DE102008045314A1 - Method for operating a device of process automation technology - Google Patents

Abstract

The present invention relates to a method for operating a device (2) of the process automation technology, wherein the device (2) has a digital communication interface (4) for communicating with at least one further device of the process automation technology, a communication unit (6) which is set up such that by these over the digital communication interface (4) telegrams can be transmitted in accordance with a predetermined protocol, and a fault telegram transmitting unit (12) which is in signal connection (14) with the communication unit (6) comprises. If the functionality of the communication unit (6) fails, a signal change is transmitted from the communication unit (6) to the error telegram transmission unit (12). The error telegram transmission unit (12) then sends an error telegram via the digital communication interface (4).

Description

The The present invention relates to a method for operating a Device of process automation technology that is a digital Communication interface for communication with at least one another device of process automation technology and a Communication unit, which is set up so that through this the digital communication interface telegrams according to a predetermined protocol can be transmitted.

In Process automation technology often becomes equipment used, which have a digital communication interface and the via a digital communication connection with at least one further device according to a communicate with the appropriate protocol.

Especially in the field of industrial liquid analysis, sensors are used which are used to detect process variables of a liquid, such as a pH, conductivity, turbidity, oxygen content, chlorine content, sludge level, etc. The sensors used usually have an analogous working part, through which the respective process variable is detected and optionally processed. The value obtained is digitized in an integrally provided in the sensor evaluation and optionally further processed. In use, the respective value is then digitally communicated to a further device of the process automation technology via a digital communication interface of the sensor in accordance with a corresponding protocol. The sensors used in the field of industrial fluid analysis usually communicate via a digital communication interface of the sensor and a corresponding digital communication connection with a transmitter. The digital communication connection is usually designed as a serial point-to-point connection. In the transmitter, the values obtained are processed further. If several sensors are connected to the transmitter, values of different sensors can also be combined during further processing if necessary. The transmitter can in turn via a further digital communication link, such as via a field bus (Profibus ^®, Foundation ^® Fieldbus, HART ^®, etc.) or otherwise network system (z. B. Ethernet ^®), with one or more parent / master unit be connected. Normally, the higher-level units are control systems or control units, such as PLC (Programmable Logic Controller) or PLC (Programmable Logic Controller). The higher-level units serve, among other things, for process control, process visualization, process monitoring and commissioning of the field devices.

In the sensors are each provided with a communication unit, which is set up in such a way that through this over the Digital communication interface Telegrams according to the respective protocol can be transmitted (sendable and receivable) are. In the protocols used to date for communication between a transmitter and a sensor in the industrial sector Fluid analysis usually forms the transmitter a master and the sensor a slave. For the transmission sends the respective values from the sensor to the transmitter Transmitter (master) a corresponding request telegram and the Sensor (slave) sends in response an associated response telegram, in which the requested value (in particular a measured value) is transmitted becomes. The protocols used are at least partially so designed that when an error occurs within the slave or sensor a corresponding error message (in a response telegram) can be transmitted to the master. The master can then react directly to the error message and, if necessary, the Error on a device (eg a process control system), the superior to the process control too the master is, communicate.

problematic is the case where a communication unit of a sensor or generally a slave, which is a device of process automation technology forms, is so defective that in response to a request telegram no telegram via the digital communication interface of the device can be transmitted. In this case is in the master (which is also a device of process automation technology waits) for a predetermined time (eg 500 ms) a request telegram a response telegram is received. After expiration the predetermined time occurs in the master a "timeout" (timeout) Communication, which includes the statement that on the sent request telegram no reply telegram was received. In general, the absence of a response to a request telegram of a master have different causes. For example, already can the request telegram sent by the master had been faulty be so the cause of the absence of a response telegram lies in the area of the master. Furthermore, the case may occur that the relevant sensor is no longer connected to the master and the master therefore receives no response telegram. ever Cause can then respond to a resubmitted request message Answer telegram can be obtained from the relevant slave.

Out For this reason, when a "timeout" occurs, the Communication in the master did not directly determine that relevant slave, in particular its communication unit has failed. Rather, the request telegram is usually again by the Master sent and again to a response telegram of the slave maintained. Only after the occurrence of a predetermined number of consecutive "timeouts" (z. Eg after the occurrence of three or more "timeouts") a failure of the relevant slave is detected in the master. The determination of a failure or defect of a communication unit a slave is therefore only with a considerable time delay possible.

With regard to applications in which high safety requirements are made, such a time-delayed detection of a defective device is disadvantageous. In particular, when a device has to fulfill a certain safety requirement level or a certain safety integrity level (SIL), it may be necessary for a failure or a defect of a communication unit of a device to be detected faster than in the above-described constellation. With regard to safety requirements of devices of process automation technology, in particular the Standard IEC 61508 respectively. DIN EN 61508 relevant. There are four different levels or levels for specifying the security integrity requirements of security features. In particular, it contains, for example, instructions on how a device (in this case the process automation technology) has to be designed, tested and behaving in operation in order to fulfill a certain level of security. An essential criterion with regard to safety requirements is that errors occurring in a device are detected quickly. Furthermore, any errors that may occur are to be communicated as directly as possible to a higher-level device with regard to the process control, so that appropriate measures can quickly be taken to remedy the error or at least initiate the necessary safety precautions.

The above explained problem that a failure of the communication unit a device of process automation technology only with a significant time delay can be detected exists not only with the industrial sensors described above Liquid analysis. Rather, the problem is general in devices of process automation technology, the one digital communication interface and a communication unit, which is set up in such a way that through this over the Digital communication interface Telegrams according to a predetermined protocol can be transmitted.

In particular, this problem generally exists in field devices that serve to detect and / or influence process variables. Sensors, such as level gauges, flowmeters, pressure and temperature measuring devices, pH redox potential measuring devices, conductivity measuring devices, etc., which record the corresponding process variables level, flow, pressure, temperature, pH or conductivity, are used to record process variables. To influence process variables are actuators, such as valves or pumps, via which the flow of a liquid in a pipe section or the level in a container can be changed. In principle, field devices are all devices that are used close to the process and that provide or process process-relevant information. In addition to the sensors and actuators mentioned above, field devices are generally also those units which are connected directly to the field bus and serve for communication with a higher-level unit (eg remote I / Os, gateways, linking devices, etc.). A variety of such field devices is manufactured and sold by the company Endress + Hauser. Alternatively to the above-described serial point-to-point connection, field devices are often also via bus systems (Profibus ^®, Foun dation ^® Fieldbus, HART ^®, etc.) connected to the higher-level units. Even with field devices can generally be a failure of their respective communication unit, which is set up so that they are transmitted via the digital communication interface (fieldbus interface) telegrams according to a corresponding fieldbus protocol, usually found only with a considerable time delay.

Furthermore, the problem does not exist only in devices of process automation technology, which form a slave in relation to a communication with another device and / or can only send the telegrams in response to a request telegram and not independently. Even with devices that can independently send telegrams and send, for example, at predetermined times or in predetermined situations, telegrams to another device with which they communicate via a digital communication link (eg via Ethernet ^® ), a failure of their communication unit in usually only be detected with a significant time delay. Again, the failure of a telegram from the device in question may have different causes, so that not directly in the absence of a telegram failure of the device in question is detected. Rather, a predetermined period of time or a predetermined number of communication cycles is waited until a failure of the device in question is detected.

Accordingly, there is the object of the present invention is a device the process automation technology and a method of operation such a device of process automation technology in which a failure of the communication unit of the Device is quickly detected.

The The object is achieved by a method for operating a device the process automation technology according to claim 1 and by a device of process automation technology solved according to claim 14. advantageous Further developments of the invention are in the subclaims specified.

• A) Übermitteln einer Signaländerung von der Kommunikationseinheit über die Signalverbindung an die Fehlertelegramm-Sendeeinheit bei Ausfall der Funktionsfähigkeit der Kommunikationseinheit; und
• B) Senden eines Fehlertelegramms, durch das ein Ausfall der Kommunikationseinheit angezeigt wird, über die digitale Kommunikationsschnittstelle durch die Fehlertelegramm-Sendeeinheit bei Auftreten einer von der Kommunikationseinheit übermittelten Signaländerung.

According to the present invention, a method is provided for operating a device of the process automation technology, the device having a digital communication interface for communicating with at least one further device of the process automation technology, a communication unit which is set up in such a way that by means of the latter via the digital communication interface Protocol can be transmitted, and a fault telegram transmitting unit, which is in signal communication with the communication unit having. The method has the following steps:

• A) transmission of a signal change from the communication unit via the signal connection to the error telegram transmission unit in case of failure of the functionality of the communication unit; and
• B) sending an error telegram, by which a failure of the communication unit is indicated, via the digital communication interface by the error telegram transmitting unit upon the occurrence of a signal change transmitted by the communication unit.

By the transmission of a signal change from the Communication unit to the error telegram transmission unit in case of failure the functionality of the communication unit and by the sending of an error telegram are in the device itself appropriate mechanisms provided by which directly to the failure pointed the functionality of the communication unit can be. Depending on the protocol, such an error message can, for example immediately after the signal change has occurred (in particular, if the device sends independent telegrams can) or in response to a request telegram of a master (in particular, if the device forms a slave that is not independent Send telegrams) can be sent. Compared to that explained above, passive waiting of several "timeouts" takes place the determination of a failure of functioning the communication unit of a device much faster. Furthermore, the method according to the invention is also in terms of error analysis advantageous, since based on the error message can be closed directly on the cause of the error.

The device of the process automation technology is formed in particular by a sensor of the industrial liquid analysis, which communicates with a transmitter in use ("another device of the process automation technology") via a digital communication connection. The digital communication connection can be formed in particular by a serial point-to-point connection. The device of process automation technology can be generally but also formed by an above-described field device (sensor, actuator, but also a gateway, remote I / O or Linking Device), which in use (via a field bus z. B. Profibus ^®, Foundation ^® Fieldbus, HART ^®, etc.) or a network system (eg. B. Ethernet ^®) with respect to the process control upper device ( "another device of process automation technology"), such as a higher-level unit (controller, PLC, process control system, etc. ), communicates. Furthermore, the device can generally be formed by a device of the process automation technology which, in use, communicates with a higher-level device ("further device of the process automation technology") with respect to the process control, for example supplying a value, in particular a measured value, to the higher-level device. to send and / or to receive commands from the parent device regarding the process control. Depending on the protocol, the device of process automation technology can be designed such that it can independently send messages (e.g., as in a Ethernet ^® -Netzwerksystem). Furthermore, the device of the process automation technology can also be designed as a slave, which can only send an answer telegram in response to a request telegram. The device of the process automation technology can also be designed in such a way that it can both automatically send telegrams and also send an answer telegram in response to a request telegram. The digital communication connection can be formed both by a wired and a wireless communication connection (eg radio).

The communication unit is formed by a unit which is set up in such a way that by means of the latter, telegrams can be transmitted, that is to say sendable and receivable, in accordance with a predetermined protocol via the digital communication interface. Depending on the protocol used, the received telegrams are checked by the communication unit for completeness, for the presence of a transmission error, etc. Furthermore, the contained in the received Telegram men NEN payload extracted by the communication unit or "unpacked" so that they are available in the device and can be processed if necessary. In the reverse direction, user data to be sent are inserted by the communication unit in accordance with the respective protocol into corresponding telegrams or "packaged" and sent via the digital communication interface of the device. The communication unit is designed in particular in the layers 1-7 of the OSI reference model (OSI: Open Systems Interconnection), wherein it can also be formed only in a part of these layers. As a rule, a communication unit has an interface driver and a data processing unit, in particular a CPU (central processing unit). The interface driver is usually formed in the layers 1 and 2 of the OSI reference model, wherein it may be formed only in one of these layers.

One Failure of the functionality of the communication unit occurs when the device passes through the communication unit no more telegrams via the communication interface can ship. The cause can be among other things lie that received request telegrams no longer according to the predetermined rules are received by the communication unit can and / or that user data to be sent by the communication unit no longer inserted in appropriate telegrams and over the digital communication interface can be sent.

The Error telegram transmission unit is designed such that it over the digital communication interface an error telegram (according to the respective Protocol). Are from the device concerned Telegrams as response telegram in response to a respective request telegram sent another device, so is the error message sending unit preferably designed such that it at least in the received Request telegram contained information for the Sending a response telegram to the further device in Response to the request telegram are required evaluates. For example, can they the header or the frame of a telegram (completely or partially). The user data contained in a telegram are preferably not by the error telegram transmitting unit evaluated and not to the device for further processing forwarded.

The another device which receives the error telegram, is informed by the error message that the sending device can no longer send telegrams. In addition, the error message can also contain further information, in particular, more detailed information about the occurred Error of the device, included. The error telegram points preferably a sender address, so that the device, which receives the error telegram, can also recognize, from which device the error telegram was sent. Becomes the error telegram is sent in response to a request telegram, Thus, the error telegram is preferably designed such that for the device which sent the request telegram, It can be seen that the error message has an answer telegram forms the request telegram. The error message can be, for example be specified in the respective protocol. additionally Alternatively, the error message can also be used in information for Device integration of the device in question, in particular in a device description (DD) (English expression: Device Description) and / or in a device driver, such as For example, a DTM (Device Type Manager) described. Another device that has access to this information Device integration can, then upon receipt of such Error telegram interpret this correctly.

The Error telegram can only be sent to a special, additional device be sent. If the error message forms an answer to a Request telegram, then the error telegram is preferably on the other device sent, which is the request telegram sent. Furthermore, it can also be provided that the error telegram to multiple devices, especially in a broadcast mode, is sent. This is particularly advantageous if the Device in which the failure of the communication unit occurred is communicating with multiple devices. Preferably provided that the error telegram at least to a device, the parent in terms of process control is sent.

The signal connection between the communication unit and the error telegram transmission unit is preferably designed such that a signal, in particular a signal change, can be transmitted from the communication unit to the error telegram transmission unit. Preferably, the signal connection is wired, but it can also be wireless, such as via radio, infrared, etc. A signal change can be realized inter alia by the fact that, when the communication unit is functioning, a permanent or also a repeated, in particular periodic, signal is sent from the communication unit to the error telegram transmitter unit and if the functionality of the communication unit fails, the transmission of the signal stops. Such a signal change is technically simple and process reliable realized. Conversely, however, even when the communication unit is functioning, no signal and only in the event of failure of the Functionality a signal from the communication unit to the error telegram transmitting unit to be transmitted. Furthermore, it can also be provided that when the communication unit is functioning, a first signal is transmitted, and in the event of a functional failure of the communication unit, a second signal is transmitted from the communication unit to the error message transmission unit. For example, the first signal may have a first (constant) level and the second signal a second (constant) level, wherein the respective level is easily adjustable by means of a pull-up resistor and / or a pull-down resistor.

According to one advantageous development transmits the communication unit at the same operability over the signal connection a sign of vital signs, in particular through a permanent Signal (for example, a constant or a varying, temporally lasting Signal) is formed to the error telegram transmission unit. As "sign of life signal" is while a signal referred to, as long as the communication unit (as a repeated, in particular periodic signal or preferably as a permanent signal) is sent, as its operability given is. If no signal or only a changed Signal received by the error telegram transmitting unit, so means this, that the functionality of the communication unit has failed. Preferably there is provided at that in case of failure the functionality of the communication unit abort of the vital signs signal.

• C) Übermitteln einer Signaländerung von der Fehlertelegramm-Sendeeinheit über die Signalverbindung an die Kommunikationseinheit bei Ausfall der Funktionsfähigkeit der Fehlertelegramm-Sendeeinheit; und
• D) Senden eines Fehlertelegramms, durch das ein Ausfall der Fehlertelegramm-Sendeeinheit angezeigt wird, über die digitale Kommunikationsschnittstelle durch die Kommunikationseinheit bei Auftreten einer von der Fehlertelegramm-Sendeeinheit übermittelten Signaländerung.

According to an advantageous development, the method has the following steps:

• C) transmitting a signal change from the error telegram transmitting unit via the signal connection to the communication unit in case of failure of the operability of the error telegram transmitting unit; and
• D) sending an error telegram, by which a failure of the error telegram transmission unit is indicated, via the digital communication interface by the communication unit when a signal change transmitted by the error telegram transmission unit occurs.

On This way can also be a failure of the functionality the error telegram transmitting unit actively detected and by sending the corresponding error telegram are reported. This is special advantageous in terms of providing security features. The signal connection is designed such that both about a signal change from the communication unit to the Error telegram transmitting unit as well as a signal change from the error telegram transmitting unit to the communication unit can be transmitted is. Optionally, also two signal connection lines be provided. A failure of the functioning of the Error telegram transmission unit is present in particular then, if this is a failure of the functionality of the communication unit can no longer determine or if this, as above with respect is explained on a failure of the communication unit, no more telegrams via the digital communication interface can send more. To different variants in relation to one signal change which can be transmitted by the error telegram transmission unit, in relation to the formation of the error telegram (by the one Failure of the error telegram transmission unit is displayed) and in Reference to possible other devices to which the Error telegram can be sent to the explanations referenced above to claim 1. The explained to claim 1 Variants can be realized in a corresponding manner.

According to one advantageous development transmits the error telegram transmission unit at the same operability over the signal connection a sign of vital signs, in particular through a permanent Signal is formed, to the communication unit. The sign of life signal can be designed in a corresponding manner, as above with respect to the life signal of the communication unit is explained. Furthermore, the variants mentioned above realizable.

According to one advantageous development is the signal change the absence of a signal, in particular a beacon signal, the transmitted by the communication unit and / or the error telegram transmission unit gets formed. Such a signal change is technically simple and process-reliably feasible.

According to an advantageous development, the vital sign signal transmitted by the communication unit to the error telegram transmission unit is processed by the error telegram transmission unit according to predetermined rules when the error telegram transmission unit is functioning, in particular inverted, and the processed sign of vital signs signal is sent by the error telegram transmission unit the communication unit transmitted as a vital sign signal of the error telegram transmission unit. As a result, the signal connection and the functionality of the error telegram transmission unit can be monitored in a simple manner by the communication unit. If, for example, there is a short-circuit in the signal connection in the area of the error telegram transmission unit, and if the sign-of-life signal received by the communication unit is simply passed unchanged back to the communication unit by the error telegram transmission unit, then a such errors are detected by the communication unit.

According to one advantageous development is the error telegram transmission unit integrally formed in the device. This will make it easier Device construction achieved. Also the signal connection can be in this Case can be realized in a simple way, since they are within the Device runs. According to one advantageous development is the error telegram transmission unit so parallel to the communication unit on the digital communication interface connected, that the error telegram transmitting unit the same Telegrams as the communication unit receives. On this way it is possible for the error telegram transmission unit then, if a request telegram has been received and the functionality the communication unit has failed, a corresponding error message in response to the request telegram. As explained above is, it is preferably provided that the error telegram transmitting unit at least the information contained in the received request message, the for communication with the other device, which the request telegram has been sent are required evaluates. For example, this information is in a header. or a frame (frame) of the telegram are included.

According to one Advantageous further development are the error telegram transmission unit and the communication unit formed on a common board. Preferably, the transmission of a signal change takes place from the communication unit to the error message transmission unit and / or the transmission of a signal change from the Error telegram transmission unit to the communication unit via the board. In this way succeeds a simple, space-saving and cost-effective implementation of the error telegram transmission unit.

According to an advantageous further development of the device over a digital communication link, in particular via a serial link, a field bus (z. B. ^® Profibus, Fieldbus Foundation ^®, HART ^®, etc.) or a network (eg. B. Ehternet ^®), is connected to at least one further device of the process automation technology and communicates in use with this at least one, further device according to a corresponding protocol. Reference is made to the above, explained with respect to claim 1 alternatives.

According to one Advantageous development is an error telegram, by the a failure of the communication unit is displayed and when it occurs a signal change transmitted by the communication unit is sent by the error telegram transmission unit, and / or an error telegram, indicated by the failure of the error telegram transmission unit is and that on the occurrence of one of the error telegram transmitting unit transmitted Signal change sent by the communication unit by the device in response to a request telegram at least one further device of the process automation technology Posted. As explained above, this training is especially advantageous if the device in question only or at least telegrams in response to a respective Request telegram sends. Preferably, the error message is in In this case, at least to the at least one, further device, which sent the request telegram, sent in response.

According to an advantageous development, a fault telegram is displayed by which a failure of the communication unit and which is sent upon the occurrence of a transmitted from the communication unit signal change by the error telegram transmitting unit, and / or an error telegram by which a failure of the error telegram transmitting unit is displayed and which is sent by the communication unit when a signal change transmitted by the error telegram transmission unit occurs, is sent by the device independently, in particular directly after a signal change has occurred. In this way, the occurrence of a failure of the functionality of the communication unit and / or the error telegram transmission unit can be quickly detected and communicated to the outside. An "independent" sending the error message requires that the device in question is designed so that it can send a telegram on its own initiative and not only in response to a request message can send a corresponding response message. This option of an independent sending of telegrams is like, for example, provided with an Ethernet ^® -Netzwerksystem in some protocols. By sending "immediately after the occurrence of a signal change" is meant a sending at the earliest possible time. Nevertheless, a (small) time delay may result from receipt of the signal change, for example, by a device-internal processing time and, depending on the protocol, by a period of time that must be waited by the device until it receives a transmission time to send the telegram , is conditional.

According to an advantageous development, the at least one further device of the process automation technology, with which the device communicates via the digital communication connection in accordance with a corresponding protocol, is superordinate to the device with regard to the process control. In particular with regard to the realization of safety-related functions is advantageous if occurred errors are communicated to a, with respect to the process control higher-level device. In this way, the parent device can quickly take appropriate action to correct the error or at least to initiate the necessary security measures.

According to one advantageous development has / have the communication unit and / or the error telegram transmitting unit each have an interface driver and a processor unit, in particular a CPU (Central Processing Unit; Central processor unit), on. The processor unit is included preferably set up such that it transmits the above-explained transmission of telegrams via the digital communication interface performs. In addition, the processor unit can also have more Have functions. Preferably, the processor unit causes if a malfunction of the associated interface driver occurs a transmission of a signal change from the Communication unit or from the error telegram transmission unit via the signal connection. Preferably, it is further provided that the Processor unit is designed such that even when occurring a malfunction of the processor unit a transmission a signal change from the communication unit or from the error telegram transmitting unit via the signal connection he follows. Is the signal change in an abort of a Signals, such a signal change is particularly easy and process-reliably feasible.

The The present invention further relates to an apparatus of process automation technology, the one digital communication interface for communication with at least one further device of process automation technology and a communication unit, wherein the communication unit is set up so that through this on the digital Communication interface Telegrams according to a predetermined protocol can be transmitted. The device in this case also has a fault telegram transmission unit which is in Signal connection with the communication unit is, the Communication unit is set up so that in case of failure their functioning a signal change of the Communication unit via the signal connection to the Error telegram transmitting unit is transmitted and where the error telegram transmission unit is set up such that it upon occurrence of a communicated by the communication unit Signal change an error telegram that causes a failure the communication unit is displayed via the digital Communication interface sends.

The above with respect to the inventive method explained developments and variants are in corresponding Way also in the device according to the invention the process automation technology feasible. At the specified Procedural steps must be the respective components of the device the process automation technology formed in a similar manner or be set up so that the respective steps are feasible. In particular, according to an advantageous development provided that the error telegram transmitting unit set up in such a way is that in case of failure of their functionality, a signal change of the error telegram transmitting unit via the signal connection is transmitted to the communication unit and that the communication unit is set up so that it is at Occurrence of a transmitted from the error telegram transmitting unit Signal change an error telegram that causes a failure the error telegram transmitting unit is displayed via the digital communication interface sends.

Further Advantages and advantages of the invention result itself with reference to the following description of exemplary embodiments with reference to the attached figures. From the figures demonstrate:

1 : a schematic representation of a device of the process automation technology with a communication unit and a fault telegram transmission unit according to an embodiment of the present invention;

2 a schematic representation of a first variant of an integration of a device according to the invention of the process automation technology in a communication structure with other devices; and

3 : a schematic representation of a second variant of an integration of a device according to the invention of the process automation technology in a communication structure with other devices.

In 1 is schematically a device of process automation technology 2 represented, which is a digital communication interface 4 for communication with at least one further device (not shown) of the process automation technology. The digital communication interface 4 is designed here as a serial communication interface. In particular, the device 2 via the serial communication interface 4 connected to two data lines TxD (transmitted data) and RxD (received data; 2 Receive telegrams via the line RxD and send telegrams via the line TxD.

The device 2 also has a communication unit 6 on, which is set up so that through them via the digital communication interface 4 Telegrams can be sent and received in accordance with a protocol used. The communication interface 4 has an interface driver (not explicitly shown) and a CPU. Telegrams sent via the digital communication interface 4 are received by the communication unit 6 among other things checked for completeness and depending on the protocol, further information contained in a header or frame of the telegram, by the communication unit 6 evaluated. The user data contained in telegrams are extracted or "unpacked" so that they are in the device 2 be available for further processing. This is in 1 schematically by the arrow 8th shown. For the further processing of the user data, a corresponding processor (not shown) may be provided. Alternatively, however, the CPU of the communication unit 6 be designed such that the user data are further processed in this. User data transmitted via the digital communication interface 4 are to be sent in the reverse direction through the communication unit 6 according to the respective protocol inserted into telegrams or "packaged", which in particular the integration of the same into a frame or the addition of a header includes. In the illustrated embodiment, the communication unit receives 6 the user data to be sent from a (not shown) processor of the device 2 as shown schematically by the arrow 10 is shown. Alternatively, in turn, the CPU of the communication unit 6 be designed such that it provides the user data to be sent.

The device 2 also has an integral in the device 2 trained error message transmission unit 12 on. The error telegram transmission unit 12 is so parallel to the communication unit 6 at the serial communication interface 4 connected, that they have the same telegrams as the communication unit 6 receives. This is realized in the present embodiment such that the error telegram transmission unit 12 also on the RxD line, over which the communication unit 6 Telegrams is received, connected. In this case, the user data contained in a received telegram are not transmitted by the error telegram transmission unit 12 evaluated and not to the device 2 forwarded for further processing. Furthermore, the error telegram transmission unit 12 connected to the TxD line, allowing them through the digital communication interface 4 Telegrams, in particular an error message, can send.

The error telegram transmission unit 12 stands with the communication unit 6 in signal connection 14 , The communication unit 6 is set up in such a way that it is connected via the signal connection 14 a permanent beacon signal formed by a square wave signal to the fault telegram transmitting unit 12 transmitted. This is in 1 schematically by the arrow 16 shown. This vital signs signal is transmitted through the communication unit 6 as long as their functionality is given. In case of failure of the functionality of the communication unit 6 the transmission of the vital signs signal is aborted. The error telegram transmission unit 12 is set up in such a way that it detects this signal change and then an error telegram, by which a failure of the communication unit 6 is displayed via the digital communication interface 4 sent.

In the present embodiment, the device 2 formed as a slave, which communicates via the data lines RxD and TxD with another device (not shown), which forms a master. The device 2 is designed such that it can only send telegrams in response to a request telegram of the master. If a functional breakdown of the communication unit occurs 6 sends the error telegram transmission unit 12 an error telegram, by which a failure of the communication unit 6 is displayed as response telegram to a request telegram of the master. The error telegram transmission unit evaluates this 12 at least the information contained in a header or a frame of a request telegram, which are required to be able to send the error message to the master as a response message to the request message.

The error telegram transmission unit 12 is further configured to communicate over the digital communication link 14 a sustained life signal formed by a square wave signal to the communication unit 6 transmitted. This is in 1 schematically by the arrow 18 shown. In this case, the error telegram transmission unit inverts 12 that of the communication unit 6 received vital signs signal and transmits the inverted signal as a beacon signal (the error telegram transmitting unit 12 ) to the communication unit 6 , This vital sign signal (the error telegram transmission unit 12 ) is transmitted by the error telegram transmission unit 12 as long as their functionality is given. In case of failure of the functionality of the error telegram transmission unit 12 the transmission of the vital signs signal is aborted. The communication unit 6 is set up in such a way that it detects this signal change and then an error telegram, by which a failure of the error telegram transmission unit is indicated, via the digital communication interface 4 (to the master). Further, the communication unit 6 set up so that she also checks if that from the error telegram transmission unit 12 obtained sign of life signal the inverted signal from the sign of life signal from the communication unit 6 is transmitted. In this way, the signal connection between the communication unit 6 and the error telegram transmission unit 12 be monitored.

In 2 Three sensors S1, S2 and S3 are shown, each via a serial point-to-point connection 20 . 22 . 24 with a transmitter 26 are connected.

The sensors S1, S2 and S3 form, for example, sensors of industrial liquid analysis. Under a point-to-point connection is understood that in addition to the respective terminals that are connected to the point-to-point connection (here in each case a sensor and the transmitter 26 ) no other devices are connected to the respective connection. The transmitter 26 and the sensors S1, S2 and S3 communicate in accordance with a manufacturer-specific protocol, wherein the transmitter 26 forms a master and the sensors S1, S2 and S3 each form slaves. The sensors S1, S2, S3 can in this case telegrams only as response telegrams in response to a request telegram that they from the master (transmitter 26 ), send. Each of the sensors S1, S2, S3 can be designed as a device according to the invention of the process automation technology, as explained above. As a result, a functional failure of a communication unit can be detected quickly. The transmitter 26 is typically connected via another digital communication link (not shown) to a higher-level process control device such as a controller, etc. If a failure of a communication unit of a sensor occurs, the transmitter can also communicate this error to the higher-level device so that corresponding steps can be initiated.

In 3 are three field devices F1, F2 and F3 via a fieldbus F with a higher-level unit 28 connected. The parent unit 28 forms a master and the field devices F1, F2 and F3 each form slaves. The field devices F1, F2 and F3 can in this case telegrams only as response telegrams in response to request telegrams that they from the master (higher-level unit 28 ), send. Each of the field devices F1, F2 and F3 can be designed as a device according to the invention of process automation technology, as explained above. As a result, a functional failure of a communication unit can be detected quickly. If necessary, the parent unit 28 be connected via a (not shown) digital communication connection with a, with respect to the process control superordinate device. For example, the parent unit 28 be designed as a PLC, which communicates via a corresponding network (eg Ehternet ^® ) with a higher-level process control system.

The The present invention is not limited to those shown in the figures Embodiments limited. Especially becomes "on" (in particular in the claims) not just on "one" (component) But can be used in cases where it is technical makes sense to include several.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited non-patent literature

• - Standard IEC 61508 [0007]
• - DIN EN 61508 [0007]

Claims (15)

Method for operating a device of the process automation technology, which has a digital communication interface ( 4 ) for communication with at least one further device of the process automation technology, a communication unit ( 6 ), which is set up in such a way that through the latter via the digital communication interface ( 4 ) Telegrams can be transmitted in accordance with a predetermined protocol, and an error telegram transmission unit ( 12 ), which are in signal connection ( 14 ) with the communication unit ( 6 ), the method comprising the following steps: A) transmitting a signal change from the communication unit ( 6 ) via the signal connection ( 14 ) to the error telegram transmission unit ( 12 ) in case of failure of the functionality of the communication unit ( 6 ); and B) sending an error telegram, by which a failure of the communication unit ( 6 ) is displayed via the digital communication interface ( 4 ) by the error telegram transmission unit ( 12 ) when one of the communication unit ( 6 ) transmitted signal change. Method according to claim 1, characterized in that the communication unit ( 6 ) at the same operability over the signal connection ( 14 ) a vital sign signal, which is formed in particular by a permanent signal, to the error telegram transmission unit ( 12 ) transmitted. Method according to Claim 1 or 2, characterized by the following steps: C) transmission of a signal change from the error telegram transmission unit ( 12 ) via the signal connection ( 14 ) to the communication unit ( 6 ) in case of failure of the functionality of the error telegram transmission unit ( 12 ); and D) sending an error telegram, by which a failure of the error telegram transmission unit ( 12 ) is displayed via the digital communication interface ( 4 ) by the communication unit ( 6 ) when one of the error telegram transmission unit ( 12 ) transmitted signal change tion. Method according to Claim 3, characterized in that the error telegram transmission unit ( 12 ) at the same operability over the signal connection ( 14 ) a vital sign signal, which is formed in particular by a permanent signal, to the communication unit ( 6 ) transmitted. Method according to one of the preceding claims, characterized in that the signal change is due to the absence of a signal, in particular a beacon signal, transmitted by the communication unit ( 6 ) and / or the error telegram transmission unit ( 12 ) is formed. A method according to claim 4 or 5, characterized in that that of the communication unit ( 6 ) to the error telegram transmission unit ( 12 ) transmitted vital signs signal at operability of the error telegram transmission unit ( 12 ) by the error telegram transmission unit ( 12 ) processed according to predetermined rules, in particular inverted, and the processed sign of life signal from the error telegram transmission unit ( 12 ) to the communication unit ( 6 ) as a vital sign signal of the error telegram transmission unit ( 12 ) is transmitted. Method according to one of the preceding claims, characterized in that the error telegram transmission unit ( 12 ) is formed integrally in the device, in particular in such a way parallel to the communication unit ( 6 ) at the digital communication interface ( 4 ), that the error telegram transmission unit ( 12 ) the same telegrams as the communication unit ( 6 ) receives. Method according to one of the preceding claims, characterized in that the error telegram transmission unit ( 12 ) and the communication unit ( 6 ) are formed on a common board, wherein in particular the transmission of a signal change from the communication unit ( 6 ) to the error telegram transmission unit ( 12 ) and / or the transmission of a signal change from the error telegram transmission unit ( 12 ) to the communication unit ( 6 ) via the board. Method according to one of the preceding claims, characterized in that the device ( 2 ; S1, S2, S3; F1, F2, F3) via a digital communication link (RxD, TxD; 20 . 22 . 24 ; F), in particular via a serial communication link (RxD, TxD; 20 . 22 . 24 ), a fieldbus (F) or a network, with at least one other device ( 26 ; 28 ) the process automation technology is connected and in use with this at least one, further device ( 26 ; 28 ) in accordance with a corresponding protocol. Method according to claim 9, characterized in that an error telegram, by which a failure of the communication unit ( 6 ) is displayed and that when one of the communication unit ( 6 ) transmitted signal change by the error telegram transmission unit ( 12 ) is sent, and / or an error message, by the failure of the error telegram transmitting unit ( 12 ) is displayed and that when one of the error telegram transmission unit ( 12 ) transmitted signal states tion by the communication unit ( 6 ) is sent through the device ( 2 ; S1, S2, S3; F1, F2, F3) in response to a request telegram of at least one further device ( 26 ; 28 ) of the process automation technology is sent. A method according to claim 9 or 10, characterized in that an error message, by which a failure of the communication unit ( 6 ) is displayed and that when one of the communication unit ( 6 ) transmitted signal change by the error telegram transmission unit ( 12 ) is sent, and / or an error message, by the failure of the error telegram transmitting unit ( 12 ) is displayed and that when one of the error telegram transmission unit ( 12 ) transmitted signal change by the communication unit ( 6 ), is sent by the device independently, in particular directly after the occurrence of a signal change; Method according to one of claims 9 to 11, characterized in that the at least one further device ( 26 ; 28 ) the process automation technology with which the device ( 2 ; S1, S2, S3; F1, F2, F3) via the digital communication link (RxD, TxD; 20 . 22 . 24 ; F) according to a corresponding protocol, with respect to the process control superordinate to the device ( 2 ; S1, S2, S3; F1, F2, F3). Method according to one of the preceding claims, characterized in that the communication unit ( 6 ) and / or the error telegram transmission unit ( 12 ) each comprise an interface driver and a processor unit, in particular a CPU (Central Processing Unit), wherein the processor unit transmits a signal change from the communication unit (in particular when a functional failure of the associated interface driver occurs). 6 ) or by the error telegram transmission unit ( 12 ) via the signal connection ( 14 ). Device of process automation technology comprising a digital communication interface ( 4 ) for communication with at least one further device of the process automation technology and a communication unit ( 6 ), wherein the communication unit ( 6 ) is set up such that through the latter via the digital communication interface ( 4 ) Telegrams can be transmitted in accordance with a predetermined protocol, characterized in that the device has an error telegram transmission unit ( 12 ), which are in signal connection ( 14 ) with the communication unit ( 6 ), the communication unit ( 6 ) is set up such that, if its functionality fails, a signal change from the communication unit ( 6 ) via the signal connection ( 14 ) to the error telegram transmission unit ( 12 ) and wherein the error telegram transmission unit ( 12 ) is set up so that when one of the communication unit ( 6 ) transmitted signal change an error telegram, by the failure of the communication unit ( 6 ) is displayed via the digital communication interface ( 4 ) sends. Device of the process automation technology according to claim 14, characterized in that the error telegram transmission unit ( 12 ) is set up such that, if its functionality fails, a signal change from the error telegram transmission unit ( 12 ) via the signal connection ( 14 ) to the communication unit ( 6 ) and that the communication unit ( 6 ) is set up in such a way that, when one of the error telegram transmission units ( 12 ) transmitted an error message, by which a failure of the error telegram transmitting unit ( 12 ) is displayed via the digital communication interface ( 4 ) sends.