Information
-
Patent Application
-
20040128588
-
Publication Number
20040128588
-
Date Filed
October 23, 200321 years ago
-
Date Published
July 01, 200420 years ago
-
CPC
-
US Classifications
-
International Classifications
- H04L001/22
- H04B001/74
- H02H003/05
- H05K010/00
- H03K019/003
Abstract
The invention relates to a microprocessor-controlled standard field device (3′, 4′, 5′, 6′), such as a measuring sensor or an actuator, for connecting to a field bus system (1) that, in turn, is connected to, for example, a freely programmable controller (2′). According to the invention, the field device (3′, 4′, 5′, 6′) is equipped with a security layer (10) for carrying out a security proven communication. A secure and simultaneously cost-effective communication with a control device (2) via a field bus system (1) is made possible by implementing a security layer (10) in a conventional operationally proven or redundant standard field device (3, 4, 5, 6).
Description
TECHNICAL FIELD
[0001] The invention relates firstly to a standard field device for connection to a field bus system, which is controlled by a microprocessor. Field devices of the stated type are, for example, measured-value sensors (also referred to as sensors) or actuators. Secondly, the invention relates to a field bus system, to which at least one freely programmable safety controller and at least one standard field device, which is controlled by means of a microprocessor, are connected.
PRIOR ART
[0002] Process technology and manufacturing can no longer be imagined without the use of the field bus technique for decentralization. Wherever people and machines need to be protected in the process and manufacturing industry, special safety devices are installed, such as sensors or actuators, in particular pressure and temperature measurement devices, emergency stop switches, step mats, light barriers and the like.
[0003] Until now, it has been possible to connect such field devices to the automation chain only by separately wired or additional special buses. Otherwise, there were too many possibilities for faults. During transfer via a so-called standard field bus, it is was thus possible, for example for messages to be lost, to occur more than once, to be additionally inserted, to appear in the incorrect sequence, to be delayed or even to be corrupted. Furthermore, there is always a risk of incorrect addressing, as a result of which, for example, standard messages could appear to be safety-relevant.
[0004] Just one of these faults is sufficient to cause the entire safety mechanism to fail, and the relevant regulations do not, of course, tolerate this.
[0005] Devices of the type mentioned above are, for example, connected via a so-called Profibus (bus system from the Siemens AG Company) to a freely programmable controller, such as a failsafe PLC. Nowadays, Profibus is the most widely used field bus system, and is a component of European Standard EN 50170, and thus guarantees openness and investment protection for the user. Profibus is suitable for rapid communication to decentralized peripherals for automation of manufacture and for the communication task in process automation. It is the first field bus system which covers the requirements of both areas using identical communications services.
[0006] It should now be stated that, for safety applications, every primary tault (and this also applies to every safety circuit) must be covered within the safety time or process fault tolerance time. A second fault must be determined by regular inspection.
[0007] In the prior art, this technical problem was solved by point-to-point connections between the redundant standard field devices and the safety PLC (that is to say the freely programmable controller). With regard to a star-shaped arrangement such as this, there were no common mode faults in the communication between the field devices and the central control unit (in this context, it should be noted that the expression common-mode fault means a failure of components resulting from a common cause). The signals from the sensors and/or from the actuators are compared in the safety PLC.
[0008] When using a field bus between the field devices and the safety PLC, it was necessary to use sensors or actuators that had been certified as being safe and which are connected to the failsafe PLC via a safe communication means, in order to ensure safe communication between the field devices and the controller. If redundant standard sensors and/or standard actuators were to be used in a standard communication system, then certain faults in the communications system (for example frozen signal values, that is to say primary faults) would not be covered and could lead to a dangerous state without being noticed.
DESCRIPTION OF THE INVENTION
[0009] The technical problem on which the invention is based is to provide standard field devices which allow safe communication with a freely programmable controller at low cost when connected to a standard field bus.
[0010] This technical problem is solved by a field device having the feature of claim 1. The invention provides for a standard field device, which has a microprocessor and is designed for connection to a field bus system, to be designed with a so-called safety layer, which is known per se, for carrying out proven-safe communication with a freely programmable controller which can be connected to the field bus.
[0011] Thus, according to the invention, so-called proven-operation or redundant standard field devices (that is to say standard sensors and/or standard actuators) are for the first time provided with a safety layer, as a result of which a standard field device such as this communicates more safely, to be precise via the standard field buses of a known type. The invention is based on the idea of, so to speak, simulating a certified field device. Standard field devices for the purposes of the present invention are subject only to the so-called NAMUR Recommendation 79 (NE79). With devices such as these, integration of a safety layer is relatively simple, but this ensures that the standard field devices carry out proven-safe communication. The costs for such standard devices are far lower than for safety-certified devices. A further advantage is that changes to standard devices do not necessitate recertification, and this once again saves costs.
[0012] In general, it can be stated that a safety layer, for example such as that in a PLC, can be implemented in a simple manner in a bus-compatible field device of the type mentioned initially, that is to say in accordance with a standard. In particular, this expresses the fact that a so-called redundant driver (software modules for the failsafe PLC) receive the signals on a safe basis (drivers for Profisafe) and can carry out the comparison of the signals (on a 2-, 3- or multi-channel basis). Overall, this corresponds to the channel system for an SEL 2, SEL 3 or SEL 4 signal transmitter unit. In a configuration such as this, the safety layer, also referred to as the F layer, ensures that all common-mode faults in the field bus system are covered. The redundant driver ensures that sensor and actuator faults are covered. The redundantly used standard field devices can thus also be designed in a diverse manner with regard to process variables and, furthermore, may be devices that are already in operation.
[0013] In summary, it can be stated that, for example, bus systems which are known by the title Profisafe can for the first time be extended with a safe link to proven-operation or redundant standard field devices without any necessity for expensive certified special devices. A safety layer which is known per se (for example a Profisafe driver) is for this purpose implemented for the first time in standard field devices.
[0014] The safety layer can advantageously be switched on and off, controlled directly or via the field bus. This means that it is possible to design the normal proven-operation controller with one and the same standard field device, while on the other hand being able to carry out safety-relevant communication, however, once the safety layer has been switched on.
[0015] Finally, it should also be noted that the invention also relates to a field bus system which comprises at least one freely programmable safety controller and at least one microprocessor-controlled standard field device, which is equipped with a safety layer.
[0016] As an example of a field device according to the invention, a measurement converter from the Siemens AG Company may be mentioned here, which is suitable, depending on the items fitted, for measuring pressure, flow or the filling level of non-aggressive and aggressive vapors and liquids. A measurement converter such as this is marketed under the trade mark SITRANS but can, for the first time, be equipped according to the invention with a safety layer without any major problems, so that a standard measurement device such as this can now also be used for safety-relevant communication.
BRIEF DESCRIPTION OF THE DRAWINGS
[0017] A number of exemplary embodiments of the invention will be described in more detail in the following text, in order to provide a more detailed explanation to assist understanding, and with reference to the attached drawings, in which:
[0018]
FIG. 1 shows a field bus system with a freely programmable controller and standardized field devices according to the prior art connected to it,
[0019]
FIG. 2 shows a standardized field bus system with field devices according to the invention connected to it, and with a safety PLC.
DESCRIPTION OF PREFERRED EXEMPLARY EMBODIMENTS OF THE INVENTION
[0020] In the field bus system according to the prior art and as shown in FIG. 1, a safety PLC or failsafe PLC 2, an actuator 3 and sensors 4, 5, 6 are connected to a standard field bus 1 via connecting lines 7. The sensors 5 and 6 are in this case redundant, and the actuator 3 and the sensor 4 can be read back.
[0021] These field devices 3, 4 and 5, 6 are redundant or proven-safe standard field devices, which are controlled via the safety PLC 2. The field bus 1 is used to communicate with the field devices. This known field bus system with connected field devices does not ensure safety, for example, against common-mode faults. On the basis of the present prior art, this would be possible only by using specific, safety-certified sensors and actuators.
[0022] According to the invention, as is illustrated in FIG. 2, the field devices are now each equipped with a safety layer (F layer) 10. Each standard field device 3′, 4′ and 5′, 6′ with an appropriately equipped F-PLC 2′ is thus able to use the field bus 1 to cover faults such as freezing of the signal values in a communications circuit, addressing faults etc. It is thus feasible at extremely low cost to cover common-mode faults even in the case of standard field devices by implementation of a safety layer 10, which is known per se, in the standard field devices 3′, 4′, 5′, 6′.
[0023] This F layer or safety layer 10 is, for example, a so-called Profibus driver, which is also known by the title Profisafe from the Siemens AG Company.
Claims
- 1. A microprocessor-controlled standard field device for connection to a field bus system (1), which is connected for example to a freely programmable controller (2), having a safety layer (10) for carrying out proven-safe communication.
- 2. The field device as claimed in claim 1, characterized in that the safety layer (10) is designed such that common-mode faults are identified.
- 3. The field device as claimed in claim 1 or 2, characterized in that the safety layer (10) carries out so-called Profisafe communication.
- 4. The field device as claimed in one of the preceding claims,
characterized in that the device (3′, 4′, 5′, 6′) is designed for connection to a so-called Profibus (2).
- 5. The field device as claimed in one of the preceding claims,
characterized in that the safety layer (10) can be switched on and off.
- 6. The field device as claimed in one of claims 1 to 5,
characterized in that the field device is a measured value sensor (4′, 5′, 6′).
- 7. The field device as claimed in one of claims 1 to 5,
characterized in that the field device is an actuator (3′).
- 8. A field bus system, having at least one freely programmable safety controller (2′) and having at least one microprocessor-controlled standard field device (3′, 4′, 5′, 6′) as claimed in one or more of the preceding claims.
Priority Claims (1)
Number |
Date |
Country |
Kind |
101 19 791.8 |
Apr 2001 |
DE |
|
PCT Information
Filing Document |
Filing Date |
Country |
Kind |
PCT/DE02/01310 |
4/9/2002 |
WO |
|