An apparatus and a method for controlling and confirming a window are disclosed. An apparatus for controlling and confirming a window position, includes an input dial including a jog dial or a wheel dial and configured to input an input signal in response to a dialing operation by a user, a window configured to be opened or closed by a magnitude of the input signal inputted by the input dial, and a position confirming device configured to inform the user of a current window position in a tactile manner.

A motor control system comprises a motor control circuit, a non-transitory storage medium and a processing circuitry. The storage medium is configured to store a current threshold profile that is indicative of a current requirement of the motor control circuit for an operational cycle of a motor. The processing circuitry is configured to adjust the stored current threshold profile based on a change to the operational cycle of the motor (e.g., from standard to non-standard).

A movable barrier opener system having a multiphase brushless DC motor in the drive assembly is provided. The multiphase brushless DC motor may impart motive force to a movable barrier in response to barrier movement instructions from the barrier operator controller to the drive assembly. The barrier operator controller of the movable barrier opener system is configured to detect a back EMF of at least one winding of the multiphase brushless DC motor and determines a position of the movable barrier and/or determines a torque of the multiphase brushless DC motor in response to the detected back EMF. A position sensor and a back EMF sensor module provides actual operating parameters to the controller.

The invention relates to a drive arrangement for the motorized movement of a tailgate (2) of a motor vehicle, wherein at least one drive unit (3, 4) is provided, having two drive connections (3a, 3b; 4a, 4b) for channeling out drive unit power, wherein a first drive unit (3) is motor and spring-operated and has a drive unit motor (5) as well as a drive unit spring (6), respectively acting on the two drive connections (3a, 3b) associated with the first drive unit (3), wherein the first drive unit (3) comprises a movement sensor (7) for generating a sensor signal, representing movement information regarding a movement between the drive connections (3a, 3b) of the first drive unit (3), wherein a second drive unit (4) is solely spring-operated and has a drive unit spring (8), acting on the two drive connections (4a, 4b) associated with the second drive unit (4), wherein a drive unit controller (9) is provided, which detects a predetermined deviation of the sensor signal (S) of the movement sensor (7) from a predetermined normal signal corresponding to the normal condition as an error condition and upon detecting an error condition carries out an error routine.

A parcel receptacle includes a bottom member, an exterior wall that extends upward from the bottom member and that defines an interior space, and a top member that is coupled with the exterior wall and configured to cover an opening of the receptacle to enclose the parcel within the interior space. The parcel receptacle also includes a lock mechanism that is operably coupled with the top member and the exterior wall. The lock mechanism is lockable to prevent user access to the interior space and is unlockable to enable the top member to be opened to allow user access to the interior space. A vertical lip of the top member overlaps at least a portion of the exterior wall so that a seam between the top member and the exterior wall is covered by the vertical lip.

For controlling a door driven by a motor, in particular a sliding door, the capacitances of at least two capacitive sensor electrodes arranged on a front surface of a door panel of the door are determined independently from one another with regard to a common reference potential, preferably a ground potential. If a change of capacitance for at least one of the sensor electrodes in comparison with at least one further sensor electrode is determined, a signal to stop the motor is generated.

It is provided a door drive device for adjusting a vehicle door relative to a vehicle body comprising an adjustment part, which can be adjusted in an adjustment direction, for transmitting force between the vehicle door and the vehicle body, a drive motor, a gear assembly which couples the drive motor to the adjustment part, and a gear housing which at least partially encloses the gear assembly. An adapter element is connected to the gear housing for fastening the door drive device to the vehicle door or the vehicle body. A sensor apparatus is used to determine a measured value which indicates a force between the vehicle door and the vehicle body.

An opening and closing load device includes a door configured to be openable and closable with respect to an opening in a side of a housing, the housing including a perimeter wall surrounding the opening, a seal member provided on a perimeter of the door or the perimeter wall and configured to seal the opening when the door is closed to sandwich the seal member between the door and the perimeter wall, and a controller configured to adjust an attraction force between the door and the perimeter wall based on a distance between the door and the perimeter wall.

A motor control system comprises a motor control circuit, a non-transitory storage medium and a processing circuitry. The storage medium is configured to store a current threshold profile that is indicative of a current requirement of the motor control circuit for an operational cycle of a motor. The processing circuitry is configured to adjust the stored current threshold profile based on a change to the operational cycle of the motor (e.g., from standard to non-standard).