DE2517097A1 - Time multiplex signal transmission network - has branches to which individual subscriber stations are connected - Google Patents

Abstract

A synchronisation word forming a time frame is delivered from a network point, and at extreme network points is transmitted through a delay line from reception to transmission line. The delay time is such that synchronisation words are simultaneously received in the next network junction point. Spacing between two synchronisation words is in each station divided in equal time slots, and the whole message transmitted over the transmission line is transferred to the reception line at a point. A subscriber station (B) which detects its message in a time slot on the transmission line, branches out the message for its evaluation. This time slot is erased, and a message is sent by the station (B) in the same slot to a different subscriber (A) which receives it exclusively on the reception line. The message is evaluated, and sent by subscriber (A) to (B) in the same time slot.

Description

Method for message transmission The invention relates to a method for the transmission of messages in a network with multiple branches via network nodes the individual subscriber stations each via a transmit and receive line are connected along the network branches in the multiple access method, in which the Message transmission takes place in the time division multiplex process, with at least one Place the network from periodically a synchronization word to form a time frame is sent out and the synchronization word each at the extreme ends of the network transmitted from the receiving line via a delay element into the transmitting line will, wherein the delay time of the delay element is so dimensioned is that at the next network node the synchronization words on the transmission lines at the same time arrive, in which the distance between two synchronization words in each subscriber station is divided into n equal time slots and in which the entire message, which is transmitted on the transmission line at a single point in the network Receiving line is transferred.

A message transmission system in which the invention and DOS 2 208 396 system is known from DOS 2 208 159 /. Fig. 1 shows its network structure. A number of subscriber stations 22-29 are Connected to one another via a line system 1 which is branched via node 5. In addition to the subscriber stations symbolized as telephone stations 21, there are also subscriber stations on the network also data devices 22, data banks 23, data display devices 24, image devices 25, telex devices 26 and computer 27 can be connected. All of these devices are referred to below as "subscriber stations" for short. called.

To synchronize the subscriber stations on the frame clock sends a synchronizing word generator 3 periodically synchronizing words in the network whose each network branch consists of a transmission line and a receiving line. Every Subscriber station is to both the transmission line and the Receiving line connected and monitors the message flow of both lines.

At a single message gateway 4, the entire in The message contained in the network is fed from the transmission line into the receiving line, so that all lines directed in the direction of the message gateway 4 are operated, transmission lines and the oppositely operated lines receiving lines are.

At the end of a branch of the network that is not where the message center is is, in the sync word transfer points 32 only the sync words of the synchronizing word generator 3 transferred. This transfer of the synchronization words takes place from the receiving line via a respective delay element in such a way that the synchronization words arriving from the synchronization word generator in the next network node coincide simultaneously with the synchronization words arriving from the network branch.

Each subscriber station divides the distance between two synchronization words in / same number of time slots and contains facilities that have free time slots recognize, they can occupy and for them specific messages of a time slot can evaluate.

The messages are transmitted using time division multiplex technology, the establishment of a connection in the multiple access procedure.

To establish a connection seeks according to a development of the known proposal, the calling subscriber station first in the receiving line a free time slot and sends on the corresponding time slot of the transmission line, which must be unoccupied by the technology of the network synchronization described above, his message. This process is described in detail in DOS 2 208 159. Since it does not contribute anything to the understanding of the invention, it is necessary at this point not to be discussed further. What is important here, however, is that the called Station after receiving your message from the calling subscriber based on your address has recognized an occupied time slot, for its part another free time slot for the Acknowledgment and used for your message to the calling party.

Consequently, there are at least two for a communication link Time slots occupied.

The invention is based on the object in a system of the described Way of improving the utilization of the available time slots.

This task is carried out by the characterizing part of the claim 1 mentioned invention solved.

In the solution according to the invention, the calling party and the called party consequently swap Participants put their message on the corresponding time slots on the send and receive lines the end. This means that the usable number is at the same transmission speed of time slots twice as large as in the known system. When the calling party has found a free time slot, the connection is in the opposite direction always secured by the called subscriber. The extra effort for this in the subscriber stations is negligible since the one required for the transmission line Receiving device (RF receiving memory) essentially already for the synchronization word reception is available. On the other hand, the double number of available channels allows also halving the bandwidth required for message transmission and thus the transmission speed. At reduced transmission speed especially the high-frequency devices of the system easier, less prone to failure and cheaper to integrate.

The invention will now be explained in more detail on the basis of exemplary embodiments.

They show: FIG. 2 the basic unit of the known branching network, FIG. 3 coupling unit for carrying out the method according to the invention, FIG. 4 block diagram a subscriber station with coupling unit.

In Fig. 2 is only a simple branch to explain the principle of the delay network shown with anti-parallel transmission line SL and receiving line EL, to which only two subscriber stations for a better overview A and B are each connected via two connecting lines.

The synchronization word generator 3 is switched on at the beginning of the transmission line, a termination 31 at the end of the receiving line and the message gateway at the end of the network branch 4th

For the transmission of messages from the subscriber station A to the subscriber station B determined after the subscriber of subscriber station A picked up the receiver has, the subscriber station A in the receiving line has a free time slot and sends in the transmission line at the same time slot, which is generally not the same Timeframe heard1 the messages for subscriber station B. From the subscriber station B, who received the message assigned to it on the time slot of the transmission line If the message of the time slot is branched off for evaluation, the time slot is deleted and immediately afterwards in the one that has become free Time place the Message for the subscriber of subscriber station A sent.

The subscriber station A receives the message assigned to it the receiving line. It evaluates this without deleting the message and sends it in turn, the message continues to correspond to the time slot of the receiving line Time slot of the transmission line to subscriber station B.

The subscriber station B establishes a connection in the same way to subscriber station A. There is always a free one in the receiving line Time slot searched, sent in the corresponding time slot on the transmission line and depending on where the message associated with the subscriber station appears, either received from the transmit line or from the receive line.

Is used by a subscriber station on both lines on the same Time slot a signal assigned to the subscriber station, e.g. B.

a call is received, the subscriber station switches to "reception" on the transmission line "and sends as already described.

A coupling device provided with a changeover switch 612 is shown in FIG. 3a 69 shown to explain the method according to the invention. Such a coupling device is only required for the transmit line, as messages are in the receive line may not be deleted in order to enable the detection of occupied time slots.

A time slot is deleted by switching the switch 612 from position 1 to position 2 for the duration of the time slot. In this The subscriber station can position the one to be sent via the input S of the switch Enter the message in the free time slot. The message from the other subscriber station is picked up in front of the switch at junction E and the one at the coupling device connected subscriber station supplied.

Fig. 3b shows a simple implementation of the coupling device 69 with logical components. It consists, for example, of the series connection an AND gate 61 and an OR gate 62, each with at least 2 inputs exhibit.

A time slot is deleted by a corresponding to the Length of a logical "O" pulse at the second input Lö AND element. During this period, the subscriber station can use the second input S of the OR element your message to be sent in binary form in theI that has been released Enter time slot.

The message bits of the other subscriber station are before the AND element removed at output E and the subscriber station connected to the coupling device fed.

The "rest position" of the two elements 61 and 62 is for the AND element a logical 1 at the second input Lö and a logical "on am" for the OR gate second input S. The control signals for the "rest position" are consequently complementary and each subscriber station is therefore to be designed so that if the station fails this "rest position" is guaranteed.

In Fig. 3 it is also shown how in the coupling device 69 the bits of the transmission line sent by the subscriber stations and those of the subscriber station connected to the coupling device originating and bits to be sent out, which are linked in the OR gate 62, before they are sent out be regenerated in terms of shape and bit rate. This regeneration of the Bits is extremely useful at high bit rates on the transmission lines because the individual bits on the transmission lines with the number of passed Coupling facilities deteriorate more and more and differ from the fed in too very different.

A D flip-flop 63 is expediently used for bit regeneration, whose data input D the message bits are supplied, which z. B. each during the steeply falling edge of the derived in the respective subscriber station Bit clock pulses are sent out from the Q output of the flip-flop.

In FIG. 4, the connection of the coupling device according to FIG. 3 is on shown a subscriber station. The coupling device 69 for performing the inventive Procedure is in the transmission line SL and is with its delete input Lö, receive output E and send input S connected to a send / receive memory 711 of the subscriber station. If a bit regeneration is provided, the bit clock is taken from the synchronization unit 701 derived from the subscriber station.

The send / receive memory 711 receives the data to be sent from Facilities the periphery via a multiplexer 721, speed converter 731 and one Adaptation 741, which can be an analog / digital converter, for example. Received Data arrive either from the transmit / receive memory 711 or from the receive memory 712 via the demultiplexer 722, speed converter 232 and adapter 742 Peripheral facilities.

The control of the coupling device 69 and the transmit / receive memory 711 is faster than the speed of the central controller 80 Send control 801 carried out.

Claims (1)

Claim Method for message transmission in one over network node multiple branched network to which the individual subscriber stations each have a transmission and receiving line connected along the network branches using the multiple access method are, in which the message transmission takes place in time division multiplex, where a synchronization word periodically from at least one point in the network Formation of a time frame is sent out and the synchronization word in each case the extreme ends of the network from the receiving line via a delay element is transmitted into the transmission line, the delay time of the delay element is dimensioned so that the synchronization words in the transmission lines at the next network node arrive at the same time, in which in each subscriber station the distance between two synchronization words is divided into n equal time slots and in which the entire message, which is transmitted on the transmission line, to a single one Point of the network is transferred to the receiving line, characterized in that that from a subscriber station (B), the message assigned to it on a Time slot of the transmission line determined, the message of the time slot for evaluation branched off, the time slot deleted from the subscriber station (B) and then from the subscriber station (B) in the vacated time slot Message for the other participant (A) is sent and that from a station (A) that receives the message assigned to it exclusively on the receive line, the message of the time slot is evaluated and the message for the other participant (B) from station (A) on the corresponding time slot of the receiving line Time slot of the transmission line is sent out. L e r s e i t e