A method for assembling a vehicular interior rearview mirror assembly includes providing a mirror mount, a mirror casing, a mirror reflective element at the mirror casing, and a toggle mechanism, which includes a body portion and a toggle lever joined to the body portion. A lower pivot mount of the toggle mechanism is inserted into a lower receiving portion of the mirror casing and an upper pivot mount of the toggle mechanism is inserted into an upper receiving portion of the mirror casing. An outer surface of the body portion corresponds with adjacent outer surfaces of the mirror casing. With a pivot element of the toggle mechanism attached at the mirror mount, and when the toggle lever pivots relative to the lower receiving portion of the mirror casing, the mirror casing pivots relative to the body portion to flip the mirror head between a first orientation and a second orientation.

A vehicular mirror system includes: a driving mode acquiring unit configured to acquire one of a first driving mode in which a vehicle travels using an occupant's driving operation and a second driving mode in which the vehicle travels regardless of the occupant's driving operation as a driving mode; and a mirror control unit configured to change a reflectance of a vehicular mirror facing rearward according to a light intensity difference between a light intensity on a side in front of the vehicle and a light intensity on a side to the rear of the vehicle with respect to the vehicular mirror when the driving mode is the first driving mode and to keep the reflectance of the vehicular mirror in a state in which the reflectance is lower than that in a normal state when the driving mode is the second driving mode.

A vehicular exterior rearview mirror assembly includes a mirror reflective element assembly. The mirror reflective element assembly includes a main reflective element backing plate and a main reflective element. The main reflective element includes a glass substrate having a mirror reflector coated at a surface thereof. The mirror reflector-coated glass substrate of the main reflective element is attached at the main reflective element backing plate. The mirror reflective element assembly includes an auxiliary reflective element backing plate and an auxiliary wide angle reflective element. The auxiliary wide angle reflective element is positioned on the auxiliary reflective element backing plate. The auxiliary reflective element backing plate is attached to the main reflective element backing plate via an attachment mechanism.

A vehicular interior rearview mirror system includes an interior rearview mirror assembly having a mirror head adjustably mounted at a mounting structure. The mirror head includes a mirror casing and an electro-optic variable reflectance mirror reflective element. A glare light sensor senses glare light emanating from headlights of another vehicle rearward of the equipped vehicle. An ambient light sensor senses ambient light at the vehicle. The ambient light sensor comprises part of a rain sensing device disposed at an in-cabin side of a windshield of the vehicle. Mirror control circuitry is operable to adjust dimming of the mirror reflective element responsive to an output from the glare light sensor and an output from the ambient light sensor. Responsive to the output from the glare light sensor and the output from the ambient light sensor, the mirror control circuitry controls dimming of the mirror reflective element.

A method of assembling a mirror head for a vehicular interior rearview mirror assembly includes providing a mirror casing, a mirror reflective element at the mirror casing, and a toggle mechanism, which includes a body portion and a toggle lever joined to the body portion. A lower pivot mount of the toggle mechanism is inserted into a lower receiving portion of the mirror casing and an upper pivot mount of the toggle mechanism is inserted into an upper receiving portion of the mirror casing. An outer surface of the body portion corresponds with adjacent outer surfaces of the mirror casing, and, when the toggle lever pivots relative to the lower receiving portion of the mirror casing, the mirror casing pivots relative to the body portion to flip the mirror head between a first orientation and a second orientation.

A display device may comprise a transmittance control structure having a variable transmittance and a mirror type display panel disposed on a rear surface of the transmittance control structure. The mirror type display panel may comprise a substrate, a display member disposed on the substrate, the display member including a light emission region, a first transmission region, and a peripheral region surrounding the light emission region and the first transmission region, and a reflective member facing the substrate with respect to the display member, the reflective member including an opening region corresponding to the light emission region, a second transmission region corresponding to the first transmission region, and a reflective region surrounding the opening region and the second transmission region.

A filtering vision element forming a windshield or rearview mirror of a road vehicle includes a lower region and an upper region. The filtering vision element is designed so that a difference in attenuation between two linear polarizations of an incident radiation has values that are of opposite signs in the lower and upper regions. The two linear polarizations may respectively be horizontal and contained in a vertical plane. Blinding of the driver caused by a spot of reflected light produced on a road by headlights of an external vehicle may thus be decreased or prevented.

A laminated body sequentially includes a substrate, an adhesive layer, and a multilayer film. The laminated body has characteristics of transmitting first polarized light and reflecting second polarized light having a polarization axis x that intersects a polarization axis y of the first polarized light. The multilayer film includes a plurality of first layers formed of a crystalline naphthalenedicarboxylic acid polyester and a plurality of second layers formed of a polymer other than the crystalline naphthalenedicarboxylic acid polyester, the first layers and the second layers being alternately stacked on top of each other. The first layers have a higher refractive index than the second layers on the polarization axis of the second polarized light, and the multilayer film has a thermal expansion coefficient of −80 [10.sup.−6/K] or more at a temperature 3° C. higher than a glass transition point of the multilayer film in the polarization axis direction of the first polarized light.

A video processing unit generates a conversion video having the same angle of view as an angle of view of a mirror image by converting a camera video. The video processing unit causes the generated conversion video to be displayed in a display region such that the conversion video is superimposed on the mirror image.

A system for variable transmittance mirrors is disclosed wherein the variable transmittance mirrors may be controlled in response to images captured from a camera. The system may comprise a first imager, a first variable transmittance mirror, and a controller. The first imager comprises a pixel array. Further, the first imager is configured to capture image data. The first variable transmittance mirror has a first level of transmittance. Finally, the controller is configured to assign a first light intensity value to one or more pixels and change the first level of transmittance to a second level of transmittance based at least in part on the detected first light intensity. Such as system has the advantage of eliminating the need for a dedicated glare sensor, therefore reducing the number of devices, the costs, obstructions in a user's field of view, and a more aesthetically appealing appearance.