The radiated noise of a semiconductor device is conveniently evaluated, and the radiated noise of an apparatus equipped with the semiconductor device is estimated. An evaluation method including: making a semiconductor device that is connected parallel to a load by a load cable, perform a switching operation; measuring common-mode current flowing through the load cable during the switching operation; and outputting an evaluation benchmark for radiated noise based on the common-mode current, and an evaluation apparatus are provided.

A system for locating an optimal location of a reception antenna of the present disclosure has an unmanned aerial vehicle (UAV), a wireless internet service provider (WISP) tower configured for transmitting radio signals, and an antenna removeably coupled to the unmanned aerial vehicle, the antenna configured for receiving the radio signals. Further, the system has a processor that receives data indicative of a height from a user and automatically flies the UAV to the height. Additionally, the processor rotates the unmanned aerial vehicle at the height and detects the radio signals from the at least one WISP tower as the UAV rotates to determine an optimal azimuth, and if the radio signals received are not conducive for the provision of wireless services at the height, the processor moves the UAV to different heights and rotates the UAV until radio signals received are conducive for the provision of wireless services. Further, when the radio signals received are conducive for the provision of wireless services, the processor maneuvers the UAV downwardly toward the ground until the radio signals are no longer conducive for the provision of wireless services, thereby determining an optimal azimuth and location altitude range for a reception antenna.

The invention relates to method of detecting an arrangement having a primary unit of an inductive power transfer system and/or a secondary unit of the inductive power transfer system. The method including: using a detector device to detect the arrangement, the detector device having at least one electrical conductor, determining at least one electrical property of the detector device and generating determination results consisting of a determination result for each of different regions of the arrangement, and comparing the determination results with existing information about the arrangement to be detected. The existing information includes information about expected values for the different regions of the arrangement, thereby generating a comparison result, and deciding from the comparison result whether the determination results indicate that the detector device has detected the arrangement as expected.

The invention relates to method of detecting an arrangement having a primary unit of an inductive power transfer system and/or a secondary unit of the inductive power transfer system. The method including: using a detector device to detect the arrangement, the detector device having at least one electrical conductor, determining at least one electrical property of the detector device and generating determination results consisting of a determination result for each of different regions of the arrangement, and comparing the determination results with existing information about the arrangement to be detected. The existing information includes information about expected values for the different regions of the arrangement, thereby generating a comparison result, and deciding from the comparison result whether the determination results indicate that the detector device has detected the arrangement as expected.

Disclosed is a linearly moveable sliding contact element having a transport device. Linearly moveable sliding contact elements of this type having a transport device are required to electrically contact conductor paths of circuit boards with one another, the circuit boards being oriented in parallel with one another and arranged above one another. In addition, the sliding contact element is arranged on a spindle of the transport device having an outer thread. Via a rotation of the transport device, the sliding contact element can be moved in a linear manner along the spindle by the outer thread. A first bearing and a second bearing are provided at the ends of the spindle. The bearings permit a mounting of the transport device between two circuit boards arranged in parallel with one another.

A system that has an unmanned aerial vehicle (UAV) and a physical cell identity (PCI) scanner coupled to the UAV, the scanner covering frequencies using an omni-directional or directional antenna for capturing PCI data. The system further has logic configured to geotag the PCI data with a latitude, a longitude, an altitude, and a direction of the UAV, save the data in files for analyzation, and generate three-dimensional models using the geotag PCI data to find weak points in signal coverage.

A system that has an unmanned aerial vehicle (UAV) and a physical cell identity (PCI) scanner coupled to the UAV, the scanner covering frequencies using an omni-directional or directional antenna for capturing PCI data. The system further has logic configured to geotag the PCI data with a latitude, a longitude, an altitude, and a direction of the UAV, save the data in files for analyzation, and generate three-dimensional models using the geotag PCI data to find weak points in signal coverage.

An example system includes a photo detector and a phase detector. The photo detector may detect a facet of a rotating mirror, the rotating mirror having at least two facets. The phase detector may detect a phase of a motor driving rotation of the rotating mirror. The example system may also include a processor to determine a phase relationship between the facet detected by the photo detector and the phase of the motor detected by the phase detector.

An example system includes a photo detector and a phase detector. The photo detector may detect a facet of a rotating mirror, the rotating mirror having at least two facets. The phase detector may detect a phase of a motor driving rotation of the rotating mirror. The example system may also include a processor to determine a phase relationship between the facet detected by the photo detector and the phase of the motor detected by the phase detector.

A shield box for wireless terminal test is provided to simply perform various tests with high reliability even in a non-contact (wireless) connection state with an antenna of a wireless terminal. The shield box includes a metallic box having an internal wireless terminal receiving space therein, and a probe antenna which is provided in the metallic box, and located right above or right below an antenna part of a wireless terminal received in the metallic box to receive a signal from a wireless terminal antenna in a non-contact manner. The metallic box is provided therein with an electronic wave absorber. The probe antenna is a patch antenna. The metallic box includes two parts of upper and lower cases including metallic materials, respectively, such that the metallic box is openable. The upper and lower cases are hinged with each other on rear surfaces thereof.