WO2010043457A1

WO2010043457A1 - Method for data transmission in process devices

Info

Publication number: WO2010043457A1
Application number: PCT/EP2009/061787
Authority: WO
Inventors: Martin Augustin
Original assignee: Siemens Aktiengesellschaft
Priority date: 2008-10-17
Filing date: 2009-09-11
Publication date: 2010-04-22
Also published as: DE102008052175A1

Abstract

The invention relates to a method for transmitting data between an engineering system and at least one process device, wherein the data represent points (K1, K2,... K800) of a characteristic curve or measurement data of the process device and are transmitted in the form of several data telegrams or data sets. The invention relates to measures by which the data transmission time can be configured in a flexible manner.

Description

description

Method for data transmission in process devices

The invention relates to a method for the transmission of

Data between an engineering system and at least one process device, the data representing points of a characteristic curve or measured data of the process device and being transmitted in the form of several data telegrams or data records. Moreover, the invention relates to an arrangement for carrying out the method and also to a process device which is suitable for use in such an arrangement.

From the Siemens catalog ST PCS 7, November 2007 edition,

Pages 4/13 to 4/19, an engineering system is known, to which via communication means and automation components field devices (sensors, actuators) and / or field components (remote I / Os, multiplexers, waiting devices, compact controllers) are connected. The engineering system is with one

Software tool in the form of a so-called "Process Device Manager" provided for a project planning, parameterization, commissioning, diagnosis and / or service of the intelligent field devices and / or field components, in particular for diagnosis or process monitoring transmit the For example, a field device in the form of a filling level device transmits a so-called "partial stroke test" to the echo curve engineering system or a field device in the form of a position controller for valve diagnosis -Curve". Associated data telegrams or data packets are provided for data transmission, each comprising a number of curve points of a characteristic curve. In the event that, for example, a curve has 800 curve points, usually 50 data telegrams each having 16 curve points are transmitted, whereby the first data telegram the curve points 1 ... 16, the second data telegram the curve points 17 ... 32, ... and the last data telegram contains the curve points 785 ... 800. Due to the fact that all curve points are transmitted, which can be displayed on a display unit of the engineering system, the transfer time for transmitting the data is high. Often several minutes are required for data transmission, which is particularly disturbing when not all curve points are needed to evaluate the characteristic.

The present invention is therefore based on the object of specifying a method of the type mentioned, with which the data transmission time can be made flexible. Furthermore, an arrangement is to be created, which is suitable for carrying out the method, and moreover a process device for use in such an arrangement.

This object is achieved in view of the method with in the characterizing part of claim 1, with regard to the arrangement with the in the characterizing part of claim 3 and in terms of the process device with the measures indicated in the characterizing part of claim 5.

It is advantageous that for many on the engineering system executable software applications that do not need all the data for an evaluation and / or for which a reduced resolution of a characteristic is sufficient, the data transfer time or transfer time can be reduced.

In one embodiment of the invention it is provided that a first and a second group of data telegrams or data sets are generated, wherein in the data telegrams or data sets Dl ', D2', ... D8 'one of these groups G1 every n-th point of the characteristic , with n = 3, 4, 5, ..., and in the data telegrams or data sets Dl, D2, ... D16 of the other group G2 every mth point, with m = 2, 3, 4, ... , is deposited. This allows z. B. an evaluation with too low a selected number of points does not lead to a satisfactory result and a further evaluation can be made with a higher number of points. Moreover, this makes it possible to change from a rough representation of a characteristic, which is created by a too small number of transmitted curve points of a group, to a detailed view of the characteristic, which is caused due to a higher number of transmitted curve points of the other group.

Further advantageous embodiments of the invention will become apparent from the other dependent claims.

Reference to the drawing, in which an embodiment of the invention is illustrated, the invention düng, their embodiments and advantages are explained in more detail below.

Show it:

Figures 1 and 2 data packets of a process device.

The same parts shown in Figures 1 and 2 are provided with the same reference numerals. There K1, K2, ... K800 curve points of an echo profile of a process device referred to, which transmits the process device an engineering system for display on a display unit of the engineering system.

In order to reduce the data transmission time or the transfer time between the process device and the engineering system, the process device generates data packets (data telegrams, data sets) Dl, D2,... D16 with 25 curve points each (FIG. 1), wherein in the data packets every second curve point is stored. In the present example, the data packet Dl includes the second curve points K2, K4, K6,... K50, the data packet D2 the curve points K52, K54, K56,... KlOO,... And the data packet D16 the second curve points K752, K754 , K756, ... K800. This means that the process device transmits only 400 of the 800 curve points to the engineering system. B. for the identification of false echoes. be placed and evaluated. Such a representation or evaluation is usually sufficient to be able to identify false echoes.

To allow z. B. an evaluation with a too low selected number of points does not lead to a satisfactory result and a further evaluation can be done with a higher number of points, the process device generates a first and a second group Gl, G2 of data packets with 25 curve points. The first group Gl comprises eight data packets D1 ', D2',..., D8 'with every fourth curve point K4, K8, K12,... K800 and the second group G2 has sixteen data packets D1, D2,.. every second curve point K2, K4, K6, ... K800. The process device transmits the first and second groups Gl, G2 to the engineering system on which the curve points of the first group Gl for a rough view and / or the curve points of the second group G2 for a detail display of a user can be selected.

Claims

claims

1. A method for transmitting data between an engineering system and at least one process device, wherein the data points (Kl, K2, ... K800) represent a characteristic or measurement data of the process device and transmitted in the form of multiple data telegrams or data sets, characterized in that data telegrams or data sets (D1, D2,... Dl6, D1 ', D2',... D8 ') are generated, wherein in each of these mth point of the characteristic curve, with m = 2, 3, 4, ..., is deposited.

2. The method according to claim 1, characterized in that a first and a second group (G1, G2) of data telegrams or data sets (D1, D2,... D16, Dl ', D2',... D8 ') be generated, wherein in the data telegrams or data sets (Dl ', D2', ... D8 ') one of these groups (GI) every n-th point of the characteristic, with n = 3, 4, 5, ..., and in the data telegrams or data sets (Dl, D2, ... D16) of the other group (G2) every mth point, with m = 2, 3, 4, ..., is deposited.

3. Arrangement with an engineering system and at least one connected via communication means and / or automation components process device, wherein a transfer of data between the engineering system and the at least one process device in the form of multiple data telegrams or data sets, the data points (K1, K2,... K800) represent a characteristic curve or measurement data of the process device, characterized in that the process device receives data messages or data sets (D1, D2,... ... D8 ') is generated, in which every mth point of the characteristic, with m = 2, 3, 4, ..., is stored.

4. Arrangement according to claim 3, characterized in that the process device according to a request of the engineering system, a first and a second group (Gl, G2) of data telegrams or data records (Dl, D2,... D16, Dl ', D2',... D8 '), wherein one of these groups (in the data telegrams or data records (Dl', D2 ',... D8') Gl) every nth point of the characteristic, with n = 3, 4, 5, ..., and in the data telegrams or data sets (Dl, D2, ... D16) of the other group (G2) every m- te point, with m = 2, 3, 4, ..., is deposited.

5. Process device, which is designed to generate data transmission between the process device and an engineering system associated data telegrams or data sets, the data points (Kl, K2, ... K800) a characteristic or measurement data of the process device represent, characterized in that the process device is further adapted, after a request by the

Engineering system data telegrams or data sets (Dl, D2, ... D16; Dl ', D2', ... D8 ') to produce, in this every mth point of the characteristic, with m = 2, 3, 4 , ..., is deposited.

6. Process device according to claim 5, characterized in that the process device as requested by the engineering system generates a first and a second group (G1, G2) of data telegrams or data records, wherein in the data telegrams or data sets (Dl ', D2 ', ... D8') one of these

Groups (G1) every nth point of the characteristic curve, with n = 3, 4, 5,..., And in the data telegrams or data sets (D1, D2,... D16) of the other group (G2) of each m te point, with m = 2, 3, 4, ..., is deposited.