DE10158745A1 - Arrangement with a transmitter and at least one transmitter, which are connected to a process control via a fieldbus - Google Patents

Abstract

A process automation system contains a transmitter and at least one transmitter, which are jointly connected to a process controller via a fieldbus, at least the transmitter communicating with the process controller using a master-slave transmission method. DOLLAR A To simplify the measurement signal processing, it is provided that the at least one transmitter (6) communicates with the transmitter (1) immediately according to a slave-slave transmission method and that the transmitter (1) contains a measurement signal processing device (3) which contains a The measured variable detected by the transmitter (1) is processed as a function of a measured value transmitted by the at least one transmitter (6) to form a communicable signal to the process controller (master 5). The measurement signal conditioning that takes place depending on the measured value is used, for. B. compensation or calibration purposes or the calculation of new measurement signals.

Description

Arrangement with a transmitter and at least one Transducers that are shared with a Process control are connected.

In known process automation systems are in decentralized peripheral field devices, including Transmitter, together with a decentralized process control and Operation and monitoring via fieldbuses with each other connected, with different fieldbuses via bus couplers can be connected. The fieldbuses can again via coupling devices at a central Plant bus to which a central is connected Process control and operation and monitoring are connected. Communication between the field devices and the Process control is based on the master-slave principle; d. H. it gives an excellent one in process control Device, the master that operates the fieldbus, which it assigned slaves (field devices) and cyclically Company carries out the data exchange. The master sends a telegram with output data to the slave, whereupon the slave the master with its input data, such as B. Measured values responds. The master then addresses the next slave and this answers in the same way.

A relatively new function in the "Profibus" fieldbus is so-called slave-slave communication, also called Data traffic is called. The master sends in as usual a telegram with its output data to one Slave. Is this slave within the scope of the fieldbus configuration as cross-traffic transmitter (publisher) has been determined, so the slave answers with its input data in one Broadcast message. This allows all other participants on Listen to the fieldbus of this telegram. The one in the telegram However, the data contained can only be obtained from those slaves evaluated with regard to the publisher as Cross-traffic receivers (subscribers) have been configured. As Subscribers can therefore only use intelligent field devices own preprocessing can be used because these devices who must be able to process cross-traffic information. The advantages of slave-slave communication are: Relief of the master and in shortening the time for the Data transmission because the data exchange is immediate between the slaves and not via the detour via the master he follows. Another advantage is that the data cross traffic no additional telegram required. The bus cycle does not extend significantly; a mix of master Slave and cross traffic relationships are possible. It So far, the possibilities of Use cross-data traffic for drive controls. So can for example, the signal from a limit switch on a decentralized input / output peripherals is connected via the cross traffic can be transmitted directly to a drive switch it off with the least possible delay. It is also known, actual values on cross traffic directly to a controller for a drive.

In the case of transmitters, it may be necessary to use the measurement signal for example for compensation purposes, such as. B. Temperature compensation, depending on other measured values, e.g. B. Temperature, process. These other measured values can by means of additional sensors, e.g. B. temperature sensor on the Transmitter, e.g. B. pressure transmitter, what however, is complex and increases the cost of the transmitter. It is also known the additional readings with transducers, For example, other transmitters, to record and over to transmit the fieldbus to a master device which is controlled by the Transmitter receives the unprepared measurement signal and this is processed depending on the measured values. Alternatively, the master can use the measured values and the measurement signal Send measurement signal processing to another slave then the processed measurement signal to request. Finally, it is known to have separate readings Transfer lines directly between field devices, why this additional digital or analog input / output Need interfaces. All of these measures require a high level of programming or construction Expenditure.

The invention is based, which Measurement signal processing in a process automation system simplify.

According to the invention, the object is achieved by a Arrangement with a transmitter and at least one Transducers that are shared with a Process control are connected, at least the transmitter with process control after a Master-slave transmission method communicates, the at least one Transmitter with the transmitter immediately after a slave Slave transmission method communicates and where the Transmitter contains a measurement signal processing device that a measured variable as a function of the transducer from one of the at least one transmitter Measured value transmitted to the process control communicable measurement signal processed. At least one Depending on the application, the sensor can be one another transmitter or a limit switch. The arrangement according to the invention advantageously allows in the transmitter itself a measurement signal processing in Dependency on at least one from outside in cross-data traffic transmitted measured value.

For compensation purposes, for example Temperature compensation, the at least one sensor delivers one Measured value, e.g. B. temperature reading, of which the of the The measured variable is dependent on the transmitter Measurement signal processing device contains one Compensation device for compensating the influence of the measured value on the measurement signal.

For calibration purposes, the at least one Transmitter a reference reading; the Measurement signal processing device contains a calibration device for Calibration of the measurement signal processing using the Reference reading.

Finally, the at least one sensor can at least a measured value, e.g. B. temperature and absolute pressure, from and the measurement signal of the transmitter, e.g. B. Differential pressure across a cross-sectional constriction of a Flow tube, a computing device in the Measurement signal processing device a new measurement signal for one of the Measured variable various new measured variable, e.g. B. flow rate, calculated.

Compensation, calibration and calculation of new measurement signals can be hard- or individually or in combination with each other be implemented in software in the transmitter.

To further explain the invention, the following is based on the figures of the drawing are referred to; show in detail

Fig. 1 shows a first embodiment of the inventive arrangement for reading compensation,

Fig. 2 shows a second embodiment of the arrangement for calibration and

Fig. 3 shows a third embodiment for calculating a new measurement signal for a new measure.

Fig. 1 shows a transmitter 1 , the z. B. measures the pressure in a liquid line 2 . The transmitter 1 contains a measurement signal processing device 3 , in which a measured variable, here the pressure, is processed into a communicable measurement signal. The transmitter 1 is integrated via a fieldbus 4 in a process automation system, of which only one master device 5 is shown here. Communication between transmitter 1 and master 5 is based on the master-slave principle; ie the master 5 operates the fieldbus 4 , parameterizes the slaves assigned to it, here the transmitter 1 and other field devices connected to the fieldbus 4 , and carries out the data exchange in cyclic operation. For this purpose, the master 5 sends the slave 1 a telegram with output data, whereupon the slave 1 responds to the master 5 with its measurement signal.

In the present case, the measurement variable detected by the transmitter 1 and thus the measurement signal from another measurement value, e.g. B. the temperature of the liquid in the liquid line, depending. For this purpose, a transmitter 6 , here a temperature transmitter, is provided, which measures the liquid temperature and is connected to the fieldbus 4 as a slave. The measuring value transmitter 6 delivers the temperature measured value directly to the measuring transducer 1 according to a slave-slave transmission method also referred to as data cross-traffic. Its measurement signal conditioning device 3 contains a compensation device 7 , which compensates for the influence of the measurement value on the measurement signal of the transmitter 1 . In the slave-slave transmission method, the master 5 sends a telegram to the transmitter 6 . This was defined as a cross-traffic transmitter (publisher) as part of the fieldbus configuration and responds with its measured value in a broadcast telegram. This enables all other participants on the fieldbus to listen to this telegram. However, the data contained in the telegram can only be evaluated by those slaves that have been configured as cross-traffic receivers with regard to the publisher; in this case it is the transmitter 1 .

In the exemplary embodiment shown in FIG. 2, the transmitter 10 is a capacitive level meter, which measures the level 11 of a liquid in a container 12 . The transmitter 10 is connected to a master 14 via a fieldbus 13 . Two sensors 15 and 16 are also connected to the fieldbus 13 , and these are limit switches which detect the liquid level 11 at two different levels. The measured values supplied by the two transducers 15 thus represent reference measured values with respect to the liquid level 11 and are transmitted directly to the transmitter 10 according to the slave-slave transmission method, whose measuring signal conditioning device 17 contains a calibration device 18 for calibrating the measuring signal conditioning on the basis of the reference measured values.

Fig. 3 shows, finally, a transmitter 20, which measures the pressure drop (difference pressure) of a liquid through a constriction 21 in a liquid line 22. The transmitter 20 is connected to a field bus 25 , to which a master 26 is also connected, together with two sensors 23 and 24 , one of which measures the absolute pressure of the liquid and the other of which the temperature thereof. The absolute pressure and temperature values 23 and 24, 23 and 24 supplied by the two measuring sensors are transmitted to the slave-slave transmission method directly to the transmitter 20, the measurement signal processing device 27 includes a computing device 28, which from the differential pressure measurement signal, the absolute pressure measured value and the Temperature measured value a flow measurement signal is calculated. The differential pressure transmitter 20 thus works in direct interaction with the sensors 23 and 24 as a flow transmitter.

Claims (4)

1. Arrangement with a transmitter ( 1 , 10 , 20 ) and at least one transmitter ( 6 , 15 , 16 , 23 , 24 ), which together via a fieldbus ( 4 , 13 , 25 ) with a process controller (master 5 , 14 , 25 ), at least the transmitter ( 1 , 10 , 20 ) communicating with the process control (master 5 , 14 , 25 ) according to a master-slave transmission method, the at least one transmitter ( 6 , 15 , 16 , 23 , 24 ) communicates with the transmitter ( 1 , 10 , 20 ) immediately according to a slave-slave transmission method, and wherein the transmitter ( 1 , 10 , 20 ) contains a measurement signal processing device ( 3 , 17 , 27 ) which detects one of the transmitters ( 1 , 10 , 20 ), the measured variable is processed as a function of a measured value transmitted by the at least one transmitter ( 6 , 15 , 16 , 23 , 24 ) to form a communicable signal to the process controller (master 5 , 14 , 25 ). 2. Arrangement according to claim 1, characterized in that the measured variable detected by the transmitter ( 1 ) is dependent on the measured value of the transmitter ( 6 ) and that the measurement signal conditioning device ( 3 ) has a compensation device ( 7 ) for compensating the influence of the measured value on the Contains measurement signal. 3. Arrangement according to claim 1 or 2, characterized in that the measurement value supplied by the at least one measurement value transmitter ( 15 , 16 ) is a reference measurement value and that the measurement signal processing device ( 17 ) contains a calibration device ( 18 ) for calibrating the measurement signal preparation on the basis of the reference measurement value. 4. Arrangement according to one of the preceding claims, characterized in that the measurement signal conditioning device ( 27 ) contains a computing device ( 28 ) which from the measurement signal and the measurement value of the at least one transmitter ( 23 , 24 ) a new measurement signal for a different from the measurement variable new measured variable calculated.