Matkiwsky
Michael Matkiwsky, Whitby CA
Patent application number | Description | Published |
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20100283684 | GPS, GSM, AND WIRELESS LAN ANTENNA FOR VEHICLE APPLICATIONS - A Global Positioning System (GPS), Global System for Mobile Communications (GSM), wireless local area network (WLAN) antenna, including a dielectric board including a ground plane; a first antenna trace line disposed on a first portion of the dielectric board and in electrical contact with the dielectric board, the first antenna trace line including at least one first meandered trace for transmitting and receive a WLAN radio frequency signal; a second antenna trace line disposed on a second portion of the dielectric board and in electrical contact with the dielectric board, the second antenna trace line including at least one second meandered trace for transmitting and receiving a GSM radio frequency signal; a GPS antenna for receiving radio frequency signals from at least one global positioning satellite; and a vehicle mountable housing for enclosing the dielectric board, the first antenna trace line, the second antenna trace line, and the GPS antenna. | 11-11-2010 |
Yarko Matkiwsky US
Patent application number | Description | Published |
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20090002246 | Antenna and splitter for receiving radio and remote keyless entry signals - An antenna system may include a first antenna having a helical shaped portion, and configured to receive signals over a first frequency range. A second antenna may be positioned in proximate distance from the first antenna, and be configured to receive signals over a second frequency range. A splitter may be configured for separating signals received from radio and remote keyless entry antennas and may include a first branch including a first filter to filter AM band signals from communications signals received from an antenna, a second branch including a second filter to filter FM band signals from communications signals received from the antenna, a third branch including a third filter to filter remote keyless entry signals from communications signals received from the antenna, and an amplifier to amplify the remote keyless entry signals. The filters may be passive filters. The antenna maybe a whip antenna or roof antenna. | 01-01-2009 |
Yarko Matkiwsky, Whitby CA
Patent application number | Description | Published |
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20120313831 | ANTENNA AND SPLITTER FOR RECEIVING RADIO AND REMOTE KEYLESS ENTRY SIGNALS - An antenna system may include a first antenna having a helical shaped portion, and configured to receive signals over a first frequency range. A second antenna may be positioned in proximate distance from the first antenna, and be configured to receive signals over a second frequency range. A splitter may be configured for separating signals received from radio and remote keyless entry antennas and may include a first branch including a first filter to filter AM band signals from communications signals received from an antenna, a second branch including a second filter to filter FM band signals from communications signals received from the antenna, a third branch including a third filter to filter remote keyless entry signals from communications signals received from the antenna, and an amplifier to amplify the remote keyless entry signals. The filters may be passive filters. The antenna may be a whip antenna or roof antenna. | 12-13-2012 |
20130127479 | CAPACITOR SENSORS AND SYSTEM AND METHODS FOR NON-CONTACT OBJECT DETECTION - A non-contact object detection system includes a capacitor sensor and a control system, the control system providing a AES (Adaptive Excitation Signal) to the capacitor sensor, the AES (Adaptive Excitation Signal) configured according to an environment in which the capacitor sensor is deployed, the AES (Adaptive Excitation Signal) configured to produce a threshold voltage from the capacitor sensor to the control system in the environment when an object is not in a detection area of the capacitor sensor. | 05-23-2013 |
Yaroslaw Matkiwsky, Whitby CA
Patent application number | Description | Published |
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20090309714 | System and method for activating electromechanical systems using flexible intelligent radio frequency modules - A system for activating electromechanical systems of a vehicle, including at least one first flexible intelligent radio frequency module mounted on the vehicle, for receiving wireless communications signals; at least one second flexible intelligent radio frequency module mounted on the vehicle, for receiving wireless communications signals from a transponder, at least one third flexible intelligent radio frequency module mounted on the vehicle, for transmitting a signal when its capacitance is changed when an object is proximal to the at least one third flexible intelligent radio frequency module; at least one fourth flexible intelligent radio frequency module mounted on the vehicle, for receiving sounds external to the vehicle; and a vehicle bus in communication with the at least one first, second, third, and fourth flexible intelligent radio frequency modules. | 12-17-2009 |
20110080259 | ANTENNA AND SPLITTER FOR RECEIVING RADIO AND REMOTE KEYLESS ENTRY SIGNALS - An antenna system may include a first antenna having a helical shaped portion, and configured to receive signals over a first frequency range. A second antenna may be positioned in proximate distance from the first antenna, and be configured to receive signals over a second frequency range. A splitter may be configured for separating signals received from radio and remote keyless entry antennas and may include a first branch including a first filter to filter AM band signals from communications signals received from an antenna, a second branch including a second filter to filter FM band signals from communications signals received from the antenna, a third branch including a third filter to filter remote keyless entry signals from communications signals received from the antenna, and an amplifier to amplify the remote keyless entry signals. The filters may be passive filters. The antenna may be a whip antenna or roof antenna. | 04-07-2011 |
20110241847 | LIN BUS REMOTE CONTROL SYSTEM - A local interconnect network BUS remote control system, including a printed circuit board antenna for receiving wireless communications signals and transmitting them to at least one radio frequency module, the printed circuit board antenna including a digital layer; a power layer; a ground layer; a radio frequency layer; at least one radio frequency module mounted on the vehicle, the at least one frequency module in communication with the printed circuit board antenna for demodulating the wireless communication signals into local interconnect network signals; a local interconnect network BUS in communication with the at least one frequency module for receiving the local interconnect network signals; and a local interconnect network controller in communication with the local interconnect network BUS for receiving the local interconnect network signals. | 10-06-2011 |