DE102014116768A1 - Method for operating a first and at least a second field device - Google Patents

Abstract

Method for operating a first and at least a second field device (F1, F2), wherein the first field device (F1) and the at least one second field device (F2), preferably as participants of a first network, for example via the first network, in a first Communication connection (N1) for process control and / or process monitoring are, wherein between the first field device (F1) and the at least one second field device (F2) a second communication connection (N2) is provided, in particular constructed, via which second communication link (N2) independent of the process control and / or process monitoring communication is performed.

Description

The invention relates to a method for operating a first and at least a second field device, to an arrangement for carrying out the method, as well as to a field device for use in the arrangement.

Field devices are nowadays used in industrial plants in order to determine, monitor and / or display a process variable of a process taking place in the plant, in particular of a medium processed therein.

Such field devices are often connected to one another via a so-called field bus, so that data can be exchanged between the field devices and / or with a higher-level unit which, for example, serves to control the process in the system.

At present, field devices only have their own resources, such as storage space and / or computing power. Although functions that are not integrated in the field device can be executed via applications outside of the field device, the field device is addressed by a central point, such as a higher-level unit in the form of a control system. Due to their high computing power, such central controllers offer the possibility, for example, of combining a PLC and also an HMI and functions on one device.

An advantage of the central architecture is that the entire software can be bundled in one device and thus centrally maintained and managed. This enables simple remote maintenance concepts in which access via telephone line or Internet via the central control to all field devices is possible.

All parameters and data of the field devices can be stored in a central database in the central controller and from there z. B. in a replacement of a field device, eg. In a service case, are automatically played back.

Furthermore, the securing of data such as, for example, parameters and associated parameter values of a field device is now performed either manually or over time.

However, it is also known a decentralized control, in which distributed resources are used on field devices, such as. On sensors and / or actuators. In this case, tasks for the implementation of the process in the plant or project planning must be divided and the programs for the various field devices, if necessary, created with different tools, distributed and put into operation.

The known from the prior art methods and systems for operating a system take into account that the secured data in a failure does not correspond to the state of the failed device. Because data may have changed between the failure of the device and the last data backup. This circumstance is compounded by purely manual backup systems, as the user may not back up. However, if a backup is stored within a field device, the backup can be damaged by the device failure or lost in the device replacement.

The invention has for its object to propose an alternative to operating multiple field devices, which in particular uses the advantages of the distributed as well as the central control.

The object is achieved by a method, an arrangement and a field device for use in the arrangement.

With regard to the method, the object is achieved by a method for operating a first and at least a second field device, wherein the first field device and the at least one second field device, preferably as a participant of a first network, eg. Via the first network, in a first communication link to Process control and / or process monitoring are, wherein between the first field device and the at least one second field device, a second communication connection is provided, in particular is constructed, via which second communication connection independent of the process control and / or process monitoring communication, in particular between the first and the second Field device, is performed.

The proposed invention is used to perform or maintain certain functions of one or more field device or certain functions in an industrial plant par excellence for operating or operating the same. It is proposed to provide a first and a second communication connection between a first and a second field device. Via the first communication connection between the first and the at least one second field device, a communication, for example in the form of a data exchange, in particular by means of telegrams, is carried out, which serves for process control and / or process monitoring. On the other hand, a communication, also in the form of a data exchange, can be carried out via the second communication connection other purpose not primarily for process control and / or process monitoring serving purpose. Possible tasks which are carried out via the second communication connection (only between and only by the field devices) are the subject of the embodiments. The first and the second communication connection may consist of the same medium, for example. Wired or wireless. In particular, it is possible to provide different networks for the first and second communication links. For this a so-called overlay network can be used. In this case, for example, two logical networks, for example networks with different subscribers or a different number of subscribers, preferably on the basis of the same physical transport layer, may be provided.

The field devices are thus enabled to communicate with each other in addition to the parent unit. This can be done either via the existing fieldbus infrastructure, or by means of its own network infrastructure. These field device networks can be either wired or wireless.

In one embodiment of the method, the first field device uses resources, such as electrical and / or electronic components, such as, for example, a memory unit and / or a processor, of the second field device via the second communication connection. For example. Thus, a function to be performed by the first field device can thus be executed at least partially by means of one or more resources of the at least one second field device.

In a further refinement of the method, the first and the second field device are subscribers of a second network via the second network in the second communication connection, the second network serving to transfer data independently of the first network between the first and the at least one second field device transfer. In the case of an Ethernet network, the different networks may also be, for example, subscribers who occupy different address ranges in the network. For example, a netmask can be used.

In a further embodiment of the method, the first and the second network consist of the same physical network components, such as, for example, the network interfaces of the first and the second field device and / or the transmission medium. The two networks can thus be present on the same physical medium, but logically form different networks.

In a further embodiment of the method, by means of the at least one first field device via the second communication connection, preferably as a participant of the second network, field device related tasks, such as a field device diagnosis, such as an evaluation of at least one state information of the second field device performed. A state information of the first field device can thus, for example, be transmitted via the second communication connection to the second field device, where it is evaluated or processed. For example. For example, the state information of the first field device can be incorporated into a model for the predictive maintenance of the first field device or the system in which the first and / or the second field device are arranged.

In a further embodiment of the method, data provided by the second field device, such as, for example, o. G. Field device diagnosis information, by means of a data exchange via the second communication link, which second communication link, for example. Part of the second network is transmitted from the first field device, preferably after receiving the data via the first network. Thus, for example, the result of the anticipatory maintenance can be transmitted from the second field device via the first communication connection or the first network, for example to the higher-order unit.

In a further refinement of the method, field device resources, such as, for example, the memory and computing capacity of the at least one second field device, of the at least one first field device, preferably at least one part of the field devices, are via the second communication connection, which is, for example, part of the second network For example, participants in the second network are used.

In a further refinement of the method, a function called in the first field device is executed via the second communication connection, which is in particular part of the second network, by means of resources present in the at least one second field device.

In a further embodiment of the method, parameters which relate to settings, in particular measuring point-related settings, of the first field device are stored in a memory present in the second field device. This may preferably be the securing of parameters or, in general, of settings of the first field device, for example in the form of a backup.

In a further embodiment of the method in the case of an exchange of the first field device by a new field device in the at least one second field device stored parameters transmitted via the second communication link to the new field device. The above-mentioned saved settings can thus be transferred to the new field device in the event of a device replacement, without the data on the exchanged field device having to be read out for this purpose.

In a further refinement of the method, parameters which relate to settings of the first field device are stored, preferably redundantly, distributed over a plurality of subscribers of the second network.

In a further refinement of the method, when a new subscriber is added to the second network, an identifier of the new subscriber, functions of the new subscriber which are available via the second network and / or physical resources of the new subscriber are disclosed. In this way, the resources of the new subscriber can be shared on the second network.

In a further refinement of the method, in order to use resources of another subscriber in the second network, a request is sent to the subscriber, wherein the request relates to at least part of the resources provided by the subscriber, in which case the resource in the requested amount is reserved, and in the event that the resource is not present or already reserved, a corresponding response over the two network is sent.

In a further embodiment of the method, an operation of the second field device is made possible by means of a data transmission from an operating device connected to the first field device via the second communication connection to the second field device. The second network can thus also serve to service the subscribers of the second network. Thus, settings can be made on the subscribers of the second network via the second communication connection, in particular without adversely affecting the data traffic on the first network.

In a further refinement of the method, an error message of the second field device is transmitted to the first field device via the second communication connection, and wherein this error message is displayed on an on-site display unit of the first field device.

With regard to the arrangement, the object is achieved by an arrangement for carrying out the method according to one of the preceding embodiments comprising a first and at least one second field device and at least one transmission medium for data transmission between the first and the second field device. The proposed arrangement is preferably located in an industrial plant.

With regard to the field device, the object is achieved by a field device for use in an embodiment of the proposed arrangement.

In one embodiment of the field device, the field device has a physical or logical interface, in the case of a logical interface, for example, a port, via which interface a data transmission via the second communication connection, preferably independently of the first communication connection, is feasible.

When adding a device to the second network, for example, this automatically logs on to the subscribers already present in the network (at least one other subscriber) and gives its identification, for example its MAC address), available services and / or resources in the second Network known. The newly added field device may receive in response the identifications, services and / or resources of all field devices already present in the second network. Subsequently, the newly added field device can request the services of the other participants. The field device that offers the service is a service provider and the field device that uses the service is a service user.

In order to use the service of another field device, the employee asks a service provider whether the required amount of resources can be made available to him. If the requested quantity is available, it is reserved for the employee and the request is confirmed, otherwise, for example, only the free amount of resources is returned.

The employee can now have the requested resource and release it when it is no longer needed.

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

1a and 1b An embodiment of the proposed invention when replacing a field device in an industrial plant.

1a and 1b show a schematic representation of the flow in a field device exchange. Several field devices F1, F2, F4, F5 are installed in the system A and serve to control and / or monitor the process running therein. For the purpose of control and / or monitoring, the field devices F1, F2, F4, F5 are interconnected via a first communication link N1. This can be a fieldbus, preferably an Industrial Ethernet. For this purpose, the field devices F1, F2, F4, F5 are connected to one another via the first communication connection N1, which, for example, forms a network, in particular a field bus. The first communication link N1 is in 1a and 1b represented by a solid line between the field devices F1, F2, F4, F5.

The field devices F1, F2, F4 are also connected to each other for the purpose of data backup via a second communication link N2. This second communication connection, which may, for example, also be a network, is in 1a and 1b represented by a dashed line between the field devices F1, F2, F4. A request to the field device F2 is made by the field device F1 via this second communication link N2 in order to occupy a memory space of, for example, 1 MegaByte in the field device F2 or in at least one other of the field devices which are connected to one another via the second communication link N2 , The field device F2 confirms this request and reserves, for example, in its designated memory a memory space, for example. Og of 1 MegaByte for the field device F1. The field device F1 then transmits the data intended for retrieval, and preferably also a specific measuring point identification, which, for example, identifies the measuring point at which the field device F1 is installed to the field device F2. For example, these data may correspond to the complete settings of the field device F1 or be derived from these data.

The replacement of the field device F1 by the field device F3 is in 1b shown. If the field device F1 now fails or is to be replaced for other reasons, the new field device F3 can now receive the outsourced data via the second communication connection N2, preferably as a participant of the second network. For this purpose, the new field device F3 sends a corresponding query, for example the above-mentioned identification of the measuring point at which the new field device F3 is installed, to the field device F2 via the second communication connection N2 or via the second network. The field device F2 then transmits the data paged out by the field device F1 or data derived therefrom to the new field device F3, which has made the request. Thereupon, the new field device F3 can parameterize itself based on the data outsourced by the field device F1 or data derived therefrom. Alternatively, the parameterization of the new field device F3 can be carried out by the field device F2 on the basis of the data paged out by the field device F1 or data derived therefrom via the second communication link N2.

LIST OF REFERENCE NUMBERS

• F1

  First field device

  F2

  Second (exchangeable) field device

  F3

  Third (new) field device

  F4

  Fourth field device

  F5

  Fifth field device

  N1

  First communication connection

  N2

  Second communication connection

  A

  investment

Claims (18)

Method for operating a first and at least a second field device (F1, F2), wherein the first field device (F1) and the at least one second field device (F2), preferably as participants of a first network, for example via the first network, are in a first communication connection (N1) for process control and / or process monitoring, wherein a second communication connection (N2) is provided between the first field device (F1) and the at least one second field device (F2), in particular via which second communication connection (N2) a communication independent of the process control and / or process monitoring is performed. Method according to the preceding claim, wherein the first field device (F1) uses resources, such as electrical and / or electronic components, such as a memory unit and / or a processor, of the second field device (F2) via the second communication link (N2) , Method according to one of the preceding claims, wherein the first and the second field device (F1, F2) as subscribers of a second network via the second network in the second communication link (N2), wherein the second network is used, data independent of the first communication link (N1), which is part of the first network, for example, to transfer between the first (F1) and the at least one second field device (F2). Method according to one of the preceding claims, wherein the first and the second communication connection (N1, N2), in particular the first and the second network, from the same physical network components, such as the network interfaces of the first and the second field device (F1, F2) and or the transmission medium. Method according to one of the preceding claims, wherein by means of the at least one first field device (F1) via the second communication link (N2), preferably as a participant of the second network, field device related tasks, such as a field device diagnosis, such as an evaluation of at least one state information of the second field device (F2). Method according to one of the preceding claims, wherein data provided by the second field device (F2), such as, for example, o. G. Field device diagnosis information, by means of a data exchange via the second communication link (N2), which second communication link is, for example, part of the second network, from the first field device (F1), preferably after receipt of the data, via the first communication link (N1), preferably the first network , be transmitted. Method according to one of the preceding claims, wherein via the second communication connection (N2), which is for example part of the second network, field device resources, such as memory and computing capacity of the at least one second field device (F2), from the at least one first field device (F1 ), preferably at least part of the field devices, which are, for example, subscribers of the second network or are in communication with the second field device (F2) via the second communication link (N2). Method according to one of the preceding claims, wherein a function called in the first field device (F1) is executed via the second communication link (N2), which is in particular part of the second network, by means of resources present in the at least one second field device (F2). Method according to one of the preceding claims, wherein parameters which relate to settings, in particular measuring point-related settings, of the first field device (F1) are stored in a memory present in the second field device (F2). Method according to one of the preceding claims, wherein in the case of an exchange of the first field device (F1) by a new field device (F3) the parameters stored in the at least one second field device (F2) via the second communication link (N2) to the new field device ( F3) are transferred. Method according to one of the preceding claims, wherein parameters relating to settings of the first field device (F1) are preferably stored redundantly distributed to a plurality of subscribers of the second network. Method according to one of the preceding claims, wherein when adding a new subscriber, such as the new field device (F3), in the second network, an identifier of the new subscriber, functions of the new subscriber, which are available on the second network, and / or physical resources of the new subscriber will be announced. Method according to one of the preceding claims, wherein, in order to utilize resources of another subscriber, such as another field device (F2, F4, F5), a request is sent to the subscriber in the second network, wherein the request relates to at least a part of the resources provided by the subscriber, wherein, in the case that the resource is present in the requested scope, it is reserved, and in the event that the resource is not present or already reserved, a corresponding response is sent over the second network. Method according to one of the preceding claims, wherein by means of a data transmission from an operating device connected to the first field device (F1) via the second communication link (N2) to the second field device (F2) an operation of the second field device is made possible. Method according to one of the preceding claims, wherein an error message of the second field device (F2) is transmitted to the first field device (F1) via the second communication link (N2), and wherein this error message is displayed on an on-site display unit of the first field device (F1). Arrangement (A) for carrying out the method according to one of the preceding claims, comprising a first and at least one second field device (F1, F2) and at least one transmission medium for data transmission between the first and the second field device (F1, F2). Field device (F1, F2, F3, F4) for use in an arrangement according to claim 16. Field device (F1, F2, F3, F4) according to the preceding claim, which field device (F1, F2, F3, F4) has a physical or logical interface, in the case of a logical interface, for example, a port, via which interface a data transmission over the second communication connection (N2), preferably independently of the first communication link (N1), is feasible.

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