Abstract: An interior rearview mirror assembly includes an interior prismatic mirror reflective element having a wedge-shaped glass substrate having a circumferential edge along the periphery of said glass substrate. The circumferential edge spans a thickness of the glass substrate between its front and rear surfaces. The prismatic mirror reflective element has a mirror reflector established at the rear surface of the glass substrate. A plastic molding is circumferentially disposed about the circumferential edge of the glass substrate without overlapping onto the front surface of the glass substrate. The outermost part of the plastic molding curves and the plane of the front surface of the glass substrate is generally flush with the outermost part of the plastic molding.

Abstract: A method for making electrical connection to a mirror reflective element for a vehicular rearview mirror assembly includes providing a mirror reflective element having a front substrate and a rear substrate with an electro-optic medium disposed therebetween and in contact with a transparent conductive coating and a third surface reflector. A metallic electrical connector is provided that includes an attachment portion and a wire receiving portion. An electrical wire is inserted in the wire receiving portion such that at least one tang of the wire receiving portion engages the electrical wire to secure the electrical wire in the wire receiving portion and to make electrically-conductive connection with the electrical wire. The attachment portion is attached at the front or rear substrate to attach the electrical connector at the mirror reflective element such that the attachment portion electrically conductively connects to the transparent conductive coating or the third surface reflector.

Abstract: An interior rearview mirror assembly for a vehicle includes a mirror head having a mirror reflective element, and a video display device behind the mirror reflective element and viewable through the mirror reflective element when activated. The video display device includes a display screen that occupies at least 75 percent of a reflective region of the mirror reflective element. The video display device includes a backlighting array of light emitting diodes for backlighting the display screen, and the backlighting array of light emitting diodes includes a plurality of zones of light emitting diodes, with each zone having at least two light emitting diodes. The zones of light emitting diodes are independently controlled based on the video images being displayed by the video display device.

Abstract: A vehicle mirror and camera mounting system includes a camera mounting bracket that includes an injection molded bracket formed by injection molding a polymeric molding resin. A camera, when its camera module is attached at the camera mounting bracket at the vehicle windshield, has a field of view through the vehicle windshield. The camera mounting bracket includes a mirror attachment portion configured for attaching an interior rearview mirror assembly thereat. At least one cover element is attached at (i) the camera mounting bracket, (ii) the camera module and/or (iii) the mirror mount so that the camera module and the camera mounting bracket are not readily viewable to a person viewing the construction from inside the vehicle. The mirror mount includes an electrical connector for electrical connection to (i) a connector at the camera module or (ii) a wire harness of the vehicle, with the connection hidden from view.

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 reflective element assembly for a vehicular rearview mirror assembly includes front and rear substrates with an electro-optic medium disposed therebetween. An electrical connector has an attachment portion and a wire receiving portion for receiving an electrical wire therein. A flange of the attachment portion is configured to be disposed at a fourth surface of the rear substrate and a tab is configured to extend at least partially across a perimeter edge of the rear substrate. An electrically conductive material is disposed in an uncured state and uncured electrically conductive material flows at least partially through the aperture and is cured to secure the electrical connector at the rear substrate. The wire receiving portion of the electrical connector is configured to receive the electrical wire therein and includes at least one tang that engages the electrical wire when the electrical wire is inserted into the wire receiving portion.

Abstract: An interior rearview mirror system for a vehicle includes an interior rearview mirror assembly comprising a mirror head. The mirror head includes a first microphone operable to generate a first audio signal and a second microphone operable to generate a second audio signal. An audio sound processor is operable to process the first and second audio signals to enhance human voice to noise clarity. Responsive to processing by the audio sound processor of the first and second audio signals, an audio output is generated that, at least in part, distinguishes a human voice present in the vehicle from noise present in the vehicle. The audio output includes an input to an audio system of the vehicle that transmits wirelessly to a remote receiver. Processing by the audio signal processor of the first and second audio signals to enhance human voice to noise clarity utilizes electronic noise cancelation.

Abstract: A vehicle mirror and camera mounting system includes a windshield attachment member configured to adhesively attach at a vehicle windshield and a camera mounting bracket configured to attach at the windshield attachment member. The camera mounting bracket is an injection molded bracket that is formed by injection molding a thermoplastic reinforced polyamide polymeric molding resin. With the windshield attachment member adhesively attached at the in-cabin surface of the windshield, the camera mounting bracket, with a camera module attached thereat, is attached at the windshield attachment member. The camera mounting bracket includes a mirror attachment portion for attaching an interior rearview mirror assembly. The mirror mount includes an attaching portion that is configured to insert at least partially into a socket of the mirror attachment portion of the camera mounting bracket to attach the interior rearview mirror assembly at the camera mounting bracket.

Abstract: A vehicular rearview mirror assembly includes a mirror reflective element and a touch sensor device disposed behind a portion of the reflective element and operable to sense the presence of a person's finger at a touch zone of the reflective element proximate to the touch sensor device. A backlighting device is disposed behind the touch sensor device and is operable to backlight a portion of the touch sensor device. The touch sensor device includes a touch sensor substrate having a conductive trace established at a patterned conductive zone of the touch sensor substrate. When the backlighting device is activated, light emanating from the backlighting device passes through the patterned conductive zone of the touch sensor substrate and illuminates an icon so that the icon is viewable through the reflective element by a driver of the vehicle when the rearview mirror assembly is normally mounted at the vehicle.

Abstract: An interior rearview mirror assembly for a vehicle includes a plastic bezel and a mirror reflective element. The bezel includes a perimeter bezel portion and a mirror mounting element unitarily formed with the perimeter bezel portion. The mirror mounting element is configured to pivotally attach to a mounting structure of a mounting assembly for mounting the interior rearview mirror assembly at an interior portion of a vehicle equipped with the interior rearview mirror assembly. The reflective element is disposed at the bezel and has a front surface and a rear surface, with the front surface generally facing towards and being viewable by a driver of the equipped vehicle. The mirror mounting element is disposed rearward of the rear surface of the reflective element when the reflective element is disposed at the bezel.

Abstract: A rearview mirror assembly for a vehicle includes a mirror casing and a mirror reflective element disposed at the mirror casing. The mirror reflective element includes at least a first glass substrate having a front surface and a rear surface. When the rearview mirror assembly is normally mounted in a vehicle, the front surface is closer than the rear surface to a driver that is normally operating the vehicle. The first glass substrate has a flat central region and a rounded perimeter edge, and the rounded perimeter is exposed to and is viewable by the driver of the vehicle. With the mirror reflective element disposed at the mirror casing, no portion of the mirror casing encompasses the rounded perimeter edge. The rounded perimeter edge has a glare-reducing surface finish.

Abstract: An interior rearview mirror system suitable for use in a vehicle includes an interior rearview mirror assembly having a mirror head and a reflective element. The mirror head includes a first microphone operable to generate a first analog signal and a second microphone operable to generate a second analog signal. The first analog signal is converted to a first digital signal by at least one analog to digital converter and the second analog signal is converted to a second digital signal by the at least one analog to digital converter. A digital sound processor is operable to process the first and second digital signals. Responsive to the processing of the first and second digital signals, the digital sound processor generates a digital output, and the digital output, at least in part, distinguishes a human voice present in the vehicle from noise present in the vehicle.

Abstract: A visor assembly for a vehicle includes a visor element configured to pivotally attach at an interior portion of a vehicle so as to be pivotable between a non-use position, where the visor is disposed along a roof of the vehicle, and a use position, where the visor element is disposed at least partially along a windshield of the vehicle. A vanity mirror reflective element includes a glass mirror substrate and a mirror reflector coating. The vanity mirror reflective element is disposed at the visor element so as to be viewable by a driver of the vehicle when the visor element is pivoted to the use position. The mirror substrate has a rounded perimeter edge that is exposed at the visor element and is viewable by the driver of the vehicle when the visor element is pivotally attached at the interior portion of the vehicle and in the use position.

Abstract: An interior rearview mirror system suitable for use in a vehicle includes an interior rearview mirror assembly having a mirror casing and a transflective reflective element. The transflective reflective element has an electrochromic active region, and a plurality of user input elements is disposed outside of the electrochromic active region and below the electrochromic active region. Each of the individual user input elements is a touch or proximity sensor. A plurality of display elements is disposed behind the transflective reflective element at the electrochromic active region, and each display element is selectively activated by activation of a respective user input element. Each of the individual display elements and its associated respective one of the individual user input elements are located local to one another such that a cognitive relationship between actuation by a user of a respective user input element and activation of its associated display element is established.

Abstract: An interior rearview mirror assembly for a vehicle includes a mirror casing and a prismatic interior reflective element. The reflective element comprises a wedge-shaped glass substrate having a perimeter edge about a periphery of the glass substrate and extending between first and second surfaces thereof. The glass substrate has a mirror reflector established at the second surface. A front surface of the perimeter edge provides a smooth curved transition at the perimeter edge between a perimeter region of the first surface and the mirror casing. The front surface of the perimeter edge is rounded by at least one of grinding and polishing to provide a generally rounded curved surface between the first surface of the glass substrate and the mirror casing. The radius of curvature of the front surface is at least about 2.5 mm. No portion of the mirror casing encompasses the first surface of the glass substrate.

Abstract: A rearview mirror assembly for a vehicle includes a mirror casing and an electro-optic reflective element assembly disposed at the mirror casing. A second surface of a front substrate of the reflective element assembly has a transparent conductive coating established thereat and a third surface of a rear substrate has a conductive coating established thereat. An electrical connector may be disposed at the fourth surface and in electrically conductive continuity with the transparent conductive coating and/or the conductive coating. The electrical connector may include a connector attaching portion for attaching at the fourth surface and a conductor attaching portion for soldering or welding an electrical conductor or wire to the electrical connector when the electrical connector is attached at the fourth surface. The conductor attaching portion is spaced from the plane of the connector attaching portion and the fourth surface of the rear substrate.

Abstract: A reflective element assembly for a vehicular rearview mirror assembly includes front and rear substrates with an electro-optic medium disposed therebetween. An electrical connector has an attachment portion and a wire receiving portion for receiving an electrical wire therein. A flange of the attachment portion is configured to be disposed at a fourth surface of the rear substrate and a tab is configured to extend at least partially across a perimeter edge of the rear substrate. An electrically conductive material is disposed in an uncured state and uncured electrically conductive material flows at least partially through the aperture and is cured to secure the electrical connector at the rear substrate. The wire receiving portion of the electrical connector is configured to receive the electrical wire therein and includes at least one tang that engages the electrical wire when the electrical wire is inserted into the wire receiving portion.

Abstract: A vehicle mirror and camera mounting system includes a windshield attachment member configured to adhesively attach at a vehicle windshield and a camera mounting bracket configured to attach at the windshield attachment member. The camera mounting bracket is an injection molded bracket that is formed by injection molding a thermoplastic reinforced polyamide polymeric molding resin. With the windshield attachment member adhesively attached at the in-cabin surface of the windshield, the camera mounting bracket, with a camera module attached thereat, is attached at the windshield attachment member. The camera mounting bracket includes a mirror attachment portion for attaching an interior rearview mirror assembly. The mirror mount includes an attaching portion that is configured to insert at least partially into a socket of the mirror attachment portion of the camera mounting bracket to attach the interior rearview mirror assembly at the camera mounting bracket.

Abstract: A vision system for a vehicle includes a first imager located at a front portion of the vehicle, a second imager located at the rear of the vehicle, a third imager located in a first exterior rearview mirror assembly of the vehicle and a fourth imager located in a second exterior rearview mirror assembly of the vehicle. Responsive to the vehicle being shifted into a reverse gear, (a) video images derived from image data captured by the second imager are displayed on a video display screen and (b) responsive at least in part to processing of captured image data by a common image processor, the driver of the vehicle is alerted to the presence of an object exterior the equipped vehicle. When the vehicle travels forward, the common image processor processes first image data captured by the first imager for at least a lane departure warning system of the vehicle.

Abstract: An interior rearview mirror assembly for a vehicle includes a mirror casing and an electro-optic reflective element. The reflective element has an electro-optic active region where an electro-optic medium is disposed and bounded by a perimeter seal. A transparent electrically conductive coating is established at the rear surface of the front substrate at the electro-optic active region. A perimeter portion of the front substrate extends beyond a corresponding perimeter portion of the rear substrate to establish a user input region that is outboard of the electro-optic active region. A user input, such as a touch sensor, is disposed at the user input region, and the user input is not in electrical contact with the transparent electrically conductive coating at the rear surface of the front substrate. The user input is operable to detect the presence or touch of a person's finger at the user input region.