Abstract: A communication device includes a device for mechanically generating a rotational movement that includes a drive rod and a pushbutton for generating a linear movement of the drive rod and at least one gear wheel which, in the event of a linear movement of the drive rod, is set in rotational motion. The device further includes a converter module connected to the movement module that converts the rotational movement into electrical energy, an energy management module connected to the converter module that the electrical energy in line with prespecified boundary conditions, and a transmission module for transmitting information.

Abstract: An electronic component that includes at least one main body composed of ferrite material, at least one coil embedded in the main body, and at least one conductor track which runs on a side of the main body from a bottom side to a top side of the main body configured such that the main body has at least two side surfaces which enclose an angle of less than 180 angular degrees, where the conductor track is arranged in a recess at the transition between the two side surfaces.

Abstract: The invention proposes an induction component produced using thin film technology which can be used for a variety of functions. It contains, on a magnet core with a ring shape, two coil devices which, for their Part, are in turn constructed from at least two coils. The adjacent end windings of adjacent coils are connected to one another and to a common solder pad within each coil device. This makes it possible to connect individual coils and thus to utilize different functions of the induction component.

Abstract: A communication device proposed by the invention comprises, in a modularly assembled design, a first module for generating a mechanical rotary motion, the rotational energy of which is converted into electrical energy by a second module, namely a converter module. A third module is a transmitter module which is supplied with and driven by energy from the converter module.

Abstract: The invention relates to an electronic component having at least one main body composed of ferrite material, at least one coil embedded in the main body, and at least one conductor track which runs on a side of the main body from a bottom side to a top side of the main body, wherein the main body has at least two side surfaces which enclose an angle of less than 180°, and wherein the conductor track is arranged in a recess at the transition between the two side surfaces.

Abstract: A communication device containing a device, which is in the form of a movement module, for mechanically generating a rotational movement, wherein the movement module is provided with a drive rod and a pushbutton (2) for generating a linear movement of the drive rod and also with at least one gear wheel which acts on the drive rod and, in the event of a linear movement of the drive rod, is set in rotational motion, a converter module which is connected to the movement module, wherein the converter module converts the rotational movement which is generated in the movement module into electrical energy, an energy management module, which is connected to the converter module, for providing electrical energy in line with prespecified boundary conditions based on the electrical energy which is provided by the converter module, and a transmission module for transmitting information.

Abstract: A magnetic core for an inductive component is produced by thin-film technology, wherein the magnetic core consists of at least two different magnetic materials.

Abstract: A communication device proposed by the invention comprises, in a modularly assembled design, a first module for generating a mechanical rotary motion, the rotational energy of which is converted into electrical energy by a second module, namely a converter module. A third module is a transmitter module which is supplied with and driven by energy from the converter module.

Abstract: The invention proposes an induction component produced using thin film technology which can be used for a variety of functions. It contains, on a magnet core with a ring shape, two coil devices which, for their Part, are in turn constructed from at least two coils. The adjacent end windings of adjacent coils are connected to one another and to a common solder pad within each coil device. This makes it possible to connect individual coils and thus to utilize different functions of the induction component.