The present disclosure provides a vehicle rear view device comprising: a shell; a rear view mirror forming an accommodation space between the shell and the rear view mirror; and a wireless communication device comprising a communication circuit board and a communication antenna. The communication circuit board is located in the accommodation space, the communication antenna is disposed in m antenna placement area of the shell, the communication antenna is disposed separately from the communication circuit board, md the communication antenna and the communication circuit board are electrically connected.

A radio frequency identification (RFID) enabled mirror includes a mirror comprising a reflective layer. The reflective layer comprises at least one layer of a metallic material. At least one portion of the reflective layer is removed to form a booster antenna from a remaining portion of the reflective layer. A dielectric coating is applied to the mirror where the reflective layer was removed. The RFID-enabled mirror further includes an RFID chip coupled to the booster antenna.

Antenna system adapted for integration in side mirrors of a vehicle. The antenna system includes two radiating conductors and a reflector coplanarly disposed on a same dielectric substrate of a printed circuit board. The radiating conductors are connected to the reflector through transmission lines electromagnetically coupled to a frequency band of operation. In order to optimize the radiating of the antenna system in a 180 sector that covers one lateral of the vehicle, the reflector is separated from the two radiating conductors by a distance included between 0.3 times and one time the central wavelength; and the reflector is less than 6 times wider than the radiating conductors.

A system for a vehicle may comprise a rearview assembly comprising a display element configured for providing a rearward view of a scene behind the vehicle, at least one imaging device in communication with the display element and configured to capture images from within a passenger compartment of the vehicle, and a printed circuit board in communication with the display element and the at least one imaging device. The display element may be configured to selectively display content received from a source external to the vehicle. The display element may be suitable for receiving inputs from a plurality of sources. At least one of the plurality of sources may be one of the internet and a cellular network.

A radio frequency identification (RFID) enabled mirror includes a mirror comprising a reflective layer. The reflective layer comprises at least one layer of a metallic material. At least one portion of the reflective layer is removed to form a booster antenna from a remaining portion of the reflective layer. A dielectric coating is applied to the mirror where the reflective layer was removed. The RFID-enabled mirror further includes an RFID chip coupled to the booster antenna.

A motor vehicle having a rear view device with no wing mirrors is disclosed. The rear view device includes at least one camera, by which at least one part of a rear space/traffic situation can be recorded, and at least one screen, on which the image section recorded by the at least one camera can be displayed. The at least one screen is arranged on a console of a side door protruding towards the vehicle interior, where this console engages at least partially with a recess of the dashboard when the side door is closed.

Provided is a room mirror removal monitoring device with an electronic toll collection (ETC) function. The room mirror removal monitoring device includes a room mirror holder to which a room mirror having the ETC function is fixed and in which an insertion recess is formed toward windshield glass, a removal switch inserted into the insertion recess, a mirror base inserted into a region that does not overlap with the removal switch in the insertion recess and fixed to the windshield glass, and a monitoring part configured to monitor a removal state of the room mirror having the ETC function.

A method for mounting an accessory at a vehicular windshield includes adhesively attaching a base portion of each of at least three fixing elements at an interior cabin side of the windshield in a spaced apart non-contiguous manner. A frame includes a plurality of individual receiving portions. With the windshield installed in the vehicle, the frame is attached at the fixing elements via receiving an elongated portion of a respective and corresponding one of the fixing elements in a respective and corresponding one of the receiving portions of the frame. With the windshield installed in the vehicle, and with the frame attached at the fixing elements, a camera is disposed at the frame and received at structure of the frame, such that the camera views through the windshield via an aperture existing in the frame and a light transmissive aperture in a light absorbing layer of the windshield.

A rearview mirror assembly includes a main housing defining an interior surface, an interior cavity at least partially bounded by the interior surface, and an open side. The assembly further includes a control module coupled within the interior of the main housing, a mirror coupled over the open side of the main housing, and an antenna electrically coupled with the control module and positioned within the interior cavity of the main housing.

A radio frequency identification (RFID) enabled mirror includes a mirror comprising a reflective layer. The reflective layer comprises at least one layer of a metallic material. At least one portion of the reflective layer is removed to form a booster antenna from a remaining portion of the reflective layer. A dielectric coating is applied to the mirror where the reflective layer was removed. The RFID-enabled mirror further includes an RFID chip coupled to the booster antenna.