DK161547B - TIME MULTIPLEX CONTROLLED DATA SYSTEM - Google Patents

Description

! DK 1615 4 7 B

The invention relates to a data system having a plurality of time multiplex controlled data processing units connected to a controller for receiving time multiplex orders contained in a multiplex table in the controller. In particular, the invention relates to such data systems which have a large number of data processing units or so-called external units, such as screen terminals, printers, hole card readers, modem equipment for data transmission and the like.

In known systems, the external units have usually been connected to one or more data buses for multi-way transmission of data. To control the data transmission, each external unit has associated associated control apparatus for controlling the transmit-receive function, so that no collision between multiple data streams occurs. It is usually known that time multiplex control the outer 15 units, but due to the described structure of the system, it has not yet been possible to achieve an efficient allocation of time sections to the individual units. The known control and multiplex division is particularly difficult to function satisfactorily when a large number of external units are used.

Pfi to communicate with each other via long cable connections.

An example of the aforementioned difficulties can be seen in the attempt to simplify bus connections to a large number of external units known from U.S. Patent No. 3,706,853. This prior art comprises active bus lines connecting the outer units of a cascade coupling.

By an active bus line, it is believed that when the bus passes through each of the outer units, the active circuit elements are interrupted and the operation of the system will therefore cease if only one of the many circuit elements fails.

The object of the invention is to provide a plant with a rational operating structure which is inexpensive to manufacture, 33 and which is particularly suitable where there are a large number of

DK 161547 B

2 outer units located at relatively large spacings.

This object is achieved in that the plant is designed as defined in the characterizing part of claim 1. The invention is thus characterized in that all the information to be exchanged between the external units passes in one direction only through the control unit via the bus lines, and that the information when passing through the control unit is supplemented with an address information indicating which unit should post in the next time section. All units receive the information transmitted via the control unit and can be arranged to sort the information, ie. on the basis of a recipient address and / or sender address in the information.

The bus lines are preferably passive ie. that they do not contain active circuits for changing data, which are therefore at a given time on the bus line. When the unit is connected to the bus lines in this way, the physical location of the units can be changed easily along the bus 20 lines, which can be very long and / or include star-coupled branches, as it is inexpensive to insert simple amplifiers into the bus lines when the data transmission only takes place. in a particular direction. Thus, the long bus lines only cause an inevitable time delay due to the signal speed, but by passing all information through the control unit and combining it with information regarding the multiplex control, a fast and reliable control of the external can be achieved. units, as will be apparent from the following description.

In addition to the aforementioned advantages, the measures set out in claim 1 constitute a basic structure enabling additional benefits as shown in the explanation of the subclaims below.

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Preferably, said bus lines are arranged for serial transmission, thereby obtaining a sufficient transmission rate in most applications.

Each bus line can e.g. include a screen conductor and two wired inner conductors which can transmit a differential signal and it would therefore be relatively inexpensive to wrap such cables in e.g. a building, and in appropriate places to place connection boxes for external devices where these cans need not be numbered.

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By means of the measures set out in claim 2, optimal time multiplex control of the system can be achieved, since an outer unit can produce such changes in the time multiplex table that the unit in question is allocated more or less times in relation to the other units, i.e. devices themselves can allocate the transmission bandwidth.

Furthermore, when the data transmission on the other bus line of the said connections takes place only in the direction from the control unit to the 20 connected units, the advantage is obtained that uninterrupted clock pulse signals can be sent from the control unit to the connected external units, as stated in claim 3, for the purpose of on controlling the transmit and receive function of the external devices. This can prevent 25 more external units from simultaneously transmitting information on the connection's first bus line, while at the same time reducing the stays between information transmissions from different external units.

30 Since the signal time delay in the cables results in a certain safety distance between the transmitted data blocks, the system's time management will determine a predetermined maximum bus line length. However, the number of external units may be substantially increased as several data connections may be connected to the control unit, each consisting of a first and a second bus line with associated external units. The number of such compounds

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4 could be controlled by an overall time multiplex system, but is preferably connected so that the controller has a common data input for all first bus wires connected to the controller and has a common data output for all the bus 5 wires which output information from the controller, whereby a branch structure is obtained which is possible because of the one-way transmission through the bus lines.

By the measures mentioned in claim 4, the security distance mentioned can be substantially reduced, since the time delay in the control unit causes the received information to be resynchronized before it is retransmitted.

The invention will be explained in greater detail by the following description of some embodiments, with reference to the drawing, in which fig. 1 shows an embodiment of the system according to the invention, in which a number of external units are connected to a control unit via two one-way bus lines; FIG. 2A and 2B show, in principle, an example of the format of a data block on the top and bottom respectively of the ones in FIG. 1, while FIG. 3 shows another embodiment of the system according to the invention, wherein the control unit is partly connected to three pairs of bus lines with associated external units and partly arranged to communicate with an external data system.

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Figure 1 shows a control unit 1 connected to a plurality of external units 2A, 2B, 2N, where N e.g. can be 256, via two bus lines, 3 and 4, respectively. According to the invention, the data transmission on bus lines 3 35 and 4 takes place only in the one direction indicated by arrows, so that all the information to be exchanged between the outer units 2 between one another passes through the controller 1. Which

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5, indicated by arrows I / O, the external units have data connections, e.g. for receiving information from a keyboard and for transmitting information to a light screen. For reasons of signal attenuation along the bus lines, 5 amplifiers may be inserted at appropriate intervals, as indicated at 5 and 6. These amplifiers are very simple in that the signal transmission takes place only one way through the respective amplifier.

10 The controller 1, as shown in the figure, contains a memory 7 which is intended to contain multiplex information. The bearing 7 can e.g. be arranged so that each of its storage cells contains the number of an outer unit, so that by cyclically scanning the storage, the order is obtained, after which the outer units are allowed to send information out on the bus line 3. According to the invention, the information passes on the bus line 3, eg. in the form of a data block shown in FIG. time sections, through the control unit 1, from which information is transmitted on the bus line 4 e.g. in the form of the data block shown in Figure 2B. The data block shown in Fig. 2A comprises identification flags F, control data SD and actual data D and may also contain data not shown, e.g. for the purpose of error correction. The data block shown in Figure 2B differs from the data block of Figure 2A in that multiplex information MUL is entered from memory 7, which information determines the number of the external unit which can broadcast the next data block (Figure 2A) on the bus line 3 According to the invention, the control unit 1 is arranged so that, depending on the information contained in the data block (Figure 2A), the contents of the storage 7 can be modified so that an external unit such as the must dispense with a larger amount of information, can assign itself a larger fraction of the multiplex cycle, the data block 2A may contain information that the number of the unit in question must be entered several times in the storage 7. When the unit has disposed of its information, it may again cause,

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6 that its number only appears, for example, once in the storage 7.

It should be noted that the data formats shown in Figures 2A and 2B are intended only as a preferred example, since the information MUL may be located elsewhere in the data block, possibly completely outside it.

The one-way transmission of the invention also provides an additional advantage, since clock pulses can be continuously transmitted to the external units from a clock pulse generator 8 in the control unit 1. The clock pulses can be transmitted by using a clock pulse generating code in the information transfer, such as the code SPL / D ( differential split phase), where the polarity shifts at each bit's beginning and 15 also shifts midway into the bits which indicate logic 0. Each of the outer units contains a circuit 9 for regenerating the clock pulses used to control data reception from the bus line 4 and data transmission on the bus line 3, as is schematically indicated by the 20 switching registers 10 and 11, respectively. much. Furthermore, an automatic synchronization of the transmission times on the bus line 3. can be obtained. The information transmission on the bus line 3 can e.g. is initiated by recognition of a characteristic bit pattern between the data blocks shown in Figure 2B on the bus line 4. The central generation of the clock pulses further solves the well-known phase error problem in modem equipment.

If the information on the bus line 3 passed directly through the controller 1 in continuation of the multiplex information, it will be appreciated that e.g. had to count on a safety distance between the data blocks corresponding to the delay resulting from the total of both bus lines 7

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length when the unit 2N sends information to itself, among other things. However, this security distance can be reduced to arise solely from the bus line 3 by resynchronizing the information in control unit 1. In order to resynchronize the information, it must be delayed a predetermined time period which may advantageously be a time section, which furthermore allows more extensive data control in the control unit first

It will then be appreciated that a very reliable and rational control can be obtained by means of the system according to the invention, which is very inexpensive to install, since only two of the described bus lines have to be drawn through e.g. a building's premises, in which 15 connection connectors are placed for the external units. The external units can be freely moved around and connected anywhere along the bus lines without making any changes to the installation or the driver programs.

20 As previously mentioned, in the construction of the system, a maximum length of the bus lines is usually determined so that no long dead time arises from delays in signal propagation, and for very large systems the second embodiment 25 of the system according to the invention can therefore be used. , wherein a control unit 20 is arranged to receive information via three bus lines 21, 23 and 25 and is adapted to transmit information on three bus lines 22, 24 and 26. According to the invention, said bus lines are all intended to carry only 30 information in the directions indicated by the arrows in the figure. The bus lines are connected to respective sets of external units, as can be seen in the figure, and the operation of the units may be the same as described above in connection with Figure 1. For the sake of installation of the bus lines, it may be appropriate to or more branches, and in Figure 3 is shown a branch 27, 28 from the bus lines 21, 22, where

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8, if necessary, amplifiers 29 and 30 may be inserted at the branch points. Like usual line amplifiers (5, 6 in Figure 1), these amplifiers are very simple and inexpensive, since the information is always sent in a predetermined direction.

Since it may appear that the external units X to which a time section has been assigned have no information to output, the controller 20 (or controller 1 of Figure 1) is arranged to recognize this and to even generating a data block on lines 22, 24 and 26 (or line 4 in Figure 1), which data block preferably contains only information from the multiplex table in the controller, so that information is transmitted about which of the external devices to send next by bus lines 21, 23 or 25. In such a case where a selected external device has no information to output, the controller 20 will be able to receive information from an external data system 31. Similarly, the controller may be able to be arranged to receive information from external data system 31 and to transmit this information as well as data from the multiplex table on bus lines 22, 24 and 26 in time sections where information is not to be transmitted from the bus lines 21, 25 23 and 25.

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Claims (4)

A time multiplex controlled data system comprising a plurality of 5 data processing units connected to a controller via a first bus (3) for transmitting data to the controller (1) only in the direction of a data processing unit (2A, 2B ... 2N), connected to the bus, and via another bus (4) for transferring data blocks only in the direction of the controller (1) to the data processing units (2A, 2B ... 2N), wherein the controller (1) contains a storage ( 7) having multiplex addresses as well as cyclic scanning means adapted to read multiplex information from the storage (7) having multiplex addresses # which information defines the number of the external unit which is allowed to transmit next time on the first bus (3) , characterized in that in the control unit (1) there are means arranged to combine a data block (Figure 2A) received from the first bus 20 (3) with said multiplex information and arranged to transmit it combined data block (Figure 2B) on the second bus (4). Installation according to claim 1, characterized in that the addresses of each of the outer units (2A - 2N) are located in a predetermined number of locations in the storage (7) with the multiplex addresses and that the control unit (1) is arranged in dependence. of said data to modify the number of locations containing a predetermined address. 30 System according to claim 1, characterized in that the control unit (1) is arranged to produce timing control pulses for the transmitting and receiving operations of the external units, which timing pulses are continuously transmitted via the second bus (4). DK 161547 B 10 System according to claim 1, characterized in that the control unit (1) contains delay means arranged to delay said data for a predetermined period of time, preferably a time section, before data, combined with multiplex information, is retransmitted to the external units. 10 15 20 25 30 35