DE19603473C2 - Process for increasing the transmission range of data interfaces for peripheral equipment of communication systems - Google Patents

Description

The invention relates to a method for transferring increase of an asymmetrical data interface with Data, control and status lines for the transmission of Data, control and status information for the connection of peripheral devices to a communication system to which each via news channels and a packet-oriented Signaling channel communication terminals can be connected are.

For connecting a peripheral device, for example a printer for issuing fees or a company terminal, are communication systems, especially mediators with at least one V.24 interface or one Equipped with the same RS232 interface - see here for example publication "ISDN in the office HICOM", Sonderaus hand over telcom report 1985. Pages 50 to 57. About this cut Data are transmitted via data lines, via control lines Tax information and via status lines status transfer information. Here, on the end device side formed control information to the data interface transmitted and according to the submitted tax information the data interface is set. For example is the control information "Send request" system interface controlled in a state at the incoming data to the following facilities or Communication networks forwarded or transmitted via this become. Such asynchronous V.24 or RS232 data interface has a transmission range of approx. 30 m, that is, peripheral devices such as a Printers are connected via a maximum 30 m long connection cable  to connect a communication system. Are the peripheral Facilities at a distance of more than 30 m from the Communication system arranged, so are some methods of Enlargement of the  Transmission range of an RS232 or V.24 interface known.

A variant is the V.24 or RS23 cut position signals with the help of another transmission procedure rens and the transmission implementing the method facilities with the significantly larger transmission realm far to be communicated. One of the transfers The baseband method, for example or include the echo cancellation transmission method Lich the associated transmission facilities. A white Another variant is the V.24 or RS232 cut to amplify position signals. This means a back-to back circuit of two interface circuits. A white Another possibility is the interface signals to the commu via a message or B-channel connection nication system - especially in ISDN communication nication networks. Here is a V.24 or RS232 cut implemented in a terminal adapter that connects to a Subscriber connection of the communication system, in particular an ISDN communication system is connected. At on set of two such terminal adapters becomes a peripheral Setup to a remote from the communication system Terminal adapter connected and via the connecting cable and the communication system will include the data the control and status information to the communicati on the system arranged terminal adapter. In the V.24 or RS232 interface implemented with this terminal adapter is with the V.24 or RS232 interface of the Communication system connected. The realization of the before three variants are very expensive, the means that the circuitry and programming effort very high. In addition, in the third variant, an after straighten or B-channel occupied, which is more advantageous for others Applications, for example a connection of a communication tion terminal should be used.

The object underlying the invention is that Transmission range from for the connection of peripheral Facilities provided on communication systems to increase interfaces with minimal effort. The task is based on a communication system according to Merk paint the preamble of claim 1 by its characteristic features solved.

The essential aspect of the method according to the invention is to see that the data including tax and Status information about the packet-oriented signalisie tion channel of a communication terminal are transmitted. For this purpose, one is mainly implemented in terms of programming Transmission protocol provided that both in communicati onsendgerät, as well as in the communication system or in one another communication terminal, a transmission protocol couple, is realized, the respective one on the part Transmission protocol implemented by an acti vation information is activated. With the help of this transfer The delivery protocol pairs are the data to be transmitted in Da ten packages are inserted or are based on the transmitted data packets the data and additionally in the Da tax and status information to be transmitted inserted.

The transmission protocol is in a communication terminal and in the communication system - claim 2 - or in two com Communication terminals implemented - claim 3 -, wherein a Transmission protocol by submitting an activation message through the other assigned transmission protocol is activated. The variant of the is particularly advantageous Realization of a transmission protocol pair in a commu nikationsendgerät and in the communication system, because the usual usually via the data interface of the communication system data to be transmitted to the asynchronous data interface, but directly in the communication system a subscriber line unit and the signaling channel  transmitted to the communication terminal concerned and via the asynchronous data interface implemented there - esp especially a V.24 or RS232 data interface - to the pe peripheral equipment, e.g. B. a fee printer - passed on be. The activation of the transmission protocol in the Communication is established through the transfer protocol of the communication system.

The method according to the invention is particularly advantageous in ISDN communication systems are used, the ISDN commu nication devices via 2B channels and a D channel according to ISDN signaling protocol are connected - On saying 4.

Further advantageous embodiments of the invention Procedure in particular with regard to the design of the Activation and confirmation messages, as well as the data packages can be found in the other claims.

The method according to the invention is described below with reference to explained several drawings. Show

Fig. 1 is a block diagram of a method according to the invention realisierendes communication system, and

FIG. 2a, b of the structure between the communication system and a communication terminal transmitted Since tenpaketen.

Fig. 1, the proceedings provided for explanation of the procedural components of the present invention showing a communications system KS. For the exemplary embodiment it is assumed that a central controller ZST of the communication system KS has a printer controller DST. About this printer control DST data to be output d are usually controlled to an asymmetrical V.24 or RS232 interface V.24 - indicated by a line with a double arrow - and on a printer PR, z. B. issued a fee printer. This V.24 interface V.24 represents the operational interface of the communication system KS. If the printer FR is connected to the communication system KS at a distance of <30 m, the transmission range of this V.24 interface is V.24 too low due to the asymmetrical voltage level at the interface lines.

The transmission range increase of the Be drive technology interface is essentially this is enough that the data d with the help of messages m on the peripheral control FST to a subscriber line unit SLMO of the communication system KS are transmitted. The In Exchange of information between the central control ZST and The peripheral control PST takes place via a dual-port RAM DPR instead. The exchange of information between the peripheral Control PST and the subscriber line unit SLMO is via a packet-oriented message interface HDLC wraps. Here, the data d and for a signalisie The information provided is in a packet-oriented message gen me inserted and by a secured protocol, before preferably the HDLC transmission protocol.

In the peripheral control PST is the HDLC transmission protocol and the access routine to the dual-port RAM DPR each implemented by a PBT1.2 protocol controller. Of another is a device hand in the peripheral control PST ler DH-KE for the subscriber line unit SLMO closed communication terminals KE provided. Through the sen device handlers DH-KE are those of the central tax messages sent to ZST or information si and Data d evaluated and inserted in messages that about the Subscriber connection unit SLMO to the respective communicati onsender KE are transmitted. This means that too transmitting data d in the device handler DH-KE in packages tated messages me inserted and to the subscriber line module SLMO are transmitted. An evaluation or changes Data d is not carried out here, d. H. the too  Transmitting data d are transparent to the participants connection unit SLMO transmitted. In this the Da ten d to an interworking unit IWU. In this is a print kertreiber DTR realizes both the data flow control between the DST printer controller in the central controller ZST as well as to the connected communication terminal KE takes over.

The connection of the communication terminal KE shown takes place via a connecting line ASL, via which to be transmitted Information, for example, according to the time division ge transmission procedures are transmitted - not Darge poses. Two message lines are (2B) and a signaling channel (D). The news ten- or the signaling channel (2B, D) are regarding their procedural properties, for example, according to ISDN standard implemented. This means news channels B with a transmission speed of 64 kbit / s and one Signaling channel with 16 kib / s. The signaling information mations are HDLC-oriented according to the ISDN signaling transfer procedures. There is egg in the communication terminal ne V.24 interface or a similar RS232 interface position V.24 realized. The V.24 interface V.24 is according to the ETSI standard V.24. At this V.24 cut Instead of V.24, the printer PR is connected, the more common wise with the operating technology interface V.24 of the municipality cation system KS is connected. In the communication terminal KE the V.24 interface is V.24 through an interface unit realized in both the adjustment of the physika and the procedural properties of the inter conditions of the communication terminal KE leads. Behavior follows the process according to the invention the V.24 cut implemented on the communication terminal KE place V.24 in the same way as an operating technology interface.

From the printer controller DST, data to be output or to be printed d is transmitted transparently to the printer driver LTR in the interworking unit IWU of the subscriber line unit SLMO in accordance with the internal protocols of the communication system KS, and the latter is indicated that this data d is sent to a V.24 via the signaling channel D. Interface V.24 of the specific communication terminal KE are to be transmitted. Thereupon, the transmission protocol UPR according to the invention is activated in the printer driver DTR and from this a activation information ai is transmitted via the signaling channel D concerned to a transmission protocol UPR implemented in the assigned communication terminal KE. Confirmation information bi is formed by this transmission protocol UPR and sent back to the transmission protocol TIER in the interworking unit IWU. By transmitting activation information ai and confirmation information bi, both transmission protocols UPR are activated and a transmission path is set up for the transmission of data packets dp. The structure of the data packets dp is explained in FIGS . 2a and 2b. In addition to the data d, control information stei and status information stai are transmitted in the data packets dp. The control information stei are formed in accordance with the settings of the control interface lines of the V.24 interface V.24, ie those states are adopted on the control interface lines of the V.24 interface V.24 that the printer PR by appropriately applying voltage potentials to the control interface lines. Status information stai is transmitted from the communication system KS to the V.24 interface V.24 in order to show the connected printer PR the status of the transmission path, including the V.24 interface V.24. The control and status information stei, stai transmitted in the exemplary embodiment are explained on the basis of the data packets dp shown in FIGS . 2a and 2b. The transmission protocol pair UPR or the established transmission path is deactivated again by transmitting deactivation information (dai) formed in the interworking unit IWU to the transmission protocol UPR in the communication terminal (KE) and the subsequent transmission of confirmation information bi to the transmission protocol UFR in the communication system KS. The signaling channel D is then completely available again for the transmission of signaling information in the sense of the connection control of the communication terminal KE concerned, signaling information also being able to be transmitted during the transmission path that has been set up. Since the average transmission speed for the transmission of the signaling information is between two and four kbit / s, considerable transmission speeds of up to 10 kbit / s are available for the transmission of data packets dp.

Fig. 2a shows a data packet dp, the comprehensive through a control field STF and one for example, 25-byte data field DF ge forms, said data d in the data field DF are transmitted. The data packet DP in FIG. 2b also shows this explained structure. The control field in Fig. 2a comprises 8 bits 1 ... 8, for example the first to third and the eighth bit are not used, but can be used for further transmission of status or control information. The data packet dp is for the transmission of data d and control and status information, stai from the communication system KS to the communication terminal KE and the data packets dp shown in FIG. 2b are for the transmission of data d and status and control information stai , Stei provided from the communication terminal KE to the communication system. In the data packet dp shown in Fig. 2a status information stai are inserted into the control field STF, which indicate the status of the V.24 interface V.24 or the transmission path to the printer PR. Specifically, this is status information stai, such as readiness to send cts, readiness for operation csr, received signal level dcd, incoming call ri and follow-up information fi, the respective follow-up information fi indicating whether further data packets dp follow. In the data packet dp according to FIG. 2b, control information stei is inserted into the control field STF, ie, control information stei is transmitted in this control field STF, which is formed by the printer PR and controlled to the V.24 interface V.24. Specifically, this is control information such as printer readiness dtr, send request rts and follow-up information fi, which indicates whether further data packets dp follow. All information is transmitted by binary information - indicated in FIGS . 2a and 2b by 0.1 designations in brackets. This means that, for example, a binary 1 information, the activated control line - switched on in the case of a transmission request, for example - and an active status of a status line - for example, transmission line ready - indicates. Analogously to this, binary 0 information indicates, for example, a deactivated control line - for example, transmission request switched off - and an idle state of a status line - for example - transmission link not ready for operation.

In the exemplary embodiment, data packets are dp in particular from the communication system KS to the communication terminal KE transmitted since essentially data d from the communication system stem KS to be transferred to the printer PR. The data packets dp from the communication terminal KE to the communication system KS are essentially for the transmission of tax information stion provided.

Through the method according to the invention, the transmission range of the V.24 interface V.24 or the operating tech nik interface be significantly increased, d. H. according to the out example of a printer PR or any other peripheral facilities at a significantly greater distance be arranged by the communication system KS. Advantageous is the inventive method for all peripheral A directions for the operation and maintenance of a com communication system KS are used.

Claims (10)

1. Method for increasing the transmission range of an asymmetrical data interface (V.24) with data, control and status lines for the transmission of data, control and status information (d, stei, stai) for the connection of peripheral devices (PR) to a communication system (KS) to which communication terminals (KE) can be connected via message channels (B) and packet-oriented signaling channels (D), characterized in that

• 1. that a transmission protocol (UPR) coordinated with the signaling channel (D) is activated by activation information (ai, bi) transmitted in the signaling channel (D),
• 2. that with the aid of the activated transmission protocol (UPR) to be transmitted data (d) and in addition the control and status information (stei, stai) for data transmission via the signaling channel (D) in data packets (dp) added or from the transmitted Data packets (dp), inserted data (d), control and status information are taken and controlled to an asymmetrical data interface (V.24) or the communication system (KS).

2. The method according to claim 1, characterized in that that the transmission protocol (UPR) in communication terminals ten (KE) is realized. 3. The method according to claim 1, characterized in that the transmission protocol (UPR) in the communication system (KS) and in a communication terminal (KE) is realized. 4. The method according to any one of the preceding claims, characterized featured, that ISDN communication terminals (KE) each have two B- Channels (B) and a D channel (D) according to an ISDN signal  protocol to an ISDN communication system (KS) are closed. 5. The method according to any one of the preceding claims, characterized in

• 1. that in a communication system initializing or deactivating a data transmission (KS) after activation of the transmission protocol (UPR), this forms a packet-oriented activation message (ai) or deactivation message (dai) and via the signaling channel concerned (D) is transmitted to a specified communication end device (KE),
• 2. that the transmission protocol UPR) is activated or deactivated in the predetermined communication terminal (KE) and a packet-oriented confirmation message (bi) is transmitted via the signaling channel (D) concerned to the transmission protocol (UPR) of the communication system (KS).

6. The method according to claim 5, characterized in that the activation or deactivation message (ai, dai) so like the confirmation message (bi) a 1-byte control erfeld (STF) in which the activation or deactivation or confirmation information (ai, dai, bi) inserted is. 7. The method according to any one of the preceding claims, characterized ge features that a data packet (dp) is a 1-byte control field (STF) includes, in the control or status information (stei, stai) are inserted. 8. The method according to claim 7, characterized in that that through the communication system-side transmission prototype coll (UPR) control information (stei) in the control field (STF) and through the communication terminal-side transmission pro tokoll (UPR) status information (stai) in the control panel (STF) are inserted.   9. The method according to any one of the preceding claims, characterized featured, that the asymmetrical data interface through a V.24 or an RS 232 data interface is implemented and that the Tax information (stei) and status information (stai) ge according to the standardized V.24 or RS 232 data interface le formed and in the control field (STF) of the data packets (dp) be inserted. 10. The method according to any one of claims 7 to 9, characterized ge features that the control field (STF) additionally a follow-up information (fi), which indicates whether or not another data pair ket (dp) is transmitted.