A sensor device for measuring a physical quantity. The sensor device includes a sensor element having a semiconductor chip, a first terminal electrically connected to the sensor element, and a housing portion having a terminal, which is a second terminal and is electrically connected to the first terminal. The second terminal has a through-hole formed therein, the through-hole having a first end and a second end opposite to each other, an inner surface of the through hole at the first end being an R-surface that is a curved surface with a radius R. The first terminal is housed in the housing portion, and has one end thereof inserted in the through-hole from the first end of the through-hole.

Disclosed is a pressure transducer including a body made of a material having a first coefficient of thermal expansion, a fluidic inlet and a fluidic cavity enclosed by the body in fluidic communication with the fluidic inlet. The pressure transducer further includes a strain gauge including a resistive element in operable contact with the body. At least a portion of the resistive element made of a material having a second coefficient of thermal expansion that is different from the first coefficient of thermal expansion of the body. Disclosed further is a pressure transducer including a filler body located in a fluidic cavity of the pressure transducer configured to reduce adiabatic thermal effects on a transducer body. Disclosed are systems and methods incorporating the pressure transducers described herein.

Provided is a pressure detection device comprising a pressure detection unit configured to detect pressure transmitted to a pressure detecting surface; a flow passage unit including a flow passage configured to allow fluid to flow along a flow direction from an inflow port to an outflow port, and a pressure transmitting surface configured to transmit pressure of fluid flowing through the flow passage to the pressure detecting surface; and a mounting mechanism by which the flow passage unit is removably mounted on the pressure detection unit. The pressure detecting surface includes a sliding layer having a sliding property for when the pressure detecting surface comes in contact with the pressure transmitting surface.

A sensor for detecting at least one property of a fluid medium in at least one measuring chamber. The sensor includes a sensor element having at least one heatable diaphragm and an electrical measuring bridge. The diaphragm is connected to the electrical measuring bridge. The sensor is furthermore designed to detect an electrical resistance of the measuring bridge. The sensor is designed to detect a pressure of the fluid medium based on the detected electrical resistance of the electrical measuring bridge.

A noise resistance of a pressure sensor is improved while avoiding a hetero metal bonding. A pressure detection device includes a metal case having the diaphragm which is deformed due to a pressure received from a pressure medium, a sensor element which detects a pressure by detecting the deformation of the diaphragm, a lead frame which is electrically connected to the sensor element, and a connection member which holds the lead frame. A first surface of the lead frame, that is, the surface on a side near the metal case in the parallel plate region, and a second surface of the metal case, that is, the upper surface of the base member interpose at least one of the resin of the connection member being an insulator and the insulating adhesive and are disposed to face each other with a predetermined gap therebetween.

A pressure sensor device of the present invention includes a first board including external connection terminals, a second board stacked on an upper surface of the first board and including a first through hole and a second through hole, a pressure sensor element including a diaphragm structure and mounted on an upper surface of the second board such that the first through hole is closed by the diaphragm structure, and a cover that is mounted on the upper surface of the second board to cover the pressure sensor element and in which a first channel for guiding a first fluid to an upper surface of the diaphragm structure is formed. A second channel is formed between the first board and the second board to lead from the second through hole to the first through hole and guide a second fluid to a lower surface of the diaphragm structure.

A device for sensing pressure and temperature in a fluid environment includes a cover defining an interior. A thermistor tube is positioned at least partially within the interior, the thermistor tube extending substantially along a longitudinal axis. A port body is also positioned at least partially within the interior, the port body forming a channel which extends along the longitudinal axis for receiving a fluid from the fluid environment. A diaphragm is affixed within the port body. The diaphragm has a first surface exposed to the fluid within the channel and a second surface sealed from the channel.

To correct for effects of disturbance on a pressure measurement value, a pressure sensor includes a cylindrical housing having a through-hole, a diaphragm having peripheral edge portions fixed to the housing to block the through-hole and a first surface in contact with a fluid to be measured, first strain sensor on a surface on an opposite side of the diaphragm's first surface for detecting deformation of the diaphragm, a dummy diaphragm having peripheral edge portions fixed to the housing and not making contact with the fluid, second strain sensor on a surface of the dummy diaphragm for detecting deformation of the dummy diaphragm, a correction unit for correcting output signal of the first strain sensor to eliminate effects of disturbance based on output signal of the second strain sensor, and a pressure calculation unit for converting the signal corrected by the correction unit into the fluid's pressure.

A pressure sensor is configured to monitor a first resistance value of a first resistor and a second resistance value of a second resistor. The first resistor and the second resistor are configured to be sensing elements of a sensing component of a pressure sensor. The pressure sensor is configured to determine, based on a difference between the first resistance value and the second resistance value satisfying a threshold, that a measurement from the sensing component is unreliable. The pressure sensor is configured to perform, based on determining that the measurement from the sensing component is unreliable, an action associated with the pressure sensor.

An interface pressure sensor includes a fluid pressure sensor disposed in a volume defined by a shear wall. The volume is enclosed, and the fluid pressure sensor is encapsulated by, an infill material. The infill material defines a sensing surface that, when pressed, can impart a force that is detectable by the fluid pressure sensor. The interface pressure sensor can be used for applanation tonometry.