DE19501489A1 - Telegram information transmission using European Installation Bus system e.g. for control of lighting units - Google Patents

Abstract

The transmission consists of a first bus line (2.1) connected to various sensors (1). The sensors transmit information (1) by way of telegrams to a first complex user (3) (such as European Installation Bus application controllers or actuators) where the information is collected and sent on as a collective telegram (S) to a line coupler (LK). A second complex user (4) (such as test or binary values displays) on a second bus line (2.2) receives the collective telegram via the line coupler (LK) or a local coupler (BK).

Description

The invention relates to a method and a device device for transferring information within an installation tion bus system according to the specification of the European instal lationsbuses EIB.

The EIB is one of the EIBA, European Installation Bus As sociation designed 2-wire bus system for controlling Be lighting equipment, blinds, heaters and other elec trical consumers. The EIB system is, for example, be wrote in the ZVEI / ZVEH manual for building system technology given by the business development agency of the electrical hand plants mbH, Frankfurt, 1993.

The EIB installation bus system has been developed as a basic system and with a number of simple and also complex ones Bus subscriber devices commercially available. The EIB system is open to the development of new additional or improved ones Bus-compatible subscriber devices, as well as for new uses existing or specially adapted subscriber devices or son system components.

In the aforementioned ZVEI / ZVEH manual, the system topology is described on pages 5 to 16, especially page 7, picture 1 to 4 and shown in pictures. According to the topology presented there, up to 64 (bus) subscribers are connected to a line, up to 12 lines can be combined to form a main line via line couplers and finally, with the help of area couplers, up to 15 main lines can be connected to one area line . The participants can be connected via bus connections. The telegram structure of the data telegrams to be processed by the bus couplers is described on page 9 of the manual mentioned.

This system topology enables the forwarding of Bustele programs within the overall system. A redirect from Te legrams in another line or even further in another Its area is required, for example, if complex bus devices such as B. Application controller information from participant process different lines. Such application con Trollers can also send telegrams to actuators sent to under different lines can be connected as participants.

Application controllers are both in the mentioned ZVEI / ZVEH manual described, as also in the publication SIGMA i-BUS EIB, Ge Building system technology, ABB Stotz contact, publication no. G STO 3098 93 50001, November 1993, page 5 of the chapter "Ordering information" (application controller AK / S1. 1) listed.

In addition to the application controllers, there are other complex ones Devices such as a BA / S 64.1 binary display also in the ABB brochure (page 3 of the ordering information) is mentioned. Such a binary display can show many bus states receive and display participants sent to different li can not be connected.

Although it would be technically possible, every telegram as a whole The system is to be made available to every participant undesirable for reasons of bus traffic. The line coupler therefore contain so-called filter tables, with their help only such telegrams for a main or area line forwarded, which are needed in other lines. So this means that some telegrams only within a Li  never available to the connected maximum 64 participants stand.

It goes without saying that the realization of line couplers all the more the more complex the more types of telegrams are to be filtered. Correspondingly, the effort for bus connections is different Number of different telegrams depending on which part respondent must respond. For these reasons there is a need for one Reduction in the number of telegrams sent via line or Area couplers must be forwarded.

The invention is therefore based on the object, a system con Form measure to further reduce the over one lines to specify couplers to be forwarded beyond telegrams.

This task is accomplished through an information transfer process tion in an EIB system with the features of claim 1 ge solves.

Refinements and a device for performing the Ver driving are specified in further claims.

The summary of Tele proposed by the invention Gram has the advantage that the line and area couplers have far fewer telegrams to deal with, the bus load is reduced and originally complex devices to relative one fold participants who are only on a collective telegram or need to hear a few different collective telegrams.

A more detailed description of the invention is given below using an exemplary embodiment shown in FIG. 1.

Fig. 1 shows a first (bus) line 2.1 , to which several participants 1 are connected and the information in the form of telegrams I feed in the first line 2.1 . Participant 1 can be z. B. sensors.

At the first line 2.1 a first complex subscriber device 3 is also connected. Such a device 3 can, for. B. be an application controller that performs higher-level functions, such as time functions or event-driven processing of control processes. Other typical participants are e.g. B. actuators, which are not shown in FIG. 1.

Fig. 1 shows a second line 2.2 , to which a second complex subscriber device 4 is connected, for. B. a display device for binary values, texts and the like. Lines 2.1 and 2.2 are connected to one another via line couplers LK and via a main line HL. In addition to the line couplers LK, an area coupler BK is also connected to the main line HL, which connects to an area line BL. A decision on the forwarding of telegrams by couplers LK, BK is made in each case on the basis of filter tables F which are present in the couplers.

In the exemplary embodiment it is assumed that information I from subscribers of the first line 2.1 is to be displayed with the aid of the second complex subscriber device 4 , which is connected to the second line 2.2 .

The first complex subscriber device 3 collects the information I, and sends a group telegram S. Depending on the application-related requirement, the group telegram S all or only part of the information I, or results of a Informationsbearbei processing unit included in the third The line coupler LK are set in the example so that the collective telegram S is fed into the second line 2.2 and can be received there by the second complex subscriber device 4 .

Claims (7)

1. Method for transmitting information by means of telegrams within a European installation bus system EIB, which has several bus lines ( 2.1 , 2.2 ) coupled via line couplers (LK) and possibly also area couplers (BK), each with several subscribers ( 1, 3, 4 ), characterized in that information (I) from participants ( 1 ) is collected in at least one first complex subscriber device ( 3 ) and - if necessary after information processing - is sent by the latter in the form of one or more collective telegrams (S) for forwarding the information (I) - optionally via coupler (LK, BK) - to at least one second complex subscriber ( 4 ). 2. The method according to claim 1, characterized in that an EIB application controller is used as the first complex subscriber device ( 3 ). 3. The method according to claim 1 or 2, characterized in that a display device for binary and / or text displays is used as the second complex subscriber device ( 4 ). 4. Device for performing the method according to one of the preceding claims in a European installation bus system EIB, in which several bus lines ( 2.1 , 2.2 ) via line coupler (LK) and possibly also area coupler (BK) are connected to each other and being on the lines ( 2.1, 2.2 ) participants ( 1 , 3 , 4 ) are connected, characterized in that at least a first complex subscriber device ( 3 ) is set up and used for collecting and, if necessary, processing information (I) from several, in particular simple subscriber devices ( 1 ) and for sending a collective telegram (S) for transmission to at least one second complex subscriber device ( 4 ) which is connected to any bus line ( 2.1 , 2.2 ) of the EIB system. 5. Device according to claim 4, characterized in that an application controller is used as the first complex subscriber device ( 3 ). 6. Device according to claim 4 or 5, characterized in that a display device is used as the second complex subscriber device ( 4 ). 7. Device according to one of claims 4 to 6, characterized in that the bus coupling of the second complex subscriber device ( 4 ) is set up exclusively for receiving one or more different group telegrams (S).