An outlet of a sub passage that returns measured gas, which has passed through a flow sensor, from the sub passage to a main passage opens on an outer wall of a housing toward a downstream side in a reference direction. The outer wall of the housing includes a protrusion on the downstream side of the outlet. When the outlet and the protrusion are projected onto a projection plane perpendicular to the reference direction, the outlet and the protrusion partly overlap with each other on the projection plane. A relationship of 1<2<90 is satisfied, where: 1 is assumed to be an angle formed between a direction from an upstream end to a top, and the reference direction; and 2 is assumed to be an angle formed between a direction from a downstream end to the top, and the reference direction.

Evaluation arrangement for a thermal gas sensor with at least one heater and at least one detector. The evaluation arrangement is configured to obtain information about an amplitude of a detector signal of a first detector, and information about a first phase difference between a heater signal and the detector signal of the first detector. In addition, the evaluation arrangement is configured to form as an intermediate quantity, dependent on the information about the amplitudes of the detector signal and dependent on the information about the first phase difference, a combination signal, and to determine information about a gas concentration or information about a thermal diffusivity of a fluid on the basis of the combination signal.

Introduced here are low-cost, disposable inhaler devices that detect proper usage. More specifically, an inhaler device can include one or more electrodes that are disposed along a mouthpiece. Some embodiments of the inhaler device include a single electrode or multiple electrodes arranged along a single side of the mouthpiece, while other embodiments of the inhaler device include multiple electrodes arranged along at least two sides of the mouthpiece. When an individual places her lips on the mouthpiece, the electrode(s) can detect that the inhaler device is properly positioned against the lips. The inhaler device may only allow medication to be administered upon receiving an indication that a contact event has been recorded by some or all of the electrode(s).

A high-resolution thermopile infrared sensor array having monolithically integrated signal processing and a plurality of parallel signal processing channels for the signals from pixels of a sensor array, and a digital port for the serial output of the pixel signals are provided, wherein the sensor array is located on one or more sensor chips. The thermal piled infrared sensor array possesses low power loss, high integration density and high thermal and geometric resolution. Each signal processing channel (K.sub.1 . . . K.sub.N) has at least one analogue/digital converter (ADC), and is assigned a memory region in a memory (RAM) for storing the signals from the pixels (SE).

A device for measuring the speed or flow of a gas at a temperature different from an ambient temperature is provided, which includes: a first platform suspended by first arms above a support designed to be kept at an ambient temperature, the first arms comprising thermoelectric strips designed to supply a first voltage based on the difference between the temperatures of the first platform and the support; and a processing unit designed to supply the speed or flow measurement on the basis of the first voltage, the gas temperature and the ambient temperature.

A flow sensor rake assembly for taking flow field measurements in flow machine, such as a compressor or turbine of gas turbine engine. Axial flow machine has rotor arranged to rotate about an axis to interact with fluid flow through the rotor in use, and static annular wall surrounding axis. Annular wall is mounted axially upstream or downstream of rotor to be washed by fluid flow in use. Flow sensor rake has elongate stem having first and second ends and plurality of probes depending therefrom at spaced locations along stem. Elongate stem is mounted to annular wall at first end and depending away from annular wall to the second end. Elongate stem is obliquely angled relative to annular wall when viewed in axial direction and second end of elongate stem is offset in circumferential direction relative to first end. Stem is slanted relative to radial direction with respect to axis.

A high-resolution thermopile infrared sensor array having monolithically integrated signal processing and a plurality of parallel signal processing channels for the signals from pixels of a sensor array, and a digital port for the serial output of the pixel signals are provided, wherein the sensor array is located on one or more sensor chips. The thermal piled infrared sensor array possesses low power loss, high integration density and high thermal and geometric resolution. Each signal processing channel (K.sub.1 . . . K.sub.N) has at least one analogue/digital converter (ADC), and is assigned a memory region in a memory (RAM) for storing the signals from the pixels (SE).

A gas analyzer for a gas mixture with at least three components includes a channel guiding the gas mixture, a thermoelement probe with a measuring point in the interior of the channel and a cold junction in thermal contact with the channel wall, a control device for pulsed activation of the thermoelement probe, a measuring device for measuring voltage at the cold junction in pauses between current pulses, and an evaluation device for determining temperature differences and calculating the ratio of the components of the gas mixture from temperature difference values determined at different time instant pauses, wherein the control device generates current pulses with at least two different energy contents and the temperature difference values at the first time instant in the pause after a current pulse with a higher energy content and used for the calculation is higher than with a current pulse with a lower energy content.

We disclose herein a CMOS-based sensing device comprising a substrate comprising an etched portion, a first region located on the substrate, wherein the first region comprises a membrane region formed over an area of the etched portion of the substrate, a flow sensor formed within the membrane region and a pressure sensor formed within the membrane region.

An airflow sensor for a heat sink has a substantially flat base portion and a deformable upper portion electrically coupled to the base portion that contacts a conductive strip. As airflow increases, the deformable upper portion deforms and moves away from the source of airflow, which moves the point of contact between the deformable upper portion and the conductive strip farther away from the source of the airflow. The difference in the point of contact is measured, and is used to characterize the airflow sensor for different airflows. Data from the airflow sensor can then be logged during system operation. When needed, the data from the airflow sensor can be read from the log and converted to airflow using the airflow sensor characterization data. In this manner the airflow through a heat sink may be dynamically measured, allowing analysis and correlation between system events and airflow through the heat sink.