DE102010030082A1 - Method for operating wireless fieldbus system in process system, involves performing acyclic data exchange in fieldbus system through gateway when super ordinate process control network is initiated - Google Patents

Abstract

The method involves performing cyclic and/or acyclic data exchange among field devices (S1-S5) of a wireless fieldbus system and/or among the field devices and a gateway (G) to communicate with the system. Data transmission rate for communication with the system is determined. Acyclic data exchange in the system is performed through the gateway when a super ordinate process control network (PCN) is initiated. Another data transfer rate for communication with the fieldbus system is determined, where the latter transfer rate is greater than the former transfer rate. An independent claim is also included for a device for operating a wireless fieldbus system in a process system, comprising a field bus interface.

Description

• – zwischen den Teilnehmern des drahtlosen Feldbussystems und/oder
• – zwischen mindestens einem Teilnehmer des drahtlosen Feldbussystems und der Feldbusschnittstelle durchgeführt wird,

wobei für die Kommunikation in dem drahtlosen Feldbussystem eine erste Datenübertragungsrate zur Verfügung gestellt wird.The present invention relates to a method for operating a system of process technology, wherein data is exchanged between a wireless fieldbus system, which consists of several subscribers, and a superordinate communication level via a fieldbus interface, wherein a communication in the wireless fieldbus system by cyclic and / or acyclic data exchange

• Between the participants of the wireless fieldbus system and / or
• Is performed between at least one subscriber of the wireless fieldbus system and the fieldbus interface,

wherein a first data transmission rate is provided for the communication in the wireless fieldbus system.

Furthermore, the invention relates to a computer program product for carrying out the method.

• – zwischen den Teilnehmern des drahtlosen Feldbussystems und/oder
• – zwischen mindestens einem Teilnehmer des drahtlosen Feldbussystems und der Feldbusschnittstelle erfolgt,

weiters umfassend eine Steuereinheit, wobei die Steuereinheit dazu dient, eine Kommunikation in dem drahtlosen Feldbussystem mit einer ersten Datenübertragungsrate bereitzustellen. In drahtlosen Kommunikationsnetzwerken, wie sie heutzutage in Anlagen der Prozesstechnik eingesetzt werden, werden Daten zyklisch und/oder azyklisch zwischen den Teilnehmern eines solchen Netzwerkes ausgetauscht. Als drahtlose Kommunikationsnetzwerke kommen dabei drahtlose Feldbussysteme wie bspw. WirelessHART zum Einsatz. Anhand der Daten, die von den Teilnehmern, bei denen es sich bevorzugt um sog. Feldgeräte handelt, gesendet und/oder empfangen werden, kann die Anlage überwacht und/oder gesteuert werden. Dafür können die von den Teilnehmern übertragenen Daten auch bspw. an eine Leitstelle oder anderweitige Anwendung, die sich in einer übergeordneten Kommunikationsebene, insbesondere einem übergeordneten Kommunikationsnetzwerk, befindet, übertragen werden. Zu diesem Zweck sind aus dem Stand der Technik sog. Feldbusschnittstellen, im Stand der Technik auch als Gateways, Fieldgates, Plant-Access-Points, kurz PAP, etc. bezeichnet, bekannt geworden, die eine Kommunikation zwischen dem drahtlosen Feldbussystem und der übergeordneten Kommunikationsebene ermöglichen.Furthermore, the invention relates to a device for operating a system of the process technology, comprising a fieldbus interface, which is connectable to a higher communication level and to a wireless fieldbus system, which consists of several subscribers, whereby a communication in the wireless fieldbus system by cyclic and / or or acyclic data exchange

• Between the participants of the wireless fieldbus system and / or
• Between at least one subscriber of the wireless fieldbus system and the fieldbus interface,

further comprising a control unit, the control unit serving to provide a communication in the wireless fieldbus system at a first data transmission rate. In wireless communication networks, as they are used today in systems of process technology, data is cyclically and / or acyclically exchanged between the participants of such a network. As wireless communication networks while wireless fieldbus systems such as, for example, WirelessHART are used. On the basis of the data sent and / or received by the subscribers, who are preferably so-called field devices, the system can be monitored and / or controlled. For this purpose, the data transmitted by the subscribers can also be transmitted, for example, to a control center or other application which is located in a superordinate communication level, in particular a superordinate communication network. For this purpose, known from the prior art. Fieldbus interfaces, in the art also referred to as gateways, field gates, plant access points, short PAP, etc., known, which is a communication between the wireless field bus system and the parent communication level enable.

The cyclic data exchange in the wireless fieldbus system takes place on the basis of a predetermined schedule, the so-called. Measuring cycles, according to which a communication with individual or between individual participants takes place. This schedule is managed by a network manager. The network manager is often integrated into the fieldbus interface for this purpose.

In today's wireless fieldbus systems, the communication links possible in the wireless fieldbus system are often provided with preset bandwidths, which typically have limited dynamic adaptability to the requirements of communication during operation.

A typical network topology of a process engineering system may include a single or multiple fieldbus interfaces through which external so-called host applications may access the wireless fieldbus system and its subscribers. The network manager then specifies / distributes the paths in the wireless fieldbus system and the bandwidths between the participants. The host application can be, for example, the "Fieldcare" program from Endress + Hauser, which can access one or more field devices for diagnosis or configuration and maintains point-to-point communication connections in each case.

Such communication links are typically sporadic and are now statically managed by the network manager in terms of bandwidth allocation. This statically allocated bandwidth for communication between the fieldbus interface and the participants of the wireless fieldbus system is often insufficient in today's wireless low-power fieldbus systems, in particular, in order to achieve adequate response times from the subscribers. This may give a user the impression that the application is not operable or only works to a limited extent.

The invention is therefore based on the object of providing an adapted data transmission rate for the data exchange in the wireless fieldbus system.

The object is achieved by a method, a computer program product and a device.

With regard to the method, the object is achieved in that in the event that an acyclic data exchange in the wireless fieldbus system is initiated by the higher level communication via the fieldbus interface, a second data transmission rate for performing the communication in the wireless fieldbus system is provided, which second Data transmission rate is increased compared to the first data transmission rate.

The communication initiated by the higher communication level in the wireless fieldbus system can thereby be carried out with an optimized data transmission rate. To change, d. H. For example, increasing or decreasing the data transmission rate may change the bandwidth of an associated data transmission channel used for the purpose of communication or data transmission in the wireless fieldbus system, i. H. be increased or decreased. As a result, it is then possible to increase the amount of data that is to be transmitted over the data transmission channel within a predetermined time unit, for example. Alternatively, simply the amount of data transmitted within a given unit of time may be changed, i. H. be increased to increase the data transfer rate. Also, for this purpose, the baud rate used for data transmission in the wireless fieldbus system can be changed.

The advantage here is that with existing host applications improved performance for wireless fieldbus systems, especially wireless low-power fieldbus systems, can be achieved. The host application or short application can be a software that is installed and running on a so-called host. The host may be, for example, a computer or other computing device on which the application is installed and / or running. Host and / or host application can be integrated into the higher level communication and connected via the fieldbus interface with the wireless fieldbus system or connectable. The superordinate communication level can be the Internet, for example a company-internal intranet or another Ethernet network. Especially for performing a sporadic diagnosis and / or a configuration that is triggered, for example, by the application in the higher level communication, then the performance can be improved. A change to existing host applications or driver layers is not necessary. The proposed method can therefore be performed independently of the manufacturer of the host application and independently of the host application itself. In addition, energy savings can be achieved by the dynamic allocation of the data transmission rate for external accesses to the wireless fieldbus system. The proposed method can be deposited and / or executed, for example, in a so-called. Wireless gateway, in an IO interface, a network manager and / or a controller for use.

In one embodiment of the method, a request from the higher level of communication is sent to the fieldbus interface, by which request a communication with acyclic data exchange in the fieldbus system is initiated. As already mentioned, such an inquiry can be triggered by the application, which is integrated in the higher-level communication plane and / or uses the higher communication level, in order to communicate with the fieldbus interface and / or the wireless fieldbus system, for example data from the installation to obtain the process technology in which the fieldbus system is located together with its participants for process control and / or monitoring. This can lead to communication, i. H. a data exchange, in particular by means of a command of the protocol used in the wireless field bus system, outside the series of a measurement cycle, d. H. So an acyclic communication, come. In one embodiment of the invention, the second data transmission rate is then made available so that the communication triggered, for example, by means of the command can be carried out in a time that is acceptable to a user.

In a further embodiment of the method, diagnostic and / or configuration data relating to the wireless fieldbus system and / or with respect to a subscriber of the wireless fieldbus system are exchanged by the request from the superordinate communication level. In particular, diagnostic and / or configuration data have a high data volume, which exceeds that of the other data transmitted via the wireless fieldbus system, such as, for example, measured values and / or status information of individual subscribers.

In a further refinement of the method, the acyclic data exchange initiated by the higher-level communication plane via the fieldbus interface is therefore carried out in the wireless fieldbus system at the second data transmission rate. In this embodiment of the invention, the cyclic communication can then take place, for example, at the first data transmission rate. The fieldbus interface can therefore receive a request from the higher-level communication, which triggers an acyclic data transmission in the wireless fieldbus system. While the request according to the protocol used in the higher level of communication to the Fieldbus interface is sent, the acyclic data communication according to the protocol used in the wireless fieldbus system is performed. For this purpose, a corresponding command can be issued, for example, after receiving a request from the higher-level communication level from the fieldbus interface to the wireless fieldbus system.

In a further embodiment of the method, after the end of the acyclic data exchange, the first data transmission rate for the communication in the wireless fieldbus system is again provided and / or used, or after completion of the acyclic data exchange, a third data transmission rate for the communication in the wireless fieldbus system is provided and / or used, wherein the third data transmission rate is less than the second data transmission rate. After carrying out the acyclic communication, it is possible, for example, to return to the data transmission rate originally used in the fieldbus system, with which, for example, the cyclic communication was performed before a request was received from the higher communication level, by which request acyclic communication in the wireless fieldbus system was triggered.

Due to the automatic allocation of data transmission rates, for example, the communication speed can be increased, in particular for sporadic connections, as long as, for example, the application communicates in the higher-level communication level. As a result, the use of existing host applications for wireless fieldbus systems, in particular for wireless low-power fieldbus systems such as, for example, WirelessHART, can be enabled in the first place. After termination of the communication by the host application, the data transmission rate, in particular the bandwidth, can be reduced again in the wireless fieldbus system and thus energy saved or released for further communication connections or further data exchange in the wireless fieldbus system. Another advantage of the proposed invention, particularly with automatic allocation of data transfer rates, is that no user intervention is necessary to improve the performance of the communication. In addition, data transfer rates in the wireless fieldbus system can be allocated in such a way specific and / or depending on the content of the request from the higher communication level.

In a further embodiment of the method, the first or the second data transmission rate is increased or decreased by increasing or decreasing the bandwidth available for the communication. In particular, the entire bandwidth of an available data transmission channel and / or the bandwidth of several data transmission channels can be used.

In a further refinement of the method, the communication in the wireless fieldbus system is managed by a network manager. For example, such a network manager is provided with the WirelessHART standard to configure a corresponding WirelessHART network, i. H. wireless fieldbus system, manage. By means of the network manager, the communication between the participants of the wireless fieldbus system, as well as the administration of the so-called. Routing table and / or the monitoring of the wireless fieldbus system made.

In a further refinement of the method, the data transmission rate between the users of the wireless fieldbus system is managed by the network manager.

In a further embodiment of the method, the network manager is integrated into the fieldbus interface. As a result, the data exchange in the wireless fieldbus system can be managed solely by means of the fieldbus interface without, for example, having to specifically adapt the host application to the present wireless fieldbus system. Alternatively, the network manager can physically at another point of the system, eg. In the backbone, d. H. the parent communication level.

In a further refinement of the method, data is exchanged with the fieldbus interface via at least one application for configuration and / or diagnosis of the wireless fieldbus system and / or a subscriber of the wireless fieldbus system via the higher communication level. As mentioned, the application may be the application "Fieldcare" distributed by the applicant, which is in contact with the fieldbus interface via the higher communication level and via which higher communication level the process-relevant data, i. H. Measured values and / or status information to be exchanged.

In a further embodiment of the method, the application is executed on a data processing unit, which data processing unit is connected to the superordinate communication level. The data processing unit may, for example, be a computer on which the application runs.

In a further embodiment of the method, a communication with acyclic Data exchange in the wireless fieldbus system initiated by an application-triggered request.

In a further embodiment of the method, requests from the higher-level communication level are evaluated by the fieldbus interface, and queries are determined by means of the fieldbus interface, by which a communication with acyclic data exchange in the fieldbus system is initiated by the fieldbus interface.

In a further embodiment of the method, requests from the higher-level communication level are evaluated by means of the fieldbus interface by comparing the received requests with stored requests.

In a further embodiment of the method, the stored requests are recorded in a memory unit of the fieldbus interface.

The deposited requests can z. B. records that contain information about the wireless fieldbus system or the plant of the process technology and are already in the fieldbus interface. The information may, as already mentioned, be measured values and / or status information. If, for example, the data records do not contain the information desired by the application, then u. An acyclic data exchange may be initiated in the wireless fieldbus system, which is then performed in accordance with an embodiment of the present invention at an increased second data transfer rate to obtain the desired data or information.

In a further refinement of the method, data that is cyclically exchanged in the wireless fieldbus system is stored in a memory unit of the fieldbus interface.

In a further refinement of the method, in the case of a request of data exchanged cyclically in the wireless fieldbus system from the higher communication level, the stored cyclic data exchanged in the wireless fieldbus system is made available from the memory unit of the fieldbus interface, while data is exchanged via the wireless fieldbus system during an acyclic data polling becomes.

In a further refinement of the method, at least one further subscriber is used to carry out the data exchange in the wireless fieldbus system between the fieldbus interface and a subscriber of the wireless fieldbus system, which further subscriber is used as a repeater of a communication signal used for data exchange, and also the data transfer rate to the at least a participant serving as a repeater is increased. Due to the distribution of the field devices acting as subscribers in the wireless field bus system, it may be necessary for a command to be issued over exchanges, i. H. Repeater, must be sent to reach a particular subscriber of the wireless fieldbus system. Therefore, if necessary, it is also necessary to change the data transmission rate via the wireless fieldbus system from the fieldbus interface between the subscriber acting as a repeater and between the subscriber acting as a repeater and the subscriber to whom the command is directed; H. increase or decrease as needed.

In a further embodiment of the method, the participants of the wireless fieldbus system, as already mentioned, are field devices. Among field devices are otherwise also z. As sensors, actuators or other locally installed in the system devices to understand.

In a further embodiment of the method, the wireless fieldbus system is a WirelessHART fieldbus system.

With regard to the computer program product, the object is achieved according to the invention by program code means which are loaded into a memory unit and in the execution of which the method according to one of the preceding embodiments is executed.

With regard to the device, the object is achieved according to the invention in that the control unit serves to provide a communication in the wireless fieldbus system at a first or at a second data transmission rate, wherein the second data transmission rate is increased compared to the first data transmission rate, the control unit also serving to: provide the second data transmission rate when communicating with an acyclic data exchange in the wireless fieldbus system initiated by the parent communication layer.

The control unit may, for example, be an electrical and / or electronic unit, in particular a microchip or a microcontroller.

The invention will be explained in more detail with reference to the following drawings. It shows:

1 : a schematic representation of a plant of process technology, and

2 : a schematic representation of a fieldbus interface.

1 shows a schematic representation of a system with a wireless field bus system and a higher communication level. The superordinate communication level consists of a process control network PCN which is connected to a plurality of data processing units or which interconnects a plurality of data processing units. The data processing units can be divided into a first group and a second group. The first group DCS / PLC, SCADA are data processing units on which applications are installed that only process the data cyclically exchanged in the wireless fieldbus system. The second group AMS, FC are data processing units on which applications are installed and / or run that can also initiate and / or process acyclic data queries in the wireless fieldbus system other than cyclically exchanged data in the wireless fieldbus system.

The superordinate communication level PCN and the wireless fieldbus system are connected to one another via a fieldbus interface, hereinafter also referred to as gateway G. The gateway G monitors communication with external host applications AMS, FC for non-cyclic data requests, for example by analyzing the nature of the requested communication packets and comparing them with an existing cache memory. As a result, it is possible to distinguish between requests relating to data or information relating to cyclic or acyclic communication in the wireless fieldbus system.

In today's low-power WSANs (acronym for Wireless Sensor Actuator Network), data that is cyclically exchanged typically involves readings and status information that is sent to the associated gateway G at fixed time intervals without being requested. The bandwidth required to transmit such cyclical data is set during the creation of these so-called measuring cycles. Host applications AMS, FC are in this case supplied with the cyclic data stored in the cache. In order to save energy and time, there is therefore no continuous communication between host application AMS, FC and subscribers S1, S2, S3, S4, S5 in this case. If, for example, the WirelessHART protocol is used in the wireless fieldbus system, the packet content of a request from the higher communication level PCN can be examined for a HART command and a search can be made in the existing cache memory of the gateway G for a suitable response. If no response is stored in the cache memory, the HART command is forwarded directly to the sensor in the wireless fieldbus system. According to one embodiment of the invention, this sporadic communication is detected by the gateway G and requested an increased bandwidth at the network manager WNM to the addressed sensor. The gateway G then monitors the communication between the subscribers S1, S2, S3, S4, S5 and maintains the changed bandwidth as long as necessary. However, as long as the new bandwidth has not been assigned by the network manager WNM, the host or the host application AMS, FC receives the message to wait with the further processing and to send further data packets only after allocation of the bandwidth.

If no data packet is sent to a subscriber S1, S2, S3, S4, S5 in the wireless fieldbus system for a predetermined timeout time, the end of the communication connection is accepted and the bandwidth is released again. Alternatively, the communication end can be detected by analyzing the data packets.

If sufficient bandwidth is not available for all communication links, this is distributed according to the first come first serve principle. Accordingly, parallel communication links must then wait until the bandwidth is made available again by the currently released processes.

2 shows a schematic representation of the structure and operation of a fieldbus interface G. A first communication interface, the backbone interface BI, serves to communicate with the parent communication level PCN. a second communication interface, the wireless access point WAP, is used to communicate with the wireless fieldbus system. Via the operating software or hardware, the so-called Gateway System Application GSA, data can be exchanged between the superordinate communication level PCN and the wireless fieldbus system. The operating hardware and software GSA can be used to monitor the incoming or outgoing data or the data communicated between the higher-level communications layer PCN and the wireless fieldbus system. For this purpose, comparison values are stored in the cache memory. The network manager WNM, by which the wireless field bus system is managed, is also stored in the fieldbus interface G and connected to the operating software or GSA, thus the network manager WNM can be reached / addressed via the fieldbus interface.

LIST OF REFERENCE NUMBERS

G

gateway

S1

first field device

S2

second field device

S3

third field device

S4

fourth field device

S5

fifth field device

DCS / PLC

process Control System

SCADA

Monitor / control system

AMS

Asset Management System

FC

Fieldcare

PCN

Process control network (backbone)

BI

Backbone interface

WNM

Wireless Network Manager

GSA

Gateway System Application

cache

cache

WAP

Wireless access point

Claims (13)

A method for operating a system of process technology, wherein via a fieldbus interface (G) data between a wireless fieldbus system consisting of several participants (S1, S2, S3, S4, S5) and a higher level communication (PCN) are exchanged, wherein a Communication in the wireless fieldbus system by cyclic and / or acyclic data exchange - between the subscribers (S1, S2, S3, S4, S5) of the wireless fieldbus system and / or between at least one subscriber (S1, S2, S3, S4, S5) wireless field bus system and the fieldbus interface (G) is performed, wherein for the communication in the wireless fieldbus system (G) a first data transmission rate is provided, characterized in that, in the case of that of the superordinate communication level (PCN) via the fieldbus interface (G) an acyclic data exchange in the wireless fieldbus system is initiated, a second data transfer rate e.g. ur tion of the communication in the wireless fieldbus system is provided, which second data transmission rate is increased compared to the first data transmission rate. Method according to claim 1, characterized, a request is sent from the higher communication level to the fieldbus interface (G), by which request a communication with acyclic data exchange in the fieldbus system is initiated. Method according to Claim 1 or 2, characterized in that diagnostic and / or configuration data relating to the wireless fieldbus system and / or with regard to a subscriber (S1, S2, S3, S4, S5) are provided by the request from the higher-level communication level (PCN). of the wireless fieldbus system. Method according to one of the preceding claims, characterized, after the end of the acyclic data exchange, the first data transmission rate is again provided and / or used for the communication in the wireless fieldbus system, or that after the end of the acyclic data exchange, a third data transmission rate is provided and / or used for the communication in the wireless fieldbus system, wherein the third data transfer rate is less than the second data transfer rate. Method according to one of the preceding claims, characterized in that the data transmission rate between the subscribers (S1, S2, S3, S4, S5) of the wireless fieldbus system is managed by a network manager (WNM). A method according to claim 5, characterized in that the network manager (WNM) is integrated into the fieldbus interface (G). Method according to one of the preceding claims, characterized in that at least one application (AMS, FC) for the configuration and / or diagnosis of the wireless fieldbus system and / or a subscriber (S1, S2, S3, S4, S5) of the wireless fieldbus system by the parent Communication level (PCN) with the fieldbus interface (G) exchanges data. Method according to one of the preceding claims, characterized, that requests from the higher communication level (PCN) are evaluated by the fieldbus interface (G), and that by means of the fieldbus interface (G) inquiries, by which a communication with acyclic data exchange in the fieldbus system from the fieldbus interface (G) are initiated, are determined. Method according to one of the preceding claims, characterized in that requests from the higher level of communication are evaluated by means of the fieldbus interface, by comparing the received requests with stored requests. Method according to Claim 9, characterized in that the stored requests are recorded in a memory unit (cache) of the fieldbus interface (G). Method according to one of the preceding claims, characterized in that the wireless fieldbus system is a WirelessHART fieldbus system. Computer program product with program code means which are loaded into a memory unit and in the execution of which the method according to one of the preceding claims is executed. Device for operating a system of process technology, comprising a fieldbus interface (G) connectable to a higher level communication layer (PCN) and to a wireless fieldbus system consisting of a plurality of subscribers (S1, S2, S3, S4, S5), wherein a communication in the wireless fieldbus system by cyclic and / or acyclic data exchange Between the subscribers (S1, S2, S3, S4, S5) of the wireless fieldbus system and / or Between at least one subscriber (S1, S2, S3, S4, S5) of the wireless fieldbus system and the fieldbus interface, further comprising a control unit (WNM), characterized, in that the control unit (WNM) serves to provide a communication in the wireless fieldbus system at a first or at a second data transmission rate, wherein the second data transfer rate is increased from the first data transfer rate, wherein the control unit (WNM) further serves to provide the second data transmission rate when a communication initiated by the higher level communication layer (PCN) is performed with an acyclic data exchange in the wireless fieldbus system.

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