Abstract: In the case of a sensor chip according to the related art, impurities in a flowing medium may be deposited in the area of a sensor area and may permanently soil it, resulting in a negative effect on the measurement response of the membrane.

Abstract: A gas flow determination method and a corresponding gas flow determination device are described.

Abstract: The invention relates to a device having a sensor carrier, which comprises a sheet-metal element and a plastic element and on which a measuring element introduced into the flowing medium is disposed. The use of plastic, which for the most part covers the sheet-metal element, means closer tolerances, which improve the performance of the sensor carrier both in terms of its facing into the flow and experiencing a flow around it, for instance by providing it with an improved aerodynamic leading edge, or the measuring element can be mounted flush to the surface and flush with edges of a sensor cavern, so that no turbulence occurs in the medium in the region of the measuring element or flow under the measuring element. The sensor region of the measuring element is reliably protected by recesses in the longitudinal edges and by a special adhesive bonding process from a gel emerging from the electronic evaluation circuit, so that the measuring characteristic curve behavior is not altered.

Abstract: The present invention relates to a device having a sensor carrier, on which is arranged a sensor element introduced into the flowing medium. According to the related art, the sensor carrier made of metal is mounted on a component of the device. For the installation of the measuring element, the component must be present with the sensor carrier. The sensor carrier (20) of the present invention is produced separately, and the at least one sensor element (33) may be inserted immediately into the sensor carrier (20). For example, the sensor carrier (20) is mounted on a component of the device (1) by adhesive.

Abstract: A measuring device for measuring the mass of a medium flowing in a flow line, in particular the aspirated air mass of an internal combustion engine, including a measuring element bathed by the flowing medium and disposed in a flow conduit of the measuring device provided in the flow line. The flow conduit extends in a primary flow direction between an inlet opening that communicates with the flow line and at least one outlet opening that discharges into the flow line downstream of the inlet opening. The flow conduit branches at a first dividing point, disposed between the inlet opening and the measuring element, into a measuring conduit, in which the measuring element is disposed, and a first bypass conduit, which bypasses the measuring element in the primary flow direction.

Abstract: A measurement device for measuring the mass of a medium flowing along a flow direction, in particular the intake air mass of an internal combustion engine, has a plate-shaped sensor element, which is inserted into a recess of a sensor support. The sensor element includes a membrane that supports a measuring element, which membrane encloses a hollow space embodied in the sensor element on the side remote from the sensor support. The sensor element is secured in the recess by means of a glue between the sensor support and a bottom face of the sensor element oriented toward the sensor support. According to the invention, the glue constitutes a glue seam that extends around the hollow space of the sensor element between the sensor support and the bottom face of the sensor element and is only open on the side remote from the flow direction by means of at least one recess in order to ventilate the hollow space.

Abstract: A method and apparatus are proposed for operating a microacoustic sensor arrangement, for example, to determine the physical characteristics of a measurement medium. Acoustic surface waves with predetermined wave modes are generated and detected by electroacoustic transducers (6) and a measurement for the physical characteristics of the measurement medium is determined from their propagation behavior along a propagation path. In addition, a sagittally polarized surface wave is generated in the area of the surface of the substrate (5; 22) on which the measurement medium is located.

Abstract: A gas sensor for determining physical values of gasses has a capacitor with a dielectric which is bringable into contact with a gas so that a change of a physical property of the gas leads to a corresponding change of a dielectricity constant of the dielectric, and a gas layer arranged on the gas sensor in a region of the dielectric.

Abstract: Known sensor supports have a recess in which a sensor element is glued by means of an adhesive. The device according to the invention has a plate-shaped sensor element that is accommodated in a recess of a sensor support. A sensor region (3) has at least one measurement resistor, which region is exposed to the flowing medium wherein a gap remains between the sensor element and the recess. To protect an evaluation circuit connected to the sensor element against moisture, the provision is made, according to the invention, that at least partial regions of the evaluation circuit and partial regions of the sensor element are covered by a protective coating, wherein the gap has at least one enlargement by means of which the flow of the protective coating can be influenced. The device according to the invention is used for measuring the mass of a flowing medium in the intake air mass of internal combustion engines.

Abstract: A sensor has a thin film element, the thin film element having a temperature-dependent electrical resistance. The thin film element includes a platinum layer, which is doped with zircon or zircon oxide. The thin film element can be arranged on a membrane to create a mass airflow sensor.

Abstract: A device for contactless determination of a rotary angle has a coil body, sensor coils arranged on the coil body so that their inductivity and alternating current resistance values vary in dependence on a relative change of the size of regions of a sleeve-shaped measuring part composed of electrically conductive and/or ferromagnetic material which are associated with the sensor coils, at least one coil being formed as a wire coil which is arranged on a side of the coil body facing the measuring part. The at least one coil has several coil regions extending in a circumferential direction and parallel to an outer surface of the coil body, and in the regions of the coil a winding direction of the at least one coil changes on the catches.

Abstract: A device for measuring the mass of a flowing medium, or flow rate meters, having a measuring element accommodated in a measurement support; upstream of the measuring element, a grid with flow openings is provided. To attain a substantially rotational symmetrical velocity distribution even in the case of a severely impeded oncoming flow, the grid has flow openings, which at least regionally have a different flow cross section. The flow cross sections of the flow openings are adapted to the oncoming flow, in order to bring about a flow with substantially even velocity distribution downstream of the grid. The device is intended for measuring the mass of a flowing medium, in particular for measuring the mass of aspirated air in internal combustion engines.

Abstract: The invention proposes a device for measuring the mass of a flowing medium, in particular the mass of air aspirated by internal combustion engines. The device has a platelike sensor element which is accommodated in a recess of a sensor carrier, and which with a sensor region that has at least one measuring resistor is exposed to the flowing medium in order to measure its mass. The sensor element is accommodated essentially flush in the recess and is retained in the recess by being glued to a bottom face in the recess. The bottom face of the recess of the sensor carrier has a troughlike indentation, which extends at least partially along the circumference of the sensor element outside the sensor region that has the at least one measuring resistor. The device according to the invention is intended to measure the mass of a flowing medium, in particular for measuring the mass of air aspirated by internal combustion engines.

Abstract: A device for measuring the mass of a flowing medium by use of a temperature-dependent measuring resistor bathed by the flowing medium and accommodated in a measuring channel. The device has a flow obstacle, embodied in the form of a trip edge, upstream of the measuring element in the region of an inlet opening of the measuring channel, so as to create a chronologically and spatially stable separation zone in the region of the trip edge, thereby preventing chronologically and spatially unstable separation zones and makes it possible to attain a reduction in measuring signal noise. The invention is contemplated for measuring the mass of a flowing medium, especially for measuring the aspirated air mass in internal combustion engines.

Abstract: In a method for correcting an output signal of an air mass meter, an air mass aspirated by an internal combustion engine is detected, so that first a characteristic of the air mass meter representing a relationship between an output voltage of the air mass meter and a flow air mass is determined, the characteristic in a region which the air mass can flow back is corrected by changing the characteristic in a return flow region relative to the measured characteristic, the change of the characteristic is performed so that the relationship between the output voltage of the air mass meter and the measured air mass is adjusted to minimize error measurements, and the computations of the aspirated air mass is therefore performed with the aid of the corrected characteristic.

Abstract: A substrate for electronic components has a layer of material covering at least a portion of the substrate. Recesses are formed in a layer of material and located in a pattern relative to each other to form a predetermined temperature distribution across the layer of material. The layer of material can be formed as a resistive film for a heating resistor element. The shape, size and pattern of the recesses are selected to balance the thermal stress across the surface of the layer of material.

Abstract: A measuring device for contactless determination of a rotary angle of a shaft has a movable body composed of at least one of an electrically conductive material and a ferro-magnetic material, and sensor coils relative to which the body moves and whose inductivity and alternating current resistance values are varied as a result of a relative change of a size of regions of the body which are associated with the coils. The regions of the body are provided in a number corresponding to a number of the coils and are offset relative to one another in an axial direction. Each of the coils extends over the regions of the body on opposite sides, so that each coil during a rotation of the body by 360.degree. is brought in operative connection with a whole associated surface of the regions.

Abstract: A mass flow sensor detects the intensity of a media flow. The mass flow sensor includes a measurement chip, with a dielectric membrane and a frame of monocrystalline silicon. At least one heater is arranged on the membrane. The measurement chip is installed in the in-flow channel of a housing. By means of the structure of the housing, contamination of the measurement chip is reduced, thermal equalization with the media flow is improved, the resistance of the sensor to sudden pressure variations is increased, and the dielectric contacts are improved.

Abstract: A device for contactless determination of a rotary angle has two bodies which are movable relative to one another, at least one sensor coil through which an alternating current flows and whose inductivity and alternating current resistance value changes due to a relative change of a size of regions of a first one of the bodies which regions are associated with the at least one coil and composed of a material selected from the group consisting of an electrically conductive material and ferromagnetic material, the first body being arranged with mechanical prestress relative to a second one of the bodies.

Abstract: A measuring element for determining the flow rate of the aspirated air of an internal combustion engine comprising a substrate, which is divided by two parallel separating slits of equal length into three prongs on which temperature-dependent resistor tracks are disposed. The measuring element has separating slits of optimized shape. To lessen the notch action and reduce tension peaks at the ends of the slits, one separating slit has a segment with a curved course, and another separating slit has a slit end embodied as an enlargement. The novel measuring element is especially suitable for determining the flow rate of the aspirated air in internal combustion engines.