System for detecting at least one presence of foam of a medium in a bioreactor plant, wherein the system comprises: —a bioreactor plant having at least one disposable container for receiving the medium that may comprise the foam; and—at least two capacitive sensor units which are attached at at least two different situating positions of the bioreactor plant, wherein the capacitive sensor units each comprise at least one electrode system for capacitive measurement and are able to detect the presence of foam at the at least two situating positions on the basis of the capacitive measurement; and wherein the capacitive sensor units are designed to transmit captured data relating to the presence of foam to at least one monitoring unit for monitoring, open-loop and/or closed-loop control of foam formation in the bioreactor plant on the basis of said data.

A touch control display substrate, a touch control display panel, and a touch control display device are provided. The touch control display substrate includes a substrate, a plurality of touch control electrode blocks, a plurality of first touch control switches, a plurality of compensation switches, a plurality of first signal lines, and a plurality of compensation signal lines. Each of the compensation signal lines is connected to one of the compensation switches and one of the touch control electrode blocks. Each of the touch control signal blocks is connected to the first touch control switches by the first signal lines, and is connected to the compensation switches by the compensation signal lines.

An apparatus for sensing a physical attribute is shown, that includes a first track (511) defining a first electrode on a substrate (512), a second track (513) defining a second electrode on said substrate and an active film (514) in cooperation with a first sensor portion (516) of the first electrode and a second sensor portion (517) of the second electrode. The second electrode includes a first extended portion (517) to establish a first additional resistance not cooperating with the active film.

A method is provided for operating a hand-held machine tool including a drive device, with a control device for actuating the drive device and at least two capacitive sensor elements operatively connected to the control device being provided. The method includes the following method steps of determining a first and second electrical charge of the first and second sensor element comparing the determined first electrical charge with a defined first threshold value and the determined second electrical charge with a defined second threshold value which differs from the first threshold value; enabling, via the control device, the actuation of the drive device when the first electrical charge is greater than the defined first threshold value and/or the second electrical charge is greater than the defined second threshold value. A machine tool for carrying out a method of this kind is also described.

In a door handle sensor system, a door handle device includes an electrostatic sensor to detect the user with respect to a door handle, and a pressure sensor to detect the operating force applied to the door handle. A control device determines whether the position of an operation is in a first end section, a second end section, or a center section of the door handle, and controls an unlatched state based on the determination result and the value detected by the pressure sensor. The electrostatic sensor includes a first electrode including multiple first electrode parts and a second electrode including multiple second electrode parts arranged alternately with the first electrode parts. The first electrode part other than the endmost first electrode part in the first direction and the second electrode part other than the endmost second electrode part in the first direction are arranged in the center section.

A joystick for operating utility vehicles is provided. The joystick has a handle area, and the handle area has a substance-to-substance connection to a support element. At least three conductor elements are arranged on the support element. At least one conductor element is designed as a heating element, one conductor element is designed as a temperature sensor element, and one conductor element is designed as a touch-sensing element.

The present invention discloses a 3D touch control-based automobile seat adjustment switch, including an insulating cover plate, a touch sensor, a base, a feedback module, a circuit board, and a module assembly cover plate. A plurality of protruding or recessed touch control regions are arranged on the insulating cover plate. A plurality of independent touch sensors are attached to the plurality of touch control regions on the insulating cover plate, to form a 3D touch assembly, and the plurality of touch sensors are all connected to the circuit board. The circuit board is assembled on the module assembly cover plate, the module assembly cover plate and the feedback module are assembled on one surface of the base, the feedback module is connected to the circuit board, and an other surface of the base is assembled on the insulating cover plate. The present invention can control adjustment of an automobile seat by using a 3D touch assembly, thereby satisfying requirements for a reasonable vehicle space arrangement and lightweight accessories.

Disclosed herein are system, apparatus, article of manufacture, method and/or computer program product embodiments, and/or combinations and sub-combinations thereof, for using electrical button matrix scanning techniques to detect remote control buttons pressed by users. An example embodiment operates by detecting, using an electrical matrix scanning technique, an actuated electrical switch corresponding to a remote control action for a media device. The actuated electrical switch includes a first actuated electrode coupled to a first actuated electrical line of an electrical matrix, a second actuated electrode coupled to a second actuated electrical line of the electrical matrix, and a third actuated electrode coupled to a third actuated electrical line of the electrical matrix. In response to detecting the actuated electrical switch, the example embodiment operates by triggering an execution of the remote control action corresponding to the actuated electrical switch.

The invention describes an electrical component (10) which at least comprises a section (12) configured as a sensor (sensor section) made of concrete and which contains electrically conductive aggregates (22) which are present in a region (24) near the surface of at least one outer surface (20) of the section (12) in a higher spatial density than in the remaining section (12). In addition, a method for its production and a use of the component (10) are described.

The present invention relates to a moving equipment, such as in a medical examination system. In order to provide a facilitated way of moving equipment with high accuracy, a driving device (10) for moving equipment is provided, comprising a motor-driven positioning unit (12), a central processing unit (14), and a user interface (16) with at least one sensor unit (18). The motor-driven positioning unit is configured to carry out a movement (M) of movable equipment. Further, the central processing unit is configured to control the movement of the equipment provided by the motor-driven positioning unit. The at least one sensor unit comprises at least one touch sensitive area (20), and the at least one sensor unit is configured to provide control signals (22) to the central processing unit in dependency from a force (F) applied by a user to the at least one touch sensitive area. Still further, the at least one sensor unit is configured to be fixedly attached to the movable equipment.