A device for measuring and/or monitoring tire-related variables of a vehicle, having a sensor unit for transmitting, receiving and processing signals, wherein a transmission signal is emitted by an antenna unit of the sensor unit in the direction of an object being measured and wherein a reflection signal reflected by the object being measured is received and analysed, the sensor unit having a transceiver device, via by means of which a reflection factor, formed as the quotient from the reflection signal reflected by the object being measured and the transmission signal, is measured and via which a resonance frequency and/or a phase difference between the transmission signal and the reflection signal is determined, wherein the transceiver unit comprises a vector network analyser and an analysis unit, so that a distance to the object being measured is established by detecting the phase difference between the transmission signal and the reflection signal.

A method for multidimensional, tomographic material and/or condition testing on a test specimen is invented, wherein a sensor with electronics for sending, recording and processing measurement data is arranged in each case on the test specimen or in a region of the test specimen at a plurality of predeterminable positions, wherein at least one sensor or the electronics of at least one sensor is used for carrying out a plurality of different physical measurement methods on the test specimen and for generating, triggering and/or transmitting pulses and/or signals required for carrying out at least one of the measurement methods. Furthermore, a device for multidimensional, tomographic material and/or condition testing on a specimen to assess, in particular for carrying out the above method, is invented, wherein the device comprises a plurality of sensors each having electronics, wherein a sensor with electronics for recording and processing measurement data can be arranged on the test specimen or in a region of the test specimen at a plurality of predeterminable positions in each case, at least one sensor or the electronics of at least one sensor being designed for carrying out a plurality of different physical measurement methods on the test specimen and for generating, triggering and/or emitting pulses and/or signals required for carrying out at least one of the measurement methods. Finally, a corresponding sensor for one such device is disclosed.

A method for multidimensional, tomographic material and/or condition testing on a test specimen is invented, wherein a sensor with electronics for sending, recording and processing measurement data is arranged in each case on the test specimen or in a region of the test specimen at a plurality of predeterminable positions, wherein at least one sensor or the electronics of at least one sensor is used for carrying out a plurality of different physical measurement methods on the test specimen and for generating, triggering and/or transmitting pulses and/or signals required for carrying out at least one of the measurement methods. Furthermore, a device for multidimensional, tomographic material and/or condition testing on a specimen to assess, in particular for carrying out the above method, is invented, wherein the device comprises a plurality of sensors each having electronics, wherein a sensor with electronics for recording and processing measurement data can be arranged on the test specimen or in a region of the test specimen at a plurality of predeterminable positions in each case, at least one sensor or the electronics of at least one sensor being designed for carrying out a plurality of different physical measurement methods on the test specimen and for generating, triggering and/or emitting pulses and/or signals required for carrying out at least one of the measurement methods. Finally, a corresponding sensor for one such device is disclosed.

A microwave separated field reconstructed device includes: a microwave field reconstructed cavity, a first short circuit plane, a third waveguide flange and coupling windows, wherein connection ports are provided on four ends of the microwave field reconstructed cavity; the microwave field reconstructed cavity is provided with a first waveguide flange, and a second waveguide flange is provided one end of the microwave field reconstructed cavity perpendicular to the first waveguide flange; the first short circuit plane is connected to one end of the first waveguide flange away from the microwave field reconstructed cavity; a second short circuit plane is connected to one end of the second waveguide flange away from the microwave field reconstructed cavity. The input ports are distributed at two ends of the microwave field reconstructed cavity to introduce electric and magnetic fields.

A system and method for classifying body activities through an on-body antenna measuring changes in reflected power and the resulting reflection coefficients, in contrast to two antenna systems that measure transmission power therebetween. A single on-body antenna can be attached or held in close proximity to the body. The antenna can be calibrated based on changes in the reflection coefficients for various calibration activities for the location at which the antenna is placed on the body. Magnitude changes and patterns of the reflection coefficients at a given frequency for a given activity can be compared with calibrated data to correlate a given activity. Further accuracy can be gained by comparing both magnitude and phase changes and patterns at a given frequency with calibrated data for a given activity. The antenna can use power losses from a transmitted signal to measure the changes in the reflected power to minimize power requirements.

A system and method for classifying body activities through an on-body antenna measuring changes in reflected power and the resulting reflection coefficients, in contrast to two antenna systems that measure transmission power therebetween. A single on-body antenna can be attached or held in close proximity to the body. The antenna can be calibrated based on changes in the reflection coefficients for various calibration activities for the location at which the antenna is placed on the body. Magnitude changes and patterns of the reflection coefficients at a given frequency for a given activity can be compared with calibrated data to correlate a given activity. Further accuracy can be gained by comparing both magnitude and phase changes and patterns at a given frequency with calibrated data for a given activity. The antenna can use power losses from a transmitted signal to measure the changes in the reflected power to minimize power requirements.

Systems and methods for spinwave-based metrology in accordance with embodiments of the disclosure involve generating and detecting spinwaves in a sample having a ferromagnetic material; and determining a material thickness, a material integrity measure, a presence of a manufacturing defect, a categorical type of manufacturing defect, and/or a manufacturing process statistic corresponding to spinwave behavior in the sample. In an embodiment, spinwaves are generated by way of concurrent exposure of a target measurement site of the sample to each of a bias magnetic field and radiation (e.g., microwave or radio frequency radiation) produced by a first set of integrated waveguides. A response signal corresponding to a behavior of spinwaves within the target measurement site can be generated by way of a second set of integrated waveguides. Various embodiments of systems and methods for generating spinwaves, detecting spinwaves, and calculating, analyzing, or monitoring one or more sample properties can be automated.

Systems and methods for spinwave-based metrology in accordance with embodiments of the disclosure involve generating and detecting spinwaves in a sample having a ferromagnetic material; and determining a material thickness, a material integrity measure, a presence of a manufacturing defect, a categorical type of manufacturing defect, and/or a manufacturing process statistic corresponding to spinwave behavior in the sample. In an embodiment, spinwaves are generated by way of concurrent exposure of a target measurement site of the sample to each of a bias magnetic field and radiation (e.g., microwave or radio frequency radiation) produced by a first set of integrated waveguides. A response signal corresponding to a behavior of spinwaves within the target measurement site can be generated by way of a second set of integrated waveguides. Various embodiments of systems and methods for generating spinwaves, detecting spinwaves, and calculating, analyzing, or monitoring one or more sample properties can be automated.

A test device for testing an electrical property of a chamber component, such as a ceramic ring, includes an outer conductor and an inner conductor disposed within and electrically isolated from the outer conductor. The outer conductor has a base, a top, and an interior sidewall disposed between the base and the top. The inner conductor has a top portion having a first diameter and a bottom portion having a second diameter, in which the second diameter is greater than the first diameter. A sample area is defined between the base of the outer conductor and the bottom portion of the inner conductor, and is configured to receive a chamber component. The electrical property of the chamber component is measurable based on application of a signal to at least one of the outer conductor or the inner conductor.

A test device for testing an electrical property of a chamber component, such as a ceramic ring, includes an outer conductor and an inner conductor disposed within and electrically isolated from the outer conductor. The outer conductor has a base, a top, and an interior sidewall disposed between the base and the top. The inner conductor has a top portion having a first diameter and a bottom portion having a second diameter, in which the second diameter is greater than the first diameter. A sample area is defined between the base of the outer conductor and the bottom portion of the inner conductor, and is configured to receive a chamber component. The electrical property of the chamber component is measurable based on application of a signal to at least one of the outer conductor or the inner conductor.