DE19631386A1 - Bus subscriber's plug-in arrangement - Google Patents

Abstract

The bus subscriber plug-in arrangement has a programmable control provided with socket outlets (1a,1b...1j) for the bus subscribers, including a central rack (2) and an extension rack (3). The socket outlets are connected by a serial bus (4), itself connected with the corresponding bus lines in the rack (3) by a terminal unit (6) of the central rack, a cable (7) and the terminal unit (8) of the extension rack. The terminal units have coding switches for setting a rack address for the racks and the code goes to the parallel bus (5) and the coding contacts (9) of the sockets are intended for setting the socket codes on the potential lines (not shown).

Description

The invention relates to a bus participant in a multiple slots provided arrangement is pluggable, the Slots over a provided with at least one line serial bus are interconnected, the bus part a subscriber with contacts provided for contacts has connection to the serial bus and with means for Ein provide a bus node address that is used for Addressing of the bus device via the serial bus another bus participant plugged into the arrangement is seen.

So that bus participants in a bus system via a serial Bus can communicate, it is first necessary to use this To provide bus subscribers with a subscriber address, under which a bus subscriber currently active has the white addressed to other participants. To do this are on the participants often coding switches are provided with which a user according to a configuration before operating the bus systems sets the addresses. To troubles during the Avoiding communication must ensure that a Do not assign the bus node address more than once, but to everyone Participants are assigned a unique address.

The present invention has for its object a To create bus participants of the type mentioned, in wel chem an address setting is simplified.  

This task is carried out by the in the characterizing part of the To specified 1 measures resolved.

It is advantageous that the bus subscriber automatically Sets the subscriber address, which means that the configuration effort for a user is reduced.

In one embodiment of the invention according to the features of Claim 2 instructs the connection means contacts for connection a parallel bus of the arrangement on which for coding a group of slots is provided. That’s it possible, a system with addressable central and expanse Realization racks, with one rack each Includes group of slots. Each rack is over one set code or via a code assigned to this code Addressable, the bus devices in a rack the slot codes or by those from these slot codes generated bus node addresses. For each rack, the same slot codes can be provided. Every part of the bus participant is via the rack address and the slot code clearly identifiable.

In a further embodiment of the invention according to Merk paint the claim 3 is by the arrangement of the contacts good shielding of the serial bus line contacts aims, which eliminates the need for complex shielding measures.

Further advantageous embodiments of the invention result itself from the further subclaims.

Based on the drawing, in which an embodiment of the Er invention is illustrated, the following are the inventions tion as well as additions and further training described and explained.

Show it

Fig. 1 is a schematic diagram of an arrangement places with plug,

Fig. 2 is a slot coding circuit,

Fig. 3 shows a contact arrangement of a slot connector and

Fig. 4 shows a further contact arrangement of a slot connection.

In Fig. 1 with 1 a, 1 b. . . 1 j with bus participants be assignable slots of a programmable logic controller, which includes a central rack 2 and an expansion rack 3 . The slots 1 a, 1 b. . . J 1 are connected to each other via a serial bus 4, wherein a connection unit 6 of the central rack 2, a connection cable 7 and a connector unit 8 of the extension racks 3 the serial bus 4 connected to the corresponding bus lines in the rack. 3 The connection units 6 , 8 are provided with coding switches (not shown), with each of which a rack address for the central rack and the expansion rack can be set, this code being fed to a parallel bus 5 . Coding connections 9 of the slots 1 a, 1 b. . . 1 j are connected to potential lines (not shown) for setting slot codes, 2 , 3 different slot codes being set within a rack, so that each slot can be clearly identified.

To clarify the slot code setting, reference is made to FIG. 2, in which a slot coding circuit is shown. Two potential lines P5V, M5V are via protective circuits R, C to the slots 1 a, 1 b. . . 1 j out and connected according to the desired coding to be set to the coding connections 9 of the respective slots. In the example, code 10100 is set at slot 1 a, code 01100 is assigned to slot 1 b.

So that one in the slots 1 a. . . 1 j pluggable bus participant, e.g. B. a communication module, can be addressed by another bus subscriber via the serial bus 4 , the bus subscriber, e.g. B. during an initialization phase, generate its bus node address. In addition to contacts for connection to the serial bus 4 , the connection means (not shown) of the bus participant has further contacts for contacting the coding connections 9 of the corresponding slot. Furthermore, the bus subscriber is provided with means for reading in the potentials (of the slot code) at these coding connections 9 , from which these means generate the bus subscriber address of this subscriber. In the simplest case, this address to be generated consists of the slot code itself.

Fig. 3 shows a contact arrangement of a slot connection ses. It is assumed that in the present example the programmable logic controller comprises only one central rack and therefore no connection to the parallel bus 5 is required for addressing a rack. Connections KBP, KBN for connection to the serial bus are between slot coding connections SN0, SN1. . . SN4 arranged, whereby a good shielding of the connections KBP, KBN is achieved. An improved shielding is achieved in that the slot coding connections SN0, SN1. . . SN4 and potential connections P5V, M5V surround the connections KBP, KBN. Accordingly, the contacts of the connection means of the bus subscriber are arranged, which, in the event that the subscriber is plugged into the slot, is in operative connection with these slot connections.

Fig. 4 also shows the arrangement of connections of a slot, wherein it is assumed that a central and an expansion rack are provided and the serial bus is designed redundantly. Connections RN0, RN1, RN2, RN3, RN4 are therefore required to connect the bus subscriber to the parallel bus 5 . The rack codings set in the connection units 6 , 8 are guided through these connections by corresponding potentials (P5V, M5V). First and second bus connections KBP1, KBN1, KBP2, KBN2 of a first and a second serial bus are surrounded by potential connections P5V, M5V, slot coding connections SN0, SN1. . . SN4 and the rack coding connections RN0, RN1. . . RN4, where good shielding of the bus connections KBP1, KBN1, KBP2, KBN2 is achieved. Accordingly, the contacts of the connection means of the bus subscriber are also arranged here, which, in the event that the subscriber is plugged into the slot, is in operative connection with these connections. Furthermore, the connection means of the bus subscriber has contacts for connection to connections AN1, AN2, AN3, which are reserved for possible extensions. For example, in a practical exemplary embodiment of the invention, the connections AN1, AN2 are provided for setting a BAUD rate, which the bus subscriber indicates to an actively switched bus subscriber via these connections.

Claims (6)

1. Bus subscriber which can be plugged into an arrangement provided with a plurality of slots ( 1 a, 1 b,...), Whose slots ( 1 a, 1 b,...) Via a serial bus provided with at least one line ( 4 ) are connected to one another, the bus subscriber having a connection means provided with contacts for connection to the serial bus ( 4 ) and is provided with means for setting a bus subscriber address which is used for addressing the bus subscriber via the serial bus ( 4 ) by a further in the arrangement of pluggable bus subscribers is provided,
characterized,

• - That the connection means further comprises contacts for connection to coding connections ( 9 ; SN0, SN1 ... SN4) of the slot, these coding connections for generating a slot code on potential lines (P5V, M5V) being closed, and
• - That the bus subscriber is provided with means for reading the slot code via the contacts of the connection means and for generating the bus subscriber address from this slot code.

2. Bus subscriber according to claim 1, characterized in that the connection means further comprises contacts for connection to a parallel bus ( 5 ) of the arrangement, which for address coding a group of slots ( 1 a... 1 e; 1 f.... 1 j) is provided. 3. Bus subscriber according to claim 1 or 2, characterized in that there are bus line contacts of the serial bus ses ( 4 ) between the contacts for connection to the coding connections ( 9 ; SN0, SN1... SN4). 4. Bus device according to claim 3, characterized in that the contacts for connection to the potential lines (P5V, M5V) together with the contacts for connection to the coding connections ( 9 ; SN0, SN1... SN4) the bus line contacts of the serial Busses ( 4 ) surrounded. 5. Bus subscriber according to claim 4, characterized in that the contacts for connection to the parallel bus ( 5 ) together with the contacts of the coding connections ( 9 ; SN0, SN1 ... SN4) and the contacts of the potential line connections, the bus line contacts of the serial Busses ( 4 ) surrounded. 6. Arrangement with several bus participants according to one of the An sayings 1 to 5.