DE1966370A1 - Arrangement for receiving and transmitting binary coded information - Google Patents

Description

Arrangement for receiving and transmitting binary coded information The invention relates to an arrangement for receiving and transmitting a binary encoded from an address, a command and a redundancy formed from both existing information.

It is a method for the transmission of secure digital selective and collective call commands with response have been proposed in which the information consists of an address, a command and a redundancy formed from the two. Call procedures are known in which the binary transmitted call is stored in the recipient and is checked for correct reception after the entry has been completed.

This method has the disadvantage that a transmission error can only be recognized after the call has come in completely, which means a loss transmission speed and readiness to receive. From the GB-PS 977 134 it is also known to have a redundancy check consisting of an address and an information part, d. H. to be transmitted from the address and command part, so that in the receiver in per se as is known, an error check is possible. It is already a process been proposed in which a transmission error already during the run-in of the address call can be detected, in order to put the receiver into its idle state more quickly move back. This means that the recipient is ready to receive new broadcasts more quickly. It is also known for error protection that after proper receipt of the Receiving station an acknowledgment call is sent back to the calling station. Of the The present invention is based on the object of specifying an arrangement which is able to meet the aforementioned requirements and the one possible has low expenditure on equipment. This task is solved by an arrangement, which is characterized in that when received by a transmitted synchronization character A clock generator is started via a start / stop switch, which is controlled by a electrical step switch the received address into a comparison circuit directs in which they are without storage with a given address is compared, and that a comparison lock is provided by the comparison circuit triggered when at least one bit of the received bit deviates from the specified one Address the start / stop switch in the stop position and thus the receiver in the toe state is reset, and if the addresses match the following gommandoruf is stored in a command memory, and that a computer is provided in which during the info wasionseinlaufs from address and command calls a test redundancy is formed, which with the subsequently incoming redundancy is compared in the computer and the stored command call if they match releases for evaluation, and that when sent by an entered trigger criterion A clock generator is started via a start / stop switch, which mediates an electronic step switch a synchronization signal, a set one Address call and a stored command call via an interrogation circuit switches an output, and that in a redundancy computer from address and command calls a redundancy is obtained, which is controlled by the step switch to the sent out Signal is appended and that is preferred to perform the entire operation the same parts of the arrangement used in the event of reception pick up the call.

at through the double exploitation and sending of the in the overall arrangement The building blocks contained in the system achieve a significant reduction in the outlay on equipment.

The invention is described below together with advantageous refinements explained in more detail using the example of the drawings. First, consider the big one. 1.

The start / stop circuit 1 is in position 1'Stop, by a received The start signal, for example the transition from a binary 1 to a binary 0, is the Start / Stop circuit 1 switched to "Start" and thus the control of the following received signal initiated by the clock generator 2 is enabled. That Clock signal now controls an electronic step switch 3, which by its Output signals the mechanical or electrical setting of the selective call number 4 and a bit switch 5 controls and thus the set code number (selective call number) this station queries bit by bit and via switch 6 of the comparison circuit 7 leads. In the. Comparison circuit 7 is now the received signal with the Selective call number requested by the electronic step switch 3 bit for Bit compared.

If both signals match, the output shows the Comparison circuit 7 no signal. If two compared binary characters differ, a Output signal of the comparison circuit 7, which via the comparison lock 8 to the Start / stop circuit 1 arrives, a signal is triggered that the start / stop circuit 1 switches to "Stop.

The basic position of this circuit is determined by the output signal of this circuit Station taken.

Parallel to the arrival of the received signal in the comparison circuit 7 the command part of the information runs in a clocked command memory 9. Furthermore, the entire information reaches the redundancy computer via switch 28 10. Since the selective call number of the circuit and thus the binary sequence of the selective call number is known, the first part of the pulse telegram containing the address can are checked by the comparison circuit 7, but not the following characters of the practically arbitrary command. After the aforementioned examination of the The comparison lock is also set via the electronic step switch 3 8 is switched on, so that the output signal for the following part of the pulse telegram the Yergleichs circuit 7 no longer bring the start / stop circuit 1 to respond can. With the arrival of the command part of the information, the switch 11 is closed, so that the command memory 9 for this time is clocked. To When the last binary character of the command arrives, switch 11 is opened, so that the command received via the input line of the command memory 9 information is stored in the command memory 9 and via the matrix 12 in the command display 13 can be displayed after the redundancy check. After the enema of the entire pulse telegram in the redundancy computer 10, this must be a certain Show end position, provided the information has not been disturbed.

The correct end position of the redundancy computer 10 after a Information triggers a release command for the switch in the redundancy test gate 14 15 from, the z. B.

when the battery voltage is switched through, the one in the command display 13 displays information pending via matrix 12. Becomes beneficial at the same time as this signal is the input of the command memory 9 until it is deleted blocked on the display, so that any subsequent disturbed commands already do so cannot falsify correctly stored commands.

By meaningfully linking the modules described so far with other blocks is ensured according to the invention that the hitherto the modules described also for sending information, z. B.

can be used to send out an acknowledgment call. This is explained in more detail below.

By the release signal of the redundancy checker 14, the automatic Reception / transmission switchover 16 controlled and from the previous reception position to the send position - delayed or undelayed - switched, whereby the process the acknowledgment is initiated: At the point in time when the redundancy check signal is issued the step switch 3 assumes a position that switches the start / stop circuit 1, which in turn switches off the clock generator 2 and the electronic step switch 3 resets to its basic position. By responding to the automatic receive / send switchover In this case, 16 is not the basic reception position, but the transmission basic position taken of the circuit.

The output signal of the automatic reception / transmission switchover 16 controls the switches 17, 18 and 19, thereby the binary output 20 is switched through and the binary input 21 separated. Furthermore, the comparison lock is activated by this signal 8 actuated so that any output signals coming from the comparison circuit cannot influence the start / stop circuit 1. With the output signal the automatic switchover, the start / stop circuit 1 is also switched to "start, so that the electronic step switch 3, which has now taken its rest position has received the clock signal again, and as in the case of reception, the setting of the selective call number 4 and the bit switch 5 controls. During the period of querying the selective call number the information reaches the switch 22 via the switch 6 and from there to the last switch 17, directly to the binary output 20. Simultaneously with the connection the selective call number by the electronic step switch 3 comes the binary output signal from switch 6 also via switch 19 and switch 28 to the redundancy computer 10.

After querying the selective call number by the step switch 3 the query of the command memory 9 takes place via the memory query 24. The Switch 25 is closed for the time of the command, while switch 6 is open is.

The flow of information from the memory query 24 to the binary output 20 and to the redundancy computer 10 is the same as for the address. Through the Memory query 24 is that which is written and stored in the command memory 9 Receive command queried and an output pulse telegram formed that is identical is with the input pulse telegram. Calculating the redundancy happens in the same way as when the information is received, both address and command also reaches redundancy computer 10 via switch 28 and triggers there the calculation process in a known manner. After running through the command part of the Pulse telegram, switch 28 is opened, as is switch 22, while switch 23 is closed. It is thereby achieved that the redundancy computer 10 is blocked for any subsequent signals and those up to this point in time Calculated binary string, the so-called redundancy, via the output of the redundancy computer and the switch 23 goes to the binary output 20, which immediately follows to the transmission of the command combination.

After the last redundancy bit has been sent, the electronic Step switch 3 again reached its end position, which it, since the automatic Receive / send switchover 16 has not responded in this case, back to the Basic reception position switches. This is also done via the start / stop circuit 1, which also separates the clock signal.

With this process the receipt is given, i. H. the return of the received information as an acknowledgment, completed.

Should this system now issue a command, i. H. as a transmitting station act, a similar flow of signals takes place, as with the receipt described, but with the difference that in this case directly into the automatic Receive switchover 16 intervened and the send cycle is triggered. the The information to be transmitted in the form of a command or a message must of course previously entered into a memory. You can use the memory already use existing command memory 9, which is defined by a corresponding coding matrix, which is not shown in the figure, is activated for the transmission case.

After the direct triggering of a transmission cycle, the basic position of the electronic step switch 3 the automatic reception / transmission; 5 switching 16 switched to "receive" in this case, and in this position for the time receipt of receipt.

If the acknowledgment of the transmission arrives within the specified time, so the processing of the acknowledgment signal is carried out exactly like the processing of a pulse telegram, that a Lomnando is supposed to convey. The difference, however, is that the Redundancy check signal influences the automatic receive / transmit switchover 16 in such a way that that a repeated transmission is prevented, it becomes the basic position again Reception taken. If the acknowledgment signal arrives disturbed, the redundancy test gate 14 no release signal emitted, whereby after the specified time the automatic Receive / send switchover 16 switches back to "send" and a transmission of the Carries out the pulse telegram in the scheme already described.

A circuit not shown in FIG. 1 takes over all of them Tasks of deletion, e.g. B. the command display and resetting the memory and the redundancy computer.

As already described, it is necessary that the called station is synchronized to the calling station. To reduce phase errors For this purpose, the clock generator 2 is advantageously composed of an oscillator and a frequency divider composed, the oscillator on a multiple, but at least the Oscillates five times the clock frequency.

It is favorable to operate the oscillator continuously and the Let the start / stop circuit act on the frequency divider.

In practical operation it can happen that the command stores of a receiver a command is still stored because it has been received from the operator has not yet been deleted and a new command comes in. To avoid that this new command is lost in the receiving station and also to avoid that the command issued by the station issuing the command, as already described, is continuously repeated (since there is no acknowledgment call from the called station receive is), can, as shown in Figure 2, the command memory 9 by a simple display memory 27 and a release gate 26 are added. In this way is the command entered first in the display memory 27 for the operator still available. The incoming command can after checking for correctness that overwrite first command in command memory 9.

This is done in such a way that what is in the command memory Command by the release signal of the redundancy test gate 14, which the release gate 26 activates briefly, -transferred to the display memory and from there is displayed. A subsequent falsified command is saved, but cannot be displayed because the absence of the release signal means that the Redundancy check a transfer to the display memory 27 does not take place.

The information in the command memory 9 is only required for this ball saved for the time from the end of the command up to the redundancy check will. For the rest of the time, the memory content is irrelevant, which simplifies the circuit can lead.

The principle of the collective call is described in more detail below. With a collective call, all or a group of recipients should be independent of your selective call number be addressed. For a decadal Selective call IT numbering systems result from the binary coding, so-called pseudo-tetrads (Digits 10 to 15) for Sede digit of the selective call number.

One of the comparison circuits is used to receive a collective call 7 evaluation circuit connected in parallel, expediently for the first selective call number to provide the number of the pseudo-tetrad that is common to all stations appeals to. For the following address part for which the comparison circuit 7 has been disabled, (by responding to the pseudo-tetrad circuit) Any combination of digits can be sent, preferably one digit the pseudo-tetrad. The command and the redundancy are evaluated as before described.

3If the arrangement responds to the collective number, appropriate Circuit measures are achieved that the acknowledgment in the collective call in time Staggered sequence (e.g. according to the sequence of digits of the receiving station's call number) automatically issue a receipt with your or the collective number.

It is also for the purpose of testing the quality of the transmission link and / or the operational readiness of the receiving station possible, "blind" commands to be transmitted to the recipients. They are sent to the transmitting station like normal commands treated, processed at the receiving station so that it is imperceptible to the outside, d. H. a response is also triggered without any notification to the recipient took place. These conditions are expediently fulfilled in that the command although it is written into the command memory 9, it is not decoded in the matrix 12 and is therefore also not displayed, although the redundancy check signal of the Switch 15 is closed and the acknowledgment is triggered. In a circuit arrangement the previously transmitted command is not overwritten with a display memory.

Claims (12)

Claims 1. Arrangement for receiving and transmitting a binary coded from an address, a command and a redundancy consisting of both Information, characterized in that when received by a transmitted synchronization character A clock generator (2) is started via a start / stop switch (1), which via an electrical step switch (3) the received AaresJe in a comparison circuit (7) in which it is compared with a predetermined address (4) without being saved is, and that a comparison lock (8) is provided by the comparison circuit (7) triggered when at least one bit of the received bit deviates from the specified one Address the start / stop switch (1) to the stop position and thus the receiver returned to the idle state, and that if the addresses match the subsequent command call is stored in a command memory (9), and that a computer (10) is provided in which during the information inflow from Address and command call a redundancy check is formed, which is then followed by the Incoming redundancy in the computer (10) is compared and the one in agreement releases the stored command call for evaluation, and that when transmitted by an entered trigger criterion via a start / stop switch (1) A clock generator (2) is started which is operated by means of an electronic step switch (3) a synchronizing signal, a set address call and an interrogation circuit (24) switches a stored command call to an output (20), and that in a redundancy computer (10) from address and command calls a redundancy is obtained, which are controlled by the step switch (3) attached to the transmitted signal and that the same parts are preferably used to carry out the entire operation the arrangement are used, which pick up the call in the event of reception. 2. Arrangement according to claim 1, characterized in that means are provided are that the input of the command memory (9) after receiving a checked as correct Block commands until the command is deleted. 3. Arrangement according to claim 1, characterized in that the command memory is designed as a shift register. 4. Arrangement according to claim 1, characterized in that the command memory (9) a display memory (27) is connected downstream that between these a Release gate (27) switched is that from the redundancy calculator (10) is controlled, and that a command already stored in the display memory (9) can be overwritten by a new incoming command that has been checked for correctness. 5. Arrangement according to claim 1, characterized in that the electronic Step switch (3) contains a device that, after the last bit of the pulse telegram sets the start / stop switch (1) to stop and the electronic Step switch (3) moved to its basic position. 6. Arrangement according to claim 1 for receiving information whose Address part is designed so that not a station specific, but one Whole group of stations can be called (collective criterion), characterized by that comparison circuits are arranged in the receiver part of the arrangement, which according to Prevent receiving the collective call criterion from a further address check. 7. Arrangement according to claim 1, characterized in that an EapfanggSende switching (16) is provided, which is provided by the redundancy computer (10) via a redundancy test gate (14) after receipt of a command by a pulp release signal that has been judged to be correct "Send" is toggled and the changeover of the start / stop switch (1) causes on start. 8. Arrangement according to claim 6, characterized in that in the receivers Delay elements are provided that time the transmission of an acknowledgment call delay, and that the delay elements of the individual receivers so on each other are coordinated that the acknowledgment calls in the station sending the collective call arrive one after the other. 9. Arrangement according to claim 1 for receiving information whose Command part is designed so that no display in the receiving-side display devices takes place (blind call criterion), characterized in that means are provided in the receiver that prevent the command from being displayed after the blind call criterion has been recognized and cause the transmission of an acknowledgment call. 10. Arrangement according to claim 1, characterized in that the clock generator (2) is composed of an oscillator and a frequency divider and that the Oscillator frequency a multiple, preferably at least five times the clock frequency is. 11. The arrangement according to claim 10, characterized in that the oscillator is a CW oscillator. 12. The arrangement according to claim 10, characterized in that the switching the clock frequency by switching the frequency of an oscillator and / or switching the division factor of a frequency divider is made.