A control device relates to a vehicle having an automatically opening and/or automatically closing lid with at least one control switch in the vicinity of the lid and with a programmable electronic control unit. The control switch may be operated arbitrarily contactlessly in the form of a proximity sensor and when operated generates an operation request signal which is an input signal to the control unit. The control unit is configured in such a manner that defined environmental conditions may be evaluated for the detection of a risk of salinity and humidity and that, given the presence of a risk of salt and water, an appropriate adaptation may be made to the evaluation of the operation request signal. Preferably, at least one outside temperature below a predefined threshold and information indicating the presence of moisture are defined as the environmental conditions to be evaluated for detecting the risk of salt and water.

A device for closing or opening two or more main switches of corresponding electrical power supply circuits of related electrical devices includes a plate having at least two capacitive touch contact areas, and a control circuit configured to control two or more additional switches so that, in the event that only one of the contact areas is touched, only the corresponding main switch is opened or closed, while in the event of a combined touching of at least two of the contact areas, one of the additional switches is opened or closed.

A capacitive intelligent workstation detection system, comprising a capacitance detection sensor (1), a capacitive sensing module (201), a microprocessor module (202), a remote management platform (3) and a mobile APP, the capacitance detection sensor (1) detecting a capacitance change when a human body approaches, and after being processed by the capacitive sensing module (201), the capacitance change being sent to the microprocessor module (202) to form workstation state data, the workstation state data being sent to the remote management platform (3), and the remote management platform (3) processing the workstation state data, so as to obtain user habit data. A user uses the mobile APP to obtain relevant data by means of the remote management platform (3), and sends debugging and control information to a workstation detection device (2). The system uses the capacitive sensing module (201), has a small volume, a good concealment, a beautiful appearance and a flexible design, does not require complex optical and microwave devices and has no mechanical device, is less vulnerable to aging and abrasion, and has a long service life and good consistency. The remote management platform (3) serves as a data management and control center, and the mobile APP provides man-machine bidirectional interaction, so as to implement office electric appliance linkage energy-saving management and personnel management.

A motorized shade for covering an architectural opening that can be actuated by touching its shade material. The motorized shade comprises a shade material extending between an upper end and a lower end and a motor drive unit operably connected to the upper end of the shade material and comprising a motor and a motor control module adapted to control the motor to raise or lower the shade material. The shade material comprises at least partially comprises electrically conductive material. The motor control module comprises a capacitive touch sensor that is electrically connected to the upper end of the shade material via at least one electrical contact. The motor control module is adapted to detect a touch of the shade material via the capacitive touch sensor and in response control the motor to raise or lower the shade material.

A sensor system is configured to control one or more operational functions of one or more components. The sensor system includes one or more protuberances, a first channel defined by the one or more protuberances, a second channel defined by the one or more protuberances, and one or more sensing devices configured to detect one or more actions of an object in relation to one or more of the one or more protuberances, the first channel, or the second channel. The one or more actions of the object are associated with the one or more operational functions of the one or more components.

A proximity switch assembly and method for detecting activation of a proximity switch assembly and tuning the assembly. The assembly includes proximity switches each having a proximity sensor providing a sense activation field and control circuitry processing the activation field to sense activation. The method of tuning includes generating an activation field with a proximity sensor, generating a signal in response to the activation field, detecting noise associated with the signal, and adjusting a parameter based on the detected noise, wherein the parameter is used to detect a proximity state such as activation of the proximity switch.

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 multifunction touch-switch system is provided. The multifunction touch-switch system is configured to control devices (for example LED lighting) by a touch switch. The multifunction touch-switch system may be configured to be waterproof and vibration resistant for use in a marine environment, for example aboard a marine vehicle. The multifunction touch-switch system may be configured to control multiple functions of multiple devices with a single touch sensor. In addition to a controller and a housing for the controller, the multifunction touch-switch system may also comprise an indicator light.

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.

An electronic device for gesture-based lighting control is described. The electronic device includes a touch sensor that detects a gesture input. The electronic device also includes a lighting operation determination module that determines a lighting operation based on the gesture input. The electronic device further includes a lighting operation execution module that executes the lighting operation.