A frameless vehicle door includes a window pane, a regulator motor, and a controller. The window pane is configured to being movable between at least a first and a second open position and a closed position. The window pane is configured to extend upward from a top of the door and into a vehicle frame when the window pane is in the closed position. The regulator motor is disposed within the door and is configured to transition the window pane between the open positions and the closed position. The controller is programmed to, in response to a voltage of a battery, that is configured to power the regulator motor, decreasing to less than a threshold and the window pane being in the closed position, transition the window pane to the second open position that is between the first open position and the closed position.

A vehicle includes a cabin and a track assembly. The track assembly is coupled to a portion of the cabin. The track assembly includes a rail assembly. The rail assembly defines an interior aperture. The interior aperture is inaccessible from a top side, a first lateral side, and a second lateral side of the rail assembly. The rail assembly defines a first external channel in the first lateral side and a second external channel in the second lateral side. The first and second external channels receive a carriage power conductor and a carriage data conductor, respectively.

A storage compartment of a vehicle including a passenger compartment and a passenger compartment door controlling access to the passenger compartment. The storage compartment includes a base and a side wall surrounding a storage volume. The storage compartment is located forward of a footwell of the passenger compartment, the storage compartment is further positioned so that an opening to the storage volume is accessible from a lateral side of the vehicle.

A system for controlling the operation of a window installed in a door of a vehicle, comprising a control module, a vehicle door configured to move upwardly from a closed position to a fully open position, a window configured to move between a first up position and a second down position in which the window is stored in the vehicle door, and a mechanism to move the window between the first up position and the second down position. The control module is configured to direct the mechanism to move the window into the second down position when the control module has received a signal indicating that action has been taken to move the vehicle door towards the fully open position.

A refrigerator and a method for controlling the same are disclosed, which may automatically open or close a door and a method for controlling the same. The refrigerator may automatically open or close door(s) of the refrigerator by controlling a motor. After lapse of a predetermined time after the door of the refrigerator has been closed, the refrigerator operates a motor with an output used when the door is not opened, such that the refrigerator may remove noise while simultaneously maintaining a constant door opening time when the door is opened. In addition, when the door opening signal time is detected, the refrigerator may immediately opens the door.

A door drive assembly including: a drive arm including a first end configured to be rotatably coupled to the body and a second end configured to be rotatably coupled to the door. The door drive assembly also includes a drive mechanism coupled to the drive arm and configured to rotate the drive arm between an open position and a closed position. The door drive assembly also includes a control arm including a first end configured to be rotatably coupled to a vehicle body and a second end configured to be rotatably coupled to the door. The door drive assembly also includes a race configured to be disposed between the body and the first end of the control arm where the first end of control arm is configured to translate by a first distance along the race as the drive arm rotates between the open and closed positions.

A multi-way liftgate assembly providing a plurality of dividers dividing the rear cargo area of a passenger vehicle into a plurality of secure areas assessable from a plurality of panels forming a liftgate to provide controlled access to one or more of those compartments. The vehicle operator has secure control of which portions of the cargo area can be selectively accessed. The multi-way liftgate assembly provides multiple secure openings to the cargo area of a vehicle that typically has only one secure opening to the cargo area. The multi-way liftgate assembly provides on-demand open height adjustment.

A method for allocating operating parameters to at least two local control units intended to control a door movement for a motor vehicle, wherein: a plurality of parameter records of operating parameters is stored in each local control unit; a plurality of values of a detection criterion is stored in each local control unit, said detection criterion being based on at least two values of an electric variable; for at least one local control unit, a value of the detection criterion is prepared using the electric variable; in each local control unit the detection criterion is queried; and, a parameter record is selected in accordance with the value of the detection criterion determined during the query, and the corresponding operating parameters are allocated to the local control unit.

A vehicle includes a cabin and a track assembly. The track assembly is coupled to a portion of the cabin. The track assembly includes a rail assembly. The rail assembly defines an interior aperture. The interior aperture is inaccessible from a top side, a first lateral side, and a second lateral side of the rail assembly. The rail assembly defines a first external channel in the first lateral side and a second external channel in the second lateral side. The first and second external channels receive a carriage power conductor and a carriage data conductor, respectively.

Door operator systems are described herein that include the use of an adaptor. It should be understood that the adaptor may be utilized in order to operatively couple separate door operator assemblies together in a double door operator system. The adaptor may include control components (e.g., switches, buttons, toggles, levers, or the like) that are used to turn the door operator system on and off. While the adaptor may be used to operatively couple two separate door operator assemblies together to form a double door operator system, the adaptor may also be used within a single door operator system. Furthermore, with respect to double door operator systems, the system may also utilize a back plate assembly comprising two or more separate back plates (e.g., two or more back plate portions).