DE1922999C - Telecommunication procedure for a telegraph connection with automatic error correction and repetition - Google Patents

Description

F i g. 4 the course of this count in the case of disturbed reception,

F i g. 5 the structure of the memory on the receiving side,

Fig. * "Details of the various in the / device according to FIG. 5 circuits used (the Reference symbols in the two figures correspond),

F i ε. 7 shows the basic circuit diagram of the transmitter-receiver according to FIG. 1 used multivibrators and

F i g. 8 shows the basic circuit diagram of the transmitter in accordance with FIG. 1 used differential counter.

The speed at which the connection is operated in a first section is higher than the speed in the second section of the connection path.

The connection is operated in the first section at the speed Vfa (FIG. 1); the speed in the second section of the connecting route is Va.

In the exemplary embodiment, the writing speed Vfa at the input 16 of the receiving memory OR is formally higher than the speed Va at which the characters are passed to the printer at the output 20 (reading speed). Because the writing speed is higher than the reading speed, there is an excess of characters in the memory OR if the reception is undisturbed. In the time unit, more characters arrive than are forwarded. If there is no malfunction, the memory will always be full. For technical reasons, a limit must be set with regard to the excess of characters. In the exemplary embodiment, the limit is defined with five characters.

A difference counter (N in Fig. 1) is controlled at the input 10 by pulses at speed Vfa and at the input 9 with pulses at speed Va . The pulses with speed Vfa are derived from the channel transmitter KZA and taken at point 6. The pulses with speed Va are also derived from the channel transmitter KZA and removed at point 5. The speed is reduced to Va by means of a multivibrator Mz. The difference counter N counts forwards, ie it counts the pulses with the speed Vfa (input 10) , and backwards, ie it counts the pulses with the speed Va (input 9). When the difference counter reaches position 5 (Fig. 3), a pulse goes to the AND gate via output 11 (71. The AND gate also succeeded in getting pulses from the transmit memory (ZR, output 1) Impulse from AND gate C1 to input 3 of the channel end device KZA. This has the consequence that a pause signal is excited in the channel end device KZA.

A pause sign is a sign that does not belong to the: information sign, e.g. B. the sign Alpha or Beta.

A code is used for automatic repetition with which I made some combinations of characters in addition to the information characters; can verden, namely the service marks, which are here called pause marks. These characters include the alpha character and the beta sign. A pause sign does not come "jm Spexher 07 ?, but during the However, when a pause character is received, characters are sent from memory to the printer.

In the exemplary embodiment it is assumed that the speed Va at which the characters in the receiver are fed to the printer is 48 bands. This speed corresponds to a character cycle duration of 145.8 ms. It is also assumed that the transmission speed Vfa

5_ 4

• 48 = 60 baud

is what speed a cycle time of

1000 60

7 = 116.6 ms

corresponds to (where / = -].

* 5 In connection with the selected speeds and the size of the receiving memory, it is also assumed that the number of characters to be counted by the difference counter N in the transmitter is five, so that this line can occupy six positions, namely the zero position and five positions corresponding to the number of characters to be registered in the memory OR of the receiving side.

The difference counter / V on the sending side indicates the position of the memory OR on the receiving side. All of this is necessary in view of the fact that an information excess would arise on the receiving side during a period of undisturbed reception if no precautions were taken to prevent it. Characters would be lost if the information offer would continue uninterrupted on the sending side.

The speed Vfa is the writing speed of the memory OR in the receiver, and the speed Va is the speed with which the characters would be fed from the memory OR (output 20) to the printer. If there are no repetitions and no pause characters are sent, the difference counter N comes to position 5 after the nineteenth character transmission (FIG. 2).

In Fig. 2, the pulses with the speed Vfa upwards and the pulses with the speed Vn downwards are indicated on a time axis. The result of the count is noted with each pulse. When the first pulse Vfa occurs , the counter shows the result 1. A pulse Va then occurs, causing the counter to assume the 0 position. Then the second K / a pulse sets the counter to position 1, etc .; the further course is easily understandable. After 19 character transmissionseii, the difference counter comes to position 5 with the 20th character transmission. Then a pulse Va sets the counter to position 4 again.

According to the invention, a pause character is now switched on, since otherwise characters would be lost on the receiving side. This pause signal is sent on the 21st Vfa impulse. The circuit is now arranged in such a way that the Κ / α-pulse going after the difference counter is suppressed, so that this counter remains in position 4. This pause character is recorded in the receiver, but it is not stored in the OR memory. If the connection remains undisturbed, a pause character must be switched on after every row of four sent characters (see Fig. 3), otherwise characters would be lost in the receiver.

Every time the difference counter N comes to position 5 (see Fig. 3), such a voltage is now fed to the AND gate Gl via the output 11,

that the input 3 of the Kanalscndeapparatur image of the location of the memory OR on the Receive Scitc.

passed control voltage the transmission of a This counter also regulates the supply of characters,

Pause character causes. This also means that too many characters are available at the recipient.

Transporlimpuls / '// ·, which is avoided with a normal character capture speciclicr.

Transmission from output 6 after Rcgistcrcingang 2 5 During the repetition cycle for the

and after the input 10 of the counter N would go, duration of four characters / yklcn the I / «pulses

suppressed. (Fig. 4) suppressed. Then comes the counter

Due to the absence of the impulse at input 10 during the / uiüek / ählcns on 177 impulses not in

the counter jV skips one step. The difference- the zeroing. Because a five-person viewer ahead

counter determines the difference between those set in the io, it means that during a single

Both sections of the connection path used repeat cycles of the memory OR continuously

Speeds. This is done in the following way: can send a character to the printer so that

There is no interruption in the printout in the transmitter and in the receiver

a multivibrator MZ or MO. Both multivibra- consequently the repetition resulting from

gates are synchronized with speed V / a. Reduction of the effective transmission speed.

drove. When both are equal and the same reduction wedge is compensated. The receive memory is OR

tion factor, the outgoing speed is shown in FIG. 5 shown in more detail. This

wedges Va equal. Circuit consists of four different normal

It is therefore possible to recognize circuits on the sending side. These are labeled 1, II, IM and IV

how many characters are stored on the receiving side 20 circuits are shown in FIG. 6 shown. The bistable

have been. This is only different from the differential counter N rc flip-flops I, II and III

registered. The difference counter counts up, i.e. it counts through the control circuit. Circuit IV is one

counts the impulses with the speed V / a (control circuit consisting of a number of gates,

gear 10) up, and backwards, d. i.e., it counts the pulses Dor receive memory is generated by the clock pulses

with the speed Va (input 9). The Gc- as V / a and Va controlled. The Ka impulses are from

speed in the first section is V / a, the Ge multivibrator 18 to the input 19 of the receiver

Schwindigkcit in the second section is Va. The second catch memory is carried out. The Κ / α pulses come; nis

In the exemplary embodiment, section includes the end of the radio channel equipment and are w.ih

connection path between memory OR at output 20 rend repetition cycles and when receiving> 011

and the printer. The effective speed is suppressed.

The five-step information is derived from the mapping, which is why repetitions are carried out apparatus (output 21) received and sent to the 1 m, passage 22 of the reception memory. The lnfornui

The effective speed is maximally Va and tion with respect to the polarities of the five shrills is h, .. r

occurs in trouble-free periods of time. If fault 35 at the respective c and «/ inputs of the Κ · ρ; ι-

occurs, the effective speed is reduced, circuits A 1 to / 15 available. That is, dall ein

determined by the duration of the disturbance. The received characters under the control of the I ^! -i-

Speed reduction is based on the content of the impulse in the flip-flop group / 11 to .15 ><: ■

of the reception memory is gistriert by means of the difference counter N. With the next K / a pulse, the .1

registered. By means of the difference counter, the 40 information contained in the flip-flops A 1 to AS is also read: «-

eventual sending of pause signs determined. This tion after the toggle group oil to Ii: ■

Pause characters are not sent to memory; pushed on etc.

however, when pause characters are received, when registering a new /:>

chcn shared from memory OR to printer. chens the reversible (i.e. enumerating um! al-

The printer is at output 20 of the memory OR 45 pulling) Register / 16-56-Co-Do-Eo to 10 0OU cin-

connected, and this device is provided. If a second character is inscribed, un.i

Information characters supplied, which in the channel - consequently the first character after the toggle switch> -

receiving equipment is detected as correct and then group B is shifted, the register A is 6 bis

have been routed to memory. £ 6 set to 01000. The designation dcf on!

On the receiving side, a multivibrator 50 is set to indicate the type of flip-flop in which the character to be read is registered on the transmitting side for the generation of circuit group. Ka-pulses used multivibrators. So at the moment of reading, the e-outputs of this multivibrator is indicated by means of pulses with a flip-flop circuit A6 to £ 6, which is controlled by the speed V / a , which is controlled by the terminal OR gates Cl to <75 in the IV circuits me 14 of the reception equipment of the radio channel can be assigned to 55 control the toggle switch group F1 to F5. The output via the terminal 18 is applied.

Ka-pulses are used to improve the reception. B. the Ä group is read is located

memory OR to read out and the read out characters become the next character to be read out in the Λ group.

with the speed Va in the form of start-stop when no further characters are supplied. So

Feed characters to the printer. The writing 60, under the control of the clock pulse Va. That of the characters in this receiving memory takes place with respective outputs bl and bl of the memory tilting speed V / a via the output 15 of the circuits A6 to £ 6, the combination 10000.

Receiving apparatus of the radio channel. Is one of the flip-flops A6 to £ 6 in the

The writing in and the reading out is done with 1-position, which means that a character is to be read out as a start-stop disc at speeds V / a or Va like the 65 character. In such a fail upward and downward counting of the differential counter receives the flip-flop Γ (type I) via the C input

on the sending side. Pre-control and is "in the

The position of the difference counter is thus set to a mirror 1 position. This 0-1 transition causes a

Potential change at the r output. whereby the toggle switch S (type II) is set to the O position (rest position) via the // input. The e output of the flip-flop S provides the output 20 of the memory with `` .tart polarity.

The toggle switch P in the 1 position sets a multivibrator M in motion, which generates pulses of 20 ms / wi in intervals. These / wi pulses shift the character steps registered in the flip-flops F1 to FS by controlling the respective

Inputs of these flip-flops via the flip-flop S from the register. At the same time, the register flip-flops are provided with stop polarity, so that at the end of the character cycle all flip-flops F1 to FS and S are in the 1 position (stop). In this case the c-outputs control the toggle switch P via the (/ -input, so that this toggle switch assumes the O-position and the multivibrator is stopped. A character has been given to the printer ίο.

For this purpose 2 sheets of drawings

Claims (3)

·. ι l J 2 for a radio link with automatic error claims: correction and repetition. In such a procedure, re- 1. Telecommunication procedures for telegraphy prevention in the connection path result in a reduction in the manure, in particular for a radio link with an effective transmission speed.
automatic error correction and repetition, the invention is based on the task of increasing the effective transmission speed, which is adversely affected by rebalancing the repetitions in the violations, significantly increasing the reduction in the effective binding. Transmission speed the speed, io According to the invention, this object is achieved by solving this connection in a first section that, to compensate for the reduction in the speed of the connection, is higher than the speed of the connection in the second section of the connection path, the tive transmission speed being the Geschwindigdie Einschreibgeschwindigkeit (Vfa) ness at the entrance, with this connection in a first exhaust (16) of the reception memory (OR) is / times higher 15 is operated cut, is higher than the Geschwindigals the readout speed (Va) at which the speed in the second section of the connection path, where characters at the output (20) are passed to the printer at the writing speed at the input of the ird where on the receiving side the receiving memory / times higher than the trigger binding is a memory (OR) for registering the speed with which the characters are received at the exit nen information characters and are passed on the printer and on the S-Ndeseite a counter (N) are provided, which receiving side of the connection a memory to the counter at each moment the difference between the registration of the received information characters of the number of the transmitter to the receiver a ZaWc are provided on the sending side and information characters sent and the number of counters at any given moment sent information characters and the number of this difference a certain, determined by the relationship between the printer and the printer always! between writing speed and readout - the transmitter emits an impulse when this difference speed of the receiving memory and by a certain, by the relationship between the size this spoke., certain who The writing speed and reading speed have reached 30, whereby the transmission of information of the receiving memory and by the large these »are sufficient for the duration of a; calibrated interrupted memory has reached a certain value, as a result of which the and in this period an in receipt »not sending of information characters for the duration of a pause character coming for printing is interrupted and in this lead space an im is sent, which has the consequence that a Character from the receiver not to be printed pause memory is passed to the printer, whereby a after character is sent, the result of which is that an F / a-pulse character going to the counter input (10) is passed from the memory to the printer, is suppressed. wöbe! a Vfa- 2. Telecommunication method according to claim 1, since pulse is suppressed. characterized in that a multivibrator (MZ, 4 ° In a preferred Ausfühiungsbeispiel is vorEingang 7, Fig. 1) in the transmitter from a pulse that a multivibrator in the transmitter from a transmitter by means of pulses at a speed pulse generator by means of pulses at a speed - ( ^v fa) is controlled, which is the speed of the speed is controlled, which is the same as the speed of the sent characters and the multi-sent characters is the same and the multivibrator on the vibrator at output (8) emits pulses with a 45 output emits pulses at a speed, speed (Va), which is the same as the speed of the characters fed in the receiver to the characters fed to the printer in the receiver and which is the same and the two pulse trains are fed to the difference counter (N) are supplied (input 10 or.
Input 9). 5 ° According to a further development of the invention, the 3. Telecommunication method according to claim 2, there memory on the receiving side, the traffic signs characterized in that the memory (OR) on rnit the speed with which they are received from the transmitter on the receiving side with the traffic signs and submits these characters the speed (Vfa) at which they are received by the transmitter control of a local multivibrator, and these characters 55 touching pulses from a speed that is under the control of a local multivibrator. Multi is the same as the speed with which the printer vibra ..> r (MO) has to pick up impulses originating from one of them, whereby the multivibrator emits at speed (Va) that is controlled by the speed impulses that are controlled by one of the sensitivity is the same, with which the printer must record them with pulses and synchronize them with their speed, the multivibrator going off with a pulse generator chronized by pulses. is controlled, which is received by one of the The invention will now be based on one in the Impulses and their speed syn- F i g. 1 to 8 shown embodiment chronized pulse generator go out. purifies. It shows F i g. 1 shows the block diagram of an embodiment 65 of the transceiver, F ig 2 and 3 show the course of the count through the The invention relates to a telecommunications differential counter in the transmitter with an undisturbed Ververfahren for a telegraph connection, in particular binding,