A control module for a generator exercise timer enables a user to conduct generator exercise sessions at intervals longer than predetermined intervals permitted by the manufacturer. The control module can be connected in series with a generator's existing electronic exerciser timer, preferably by disconnecting the existing exerciser timer's wiring harness from the exercise timer and connecting the control module to the exercise timer. The control module can be provided with a connector of its own to which the wiring harness can be connected. The control module includes a latching relay and a non-latching relay that can be operated in such a manner that alternating engine start signals are sent to the generator. Thus, the exercise timer will be effective to exercise the generator at delayed intervals, e.g., every other week rather than every week. The control module includes a pushbutton switch and a visible LED. The switch enables a user to control the state of the latching relay, while the LED indicates to the user whether the latching relay will permit or prevent the next engine start signal from being effective to start the generator.

A light switch network comprises a plurality of light switch units, each comprising a gesture interface to sense a user gesture by receiving at least one gesture signal from a sensing zone, and configured to exchange one or more gesture status signals with at least one other switch unit in the network in relation to the received gesture signal; each switch being enabled, on receiving the gesture signal: in a first mode, to change a designated switch mode and/or state in response to the gesture signal; or in a second mode, to not change the designated switch mode and/or state according to one or more conditions associated with the status signals received from the other switch unit.

A control device having an exterior panel and a control module, where the control module includes a sensor layer, and the exterior panel overlays the sensor layer. The control module is configured to determine one or more characteristics of a touch input, and to select a scene based at least in part on the one or more determined characteristics of the touch input. The control module further controls an operational aspect of each device of the set in accordance with the selected scene.

A method for launching an application and a terminal device are provided. The method includes the following operations. A proximity sensor is started in response to a touch operation of a user detected on a touch display screen of a terminal device when the touch display screen is in a screen-off mode. Existence of an occlusion within a preset distance in front of the touch display screen is detected using the proximity sensor. An application corresponding to the touch operation is launched when no occlusion is detected.

A vehicular operation detecting apparatus includes: sensors provided side by side in a vehicle, and individually outputting detection signals that change when a detection target comes into contact with or approaches the sensors; a computing unit computing a ratio value which is a value of a ratio of a first detection signal to a second detection signal, which are detection signals of a first sensor and a second sensor that are one and another one of the sensors, respectively; an operational direction detection unit detecting a direction of movement of the detection target from the first sensor toward the second sensor if the computed ratio value decreases, and detecting the direction of movement from the second sensor toward the first sensor if the computed ratio value increases; and a drive control unit controlling the driving of an opening and closing body in accordance with the detected direction of movement.

A motorized shade for covering an architectural opening comprising a roller tube and a shade material comprising an upper end attached to the roller tube and a lower end. The shade material at least partially comprises electrically conductive material and the roller tube comprises an electrically conductive material that creates an electrically conductive path between the conductive material of the shade material and the roller tube. The motorized shade further comprises a capacitive touch sensor electrically connected to the roller tube via at least one electrical contact, and a controller electrically connected to the capacitive touch sensor and adapted to detect a touch of the shade material via the capacitive touch sensor and in response generate a command.

A control circuit and a terminal are provided. The control circuit includes a detector, a current-voltage conversion circuit and a control signal generation circuit. The current output end of the detector is connected with the current input end of the current-voltage conversion circuit. The voltage output end of the current-voltage conversion circuit is connected with the voltage input end of the control signal generation circuit. The signal input end of the control signal generation circuit outputs a control signal. The detector detects a state of motion of a detected object and generates at least one current signal according to the state of motion of the detected object. The current-voltage conversion circuit converts the at least one current signal transmitted by the detector to at least one voltage signal. The control signal generation circuit generates the control signal based on a variation rule of the at least one voltage signal transmitted by the current-voltage conversion circuit and a preset control signal generation strategy, and output the control signal.

A touch-sensing electronic device includes a housing having first, second and third touch-sensing surfaces; a substrate extensively disposed under the first, second and third touch-sensing surfaces; sensing electrodes formed on the same substrate, and having capacitance changes in response to touch operations or gestures respectively performed on or over the first, second and third touch-sensing surfaces, wherein the sensing electrodes are grouped into three sensing electrode arrays corresponding to the first, second and third touch-sensing surfaces, respectively; and a controller for generating respective control signals corresponding to the touch operations performed on or over the first, second and third touch-sensing surfaces. At least two of the three sensing electrode arrays have different configurations for performing different sensing operations.

Embodiments of the present invention provide for a system and method for reducing erroneous detection of input command gestures. The method is performed by the system and includes storing a reference time value of when a presence of a human body part is detected by a first sensor and storing a further time value of when a presence of a human body part is detected by a second sensor. The reference time value and further time value are compared to provide a difference value which is used to determine a valid occurrence of an input command gesture.

A motor vehicle has a vehicle part that is designed and configured to be mounted in the exterior area of the motor vehicle. The vehicle part includes at least one sensor electrode of a capacitive proximity sensor. The at least one sensor electrode is disposed on a visible side of the vehicle part. The vehicle part is an underrun guard formed from sheet metal.