The present invention is a power window sync switch for the windows of a vehicle that permits controlling all windows by a single active home or main control window switch. It permits the driver to move all window panels in the vehicle to the same position at the same time. The power window sync switch sends a signal to a micro-processor within the switch to indicate that the window position selected via the actuated switch is to be applied to all window panels simultaneously. The micro-processor within the switch may then proceed to actuate all window lift motors within the vehicle, causing movement of all window panels to the appropriate positions.

A terminal device that is connected via a cable to a port of a switching device and performs data communication with a master device includes: a plurality of controllers configured to control, in accordance with a control command transmitted from the master device, a plurality of objects to be controlled; and a data transmitter configured to integrate data, transmitted from the plurality of respective controllers, in a transmission format for transmitting data to the master device to transmit the integrated data to the switching device.

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.

Methods and apparatus to wirelessly interlock doors are disclosed. A door system includes a user interface to receive interlock configuration data input from a user, the interlock configuration data to define an interlock condition to be satisfied before a first door is to undergo an operation, the interlock condition associated with a current state of a second door. The door system includes a first wireless transceiver to receive a signal from a second wireless transceiver associated with a second door. The method includes a door operation controller to at least one of (1) implement the operation of the first door in response to a request when the current state of the second door satisfies the interlock condition, (2) ignore the request, or (3) not execute the operation of the first door in response to the request when the current state of the second door does not satisfy the interlock condition.

A non-contact obstacle and gesture detection system and method are disclosed. The system includes first and second electronic control units in communication with one another and obstacle and gesture sensors coupled to the first electronic control unit. First and second power actuators are coupled to the first and second electronic control units for moving first and second closure members, respectively. The first electronic control unit detects the obstacle or gesture using the obstacle and gesture sensors, communicates the detection of the obstacle or gesture to the second electronic control unit, and controls movement of the first closure member using the first power actuator. The second electronic control unit is configured to request the detection of the obstacle or gesture adjacent the motor vehicle from the first electronic control unit and control movement of the second closure member using the second power actuator accordingly.

A barrier operator feature enhancement device is designed to provide one or more features found in modern barrier operator devices and to incorporate those features into a previously installed barrier operator system. To facilitate ease of use, the barrier operator feature enhancement device can communicate with a large variety of barrier operators. Such communication may be wireless or wired, depending on the communication protocol implemented by a particular previously installed barrier operator. To facilitate the ease of installation, the device is designed to configure itself to operate with the communication protocol of the previously installed barrier operator. Once configured to be able to communicate with the previously installed barrier operator, the feature enhancement device works with the barrier operator to provide one or more additional features to enhance the capabilities of the previously installed barrier operator.

A vehicle window control system is provided. The vehicle window control system includes a window switch that generates a first signal, a first computer that reads a state of the window switch and generates a second signal, and a second computer that controls movement of the vehicle window based on either the first signal or the second signal. The second computer receives the second signal from the first computer through serial communication and the first signal from the switch portion through a hardwire.

Methods and apparatus to wirelessly interlock doors are disclosed. A door system includes a user interface to receive interlock configuration data input from a user, the interlock configuration data to define an interlock condition to be satisfied before a first door is to undergo an operation, the interlock condition associated with a current state of a second door. The door system includes a first wireless transceiver to receive a signal from a second wireless transceiver associated with a second door. The method includes a door operation controller to at least one of (1) implement the operation of the first door in response to a request when the current state of the second door satisfies the interlock condition, (2) ignore the request, or (3) not execute the operation of the first door in response to the request when the current state of the second door does not satisfy the interlock condition.

A barrier operator feature enhancement device is designed to provide one or more features found in modern barrier operator devices and to incorporate those features into a previously installed barrier operator system. To facilitate ease of use, the barrier operator feature enhancement device can communicate with a large variety of barrier operators. Such communication may be wireless or wired, depending on the communication protocol implemented by a particular previously installed barrier operator. To facilitate the ease of installation, the device is designed to configure itself to operate with the communication protocol of the previously installed barrier operator. Once configured to be able to communicate with the previously installed barrier operator, the feature enhancement device works with the barrier operator to provide one or more additional features to enhance the capabilities of the previously installed barrier operator.

A vehicle includes a powered door having an actuator to move the door between open and closed positions, a transceiver configured to communicate with one or more mobile devices, and an imaging device oriented to capture images in a region proximate to the powered door. A controller processes the captured images and controls the actuator to move the door to the open position when a mobile device is detected proximate the vehicle and a user is detected in the captured images located in a door detection zone. The controller moves the door to the open position when a face of a user is recognized as an authorized user located in the door detection zone. The controller moves the door to the open position when a gait of the user is detected and identifies the gait are indicative of an authorized user located in the door detection zone.