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 vehicular interior rearview mirror assembly includes a mounting assembly having a base portion and a mounting arm extending from the base portion. A mirror head is pivotally adjustable relative to the mounting assembly via a pivot joint having first and second pivot elements. The mirror head includes a mirror reflective element, with the first pivot element disposed at the rear side of the mirror reflective element and fixed thereat. The mounting arm includes a proximal end proximate the base portion and a distal end distal from the base portion, with the second pivot element being at the distal end of the mounting arm. The second pivot element is disposed at a damping element that is received at the distal end of the mounting arm. The damping element and the second pivot element are biased toward the distal end of the mounting arm and away from the base portion.

Dynamic mirror assemblies are disclosed that can vary the amount of light reflected, that include a mirror and a switching material. The switching material is placed between the mirror and a viewer, and has a dark state and a light state, and switches state in at least one direction due to a photochromic reaction, and switches in the other direction due to one or more of a photochromic reaction or an electrochromic reaction.

A vehicular interior rearview mirror assembly includes a mounting structure and a mirror head pivotally mounted at the mounting structure via a pivot joint. The mirror head includes a mirror casing and a display and mirror assembly, which includes a frame portion, a video display screen at a front side of the frame portion, and a mirror reflective element at a front side of the video mirror display screen. The mirror reflective element includes a variable reflectivity liquid crystal (VRLC) stack of layers, which have a liquid crystal (LC) layer disposed between a rear glass substrate and a front glass substrate. The front and rear glass substrates are integrated in the VRLC stack of layers. With the mounting structure mounted at an interior portion of a vehicle, the video display screen is operable to display video images derived from video images provided by an ECU of the vehicle.

A rearview mirror with display function includes a display structure layer, a rearview mirror structure layer, a plastic frame and an electrochromic material. The display structure layer includes a first transparent substrate, a display body layer and a transflective layer on opposite sides of the first transparent substrate. The rearview mirror structure layer is disposed on one side of the display structure layer, and includes a second transparent substrate, a ring-shaped shielding layer, a touch sensing layer, an insulating substrate, and a transparent electrode layer. The ring-shaped shielding layer is disposed around a third surface of the second transparent substrate, and the touch sensing layer covers the third surface and the ring-shaped shielding layer. The ring-shaped shielding layer is electrically insulated from the touch sensing layer. The plastic frame, the transflective layer and the transparent electrode layer define an accommodating space. The electrochromic material is filled in the accommodating space.

A control device of an ECM employs a current control method in place of a voltage control method in order to remove heat generation, and can stably provide a desired current and voltage to an ECM regardless of an input voltage. The control device of an ECM may include: an illuminance sensor unit configured to sense the brightness of light; an MCU configured to output a control signal corresponding to the brightness level of the sensed light; an ECM control unit configured to generate and output a constant current having a current value adjusted to correspond to the brightness level of the sensed light, in response to the control signal; and an ECM including a material to cause a chemical change in which the color thereof changes while the material is oxidized by the constant current, and having reflectivity adjusted to correspond to the adjusted current value of the constant current.

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.

An exterior rearview mirror assembly for a vehicle includes a mirror reflective element, a back plate, and an attaching element having first and second spring-loaded electrical connectors disposed thereat. The attaching element includes a cover element with the spring-loaded electrical connectors disposed thereat. The attaching element includes electrical leads that electrically connect to the spring-loaded electrical connectors and that electrically connect to an electrical connector. With the cover element attached at the attachment portion of the back plate, and with the back plate attached at the rear side of the mirror reflective element, the spring-loaded electrical connectors contact and are biased into electrical contact with respective electrically conductive elements disposed at the rear side of the mirror reflective element, and the electrical connector is disposed at the back plate and configured to electrically connect to a connector of a wire harness of the mirror assembly or of the vehicle.

A vehicular exterior rearview mirror assembly includes a mirror reflective element sub-assembly having a mirror reflective element and a mirror back plate. The mirror back plate is attached to the glass substrate of the mirror reflective element. The mirror back plate includes first structure that is configured to attach at an actuator. An indicator element is disposed at second structure of the mirror back plate. An icon is established through a metallic reflector coating disposed at the glass substrate. The icon includes a light-transmitting aperture and, when the vehicular exterior rearview mirror assembly is attached at the vehicle, the icon is at an outboard region of the mirror reflective element. When the vehicular exterior rearview mirror assembly is attached at the vehicle and when a light source of the indicator element is activated, the icon is illuminated and is viewable by the driver of the vehicle.

A vehicular exterior rearview mirror assembly includes a mirror reflective element sub-assembly having a mirror reflective element, a mirror reflector, a mirror back plate, and indicator element. The indicator element includes a housing and a light source. The indicator element is associated with a blind spot detection system of the vehicle and includes a diffuser that diffuses light emitted by the light source. An icon is established through a metallic reflector coating disposed at the glass substrate. The icon includes a light-transmitting aperture. When the vehicular exterior rearview mirror assembly is attached at the vehicle, the icon is at an upper quadrant of the mirror reflective element. When the vehicular exterior rearview mirror assembly is attached at the vehicle and when the light source is activated, the icon is illuminated and is viewable by the driver of the vehicle.