Abstract: Described is an integrated vertical structure for infrared sensors, Peltier cooling, and thermoelectric generator applications consisting of a thermally insulating layer which is kept at a distance to a substrate by at least two spacers. In addition, the spacers have conductor structures which serve as thermoelectric elements. A method realizes manufacturing the integrated thermoelectric structure, a method realizes the operation of the integrated thermoelectric structure as a detector, a further method realizes the operation of the integrated thermoelectric structure as a thermoelectric generator, and a method realizes the operation of the integrated thermoelectric structure as a thermoelectric Peltier element.

Abstract: A radiation detector includes a substrate and a membrane suspended above the substrate by spacers, wherein the spacers electrically contact a radiation sensor formed in the membrane and thermally insulate the membrane from the substrate.

Abstract: A radiation detector with a substrate and a membrane, which is suspended above the substrate by a spacer is described, wherein the spacer thermally insulates a radiation sensor, which is formed in the membrane, from the substrate. Further, the spacer includes a first layer, which is electrically conducting and contacts a first pole of the radiation sensor and of the substrate, and a second layer, which is electrically conducting and electrically insulated from the first electrically conductive layer and contacts a second pole of the radiation sensor and of the substrate, wherein the second pole differs in polarity from the first pole.

Abstract: Described is an integrated vertical structure for infrared sensors, Peltier cooling, and thermoelectric generator applications consisting of a thermally insulating layer which is kept at a distance to a substrate by at least two spacers. In addition, the spacers have conductor structures which serve as thermoelectric elements. A method realizes manufacturing the integrated thermoelectric structure, a method realizes the operation of the integrated thermoelectric structure as a detector, a further method realizes the operation of the integrated thermoelectric structure as a thermoelectric generator, and a method realizes the operation of the integrated thermoelectric structure as a thermoelectric Peltier element.

Abstract: A radiation detector includes a substrate and a membrane suspended above the substrate by spacers, wherein the spacers electrically contact a radiation sensor formed in the membrane and thermally insulate the membrane from the substrate.

Abstract: A radiation detector with a substrate and a membrane, which is suspended above the substrate by a spacer is described, wherein the spacer thermally insulates a radiation sensor, which is formed in the membrane, from the substrate. Further, the spacer includes a first layer, which is electrically conducting and contacts a first pole of the radiation sensor and of the substrate, and a second layer, which is electrically conducting and electrically insulated from the first electrically conductive layer and contacts a second pole of the radiation sensor and of the substrate, wherein the second pole differs in polarity from the first pole.

Abstract: A sensor includes a substrate, a membrane, first and second spacers arranged on the substrate, a first support structure which is supported, laterally next to the membrane, by the first spacer and contacts a first electrode of a first main side of the membrane which faces the substrate, and a second support structure which is supported, laterally next to the membrane, by the second spacer and contacts a second electrode on a second main side of the membrane which is opposite the first main side, so that the membrane is suspended via the first and second spacers and is electrically connected to contact areas of the substrate.

Abstract: A measurer for measuring a flow rate of a medium which may be multi-component or heterogeneous, independently of the medium, a signal-generating unit generating a transmit signal on the basis of a reference signal of a signal generator and transmitting same by means of a stimulator via the flowing medium. This signal is received by a sensor and passed on to an evaluating unit which is implemented to determine a signal transfer time based on a plurality of mutually corresponding locations of a waveform of the receive signal and the waveform corresponding to the reference signal and the flow rate of the medium based on the signal transfer time and the certain distance between the stimulator and the sensor.

Abstract: A detector arrangement and/or a semiconductor-based image sensor with a plurality of detector elements or image pixels is described, which each have an integrated SD-(Sigma Delta) Modulator (20 to 29) or an integrated SD-A/D-(Sigma Delta Analog/Digital) converter (20 to 30), as well as particularly such a detector arrangement and/or such an image sensor on the basis of a CMOS-semiconductor. Particularly on the basis of the differential version and/or the multi-phase structure of the SD modulator and the SD-A/D converter, a detector arrangement and/or an image sensor with specially high noise robustness, a high dynamic range and a lesser noise can be produced, so that this is particularly suitable for usage in Computer Tomography (CT) apparatus.

Abstract: In accord therewith, at least one identification number (PIID) for identifying a private network (PISN) for access to a first private branch exchange (PBX1) to a subscriber (BS) who was registered and a mobile subscriber telephone number (MSISDN) that was sent into the public mobile radio telephone network (PLMN), is stored in the public mobile radio telephone network (PLMN). A routing number (PRIN) is offered in the mobile radio telephone network on the basis of the incoming mobile subscriber telephone number (MSISDN) and is checked with reference to the stored identification number (PIID) as to whether the call destination lies in the area of a private branch exchange (PBX2) of the same private network (PISN) to which the first private branch exchange (PBX1) belongs.