A vehicular interior rearview mirror assembly includes a mounting portion, a mirror casing and a mirror reflective element. The reflective element includes a glass substrate having a planar front surface, a planar rear surface and a circumferential perimeter edge around a periphery of the glass substrate that extends across a thickness dimension separating the planar front surface from the planar rear surface. A front perimeter edge portion of the circumferential perimeter edge includes a rounded glass surface circumferentially around the periphery of the glass substrate, with the rounded glass surface at least partially spanning the thickness dimension of the glass substrate. The rounded glass surface has a radius of curvature of at least 2.5 mm. The planar rear surface of the glass substrate is coated with a coating. No portion of the mirror casing overlaps onto the rounded glass surface of the glass substrate.

An assembly includes a head assembly for an external rear view device to be attached to a motor vehicle, a lower casing element, an upper casing element, an articulation assembly, a bezel assembly for carrying at least one rear view element, and a hinge connection between the bezel assembly and a first sub assembly provided by at least the lower casing, the articulation assembly and attachment means with the articulation assembly being mounted on the attachment means or the attachment means being mounted on the articulation assembly.

A vehicle warning device causes a buzzer to generate a warning sound and vibrates a steering wheel using a steering vibration actuator when a monitoring target object for a right monitor range is present with a right turn signal changed from off to on, that is, generates a warning. The vehicle warning device does not generate the warning even though the monitoring target object for the right monitor range is present when any of cases where a lane change by one lane from an original lane to a first right adjacent lane is completed during an on state of the right turn signal, a distance between a right side surface of the host vehicle and a right lane marking of the first right adjacent lane is a threshold distance or less, and a time to enter a second right adjacent lane is a threshold time or less does not occur.

An imaging system includes a mirror assembly. An imager is centrally disposed on the mirror assembly and configured to acquire an image of a biometric feature of a vehicle occupant within a field of view of the imager. A first light source is disposed within the mirror assembly and configured to project a ray of light onto a target surface corresponding to an eye of the vehicle occupant. The first light source is spaced from the target surface by a first distance. The first light source is spaced from the imager by a second distance. The ray of light forms an angle of incidence having legs extending from the target surface to the first light source and to the imager, and wherein the first distance and the second distance are operable to define the angle of incidence in the range of 5° to 15°.

A modular vehicle mirror assembly includes a mirror module and an accessory module. The mirror module includes a mirror mounting plate having attachment points to allow a mirror to be removably mounted to the mirror module in a rearward-facing position. The accessory module includes an accessory mounting plate having accessory attachment points to allow an accessory to be removably mounted to the accessory module in a forward-facing position. The mirror module and the accessory module are releasably held together. The assembly allows the user to temporarily, releasably, and interchangeably mount a selected member of a group of accessories, such as headlights, fog lights, driving lights, pencil beam headlights, and cameras.

A vehicular exterior rearview mirror assembly includes a mounting structure, a mirror reflective element, a mirror back plate, a heater element, and a blind zone indication module. The heater element is disposed between the mirror back plate and the mirror reflective element. The blind zone indication module includes a diffuser and a housing that houses a circuit element and a light source. The circuit element includes electrically conductive terminals that are in electrical connection with circuitry of the circuit element and that are disposed at a connector portion of the housing that is configured to connect to a wire harness to electrically power circuitry of the circuit element when the vehicular exterior rearview mirror assembly is mounted and used at a vehicle. The blind zone indication module is associated with a blind spot detection system of a vehicle at which the vehicular exterior rearview mirror assembly is mounted and used.

A rear mirror assembly for a motorcycle includes a mirror mounting and a holding arm which is configured to connect the mirror mounting to the motorcycle. An adjustment device is arranged between the holding arm and the mirror mounting. The adjustment device is configured to be rotatable at least about one free rotational axis in order to adjust the position of the mirror mounting relative to the holding arm. The adjustment device includes a limiting device in order to limit the rotational adjustment.

An interior rearview mirror assembly for an electric vehicle having a vehicle battery for powering a propulsion system of the electric vehicle. The interior rearview mirror assembly includes a mirror casing, a mirror reflective element, a mounting structure configured to adjustably mount the mirror assembly at an interior portion of the electric vehicle, and an indicator disposed at the mirror casing along a perimeter region of the mirror reflective element. The indicator includes a plurality of LEDs, and each LED of the plurality of LEDs is individually operated to emit light. With the mirror reflective element and the mirror casing adjustably mounted at the interior portion of the electric vehicle via the mounting structure, and responsive to a battery charge level of the vehicle battery, the indicator electrically powers one or more of the LEDs to convey vehicle battery charge level information to a driver of the electric vehicle.

A rear-view mirror with a display function includes a rear-view mirror body and a display structure layer. The display structure layer is disposed on one side of the rear-view mirror body and includes a plurality of light-emitting diodes and a driving circuit layer. The light-emitting diodes are located between the rear-view mirror body and the driving circuit layer. The light-emitting diodes are electrically connected to the driving circuit layer.

A mirror assembly for use with mirror housing on autonomous or semi-autonomous vehicle, including a reflector for collecting and distributing emitted light to a plurality of icon regions, a circuit board, a plurality of light sources mounted to the circuit board and positioned to selectively emit light to illuminate the icon regions, wherein the circuit board provides selective illumination of the icon regions via the light sources in response to one or more received signal inputs from the vehicle indicating an imminent autonomous vehicle maneuver, a mirror having a front surface and a rear surface, wherein the reflector is secured at least indirectly to the rear surface and a plurality of icons visible along a driver viewing axis relative to the front surface of the mirror during illumination, wherein the plurality of icons are positioned over the icon regions to allow for selective icon illumination via a selected icon region.