| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | SYSTEM AND METHOD FOR CHARACTERIZATION OF MULTI-ELEMENT ANTENNA | US15385565 | 2016-12-20 | US20180074104A1 | 2018-03-15 | Gareth LLOYD; Markus REIL; Mahmud NASEEF |
| A system for measuring or characterizing a multi-element antenna having at least two antenna elements comprises a vector network analyzer with at least two input/output ports. Each input/output port of the vector network analyzer is connected to one antenna element of the multi-element antenna. The vector network analyzer has generator means for generating waves at each of its input/output ports, which are coherent to each other. | ||||||
| 2 | SOLID STATE IMPEDANCE TUNERS | US15595769 | 2017-05-15 | US20170285085A1 | 2017-10-05 | Ali Boudiaf; Roman Meierer; Gary R. Simpson |
| A solid state impedance tuner or impedance tuner system including a housing structure and at least two solid state tuner modules electrically combined and disposed in one package within the housing structure. Each tuner module includes at least one solid state control element.Another embodiment is directed to an impedance tuner module card configured in a standardized system architecture. The card includes a chassis board, and at least one solid state tuner module integrated on the card and supported on or by the chassis board, each module including at least one solid state control element.Methods for calibrating a solid state impedance tuner that includes at least two solid state tuner modules combined in one package are disclosed. | ||||||
| 3 | Electronic Testing Device | US14230990 | 2014-03-31 | US20140292348A1 | 2014-10-02 | Steven Kanne; Gordon Whitten; Jamie Bumgardner; Joshua Galley; Dixon Greenfield; Brian Kenkel; Steven Nichols; Chad Bokowski; Sam Miller |
| Systems and methods for cabling verification may include one or more operations including, but not limited to: receiving floor plan data representing a floor plan of a premises; receiving at least one user input specifying a location of at least one cabling endpoint relative to the floor plan; receiving at least one user input selecting at least one cabling verification test for the at least one cabling endpoint; receiving one or more cabling verification test results for the at least one cabling endpoint obtained by at least one testing device; and updating at least one database element associated with the at least one cabling endpoint and maintained by the cloud-based server. | ||||||
| 4 | Modular high voltage sensing unit | EP13191303.0 | 2013-11-01 | EP2728365A3 | 2017-08-09 | Fong, Robert; Gardner, Daniel L; Ayala III, William |
A high voltage sensing unit includes a housing having an internal bore. A resistive voltage divider, including a primary resistor and a secondary resistor configured in series, is included within the housing. A connecting assembly is configured to attach the high voltage sensing unit to a terminal of a high voltage switching device. The connecting assembly provides an electrical connection from the high voltage switching device to the primary resistor and physically supports the high voltage sensing unit. An interface cable provides an electrical connection from the secondary resistor to a receptacle on the high voltage switching device, which can receive a voltage signal and pass the voltage signal to a controller using existing control wiring.
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| 5 | MEASURING SYSTEM AND METHOD FOR DETERMINING PHASE DIFFERENCES OF ANTENNA ELEMENTS OF AN ANTENNA ARRAY | US15340394 | 2016-11-01 | US20180076906A1 | 2018-03-15 | Mahmud NASEEF; Gareth LLOYD; Markus REIL |
| A measuring system for determining phase differences of antenna element signals of antenna elements of an antenna array under test is provided. The measuring system comprises a signal generating means, which is configured to provide a measuring signal to the antenna array under test over the air and receiving means configured to measure the antenna element signals, resulting from receiving the measuring signal by the antenna elements of the antenna array under test and determine the phase difference of the antenna element signals. | ||||||
| 6 | Solid state impedance tuners | US14284862 | 2014-05-22 | US09660607B2 | 2017-05-23 | Ali Boudiaf; Roman Meierer; Gary R. Simpson |
| A solid state impedance tuner or impedance tuner system includes a control element array with a plurality of solid state control elements configured to be turned on simultaneously to achieve a desired impedance state. The control element array comprises N solid state control elements arranged along an RF transmission line. A controller selectively turns on or off each control element by application of a control signal to vary an impedance presented by the control element array, Another aspect is an impedance tuner module card configured in a standardized system architecture, with a chassis board, and at least one solid state tuner module integrated on the card A chassis electrical connector connected to the tuner module is configured for connection to a corresponding backplane connector. Methods for calibrating a solid state impedance tuner that includes at least two solid state tuner modules combined in one package are disclosed. | ||||||
| 7 | Modular high voltage sensing unit | US14036752 | 2013-09-25 | US09335348B2 | 2016-05-10 | Robert Fong; Daniel L. Gardner; William Ayala, III |
| A high voltage sensing unit includes a housing having an internal bore. A resistive voltage divider, including a primary resistor and a secondary resistor configured in series, is included within the housing. A connecting assembly is configured to attach the high voltage sensing unit to a terminal of a high voltage switching device. The connecting assembly provides an electrical connection from the high voltage switching device to the primary resistor and physically supports the high voltage sensing unit. An interface cable provides an electrical connection from the secondary resistor to a receptacle on the high voltage switching device, which can receive a voltage signal and pass the voltage signal to a controller using existing control wiring. | ||||||
| 8 | SOLID STATE IMPEDANCE TUNERS | EP14734337.0 | 2014-05-30 | EP3004911B1 | 2018-10-10 | BOUDIAF, Ali; MEIERER, Roman; SIMPSON, Gary, R. |
| A solid state impedance tuner or impedance tuner system includes a control element array with a plurality of solid state control elements configured to be turned on simultaneously to achieve a desired impedance state. The control element array comprises N solid state control elements arranged along an RF transmission line. A controller selectively turns on or off each control element by application of a control signal to vary an impedance presented by the control element array, Another aspect is an impedance tuner module card configured in a standardized system architecture, with a chassis board, and at least one solid state tuner module integrated on the card A chassis electrical connector connected to the tuner module is configured for connection to a corresponding backplane connector. Methods for calibrating a solid state impedance tuner that includes at least two solid state tuner modules combined in one package are disclosed. | ||||||
| 9 | Modular high voltage sensing unit | EP13191303.0 | 2013-11-01 | EP2728365A2 | 2014-05-07 | Fong, Robert; Gardner, Daniel L; Ayala III, William |
A high voltage sensing unit includes a housing having an internal bore. A resistive voltage divider, including a primary resistor and a secondary resistor configured in series, is included within the housing. A connecting assembly is configured to attach the high voltage sensing unit to a terminal of a high voltage switching device. The connecting assembly provides an electrical connection from the high voltage switching device to the primary resistor and physically supports the high voltage sensing unit. An interface cable provides an electrical connection from the secondary resistor to a receptacle on the high voltage switching device, which can receive a voltage signal and pass the voltage signal to a controller using existing control wiring.
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| 10 | Solid state impedance tuners | US15595769 | 2017-05-15 | US09964580B2 | 2018-05-08 | Ali Boudiaf; Roman Meierer; Gary R. Simpson |
| A solid state impedance tuner or impedance tuner system including a housing structure and at least two solid state tuner modules electrically combined and disposed in one package within the housing structure. Each tuner module includes at least one solid state control element.Another embodiment is directed to an impedance tuner module card configured in a standardized system architecture. The card includes a chassis board, and at least one solid state tuner module integrated on the card and supported on or by the chassis board, each module including at least one solid state control element.Methods for calibrating a solid state impedance tuner that includes at least two solid state tuner modules combined in one package are disclosed. | ||||||
| 11 | MEASURING DEVICE AND METHOD FOR DETERMINING BEAMFORMING SIGNAL QUALITY | US15340605 | 2016-11-01 | US20180076907A1 | 2018-03-15 | Mahmud NASEEF; Gareth LLOYD; Markus REIL |
| A measuring system for determining a beamforming quality of an antenna array signal of an antenna array of a device under test. The measuring system comprises a measuring device configured to receive an antenna array signal, and to measure the antenna array signal and to determine a beamforming signal quality thereof. The antenna array signal is wirelessly transmitted to the receiver by the antenna array of a device under test. The measuring system further comprises a positioning unit configured to position the device under test in successive predefined orientations. The measuring device is configured to receive and measure the antenna array signal successively in each of the predefined orientations. | ||||||
| 12 | Traveling wave detector | US13668262 | 2012-11-03 | US09645171B1 | 2017-05-09 | Jonathan J Lynch; Brian Hughes |
| A traveling wave detector and method of traveling wave signal detection employ a plurality of detector diodes connected according to different polarities with respect to adjacent ones of the detector diodes. The traveling wave detector includes a transmission line having an input end and a terminal end and the plurality of detector diodes connected as stated above and spaced apart along the transmission line. The traveling wave detector further includes a plurality of direct current (DC) blocks to define a series conduction path. The method of traveling wave signal detection includes rectifying a received incident signal using the traveling wave detector to produce a video signal at each of the detector diodes and summing the video signals along the series conduction path to produce an output video signal. | ||||||
| 13 | Electronic testing device | US14230990 | 2014-03-31 | US09400301B2 | 2016-07-26 | Steven Kanne; Gordon Whitten; Jamie Bumgardner; Joshua Galley; Dixon Greenfield; Brian Kenkel; Steven Nichols; Chad Bokowski; Sam Miller |
| Systems and methods for cabling verification may include one or more operations including, but not limited to: receiving floor plan data representing a floor plan of a premises; receiving at least one user input specifying a location of at least one cabling endpoint relative to the floor plan; receiving at least one user input selecting at least one cabling verification test for the at least one cabling endpoint; receiving one or more cabling verification test results for the at least one cabling endpoint obtained by at least one testing device; and updating at least one database element associated with the at least one cabling endpoint and maintained by the cloud-based server. | ||||||
| 14 | SOLID STATE IMPEDANCE TUNERS | US14284862 | 2014-05-22 | US20140354294A1 | 2014-12-04 | Ali Boudiaf; Roman Meierer; Gary R. Simpson |
| A solid state impedance tuner or impedance tuner system including a housing structure and at least two solid state tuner modules electrically combined and disposed in one package within the housing structure. Each tuner module includes at least one solid state control element.Another embodiment is directed to an impedance tuner module card configured in a standardized system architecture. The card includes a chassis board, and at least one solid state tuner module integrated on the card and supported on or by the chassis board, each module including at least one solid state control element.Methods for calibrating a solid state impedance tuner that includes at least two solid state tuner modules combined in one package are disclosed. | ||||||
| 15 | MODULAR HIGH VOLTAGE SENSING UNIT | US14036752 | 2013-09-25 | US20140125320A1 | 2014-05-08 | Robert Fong; Daniel L. Gardner; William Ayala, III |
| A high voltage sensing unit includes a housing having an internal bore. A resistive voltage divider, including a primary resistor and a secondary resistor configured in series, is included within the housing. A connecting assembly is configured to attach the high voltage sensing unit to a terminal of a high voltage switching device. The connecting assembly provides an electrical connection from the high voltage switching device to the primary resistor and physically supports the high voltage sensing unit. An interface cable provides an electrical connection from the secondary resistor to a receptacle on the high voltage switching device, which can receive a voltage signal and pass the voltage signal to a controller using existing control wiring. | ||||||
| 16 | SOLID STATE IMPEDANCE TUNERS | EP14734337.0 | 2014-05-30 | EP3004911A1 | 2016-04-13 | BOUDIAF, Ali; MEIERER, Roman; SIMPSON, Gary, R. |
| A solid state impedance tuner or impedance tuner system includes a control element array with a plurality of solid state control elements configured to be turned on simultaneously to achieve a desired impedance state. The control element array comprises N solid state control elements arranged along an RF transmission line. A controller selectively turns on or off each control element by application of a control signal to vary an impedance presented by the control element array, Another aspect is an impedance tuner module card configured in a standardized system architecture, with a chassis board, and at least one solid state tuner module integrated on the card A chassis electrical connector connected to the tuner module is configured for connection to a corresponding backplane connector. Methods for calibrating a solid state impedance tuner that includes at least two solid state tuner modules combined in one package are disclosed. | ||||||
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