An electronic wave switch device for controlling a load, the device comprising: a housing assembly including a front cover assembly having a user interface, a back body assembly dimensioned to fit within a standard sized NEMA wall box, and a plurality of terminals configured to be coupled to an AC power source and the load a mounting strap for connection to the standard sized NEMA wall box; and a circuit assembly disposed inside the housing assembly coupled to the plurality of terminals, the circuit assembly comprising a printed circuit board, the printed circuit board including a sensor coupled to a processor, wherein the sensor is configured to receive and detect an input stimulus in response to movement of an object a predetermined distance from the sensor, and wherein the processor is configured to propagate a switch actuation command in response to detecting the input stimulus.

A proximity sensor or switch having a sensing coil, an oscillator connected to the coil, a comparator connected to the oscillator, a reference voltage module connected to the comparator, and an output driver connected to the comparator. The voltage module may incorporate a resistor having an end connected to a high side of a power source, and a digital potentiometer having a first end connected to another end of the resistor and to the comparator, and having a second end connected to a ground side of the power source. The digital potentiometer may have a resistance that is varied with a signal. A variation of the resistance for the digital potentiometer may result in a change of a voltage from the reference voltage module which further changes a switching distance of the proximity switch to a predetermined value.

A proximity switch assembly and method are provided having wrong touch feedback and adaptive learning. The method includes the steps of detecting multiple attempted activations of a proximity switch that is not allowed, and adjusting one or more settings based on the detected multiple attempted activations to provide adaptive learning. The method also includes the steps of detecting an allowed activation of the proximity switch based on the adjusted one or more settings, and performing an action in response to the detected allowed activation. The proximity switch assembly includes one or more user perceived feedback devices for generating user perceived feedback when an attempted activation that is not allowed is detected.

A proximity switch assembly and method are provided having wrong touch feedback and adaptive learning. The method includes the steps of detecting multiple attempted activations of a proximity switch that is not allowed, and adjusting one or more settings based on the detected multiple attempted activations to provide adaptive learning. The method also includes the steps of detecting an allowed activation of the proximity switch based on the adjusted one or more settings, and performing an action in response to the detected allowed activation. The proximity switch assembly includes one or more user perceived feedback devices for generating user perceived feedback when an attempted activation that is not allowed is detected.

Embodiments of a capacitive sensor configuration for proximity detection by a playback device are provided. A example playback device includes a capacitive proximity sensor and a radio frequency (RF) antenna. While a grounding plane of the capacitive proximity sensor is decoupled from a grounding plane of the RF antenna, the playback device determines that the playback device will be rendering audio, and responsively causes the grounding plane of the capacitive proximity sensor to be coupled to the grounding plane of the RF antenna while the playback device is rendering audio.

A proximity switch assembly and method for detecting activation of a proximity switch assembly is provided. The method includes steps of generating activation fields with a plurality of proximity sensors associated with a plurality of proximity switches, monitoring amplitude of a signal generated in response to each of the activation fields, subtracting the smallest signal from each of the other signals, and determining activation of one of the plurality of proximity switches based on the subtracted signals. A proximity sensor assembly and method of suppressing noise for a plurality of proximity sensors is also provided, which includes subtracting the smallest signal from each of other signals associated with a plurality of proximity sensors and determining activation of one of the plurality of proximity sensors based on the subtracted signals.

A capacitive measurement circuit for a capacitive sensing device having a plurality of antenna electrodes includes: a measurement signal voltage source, a remotely controllable switching unit, and a current measurement circuit. The switching unit includes a plurality of ports and switching members that are configured to provide connections between selected ports. The measurement signal voltage source and the current measurement circuit are operatively connected to a distinct port. Each antenna electrode is individually connectable to a distinct port. The switching unit is configured to connect, within a same measurement cycle, each of the antenna electrodes to the voltage output port and the current measurement circuit for loading mode operation. The switching unit is further configured to connect at least one of the antenna electrodes to the voltage output port and at least one other antenna electrode of the antenna electrodes to the current measurement circuit for coupling mode operation.

An electronic module for an inductive sensor apparatus is provided which comprises at least one voltage-controlled current source, a current source port connected to the at least one voltage-controlled current source for providing a voltage-controlled current from the at least one voltage-controlled current source, an adder device, an adder input port connected to the adder device, and an adder output port which is connected to the adder device. The current source port is connectable to an electrical resonant circuit and/or to a coil element. The adder input port is connectable to the current source port or to at least one further coil element. By way of the adder device, an operation of addition and/or subtraction of a voltage applied to the adder input port and at least one offset voltage is performed. An evaluation signal for evaluation by an evaluation device is providable at the adder output port.