Patent application number | Description | Published |
20090205411 | Device for Determining and/or Monitoring a Process Variable of a Medium - An apparatus for determining and/or monitoring at least one process variable of a medium. The apparatus includes: at least one mechanically oscillatable unit; a driving/receiving unit, which, starting with an electric, excitation signal, excites the mechanically oscillatable unit to execute mechanical oscillations, and which receives the mechanical oscillations of the mechanically oscillatable unit and converts them into an electric, received signal; and an electronics unit, which, starting with the electric, received signal, generates the electric, excitation signal and sends it to the driving/receiving unit. The electronics unit is embodied in such a way that it generates the excitation signal, such that a predeterminable phase difference exists between the excitation signal and the received signal. Present in the electronics unit is at least one all-pass filter for tuning the phase difference. | 08-20-2009 |
20100043554 | APPARATUS FOR ASCERTAINING AND/OR MONITORING A PROCESS VARIABLE OF A MEDIUM - An apparatus including: a mechanically oscillatable unit; an exciting/receiving unit; and an electronics unit having an input amplifier and an output amplifier. The amplification factors of the output amplifier and the input amplifier are tunable. The control unit tunes the amplification factor of the output amplifier as a function of damping of the mechanically oscillatable unit in such a manner that the amplitude of the electrical, input signal lies within an amplitude band and that the amplification factor of the output amplifier decreases in the case of lessened damping by the medium and increases in the case of greater damping by the medium, and the control unit tunes the amplification factor of the output amplifier and the amplification factor of the input amplifier in such a manner that the total amplification factor of the electronics unit equals a predeterminable value. | 02-25-2010 |
20100083750 | APPARATUS FOR ASCERTAINING AND/OR MONITORING A PROCESS VARIABLE OF A MEDIUM - An apparatus for ascertaining and/or monitoring of a process variable of a medium. The apparatus includes: A mechanically oscillatable unit; an exciting/receiving unit, which excites the mechanically oscillatable unit to execute mechanical oscillations and which receives the mechanical oscillations; and an electronics unit, which supplies the exciting/receiving unit with an electrical, output signal, and which receives from the exciting/receiving unit an electrical, input signal. In the electronics unit there is provided an amplifier unit, which amplifies the electrical, input signal to an amplified signal (S | 04-08-2010 |
20100161251 | METHOD FOR DETERMINING AND/OR MONITORING A PROCESS VARIABLE OF A MEDIUM, AND CORRESPONDING APPARATUS - Method for determining and/or monitoring a process variable of a medium, wherein a mechanically oscillatable unit is supplied with an exciter signal wherein a received signal coming from the mechanically oscillatable unit is received, and wherein the exciter signal is produced in such a manner, that a phase difference between the exciter signal and the received signal equals a predeterminable phase value. A criterion for judging the determining of the phase difference between the exciter signal and the received signal, or a signal dependent on the exciter signal or on the received signal, is established; in the case, in which the criterion for judging the determining of the phase difference is fulfilled, tuning of the phase difference is closed-loop controlled; and, in the alternative case, tuning of the phase difference is open-loop controlled. An apparatus associated with the method is also disclosed. | 06-24-2010 |
20110145180 | Diagnostic Method for a Process Automation System - A diagnostic method for a process automation system composed of at least one field device, a control unit, and at least one fieldbus. The following method steps are included: in a learning phase raw data of measured variables, raw data of manipulated variables and/or raw data of state variables are stored. The field devices or the processes as input variables are registered and stored normalized. Moreover, in the learning phase at least one parameter, a measuring condition, at least one parameter of a process state and/or at least one parameter of a field device state as output variable predetermines, which corresponding output variables are the input variables associated with that which is stored, during the learning phase. A neural network formed by the input variables and the associated with output variables, in the learning phase are the causal relationships between the ascertained input variables and the corresponding, specified output variables by a transfer function of the neural network ascertained and stored, in an operating phase is by means of the transfer function from the current raw data the field devices as input variables at least one change of the current measuring condition, the current process state and/or the current field device state ascertained. | 06-16-2011 |
20120144901 | MULTIVARIABLE SENSOR FOR DETERMINING AND/OR MONITORING FILL LEVEL AND DENSITY AND/OR VISCOSITY OF A LIQUID IN A CONTAINER - A multivariable sensor for determining and/or monitoring a predetermined fill level and density and/or viscosity of a liquid in a container. The sensor comprises a measuring tube provided in the container. The measuring tube has at least a first oscillatable segment and a second oscillatable segment, wherein the oscillatable segments have a cross sectional area deviating from a circularly round shape and at least one straight side, wherein on an inner wall of the oscillatable segments, driver/receiving units are placed, which cause the oscillatable segments to execute resonant oscillations. At least one control/evaluation unit is provided, which evaluates frequency and/or phase and/or amplitude of the oscillations and determines therefrom reaching of the predetermined fill level and density and/or viscosity of the liquid. | 06-14-2012 |
20120174665 | Fill-Level Measuring Device - A fill-level measuring device with a membrane, which is placed in such a manner on one of the two end region of a tubular housing that it seals the housing on such end region. An oscillatable unit is placed on the side of the membrane facing away from the housing, with a driver/receiver unit, which is composed of a plurality of piezoelectric elements arranged in a stack. The driver/receiver unit is placed via a pressure screw unit in such a manner in the housing that it oscillates in the direction of the longitudinal axis of the housing between the membrane and the pressure screw unit. The driver/receiver unit excites the oscillatable unit via the membrane to execute oscillations, with a control/evaluation unit, which evaluates amplitude, frequency and/or phase of the oscillations of the oscillatable unit and with a temperature sensor for determining temperature of the medium. The temperature sensor is integrated in a fill-level measuring device element, which is in thermal contact with the medium via the membrane or the housing, wherein the element is so selected that the oscillatable unit oscillates unimpaired by the temperature sensor. | 07-12-2012 |
20140093007 | Method and Apparatus for Communication by Means of a Transformer - A method for communication by means of a transformer, which has at least a primary coil and a secondary coil, which are parts of an oscillatory circuit, wherein the oscillatory circuit is supplied on the primary side with an exciter frequency. For transmission of a signal from the secondary side to the primary side, the inductance of the secondary coil is modulated. A corresponding apparatus for performing the method is likewise provided. | 04-03-2014 |
20140245834 | Vibronic Measuring Device - A vibronic measuring device for determining at least one process variable of a medium. Included are: an oscillatable unit; a transmitting/receiving unit, which, by means of a transmission signal, excites the oscillatable unit to execute mechanical oscillations and receives the mechanical oscillations and converts such into an analog, electrical, received signal; and a control/evaluation unit (MC), which receives the analog, received signal, digitizes such and determines the process variable therefrom and which produces the transmission signal. Between the transmitting/receiving unit and the control/evaluation unit, a controllable amplifier is arranged, which receives the received signal and produces an adapted, received signal, and that the control/evaluation unit determines an amplitude of the received signal and, as a function of the determined amplitude, controls the amplifier in such a manner that the amplitude of the adapted, received signal is adapted to a digitizable voltage range predetermined by the control/evaluation unit. | 09-04-2014 |
20150047428 | Apparatus for Monitoring a Predetermined Fill Level - Apparatus for monitoring a predetermined fill level of a medium in a container, including a mechanically oscillatable unit, a driving/receiving unit for exciting the mechanically oscillatable unit to execute mechanical oscillations and for receiving the oscillations of the mechanically oscillatable unit, and an electronics unit for producing an electrical exciter signal and for evaluating an electrical, received signal. The electronics unit is embodied to excite the mechanically oscillatable unit by means of the driving/receiving unit to execute mechanical oscillations within a fixedly predetermined, narrow frequency band with discrete, sequentially following, exciter frequencies, wherein the frequency band contains the resonant frequency of the mechanically oscillatable unit in the case of an oscillation under standard conditions, and the electronics unit is embodied to detect whether, within the predetermined frequency band an oscillation of the mechanically oscillatable unit occurs, whose amplitude exceeds a predetermined threshold value. | 02-19-2015 |