Abstract: A measuring system having a first magnetic field sensor, an encoder, and an evaluation circuit. The first magnetic field sensor and the second magnetic field sensor and the third magnetic field sensor are connected to the encoder. The evaluation circuit has a logic, which is set up to determine the position of the encoder based on a first measurement signal of a first magnetic field sensor and a second measurement signal of a second magnetic field sensor and a third measurement signal of a third magnetic field sensor.

Abstract: A magnetic field sensor having a support with a top side and a bottom side, whereby a Hall plate is provided on the top side of the support and the Hall plate comprises a carbon-containing layer.

Abstract: There is provided a mobile telephony device, comprising a mobile station that can be connected to a mobile telephony network by using a SIM card. A multiplexer can be connected to the mobile station, the multiplexer holding several SIM cards. An exemplary multiplexer may comprise a first switching component that is configured such that each one of the SIM cards can be connected to the mobile station. The exemplary multiplexer may comprise a second switching component that is configured to switch off the mobile station while one SIM card is being disconnected from the mobile station and another SIM card is being connected to the mobile station.

Abstract: In a method for generating pulse edges, assigned synchronously to the movement of a mechanical part, a magnetic field is generated. At least two measuring signals phase-shifted to one another for the magnetic field are detected. The magnetic field is changed as a function of the movement of the mechanical part in such a way that the measuring signals are modulated. A first measuring signal is compared with at least one first reference value. A second measuring signal is compared with at least one second reference value and/or the value of the first measuring signal is compared with the value of the second measuring signal. When at least one of these comparisons produces an agreement or the result of the relevant comparison changes its sign, a pulse edge is generated.

Abstract: A measuring device for analyzing a lubricant of a bearing. The measuring device has an electromagnetic radiation emitter, a receiving element and a test area that is arranged between the emitter and the receiving element. The measuring device allows for current information on the condition of the lubricant in the bearing to be obtained. At least some sections of the test area are inside the bearing and the receiving element supplies a spectrum of electromagnetic radiation captured by the test area. Also, a bearing and a seal for the bearing and a method for detecting and monitoring the condition of the lubricant of a bearing.

Abstract: The invention relates to an integrated circuit arrangement with connection contacts for the serial exchange of data and/or signals with external components and apparatuses and with a control apparatus and/or a serial interface for the clocked receiving of data by means of a signal voltage on such a connection contact, which voltage is modulated between at least one low, one middle and one high voltage state. The control apparatus and/or the interface are designed in such a manner that data is sent in a sending mode via the connection contact in that the switching apparatus, after having received a slope changing in particular from the middle voltage state into in particular the higher or the lower voltage state, pulls the voltage state into the in particular opposite lower or higher voltage state. Furthermore, the invention relates to an apparatus and a process for operating such a circuit arrangement.

Abstract: A measuring apparatus for detecting a relative movement between at least one magnetic field sensor array integrated into a semiconductor chip and a transmitter for the sensor array is provided. The transmitter and the sensor array are exposed to the magnetic flux of a magnet. The transmitter has teeth that can be moved past the sensor array during the relative movement, or the transmitter has magnet poles that can be moved past the sensor array during the relative movement. The magnetic field sensor includes a differential magnetic field sensor which comprises a first measuring plate and a second measuring plate that are offset in relation to one another in a direction of the relative movement. The magnetic field sensor also includes a sensor element which is designed to measure the absolute magnetic field and comprises a third measuring plate that is arranged between the first measuring plate and the second measuring plate in the direction of the relative movement.

Abstract: The invention relates to an implant in the form of a bone-connecting device with an implant carrier, having at least two structure carriers for stimulating bone growth, the structure carriers can move relative to one another so that, due to a loading of the implant, a relative movement of the structure carriers occurs, the structure carriers furthermore contain structure elements that are arranged so that they define a plurality of partially open intermediate spaces, wherein a volume defined by these intermediate spaces and an immediate environment is deformed by the implant load, and a strain in the intermediate spaces and its immediate environment resulting from the deformation lies in the physiological range for bone growth.

Abstract: A monolithic sensor arrangement includes a housing, a sensor integrated in the housing, and two or three connecting contacts deployed on the housing so as to provide a contact with the sensor. The housing also includes an integrated digital circuit includes a freely programmable digital processor, a program memory and a data memory, which are used to control and/or process the functionalities and/or the measured data of the sensor.

Abstract: A radiotherapy installation is described, with a treatment head which is arranged on a treatment head support and which has an exit port for a beam generated in a beam generator, and with a patient table. The treatment head support is guided on a first rectilinear guide, which is guided on a second rectilinear guide arranged perpendicular to the first rectilinear guide, in order to move the treatment head relative to the patient table during the radiotherapy.

Abstract: Acceleration and/or tilt sensor having a ferromagnetic fluid that is located in a receptacle, and the receptacle constitutes a neutral position for the fluid, and the fluid is permanently magnetized, and a magnetic field detector arrangement is located at the receptacle to detect a displacement of the fluid, wherein a portion of the fluid can be displaced relative to the receptacle from the neutral position to an operating position by an external force while maintaining a continuous surface with the portion of the fluid remaining in the neutral position, and the fluid returns to the neutral position after removal of the external force.

Abstract: An integrated current sensor is provided, having a semiconductor body arranged on a metal substrate, having a first surface with a passivation layer embodied on the first surface and a magnetic field concentrator embodied in a flat manner under the semiconductor body, a first Hall-effect sensor embodied under the passivation layer in the semiconductor body, a second Hall-effect sensor embodied under the passivation layer in the semiconductor body, wherein a first conductor is provided embodied on the first surface between the first Hall-effect sensor and the second Hall-effect sensor, and the magnetic field concentrator is embodied under the first Hall-effect sensor and under the second Hall-effect sensor and under the first conductor.

Abstract: An integrated passive component having a semiconductor body, arranged on a metal substrate and having a first surface, and a plurality of metal surfaces formed on the surface, a passivation layer formed on the surface, an integrated circuit formed near the surface of the semiconductor body, whereby the integrated circuit is connected to metal surfaces via traces formed below the passivation layer, a part of the metal surfaces is connected to pins via bonding wires, and a first coil formed above the passivation layer, whereby the first coil with a plurality of turns has a longitudinal axis formed substantially parallel to the surface of the semiconductor body, and in a lower part of the first coil, said part which is formed substantially parallel to the longitudinal axis of the coil on the surface of the semiconductor body, parts of a plurality of turns are formed as sections of traces.

Abstract: An integrated passive component having a semiconductor body, arranged on a metal substrate and having a first surface, and a plurality of metal surfaces formed on the surface, a passivation layer formed on the surface, an integrated circuit formed near the surface of the semiconductor body, whereby the integrated circuit is connected to metal surfaces via traces formed below the passivation layer, a part of the metal surfaces is connected to pins via bonding wires, a first part of a first coil, the part formed in part above the semiconductor body, whereby the first coil with a plurality of turns has a longitudinal axis formed substantially parallel to the surface of the semiconductor body, and a second part of the first coil is formed below the semiconductor body.

Abstract: An integrated passive component having a semiconductor body, arranged on a metal substrate and having a first surface, and a plurality of metal surfaces formed on the surface, and an integrated circuit formed on the surface of the semiconductor body, whereby the integrated circuit is connected by traces to the metal surfaces, and having a dielectric passivation layer formed on the surface, and the metal surfaces are connected to pins by bonding wires, and a first coil former, formed above the dielectric layer, with a winding, whereby the winding has a first connector and a second connector, and whereby the winding is formed as a wire or litz wire and the first connector of the winding is connected to a first metal surface and the second connector to a second metal surface.

Abstract: A device for increasing the magnetic flux density includes a semiconductor body and a first magnetic sensor integrated into the semiconductor body, whereby a housing section, which forms a cavity, is arranged above the sensor on the semiconductor surface and the cavity is filled with a ferromagnetic material and the material comprises a liquid.

Abstract: Acceleration and/or tilt sensor having a ferromagnetic fluid that is located in a receptacle, and the receptacle constitutes a neutral position for the fluid, and the fluid is permanently magnetized, and a magnetic field detector arrangement is located at the receptacle to detect a displacement of the fluid, wherein a portion of the fluid can be displaced relative to the receptacle from the neutral position to an operating position by an external force while maintaining a continuous surface with the portion of the fluid remaining in the neutral position, and the fluid returns to the neutral position after removal of the external force.

Abstract: In a method for generating pulse edges, assigned synchronously to the movement of a mechanical part, a magnetic field is generated. At least two measuring signals phase-shifted to one another for the magnetic field are detected. The magnetic field is changed as a function of the movement of the mechanical part in such a way that the measuring signals are modulated. A first measuring signal is compared with at least one first reference value. A second measuring signal is compared with at least one second reference value and/or the value of the first measuring signal is compared with the value of the second measuring signal. When at least one of these comparisons produces an agreement or the result of the relevant comparison changes its sign, a pulse edge is generated.

Abstract: A measuring apparatus for detecting a relative movement between at least one magnetic field sensor array integrated into a semiconductor chip and a transmitter for the sensor array is provided. The transmitter and the sensor array are exposed to the magnetic flux of a magnet. The transmitter has teeth that can be moved past the sensor array during the relative movement, or the transmitter has magnet poles that can be moved past the sensor array during the relative movement. The magnetic field sensor includes a differential magnetic field sensor which comprises a first measuring plate and a second measuring plate that are offset in relation to one another in a direction of the relative movement. The magnetic field sensor also includes a sensor element which is designed to measure the absolute magnetic field and comprises a third measuring plate that is arranged between the first measuring plate and the second measuring plate in the direction of the relative movement.

Abstract: In a method for monitoring the function of a sensor module, which has a sensor, by means of the sensor a measurement signal for a physical quantity to be determined is generated and applied to an output terminal in an unchanged form or in processed form—after at least one linear signal processing step and/or at least one nonlinear signal processing step are performed. In addition, a test signal is generated whose spectrum lies substantially outside the spectrum of the measurement signal. The test signal is supplied at a place in the sensor from which it reaches the output terminal in unchanged form or in processed form—after the performance of the at least one linear signal processing step—only in the case of a functional sensor. An output signal present at the output terminal is compared with the test signal and a diagnosis signal is generated, which indicates whether the test signal is present at the output terminal.