relates to a sealing element (1) for a pressure sensor assembly (2) for a motor vehicle for crash detection with a pressure sensor unit (12) inside an assembly housing, wherein the pressure sensor unit (12) comprises a sensing element arranged inside a pressure sensor housing (11) for detecting an air pressure, and wherein the pressure sensor housing (11) has a pressure supply opening (13) for supplying the air pressure from a pressure inlet of the assembly housing to the sensing element. The sealing element (1) can be arranged between the pressure sensor housing (11) and an assembly housing wall, in order to seal the pressure supply opening (13) in relation to the inside of the assembly house, in such a way that the sealing element (1) encloses the pressure supply opening (13) and fluidically connects the pressure inlet with the pressure supply opening (13), wherein the sealing element (1) has a through-recess (3) running in an axial direction and a main body (4) having an outer wall (5) and an inner wall (6) surrounding the through-recess (3), as well as having a lower axial end (7) and an upper axial end (8), wherein the inner wall (6) of the main body (4) has a first wall section (9) widening towards the lower axial end (7), wherein the lower axial end (7) of the main body (4) faces the pressure sensor housing (11) in the assembled state, and wherein the first wall section (9) forms a contact surface (10) for contact with the pressure sensor housing (11), on which at least sections of the pressure sensor housing (11) rest in the assembled state. The invention also relates to a pressure sensor assembly (2) comprising a sealing element (1) of this type.

Improvements in thin film sensors are disclosed. These can be used for aircraft applications. Dielectric isolation washers can be provided between a pressure sensor and an exterior metal housing of a sensor assembly. In this manner, high voltage inputs from a lightning strike or other source that reach the sensor housing are not transmitted to the sensor. Dielectric washers, insulators, and potting compounds can thus isolate a metal thin film pressure sensor from adjacent metal components (e.g., using non-conducting insulating materials like Torlon, zirconia and nylon). Besides their high dielectric strength, these materials exhibit compressive strength and resistance to wear, creep and corrosion. Desirable thicknesses for these components are provided. The described thin film pressure sensor embodiments can attain a dielectric rating of 1500 VAC.

A method for manufacturing a pressure detecting unit for a measuring device for measuring a pressure status value of a plant specimen. The method includes mounting a sensor unit for detecting the pressure status value at a carrier substrate, fastening a frame to the carrier substrate, the frame including a fastening surface, a contact surface oriented opposite the fastening surface and an inner surface defining an opening and extending between the fastening surface and the contact surface, the frame being situated at the carrier substrate in such a way that the fastening surface faces the carrier substrate and the inner surface surrounds the sensor unit, and filling the opening of the frame with a filling material for forming an elastic pressure coupling layer. A pressure detecting unit for a measuring device for measuring a pressure status value of a plant specimen is also described.

In the following, a sensor assembly is described. According to an exemplary embodiment, the sensor assembly has a housing enclosing a pressure chamber filled with a medium, the housing having a first housing part and a second housing part, the first housing part being connected to the second housing part to seal the pressure chamber in a pressure-tight manner A sensor chip is arranged in the pressure chamber, substantially surrounded by the medium, and configured to measure a pressure of the medium. The sensor assembly also includes a plurality of connection pins which are fed through the first housing part (carrier) by pressure-tight bushings and which are electrically connected to the sensor chip. The sensor assembly also has stress relieving structures which are configured to mechanically decouple the first housing part and a pressure-sensitive element of the sensor chip.

A method for producing a differential pressure sensor includes: a) Providing a sensor assembly; b) Providing a main body with a substantially rotationally symmetrical cavity for receiving the sensor assembly; c) Introducing the sensor assembly into the cavity of the main body; d) Welding the sensor assembly into the cavity of the main body by means of a resistance pulse welding method; e) Introducing, for example, by pressing in, a welding ring between the sensor assembly and the cavity of the main body in an opening region of the cavity; and f) Axial laser welding in the opening region of the cavity such that the main body is welded circumferentially to the sensor assembly by means of the welding ring.

A strain gauge nozzle adapter that may be placed between a barrel end cap and a nozzle body of an injection molding system, the strain gauge nozzle adapter having a strain gauge pin that measures strain within the strain gauge nozzle adapter for use in approximating conditions within an injection molding system, such as pressure or the location of a melt flow front. The strain gauge nozzle adapter may include a plurality of strain gauge pins. An alternative material insert in the strain gauge nozzle adapter may surround a strain gauge pin to amplify meaningful measurements obtained by the strain gauge pin so that noise measurements do not compromise the accuracy of approximation of conditions within a mold.

A pressure sensor includes a diaphragm having a first principal surface and a second principal surface, a semiconductor chip in which resistors constituting a strain gauge are formed, a first structural body having one end coupled to a center of a second principal surface of the diaphragm and the other end coupled to the other surface of the semiconductor chip, and at least two second structural bodies disposed in two straight lines, orthogonal to each other, that pass through the center of the diaphragm in plan view so as to be disposed separately from the first structural body, and having one ends coupled to the second principal surface and the other ends coupled to the other surface of the semiconductor chip, in which the resistors are formed in regions between the first structural body and the second structural bodies in plan view in the semiconductor chip.

To suppress variations in the shift amount of the zero point of a sensor output when a pipe is connected to a pressure sensor via a clamp. A pressure sensor includes two semiconductor chips in two straight lines, orthogonal to each other, that pass through a center of a diaphragm in plan view, two resistors in the region between two supporting members supporting one semiconductor chip, and two other resistors in the region between two other supporting members supporting the other semiconductor chip.

Methods, systems, and apparatuses are provided for detecting and determining conditions of and conditions within a fluid conduit.