A display mirror assembly for a vehicle is disclosed. The assembly comprises a display device defining a display surface having a display perimeter elongated along a length. The display device is in communication with a primary PCB. The primary PCB comprises a first side and an opposing second side. The first side is directed toward the display device. The assembly also comprises a heat sink in connection with the second side of the primary PCB and extending substantially coextensive with the length display perimeter.

A shape memory actuator includes a supporting body, a driven element pivotably mounted on the supporting body and in permanent contact with a driving element whose movement is determined by a SMA actuating member and by at least one resilient return member acting in opposition to the SMA actuating member. The driven element is able to take two stable positions under the action of a bistable moving system connecting the driving element to the driven element such that each toggling between the two stable positions is due to an activation of the SMA actuating member, the latter being arranged together with the bistable moving system. The resilient return member, the driving element and the driven element on a same side of the supporting body are in a substantially co-planar arrangement.

An interior rearview mirror assembly for a vehicle includes a mounting structure configured to mount to an interior portion of a vehicle, a housing, a reflective element disposed at the housing and an actuator disposed in the housing and connected to the reflective element. The actuator includes a first motor connected to the reflective element via a first drive element and a second motor connected to the reflective element via a second drive element. Responsive to an input, the actuator may be operable to adjust an orientation of the reflective element in tandem with the housing relative to the mounting structure. The first and second motors may operate in tandem to adjust the orientation of the reflective element and the housing relative to the mounting structure. The actuator may adjust the reflective element responsive to a user input, a glare sensor and/or a driver eye tracking system of the vehicle.

A vehicular interior rearview mirror assembly includes a mounting structure configured for mounting at an interior portion of a vehicle. The mounting structure includes a mounting arm that has (i) a proximal end portion and (ii) a distal end portion distal from the proximal end portion. With the mounting structure mounted at the interior portion of the vehicle, the proximal end portion of the mounting arm is attached at the interior portion of the vehicle. A motorized actuator is disposed within a mirror housing that accommodates a reflective element. The motorized actuator is electrically operable to adjust the reflective element and the mirror housing together and in tandem relative to the mounting structure to provide a desired rearward field of view to a driver of the vehicle when the vehicular interior rearview mirror assembly is mounted and operated in the vehicle.

A controller is provided for performing processes related to a mirror which is provided in a vehicle cabin and configured to be capable of changing reflectance. The controller includes a control unit configured to acquire a captured image based on a result of imaging by a camera configured to capture an image of a view behind the vehicle; and to determine a mirror reflectance, which is the reflectance of the mirror, based on a state of luminance of the captured image.

A pivotable interior mirror for a vehicle includes a mirror surface, for example in the form of a first surface of a wedge mirror, a sensor device suitable for a light propagation-time measurement, for sensing at least one gesture of a driver of the vehicle and/or light incident on the first surface of the wedge mirror, and a pivoting device for pivoting the mirror surface from a normal position into at least one dimming position, in which blinding of the driver by light reflected at the mirror surface is reduced, wherein the pivoting device can be activated in dependence on at least one output signal of the sensor device. Further, a vehicle may include such an interior mirror and a method for using such an interior mirror is described.

A vehicular interior rearview mirror assembly includes a mounting base and a mirror head accommodating a mirror reflective element. An adjustment mechanism is operable to adjust the mirror head between a first orientation and a second orientation. The adjustment mechanism includes an electrically operable motor that drives a main gear, a torque element, an output element coupled to the mirror head and a biasing element coupled to the torque element. With the mirror head in the first orientation, during a first stage of operation of the motor, the motor drives the main gear in a first direction and generates a biasing force at the torque element. During a second stage of operation of the motor, the motor drives the main gear further in the first direction and the biasing force imparts movement of the torque and output element to adjust the mirror head toward the second orientation.

A vehicular cabin monitoring system includes an interior rearview mirror assembly having a mirror head adjustable relative to a mounting structure. A camera is accommodated by and moves with the mirror head when the mirror head is adjusted. A first subset of image data captured by the camera is processed for monitoring the driver of the vehicle. A spectrally reflecting mirror element is disposed within the interior cabin and spaced from the rearview mirror. The mirror element spectrally reflects light toward the camera that is representative of an obstructed region within the interior cabin not directly viewable by the camera. The mirror element is disposed at an accessory module of the vehicle. A second subset of image data is representative of light reflected from the mirror element. The cabin monitoring system determines presence of an object within the obstructed region based on processing of the second subset of image data.