A sensor for position determination of a drive system comprising: a magnetic sensor adapted to determine the rotational position of a magnet linked to the drive system; at least one Hall sensor to determine rotational movement and direction of rotation of the magnet; a microcontroller unit for evaluating data of the magnetic sensor and of the Hall sensor; and a rechargeable battery connected to a power supply of the sensor and that represents an alternative power supply, wherein, on a failure of the power supply, the sensor is adapted only to supply the Hall sensor and the microcontroller unit with energy from the rechargeable battery when the Hall sensor does not detect any rotational movement of the magnet and to supply at least one further component of the sensor with energy from the rechargeable battery when the Hall sensor detects a rotational movement of the magnet.

A protection and/or charging assembly includes a power apparatus, a protection housing, a charging apparatus and/or a locking assembly. The power apparatus provides electrical power to components of the protection and/or charging assembly. The protection housing houses one or more personal belongings and/or electronic devices. The charging apparatus receives power from the power apparatus and charges the one or more electronic devices. The locking assembly locks and/or unlocks the protection housing and allows the one or more personal belongings to be stored in an interior of the protection housing.

A powered barrier operator includes an actuator for moving a movable barrier, such as a garage door, a controller for regulating the operation of the actuator, the controller and actuator being adapted to be energized by a primary power supply. The operator further includes a housing enclosing the actuator and controller, and a secondary power supply assembly, which includes a secondary power supply, such as a rechargeable battery, and a carrier removably attachable to an exterior portion of the housing and adapted to retain the secondary power supply. The controller is operatively connectable to the primary power supply and secondary power supply, and configured to be powered by the secondary power supply when the power from the primary power supply is interrupted and be powered by the primary power supply whether or not the controller is operatively connected to the secondary power supply.

A modular garage door opener system and method including a garage door opener having a motor that is configured to be coupled to a garage door to open and close the garage door. The garage door opener includes a first accessory port including a first accessory mounting interface and a second accessory port disposed on the garage door opener including a second accessory mounting interface. An accessory device including a first mounting interface engages the first accessory mounting interface to couple the accessory device to the first accessory port. The accessory device may be disengaged from the first accessory mounting interface and then engage the second accessory mounting interface to couple the accessory device to the second accessory port. Additionally, a second accessory device may engage the first accessory port after disengagement of the accessory device.

A movable barrier opener system having a brushless DC motor is provided. The movable barrier opener system may have a power supply unit with a drive circuit power module and a storage bank. The storage bank may be chargeable by the drive circuit power module and may be connectable to the drive assembly to provide electrical power to the drive assembly to move the movable barrier. The drive circuit power module may be selectably turned on and off to improve efficiency of power consumption by turning off during periods of lowered demand.

An automated sliding panel mechanism is disclosed. An automated sliding panel mechanism including a motor is configured to move a sliding window between a closed position and an open position, and includes a power source providing power to the motor, a rack consisting of rack teeth wherein a portion of the surface of the rack teeth are generally perpendicular to a plane, and a gear rotated by the motor and consisting of gear teeth, wherein the gear teeth are shaped to mesh with the rack teeth.

The present invention relates to a motor vehicle that is equipped with an electrical door closing mechanism, a radio-based signal receiver and a control unit, wherein the door closing mechanism can be actuated after receiving and verifying an access authorization code by electrical signals that are generated by a control unit. The motor vehicle possesses an electrical charging apparatus accessible from the outside so that a signal generator that is provided to generate the access code can be charged from the electrical system of the motor vehicle in the event of an insufficient charge. Furthermore, the invention describes a method for charging a signal generator that can be executed using the device according to the invention.

A motorized window with one or more motors and a frame with a slidable segment is disclosed. A drive system with gears, transmission or worm drive engage with a gear track mounted to the frame or slidable segment. Rotating a first gear in a first rotational direction causes the first gear to pull the slidable segment in a first linear direction. Rotating the first gear in a second rotational direction causes the first gear to pull the slidable segment in a second linear direction. Preferably, a controller controls the operation of the motors. Sensors inform the controller, and user input via a mobile device enables both direct user control and programming of the controller.

Systems and methods for use in the secure recovery of drone delivered packages can include a housing, at least one electromechanically operated door securing access to the housing, and a retractable platform that can electromechanically extend from inside the housing to an area outside the housing when the at least one electromechanically operated door is opened. The retractable platform can serve as a landing pad for a delivery drone and/or as a base onto which a package can be received from a delivery drone. The retractable platform can electromechanically move back into the housing and the door can close after receiving the package. Communications components, alarms, and cameras can also be associated with the housing to facilitate its operation for package recovery and security.

A system for use in the secure recovery, management and storage of a drone can include a housing, at least one electromechanically operated door securing access to the housing and a retractable platform that can electromechanically extend from inside the housing to an area outside the housing when the at least one electromechanically operated door is opened. The retractable platform can serve as a landing pad for a drone and/or as a base onto which a drone can be received. The retractable platform can electromechanically move back into the housing and the door can close after receiving the drone. Communications components, alarms and cameras can also be associated with the housing to facilitate its operation for drone recovery, storage and security.