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.

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.

An exterior rearview mirror assembly configured for mounting at an exterior side portion of a vehicle includes a mounting portion, a mirror head and an electrically-operated actuator. The mounting portion is configured for attachment at an exterior side portion of a vehicle. The mirror head includes a mirror casing and a mirror reflective element. The mirror head is attached at the electrically-operated actuator. With the mounting portion of the exterior rearview mirror assembly attached at the exterior side portion of the vehicle, the electrically-operated actuator is electrically operable to move the mirror reflective element and the mirror casing together in tandem to vertically and horizontally adjust a field of view of a driver of the vehicle who is viewing the mirror reflective element.

An exterior rearview mirror assembly configured for mounting at an exterior side portion of a vehicle includes a mounting portion, a mirror head and an electrically-operated actuator. The mounting portion is configured for attachment at an exterior side portion of a vehicle. The mirror head includes a mirror casing and a mirror reflective element. The mirror head is attached at the electrically-operated actuator. With the mounting portion of the exterior rearview mirror assembly attached at the exterior side portion of the vehicle, the electrically-operated actuator is electrically operable to move the mirror reflective element and the mirror casing together in tandem to vertically and horizontally adjust a field of view of a driver of the vehicle who is viewing the mirror reflective element.

A camera monitoring system and a method of controlling the same are provided. The camera monitoring system includes a camera assembly that captures an image of an outer side surface of a vehicle and a mirror assembly disposed to overlap at least a portion of the camera assembly. A driver performs deployment and folding of the camera assembly and the mirror assembly. A controller operates the driver in response to an input of the deployment or folding of the camera assembly and the mirror assembly and determines a failure of the camera assembly. The camera assembly and the mirror assembly are moved based on a single drive shaft, and the controller deploys or folds the camera assembly and the mirror assembly.

A camera monitoring system and a method of controlling the same are provided. The camera monitoring system includes a camera assembly that captures an image of an outer side surface of a vehicle and a mirror assembly disposed to overlap at least a portion of the camera assembly. A driver performs deployment and folding of the camera assembly and the mirror assembly. A controller operates the driver in response to an input of the deployment or folding of the camera assembly and the mirror assembly and determines a failure of the camera assembly. The camera assembly and the mirror assembly are moved based on a single drive shaft, and the controller deploys or folds the camera assembly and the mirror assembly.

A vehicular exterior rearview mirror assembly includes a powerfold actuator electrically operable to pivot a mirror head relative to a mounting base. The powerfold actuator includes a biasing element disposed between an upper housing and an upper end of a pivot tube and releasably retains the powerfold actuator in at least one detent state. The powerfold actuator includes (i) a lower detent disposed between the base portion and a lower housing, (ii) an output gear disposed between the lower housing and the upper housing and (iii) an upper detent disposed between the lower housing and the upper housing. When the powerfold actuator is in a primary detent state, the lower detent and the output gear are rotationally fixed relative to the pivot tube and the upper detent is axially movable along the pivot tube. When the mirror head is manually moved, a secondary detent state is engaged.

A vehicular exterior rearview mirror assembly includes a powerfold actuator electrically operable to pivot a mirror head relative to a mounting base. The powerfold actuator includes a biasing element disposed between an upper housing and an upper end of a pivot tube and releasably retains the powerfold actuator in at least one detent state. The powerfold actuator includes (i) a lower detent disposed between the base portion and a lower housing, (ii) an output gear disposed between the lower housing and the upper housing and (iii) an upper detent disposed between the lower housing and the upper housing. When the powerfold actuator is in a primary detent state, the lower detent and the output gear are rotationally fixed relative to the pivot tube and the upper detent is axially movable along the pivot tube. When the mirror head is manually moved, a secondary detent state is engaged.

A vehicular exterior rearview mirror assembly includes a powerfold actuator electrically operable to pivot a mirror head relative to a mounting base. The actuator includes a biasing element disposed between an upper housing and an upper end of a pivot tube and releasably retains the powerfold actuator in at least one detent state. An upper detent is disposed radially outboard of the pivot tube and radially inboard of an output gear and a lower detent, and the upper detent includes a detent lip that engages an upper detent surface of the lower detent. When the actuator is in a primary detent state, a spring load path of the biasing element is through the output gear and lower detent to the base. When the actuator is in a secondary detent state, the spring load path is through the detent lip of the upper detent and lower detent to the base.

A vehicular exterior rearview mirror assembly includes a powerfold actuator electrically operable to pivot a mirror head relative to a mounting base. The actuator includes a biasing element disposed between an upper housing and an upper end of a pivot tube and releasably retains the powerfold actuator in at least one detent state. An upper detent is disposed radially outboard of the pivot tube and radially inboard of an output gear and a lower detent, and the upper detent includes a detent lip that engages an upper detent surface of the lower detent. When the actuator is in a primary detent state, a spring load path of the biasing element is through the output gear and lower detent to the base. When the actuator is in a secondary detent state, the spring load path is through the detent lip of the upper detent and lower detent to the base.