Patent application number | Description | Published |
20100134199 | APPARATUS AND METHOD FOR PRODUCING SIGNALS CODED WITH AMPLITUDE SHIFT KEYING - An apparatus for coding a signal by means of amplitude shift keying comprises a class E amplifier including a switching transistor, to whose gate is supplied a voltage having an operating frequency for operating the class E amplifier. For achieving an amplitude shift keying in the output signal of the class E amplifier, a circuit for switching the operating frequency of the voltage supplied to the gate of the switching transistor, or the resonance frequency of the class E amplifier, between a first value and a second value is provided and in order to switch a deviation degree between the operating frequency and the resonance frequency between a first value and a second value. | 06-03-2010 |
20100216343 | CABLE CIRCUIT WITH DIGITAL SIGNAL CONDITIONING - A cable circuit for connecting a sensor module to a measurement transmitter. The cable circuit includes a contactless interface for signal transmission between the cable circuit and the sensor module, wherein the sensor module is galvanically isolated from the cable circuit, and wherein signal transmission between the cable circuit and the sensor module occurs on an optical, inductive or capacitive path. Additionally, the cable circuit includes a signal processing unit, as well as a cable interface for connecting a cable, which connects the cable circuit with the measurement transmitter. The signal processing unit is integrated into the signal path. The signal processing unit is embodied to receive, via the cable interface, signals from the measurement transmitter, to condition them and to transmit them via the contactless interface to the sensor module, and to receive, via the contactless interface, signals from the sensor module, to condition them and to transmit them via the cable interface to the measurement transmitter. | 08-26-2010 |
20100283327 | METHOD AND APPARATUS FOR TRANSMISSION OF ENERGY AND DATA - In a method and in an apparatus for transmission of energy and data, with a primary side, on which an amplifier is arranged, with a secondary side, on which a data source, e.g. a measuring sensor, is arranged, and with a plug-together assembly inductively coupling, galvanically completely isolated, the primary side and the secondary side, to minimize power losses and disturbing influences of fluctuating parameters, power from the plug-together assembly and from the amplifier, preferably a Class-E-amplifier, is controlled to a predeterminable, desired value. For this, a microcontroller taps the primary voltage on the primary winding and produces for the amplifier a controlled operating voltage as well as a controlled operating frequency, in order to keep the working point of the amplifier always in the optimal region. | 11-11-2010 |
20110153259 | MEASURING SYSTEM FOR DETERMINING A VALUE OF A PHYSICAL OR CHEMICAL, MEASURED VARIABLE OF A MEDIUM AND METHOD FOR OPERATION OF THE MEASURING SYSTEM - A measuring system for determining a value of a physical or chemical, measured variable of a medium, comprises: a base unit; at least one relay unit connected with the base unit and a sensor unit connected with the relay unit. The relay unit is especially embodied to receive from the base unit, and to forward to the sensor unit, data, especially measurement data, operating data, commands or software modules, and/or to receive from the sensor unit, and to forward to the base unit, data, especially measurement data, operating data, commands or software modules wherein the sensor unit comprises a circuit having at least one microcontroller, at least a first memory region, in which a basic software of the sensor unit is stored, and a second memory region, in which an upload software of the sensor unit is stored. The upload software of the sensor unit is embodied, in interaction with the microcontroller, to perform an updating of the basic software of the sensor unit with at least one software module provided from the base unit. The relay unit comprises a circuit having at least one microcontroller, and at least a first memory region in which a basic software of the relay unit is stored. The circuit of the relay unit further comprises a second memory region, in which an upload software of the relay unit is stored, which is embodied, in interaction with the microcontroller of the relay unit, to perform an updating of the basic software of the relay unit with at least one software module provided from the base unit, and the upload software of the sensor unit, for execution by the microcontroller of the sensor unit, is activatable based on a comparison of a data sequence sent from the base unit with a first password assigned to the sensor unit, and the upload software of the relay unit, for execution by the microcontroller of the relay unit, is activatable based on a comparison of a data sequence sent from the base unit with a second password assigned to the relay unit. The second password is different from the first password. | 06-23-2011 |
20110204876 | Modular measuring device with distributed data and algorithms - A sensor module includes a sensor element with a transducer for emitting an electric analog primary signal, which depends on a measured value; and a circuit assembly for conditioning the primary signal and for unidirectional data communication of a digital signal, which depends on the primary signal, to a superordinated unit. The circuit assembly has the following components: a signal input for receiving the primary signal, which depends on the measured value; a secondary side, inductively coupling, plug connector element for connection to a primary side, inductively coupling, plug connector element of the superordinated unit for receiving an energy signal and for transferring a measurement signal; an energy supply circuit, which rectifies the energy signal and provides at least one direct voltage for supplying the sensor module components; an analog signal conditioning circuit for conditioning the primary signal to a secondary signal; an analog-digital converter for converting the secondary signal to a digital measurement signal; a modulator for modulating the received energy signal for transferring the measurement signal to a superordinated unit by means of load modulation; and a microcontroller for controlling the components of the circuit assembly. | 08-25-2011 |
20130162268 | Measurement Transmitter with at least one Inductive Interface - A measurement transmitter for receiving and processing measurement data, comprising: a transmitter housing with at least one circuit chamber within the transmitter housing, an electronic circuit, which is arranged in the circuit chamber, for the supply of a sensor and for receiving and processing of measurement data of the sensor via at least one inductively coupling interface, wherein, the inductively coupling interface comprises a plug-in connecting coupling with a first plug-in coupling element on a primary side and a complimentary second plug-in connection element on a secondary side, wherein, the second plug-in connection element is detachably connectable to the first plug-in connection element, and wherein, the first plug-in connection element comprises at least a first inductive coupler in a coupling housing, which is formed hermetically sealed, in particular substance-to-substance bonded to, or formed integrally with, the transmitter housing. | 06-27-2013 |
20130231896 | Cable Circuit with Digital Signal Conditioning - A cable circuit includes a contactless interface for signal transmission between the cable circuit and the sensor module, wherein the sensor module is galvanically isolated from the cable circuit, and wherein signal transmission between the cable circuit and the sensor module occurs on an optical, inductive or capacitive path. Additionally, the cable circuit includes a signal processing unit, as well as a cable interface for connecting a cable, which connects the cable circuit with the measurement transmitter. The signal processing unit is integrated into the signal path. The signal processing unit is embodied to receive, via the cable interface, signals from the measurement transmitter, to condition them and to transmit them via the contactless interface to the sensor module, and to receive, via the contactless interface, signals from the sensor module, to condition them and to transmit them via the cable interface to the measurement transmitter. | 09-05-2013 |