Patent Application Titled "Circuit Arrangement for Detecting and Digitizing an Analog Input Signal, and Field Device for Process Instrumentation" Published Online
No assignee for this patent application has been made.
Reporters obtained the following quote from the background information supplied by the inventors: "The invention relates to a circuit arrangement for detecting and digitizing an analog input signal having a first electronics unit to which the analog input signal is connected, having a second electronics unit for outputting a digital value representing the level of the analog input signal, and having an interface for galvanically separating the two electronics units. In addition, the invention relates to a field device for process instrumentation, where the field device includes such a circuit arrangement.
"Automation technology frequently employs field devices for process instrumentation, which are used, for example, for detecting and/or influencing process variables, and which are connected to each other via an automation network for exchanging data. Field devices that detect a physical or chemical quantity as a process variable are frequently referred to as transducers, because they convert the respective quantity into a measured value, which they output, for example, to a higher-order control station or as an actual value to a controller for further processing. Examples of such transducers are transducers for filling level, mass rate of flow, pressure, temperature, pH value or conductivity.
"A field device for process instrumentation can be divided into a sensor that converts the physical or chemical quantity to be detected into an analog electrical input signal, a first electronics unit to which the analog input signal is connected, and a second electronics unit in which, for example, a characteristic curve calibration is performed and that is galvanically isolated from the first electronics unit by an interface.
"After determining a digital value representing the level of the analog input signal, a measured value corresponding to it is output, for example, via a 4 to 20 mA interface with or without data communication according to the HART protocol or via another fieldbus, for example, PROFIBUS or PROFINET, for further processing within the automation system. If the auxiliary power required for operating the field device is provided via the communication interface of the second electronics unit, a portion of the auxiliary power must be routed via the interface for galvanic isolation, for example, with the aid of an isolation transformer or via capacitors, to the first electronics unit to supply the field device with power.
"One problem when transmitting an analog input signal via a galvanically isolated interface is that a galvanically isolated transmission of an analog signal is always associated with a relatively high loss of accuracy. In order to circumvent this problem, it is possible, for example, to provide an analog/digital conversion in the first electronics unit with respect to a reference voltage, to convert the analog signal into digital form. The converted signal can then be routed to the second electronics unit in digital form via a serial interface of a microcontroller with the aid of an optocoupler or alternatively via a capacitive or inductive link. However, the use of such components would cause high power consumption in the first electronics unit and would likewise entail high component costs. There would also be the relatively high cost of developing suitable firmware for the microcontroller of the first electronics unit, on which high demands for reliability would be placed, because communication between the microcontroller in the first electronics unit and a microcontroller in the second electronics unit would always have to be maintained even if
In addition to obtaining background information on this patent application, VerticalNews editors also obtained the inventors' summary information for this patent application: "It is an object of the present invention to provide a circuit arrangement for detecting and digitizing an analog input signal, as well as a field device for process instrumentation having such a circuit arrangement, through which arrangement the above-described disadvantages are avoided when using a galvanically isolated interface between two electronics units.
"This and other objects and advantages are achieved in accordance with the invention by a circuit arrangement and a field device for process instrumentation by which the information contained in the analog input signal is advantageously transmitted via the interface for galvanic isolation in the form of a frequency and thus practically without loss of accuracy. It is furthermore advantageous that it is possible to omit a microcontroller in the first electronics unit and that the circuit arrangement can thus be implemented at relatively low cost. In addition, the manufacturing costs are favorably affected in that the accuracy of the frequency setting of the first signal in the second electronics unit has no influence on the accuracy of the transmission of the information contained in the analog input signal, because the frequency setting must be stable only for a short time over the period of time of the determination of the measured values.
"To implement the device or components for producing the first signal of the first frequency, additional devices are advantageously not required in many cases, because a microcontroller having a timer, which is normally available in any case and which must merely be programmed accordingly, can be used for this purpose.
"In an especially advantageous further embodiment of the invention, the device for the galvanically isolated transmission of the first signal includes a transformer, which is capable of transmitting both the auxiliary power required for operating the first electronics unit and the frequency information for the first signal simultaneously. To improve the transmission characteristics of the transformer, two push-pull signals of the same frequency are derived from the first signal, which are connected to the input side of the transformer. A second channel for transmitting operating power via the galvanically isolated interface is therefore advantageously not required, thus minimizing the cost of implementation.
"In addition, an especially simple implementation of the first electronics unit is possible if a device for producing the second signal is implemented using a voltage-frequency converter in which a signal of the first frequency is used as a reference frequency for converting the analog input signal into a second frequency that corresponds to the voltage level of the analog input signal. The signal of the first frequency can be derived in the first electronics unit, for example, from the output signal of the transformer.
"After transmitting the second signal of the second frequency to the second electronics unit, a ratiometric measurement of the second frequency, which contains the information about the level of the analog input signal, is performed there, preferably with the aid of a capture timer. Such a ratiometric measurement has the advantage that it is performed virtually automatically by the capture timer of a microcontroller in the second electronics unit and does not require any computing power from it. The measurement of the second frequency is made relative to the first frequency when performing the ratiometric measurement. As a result, additional calculations in the microcontroller are omitted and it is possible to enable a high level of measurement accuracy.
"The use of the new circuit arrangement for detecting and digitizing an analog input signal in a field device for process instrumentation, where galvanic isolation must be provided in the field device between a process connection and an interface for communication within an automation network, is especially advantageous. If a reference voltage is required to produce the analog input signal with the aid of a sensor in the first electronics unit, this reference voltage can easily be produced from the output signal of the transformer that is used for the galvanically isolated transmission of the first signal. If the sensor is used to perform a ratiometric measurement for the physical or chemical quantity as a process variable, such as when using a temperature sensor using a PT100, in which the variable resistance of the sensor element is compared to a reference resistance or, such as when using a resistive pressure sensor, an exact reference voltage is then not required in the first electronics unit. In this case, the field device performs a ratiometric measurement twice: once in the analog range of the sensor, and a second time when evaluating the frequency of the second signal that is transmitted via the galvanically isolated interface. This has an especially advantageous effect on the accuracy achieved using the field device and on the associated cost.
"In accordance with the invention, only digital signals must be conducted via the galvanically isolated interface. As a result, the cost for analog galvanic isolation between the two electronics units is advantageously omitted. With regard to the manufacturing cost, it is also advantageous that it is possible to dispense with a costly digital/analog converter, because the conversion is performed with the aid of the voltage-frequency converter and the ratiometric frequency measurement. In addition, the implementation is characterized by especially low demands on the computing power of a microcontroller.
"Other objects and features of the present invention will become apparent from the following detailed description considered in conjunction with the accompanying drawings. It is to be understood, however, that the drawings are designed solely for purposes of illustration and not as a definition of the limits of the invention, for which reference should be made to the appended claims. It should be further understood that the drawings are not necessarily drawn to scale and that, unless otherwise indicated, they are merely intended to conceptually illustrate the structures and procedures described herein.
BRIEF DESCRIPTION OF THE DRAWINGS
"The invention, as well as arrangements and advantages, are described in detail below using the drawing depicting an embodiment of the invention in which:
"The FIGURE is a schematic block diagram of the circuit arrangement in accordance with the invention."
For more information, see this patent application: Balle, Patrick; Chemisky, Eric. Circuit Arrangement for Detecting and Digitizing an Analog Input Signal, and Field Device for Process Instrumentation. Filed
Keywords for this news article include: Patents, Electronics, Microcontroller.
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