A capacitive touch device is described. The device comprises a substrate and a plurality of co-planar capacitive touch switches and conductive tracks connected to the capacitive touch switches disposed directly on a face of the substrate. The capacitive touch switches include first and second capacitive touch switches which are adjacent, separated by a channel and which are electrically isolated from each other. The capacitive touch switches include third and fourth capacitive touch switches which are electrically isolated from the first and second capacitive touch switches, but which are electrically connected to each other by a conductive track which runs through the channel.

A system includes multiple sensors and, for each sensor, a respective sensor controller of multiple sensor controllers. Each sensor controller is configured to implement a respective decimation filter that is configured to generate a single output value from multiple input samples generated by a corresponding sensor of the multiple sensors. The system further includes a master sensor controller of the multiple sensor controllers, which is configured to generate a sync signal upon receiving a threshold number of input samples. Each sensor controller other than the master sensor controller is configured to monitor sync signals generated by the master sensor controller and to provide an output value generated from input samples upon determining that the master sensor controller generated a sync signal.

A module having an input configured to connect a sensor and having an indicator configured to optically indicate a physical state of the sensor. The module is configured to transmit a logical signal associated with the physical state or an inverted logical signal of the sensor to a higher-level unit and to receive a control value from the higher-level unit. The module is configured to evaluate the control value and to determine, on the basis of the control value, whether the value of the logical sensor signal or the inverted logical sensor signal is to be used for the optical indication of the physical state of the sensor.

Systems and methods for determining a touch input are provided. The systems and methods generally include measuring the peak voltage at an electrode over a measurement period and determining a touch input based on the peak voltage. The systems and methods can conserve computing resources by deferring digital signal processing until after a peak electrode capacitance has been sampled. The systems and methods are suitable for capacitive sensors using self-capacitance and capacitive sensors using mutual capacitance. The systems and methods are also suitable for capacitive buttons, track pads, and touch screens, among other implementations.

Systems and methods for determining a touch input are provided. The systems and methods generally include measuring the peak voltage at an electrode over a measurement period and determining a touch input based on the peak voltage. The systems and methods can conserve computing resources by deferring digital signal processing until after a peak electrode capacitance has been sampled. The systems and methods are suitable for capacitive sensors using self-capacitance and capacitive sensors using mutual capacitance. The systems and methods are also suitable for capacitive buttons, track pads, and touch screens, among other implementations.

Systems and methods for determining a touch input are provided. The systems and methods generally include measuring the peak voltage at an electrode over a measurement period and determining a touch input based on the peak voltage. The systems and methods can conserve computing resources by deferring digital signal processing until after a peak electrode capacitance has been sampled. The systems and methods are suitable for capacitive sensors using self-capacitance and capacitive sensors using mutual capacitance. The systems and methods are also suitable for capacitive buttons, track pads, and touch screens, among other implementations.

A security system for a programmable electronic device of a vehicle, the electronic device including an interface that can be used for accessing and/or programming the electronic device by means of an external access. The security system includes a sensor configured to detect a position and/or orientation of the electronic device with respect to the vehicle, and a security module. The security module is configured to determine coincidence based on of the position and/or orientation of the electronic device with respect to the vehicle detected by the sensor and an expected position and/or orientation of the electronic device with respect to the vehicle, and in the event of a detected coincidence prevent access and/or programming of the electronic device.

A communication module is for attachment to a parameterizable switching device. In an embodiment, the switching device includes one or more setting elements for setting parameter values. The communication module, attached at a defined position relative to the switching device, covers one or more of the one or more setting elements.

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 safety system for detecting a body part in a dangerous area of a vehicle, a convertible roof having such a safety system and a corresponding method. The safety system includes at least one sensor node which respectively has a capacitive sensor and a processing unit, wherein the capacitive has at least one electrode and is designed to capture a capacitance change on account of a body part approaching the electrode, and wherein the processing unit is designed to generate capacitance change data on the basis of a capacitance change captured by the capacitive sensor; an evaluation unit which is designed to detect that there is a body part in a dangerous area at least on the basis of received capacitance change data; a data transmission device for transmitting the generated capacitance change data from a sensor node to the evaluation unit.