A master control device in the configuration of a wand may control pre-programmed aspects of the user's environment using RFID/NFC tags and RFID/NFC readers to initiate pre-programmed behavior in a computer database. This pre-programmed behavior may be the control of items that rely on electricity and/or gas, such as lights, electric fireplaces, electric valves, activating the listening feature on a home assistant, accruing a balance, paying for items with a topped-up balance, and locking and unlocking doors. This master control device can be used in the connected home or business, such as a pub, restaurant, hotel, or immersive experience. A smart home device and/or smart socket may be used with the master control device in order to perform control of a controllable device.

A sense unit for inductive sensing or capacitive sensing is described. The sense unit may include a first terminal coupled to a first node, a first electrode coupled to the first node, and a second terminal. The sense unit may include a second electrode coupled to the second terminal. In a first mode, a first signal is received at the first terminal and a second signal is output on the second terminal, where the second signal may be representative of a capacitance of the sense unit. The sense unit may include an inductive coil. The sense unit may include a first capacitor. The inductive coil and the first capacitor are coupled in parallel between the first node and ground. In a second mode, a third signal is received at the first terminal and a fourth signal is output on the second terminal.

An operating device for a motor vehicle, having a touch-sensitive operating element with a frame element and a central region. The touch-sensitive operating interface has a predetermined operating region at each of at least two predetermined touch positions for activating an operating function assigned to the respective operating region. The operating element is arranged to be displaceable at least partially along a translation axis that intersects the operating interface. The operating device has only one detection element, which is arranged facing an inner side of the touch-sensitive operating element that faces away from the touch-sensitive operating interface, and which is arranged to detect a displacement of each operating region along the translation axis.

The invention relates to a mirror cabinet capable of preventing mirror capacitive touch button from touch misoperation, the mirror cabinet comprises a mirror surface, which comprises a glass layer, a metal plating layer provided on the back of the glass layer, and an uncoated metal layer area is provided on the back of the glass layer, and a capacitive touch panel including a plurality of touch buttons is provided in the uncoated metal layer area; a back of the mirror is also provided with a controller electrically connected to the capacitive touch panel and a high-frequency switching power supply electrically connected to the controller. The mirror cabinet can prevent touch misoperation of the mirror surface capacitive touch button so as to enable a touch system to have good stability.

An apparatus comprises a circuit board having a first conductive pad on a circuit board surface and a conductive overlay, which has a first surface and a second surface opposite the first surface and is configured to deflect in response to a touch on the first surface. A protrusion protrudes from the second surface and is configured to be a second conductive pad. The circuit board, the conductive overlay, and the protrusion are arranged such that the second surface faces the circuit board surface and is separated from the first conductive pad by a first distance. The protrusion and the first conductive pad are separated by a second distance and have an overlapping area. The apparatus may also comprise a spacer configured to separate the first conductive pad from the second surface by the first distance and from the protrusion by the second distance.

A sense unit for inductive sensing or capacitive sensing is described. The sense unit may include a first terminal coupled to a first node, a first electrode coupled to the first node, and a second terminal. The sense unit may include a second electrode coupled to the second terminal. In a first mode, a first signal is received at the first terminal and a second signal is output on the second terminal, where the second signal may be representative of a capacitance of the sense unit. The sense unit may include an inductive coil. The sense unit may include a first capacitor. The inductive coil and the first capacitor are coupled in parallel between the first node and ground. In a second mode, a third signal is received at the first terminal and a fourth signal is output on the second terminal.

The invention relates to a mirror cabinet capable of preventing mirror capacitive touch button from touch missoperation, the mirror cabinet comprises a mirror surface, which comprises a glass layer, a metal plating layer provided on the back of the glass layer, and an uncoated metal layer area is provided on the back of the glass layer, and a capacitive touch panel including a plurality of touch buttons is provided in the uncoated metal layer area; a back of the mirror is also provided with a controller electrically connected to the capacitive touch panel and a high-frequency switching power supply electrically connected to the controller. The mirror cabinet can prevent touch missoperation of the mirror surface capacitive touch button so as to enable a touch system to have good stability.

An embodiment of the present disclosure relates to a method of detection of a touch contact by a sensor including a first step of comparison of a voltage with a first voltage threshold; and a second step of comparison of the voltage with a second voltage threshold, the second step being implemented if the first voltage threshold has been reached within a duration shorter than a first duration threshold, the second voltage threshold being higher than the first voltage threshold.

The present disclosure provides a capacitance detection circuit capable of reducing a chip area. The present disclosure relates to a capacitance detection circuit and an input device. A sense pin of the capacitance detection circuit is connected to a sensor electrode. A first driving unit applies a high voltage or a low voltage to the sense pin. A second driving unit applies the high voltage or the low voltage to a first terminal of a reference capacitor. A third driving unit applies the high voltage or the low voltage to a second terminal of the reference capacitor. A first switch is disposed between the sense pin and the first terminal of the reference capacitor. A second switch is disposed between an input of a post-stage circuit block and the first terminal of the reference capacitor.

Disclosed herein are proximity detection sensor arrangements, as well as related methods and devices. In some embodiments, a sensor arrangement in an electronic device may include a first circuit layer including a proximity pad and a first reference pad, and a second circuit layer including a second reference pad and a temperature pad. The first circuit layer may be between the second circuit layer and a user-facing surface of the electronic device, the first reference pad may be electrically coupled to the second reference pad, and the first reference pad may be between the temperature pad and the user-facing surface.