An electronic device and a vehicle using the same are provided. The electronic device includes a display panel. The display panel is switched between a share mode and a privacy mode. In the privacy mode, a first light emission brightness measured at a first viewing angle is lower than a second light emission brightness measured at a normal line of the display panel, and a third light emission brightness measured at a second viewing angle is higher than the second light emission brightness.

An aftermarket vehicle head unit integration cartridge for use with an aftermarket head unit is provided. The aftermarket head unit preferably includes a dedicated slot for insertion of the cartridge. The cartridge preferably supports communication between a plurality of electronic components in the aftermarket head unit and a plurality of electronic components in the vehicle. The plurality of electronic components in the aftermarket head unit may include, for example, an audio processing system, a video processing system, an analog I/O and/or a digital I/O. and/or a plurality of electronic components. The plurality of electronic components in the vehicle may include an audio system, an analog I/O, a digital I/O/databus, and/or a steering wheel control unit. The cartridge may include a flashable memory for use in reconfiguring the cartridge. The cartridge may be configured to capture and condition the signals from at least one of the plurality of the vehicle-based electronic components. The conditioned signals from the vehicle-based electronic components may be conditioned for use by the aftermarket head unit.

A fixing assembly has a support element adapted to be fixed to a component of a vehicle, and a frame adapted to support an accessory in a fixed relative position and connected to the support element in a fixed position; the support element has two openings which are engaged by respective protruding pins of the frame so as to allow a rotation of the frame towards the support element during a mounting step in which the protruding pins are inserted in the openings; a snap fitting prevents the displacement of the frame at the end of the aforementioned rotation, and then blocking devices, of the screw type, secure the frame in a stable position; the snap fitting has an elastically deformable element which is snap-fitted to a retention shoulder and forms part of a portion made of polymeric or elastomeric material of one between the support element and the frame.

A glove box arrangement for a motor vehicle includes a glove box and a pivoting element. The pivoting element can be moved between an idle position and an active position and includes an activity surface that is covered toward an exterior space in the idle position and accessible from the exterior space in the active position. In a dashboard arrangement, a crossbeam extends horizontally and transverse to a driving direction and includes a dashboard. A clearance area of the crossbeam extends in an exterior space that surrounds the dashboard and a glove box arrangement is mounted on the crossbeam in the clearance area. In a passenger compartment arrangement for a motor vehicle includes a front passenger seat and a glove box arrangement or with a dashboard arrangement. The glove box arrangement is arranged in the region of the front passenger seat.

A vehicular display system includes an electronic control unit (ECU) and a plurality of cameras disposed at the vehicle. The cameras capture image data and provide captured image data to the ECU. The system includes a video display screen and a video mirror display screen that are operable to display video images derived from video images provided by the ECU. When the vehicle is traveling forward at a speed below a threshold speed, the ECU generates rearward view video images derived from image data captured by a rearward viewing camera and provides the rearward view video images to the video display screen. When the vehicle is traveling forward at a speed at or above the threshold speed, the ECU generates rearward view video images derived from image data captured by a rearward viewing camera and provides the rearward view video images to the video mirror display screen.

An in-cabin monitoring system includes a camera which captures an image of an inside of a cabin of a vehicle, a light source which irradiates the inside of the cabin with light, and a controller which controls the camera and the light source. The light source is capable of emitting first light which is light to be emitted when checking whether a person is present using the camera and second light which is stronger than the first light. The controller captures an image of the inside of the cabin using the camera while causing the light source to emit the second light, before the person gets in the vehicle and after the person gets out of the vehicle.

An accessory mounting track includes a forward edge, a rearward edge, an upper surface, a lower surface, a first end region with a first end, a second end region with a second end, and an intermediate region positioned between the first and second end regions. A cross-section of the intermediate region includes an angular portion positioned on either side of a planar portion. The planar portion and the angular portions are delineated by an inflection point at a junction between the planar portion and each of the angled portions. A distance between the upper surface and the lower surface at the angular portions decreases as a distance from a centerline of the intermediate region increases. A distance between the forward edge and the rearward edge at the first and second end regions increases as a distance from the intermediate region increases.

Disclosed is a portable device holder for vehicle CD-slot mounting, and more particularly to a portable device holder for vehicle CD-slot mounting, in which a facing distance between a movable piece and a stationary piece to be inserted in a CD slot of a vehicle becomes shorter when external forces act thereon, and the facing distance between the movable piece and the stationary piece to be inserted in the CD slot of the vehicle becomes longer when no external forces act thereon, thereby being easily inserted in and mounted to the CD slot of the vehicle and keeping a stable and secured mounting state.

A vehicle interfaced smartphone control device for limiting phone distraction while driving includes a docking station, which selectively engages a smartphone of a driver of a vehicle so that the smartphone is operationally engaged to the docking station. The docking station is mountable to an interior element of the vehicle so that the smartphone is accessible to the driver. The docking station is operationally engageable an electronic control module of the vehicle. First and second programming code are selectively positionable on the electronic control module and the smartphone, respectively. The first programming code enables the electronic control module to operate the vehicle with at least one operational aspect of the vehicle being limited. The second programming code enables the smartphone, when operationally engaged to the docking station, to continuously signal the electronic control module to operate the vehicle without limiting any operational aspects of the vehicle.

A vehicular heads-up-display system includes an apparatus having a base configured to receive and maintain a pico-projector case in combination with a handheld electronic device, and to output optical transmissions from the pico-projector case to an at least partially reflective surface to form a heads-up display. The partially reflective surface may be a combiner and/or mirror coupled to a base comprising the holder. The handheld electronic device may be a smartphone. For example, the system can be used to cause a pico-projector to project information from a smartphone to a partially reflective mirror for viewing by a vehicle operator.