Patent application number | Description | Published |
20100225549 | CENTER HIGH MOUNT STOP LAMP ASSEMBLY WITH INTEGRATED RADIO FREQUENCY ANTENNA - A center high mount stop lamp (CHMSL) assembly for a vehicle includes an integrated radio frequency (RF) antenna. The CHMSL assembly has an outer lens element, a lamp assembly configured to emit light through the outer lens element, and a housing for the outer lens element and the lamp assembly. The housing is adapted for attachment to an upper rear portion of the vehicle, and the housing has an interior region defined therein. The CHMSL assembly also has an RF antenna element located within the interior region. The RF antenna element is configured and positioned such that it does not obstruct a light path from the lamp assembly to the outer lens element. | 09-09-2010 |
20110187613 | ANTENNA DIVERSITY SYSTEM - An antenna of the present invention includes an electrical half wave monopole antenna element fixedly attached to a surface, where the antenna element includes an electrical center. A first electrical feed point is located on a first side of the antenna element. A second electrical feed point is located on a second side of the antenna element. The second side generally opposes the first side of the antenna element. The first and second electrical feed points are about one-twentieth a wavelength from the electrical center. A first signal corresponds with the first electrical feed point and a second signal corresponds with the second electrical feed point. The first signal is out of phase when compared to the second signal. | 08-04-2011 |
20110298677 | IN-VEHICLE ANTENNA SYSTEM AND METHOD - An antenna system connectable to a vehicle includes an exterior antenna and an interior antenna. The vehicle has a wall including an outer surface and an inner surface generally opposing the outer surface. The inner surface and the outer surface cooperate together to create an aperture. The wall defines an exterior environment and an interior cabin of the vehicle. The exterior antenna is disposed on the outer surface of the wall, where the exterior antenna transmits and receives RF signals to and from an external RF device that is located in the exterior environment. The interior antenna is located within the interior cabin defined by the inner surface of the wall. The interior antenna receives and transmits RF signals to and from an interior RF device located within the interior cabin. | 12-08-2011 |
20110298678 | In-vehicle antenna system and method - An antenna system connectable to a vehicle includes an exterior antenna, an interior antenna, and a data transmission line. The vehicle has a wall including an outer surface and an inner surface that generally opposes the outer surface, where the inner surface and the outer surface cooperate together to create an aperture. The wall defines an exterior environment and an interior cabin. The exterior antenna is located within the exterior environment and is connectable to the vehicle. The interior antenna is located within the interior cabin defined. The data transmission line transmits RF signals and is in communication with both the exterior antenna and the interior antenna. The transmission line passes through the aperture located in the plate between the exterior antenna and the interior antenna. | 12-08-2011 |
20120098717 | MULTIPLE ANTENNA ELEMENT SYSTEM AND METHOD - An antenna system connectable to a vehicle includes a primary antenna, a primary data transmission line, a secondary antenna, a secondary data transmission line, and an RF device. The primary antenna is connected to the vehicle and is located in an exterior environment. The secondary antenna is connected to the vehicle and is located in one of the exterior environment and an interior cabin of the vehicle. The primary data transmission line transmits a first RF signal and is in communication with the primary antenna. The secondary data transmission line transmits a secondary RF signal and is in communication with the secondary antenna. The fixed RF device is connected to the vehicle and is in communication with the primary data transmission line and the secondary data transmission line to provide an output RF signal. | 04-26-2012 |
20120223810 | SYSTEM AND METHOD FOR EXTENDING REMOTE VEHICLE CONTROL FUNCTIONS - A remote keyless system (RKS) includes a remote control device configured to create a signal having at least a component at a first frequency and an antenna assembly coupled to a vehicle that includes a first antenna tuned to receive a signal in a frequency band. The RKS also includes a first filter coupled to the first antenna and configured to pass the first frequency and a second filter coupled to the first antenna and configured to pass the frequency band. The RKS also includes a remote keyless system controller coupled to the first filter that, upon receipt of a predetermined signal, causes the vehicle to perform an action. The first frequency is an integer multiple of a frequency in the frequency band. | 09-06-2012 |
20130106658 | CONFIGURABLE ANTENNA ELEMENT | 05-02-2013 |
20130260842 | INDUCTIVE CHARGER FOR PROVIDING RADIO FREQUENCY ("RF") SIGNAL TO A PORTABLE ELECTRIC DEVICE - An inductive charger for a portable electronic device is provided. The portable electronic device has a radio frequency (“RF”) antenna configured for receiving an outgoing RF signal, as well as a secondary coil. The inductive charger includes a primary coil configured for creating a magnetic flux. The magnetic flux is configured for coupling to the secondary coil in the portable electronic device to induce current. The inductive charger includes RF coupling assembly that receives an incoming RF signal. The RF coupling assembly is configured to radiate the outgoing RF signal that is based on the incoming RF signal. The inductive charger includes a radiator configured to receive the outgoing RF signal from the RF coupling assembly. The radiator is configured to radiate the outgoing RF signal to the RF antenna of the portable electronic device. | 10-03-2013 |
20140118199 | LOW PROFILE APPLIQUE ANTENNA - An applique antenna for an automobile comprises a body panel having a body panel outer surface and a body panel cavity. An applique is configured to be received in the body panel cavity and to continue the styling lines of the body panel outer surface with a flush fit. A cavity is defined between the body panel cavity and the applique. An antenna structure is disposed within the cavity and is decoupled from the body panel cavity by the applique. | 05-01-2014 |
20150051831 | MOTOR VEHICLE ANTENNA SYSTEM - An antenna system includes a controller operatively connected to a first antenna and a second antenna, the controller including a vehicle position input configured and disposed to receive GPS position data identifying a location of a motor vehicle and a vehicle heading input configured and disposed to receive GPS heading data for the motor vehicle. The controller is configured and disposed to selectively employ at least one of the first and second antennas to receive a radio signal based on received location and heading data for the motor vehicle. | 02-19-2015 |