Abstract:
An interior rearview mirror assembly for a vehicle includes a mirror head having a mirror casing and a mirror reflective element, and a mirror mounting structure configured to adjustably mount the mirror head at an interior portion of a vehicle. A receiving portion is configured for receiving a portable self-contained garage door opening module at least partially thereat. The module includes a user input and a housing that houses (i) circuitry, (ii) a transmitter and (iii) a battery. The module is operable to wirelessly transmit responsive to actuation of the user input. With the module at the receiving portion of the mirror assembly, the user input is accessible by the vehicle driver. The module is configured to cooperate with the receiving portion to releasably secure the module at the interior rearview mirror assembly, with the module being releasable from the interior rearview mirror assembly.
Abstract:
A mirror reflective element sub-assembly for an exterior rearview mirror assembly of a vehicle includes a mirror reflective element and a mirror back plate disposed at a rear side of a glass substrate of the reflective element. The back plate includes a mirror actuator attaching portion that is established at a first side by a plastic injection molding operation. The mirror actuator attaching portion includes structure for attaching the back plate to a mirror actuator of an exterior rearview mirror assembly. A heater pad is disposed between the rear side of the glass substrate and the second side of the back plate. When the exterior rearview mirror assembly utilizing the mirror reflective element sub-assembly is mounted at the side of the vehicle, light emitted by an indicator passes exits the heater pad and the reflective element to provide a visual icon visible to a driver of the vehicle.
Abstract:
An exterior rearview mirror assembly for a vehicle includes a mirror head and an exterior mirror reflective element fixedly attached at the mirror head. An attachment portion is configured for attachment at an exterior portion of the vehicle. The mirror assembly includes a multi-axis adjustment mechanism having at least one electrically-operable actuator. The multi-axis adjustment mechanism is operable to move the mirror head, with the exterior mirror reflective element fixedly attached thereto, about multiple axes relative to the attachment portion. The exterior mirror reflective element moves in tandem with movement of the mirror head relative to the exterior portion of the body of the vehicle to adjust the rearward field of view of a driver of the vehicle who views the exterior mirror reflective element when operating the vehicle.
Abstract:
A mirror reflective element sub-assembly for an exterior rearview mirror assembly includes a mirror reflective element attached at a mirror back plate, which includes a mirror actuator attaching portion established at the back plate by a plastic injection molding operation. A heater pad is disposed between the mirror reflective element and the mirror back plate. An indicator associated with a blind spot detection system has a light source that is activatable to emit light. When the mirror assembly is mounted at a side of a vehicle and with the light source activated, light emitted by the light source passes through a light diffuser and through an aperture of the mirror back plate and through a light transmitting portion of the heater pad and through a light-transmitting window of the mirror reflector and exits the mirror reflective element to provide a visual icon visible to a driver of the vehicle.
Abstract:
An exterior mirror system for a vehicle includes driver-side and passenger-side exterior rearview mirror assemblies including respective driver-side and passenger-side light modules and driver-side and passenger-side cameras. The light modules provide a driver-side indicator and a passenger-side indicator. The driver-side light module and the passenger-side light modules are disposed at respective mirror housing portions and move therewith when the exterior mirror housing portion moves relative to the mounting portion between its normal operating position and its folded position. The driver-side camera and the passenger-side camera are part of a multi-camera vision system of the vehicle, and the multi-camera vision system has a display device that is operable to display images for viewing by a driver of the vehicle. The displayed images displayed by the display device may include an image portion derived from image data captured by at least one of the driver-side camera and the passenger-side camera.
Abstract:
A display system of a vehicle includes a windshield of a vehicle, an interior rearview mirror assembly, an assembly disposed at an upper region of the windshield, and a display device disposed at the assembly. The upper region of the windshield includes a display region. The display device is operable to project a mirror image of display information towards and onto the display region of the windshield for viewing by a driver of the vehicle. The display information is viewable at the display region of the windshield and is viewable and discernible by the driver of the vehicle when the driver is normally operating the vehicle.
Abstract:
A mirror reflective element sub-assembly includes a mirror reflective element, a mirror back plate and a blind spot indicator. The mirror back plate has a generally planar portion and an indicator mounting portion. The indicator mounting portion of the mirror back plate is angled relative to the generally planar portion, and an aperture is established through the mirror back plate generally at the indicator mounting portion. A heater pad is disposed at the rear of the mirror reflective element, and a light transmitting portion of the heater pad is generally aligned with the aperture of the mirror back plate. With the light source of the blind spot indicator activated, light emitted by the light source transmits through an indicia element, the aperture and the light transmitting portion and exits the mirror reflective element at an angle relative to the generally planar portion of the mirror back plate.
Abstract:
A vehicular exterior rearview mirror assembly includes a mounting arm and a mirror head at one end of the mounting arm distal from an attachment portion of the mounting arm that is configured for attachment at a vehicle. A mirror reflective element is fixedly attached at the mirror head. An innermost side of the mirror reflective element is attached at a front side of an attachment plate. The mirror reflective element moves in tandem with movement of the mirror head relative to the mounting arm when the driver of the vehicle operates an electrically-operable actuator. The attachment plate includes wall structure that extends from the front side of the attachment plate and circumscribes and spans the perimeter circumferential edge of the glass substrate and does not encroach onto and does not overlap the front surface of the glass substrate of the exterior mirror reflective element.
Abstract:
A vehicular driver monitoring system includes an interior rearview mirror assembly that includes a mirror head accommodating a mirror reflective element. A megapixel camera is accommodated by the mirror head and includes a backside Illumination (BSI) imaging sensor having an at least 2.3 megapixel imaging array of photosensors. The BSI imaging sensor has a quantum efficiency of at least 22% for near-infrared light having a wavelength of 940 nm. A near-infrared illumination source is accommodated by the mirror head. The mirror reflective element and the megapixel camera and the near-infrared illumination source move in tandem with the mirror head when the mirror head is adjusted by a driver of a vehicle. The megapixel camera views at least the eyes of the driver of the vehicle. The near-infrared illumination source, when powered to emit near-infrared light, illuminates at least the eyes of the driver of the vehicle.
Abstract:
A vehicular driver monitoring system includes a driver monitoring camera disposed at an interior rearview mirror assembly of a vehicle. The driver monitoring camera views a driver of the vehicle when the driver is driving the vehicle. The driver monitoring camera captures image data. An image processor is operable to process image data captured by the driver monitoring camera. The vehicular driver monitoring system determines driver performance based at least in part on (i) image processing by the image processor of image data captured by the driver monitoring camera, (ii) a vehicle characteristic and (iii) a condition exterior of the equipped vehicle. The vehicle characteristic includes at least one selected from the group consisting of (a) vehicle speed, (b) vehicle acceleration and (c) vehicle orientation.