DE866050C - Method for the transmission of telegraph characters - Google Patents

Description

Method for the transmission of telegraph characters Telegraph characters are known z. B. between teletypewriters in such a way that the individual Characters composed of two types of character elements according to the combination principle which, initiated by a starting current step and terminated by a closing current step, are transmitted one after the other over one line. In the following one denotes the two types of stream steps with black and white, so z. B. the start-up step always white and the final step always black. The intermediate combination stream steps are arbitrary in their color and through the combination of the image to be transmitted Given sign.

In the case of single-current operation, the starting current step is interrupted of the closed circuit given. So in this case white is currentless and therefore Black energized. In the case of double-current operation, it is then common to use white as minus, Transfer black as a plus. But this togetherness is arbitrary and could just as well be chosen the other way round.

According to the invention, the transfer of the individual combination stream steps is now intended and des Occasion and key tronase ride no longer in that way take place that a certain current state for transmission for a certain color comes, z. B. minus for white and plus for -black ,. but the start-up flow step and the combination troni-steps of the same color are identified by that the current state changes compared to your previous current step. Of the On the other hand, the final stream step and the combination stream steps of the same color become characterized in that the current state compared to the previous current step remains unchanged. This means that for the valence of each current. Step only its relative state compared to the previous current step is important is. The absolute current state is completely irrelevant with this procedure. . -This means that a polarity reversal of the transmission lines between send = and receiving device, if it occurs during a pause in writing, is meaningless. she only has the consequence that the receiver starts up once and then stopped again will. If the polarity reversal occurs during writing, only one character element is used falsified, but the transmission device is then readily operational again. This is particularly important when building movable systems, both of which are There is no need to pay attention to the correct connection of the a / b lines. the end for the same reason, all of them are unnecessary when using phase-reversal WT devices Measures that are otherwise necessary to ensure that the phase position on the transmission and receiving end and consequently the correspondence of the current directions in the connected DC lines. It also follows that for the final current step always - the same current state exists as for the last one lk, combination current step, since it was initially assumed that the start-up current step always the opposite current state as for the previous current step is transmitted. From this it follows that the transfer of a special closing current step superfluous, which makes it possible to increase the telegraph speed accordingly results. If z. B. a telegraph character made up of five combination elements and One starting and one closing current step each together, so if the closing current steps are omitted in the same time that was previously necessary for the transmission of seven characters, now eight characters can be transmitted, or one can in time; the so far for Transmission of- seven characters after your five-fold alphabet was required, now- Send seven characters after the sixth alphabet.

In Fig: i, the possible thirty-two after the five-letter alphabet Combination pictures with start-up and final step of black and white Drawing elements shown assembled: Below each combination image are two drawing images composed of minus and plus current steps are shown. Which of these two character images is transmitted depends on the current state of the current prevails in the last current step of the previous character. Was this plus so the next sign must begin with minus, and vice versa: - you can also see that the current state of the fifth current step and the final current step is always is the same, so that, as already said, this can be omitted. Each of the depicted 2 X 32 composed of plus and minus combination images is shown in Fig. i have presented it twice and is therefore ambiguous, but it is clearly under consideration the current state of the last previous current step.

In Fig. 2, a transmitter is shown which is used to transmit characters according to the method of the invention. B i, B: 2 and B 3 are contact tracks that are swept by circumferential contact arms that. be started for one cycle to send out each character. The contacts i to 5 are set depending on the combination image of the character to be transmitted. If the contact arms are in the idle state, relay G is initially energized when relay U is de-energized. The contacts g I and g II and g III are turned over. A character is to be sent out in which, according to the combination image, the contacts 2 and q. are also turned over. The line La initially receives plus, since relay U, as I said, is de-energized and its contacts are in the position shown. As soon as the contact arms of the transmitter start and reach the contact pieces A , the line La receives minus via the folded g III contact. The relay G is energized and held via its contact g II, and the relay U speaks via .den contact g I, since contact i is in the position shown. As soon as the contact arms now reach the contact pieces i, La receives minus again, since U III is folded. At the same time, relay U is held via its contact U II, but relay G is de-energized because contact - and contact UI are switched. As soon as the contact arms reach the contact pieces 2; gets the line La plus again. At the same time, the relay U drops because the contact 3 and the contact g I are in the position shown. Accordingly, La gets plus again in position 3. In this position the relay G is switched on via the folded contact q. and, the contact uI is again energized in -rest, so that in position q: the contact arm La receives minus again. Also in position 5, La is again minus, since the relay U is in position q. was excited via the folded g I contact and via contact 5 at rest. In position 5, the relay U remains held by its contact ü II. The relay G drops out because the contact u I is switched over. This state remains until the transmitter is restarted. Will now be the same sign again. sent out, the reverse current pattern arises in the line La as before; because this time the current status changes from minus to plus when it reaches position A, etc.

In Fig. 3 the current states in the line La are shown, * which arise when the same combination image corresponding to field 27 in Fig. I is transmitted three times in a row in the manner described. According to what has been said above, this reversal of the current image in the line only takes place if the last character element was represented by the same current state as the first, since then the first character element of the next character must have the opposite current state.

In Fig.4 an embodiment of a receiver for characters transmitted according to the invention is shown. The contact arm B of the reception distributor is held in rest by the armature r1 of the magnet 31 . The current direction in the polarized receiving relay E and consequently the position of the contact e is arbitrary. As soon as the direction of current changes in E, contact e is switched over and one of the two capacitors Ci and C2 is short-circuited, while the short-circuit via the second capacitor is canceled. The charging current for this capacitor temporarily excites the magnet M and thereby causes the armature to release the contact arm B, which rotates clockwise. As soon as the contact arm B reaches the contact piece i, the storage relay S i is energized, if the contact e had meanwhile switched again and as a result the charged capacitor is short-circuited and the discharged one is switched on. But S i is not excited if e has not changed its position. In the same way, the memory relays S2 to S 5, not shown, are influenced in the positions: 2 to 5 of the reception distributor. In the case of the example described above according to Fig. 2 and Fig. 3, the storage relays S: 2 and S q. corresponding to the transferred send contacts 2 and q. excited. The storage relays S1, S3 and S5 remain inactive. The receiver brings the memory relay into the position corresponding to the position of the transmission contacts, regardless of your current status for the individual drawing elements. The only decisive factor is whether or not there was a change in the current state for each "corpse element."

The invention is not restricted to the exemplary embodiments shown. It is particularly valid for transmitters with mechanical control of the transmission contact, which is controlled by memory elements depending on the state of the previous character element and the value of the character element following it. It also relates to receivers with mechanically set storage elements that are controlled as a function of a place between one scan and your scanning these following change in position of the anchor of the receiving magnet.

Claims (7)

PATENT CLAIMS: i. Procedure for the transmission of telegraphic characters, consisting of two different types of drawing elements based on the principle of combination are composed, which are transmitted one after the other via a line, thereby characterized in that one kind of character element is represented by change and the other by maintaining the current condition on the line. 2. Arrangement according to claim i, characterized in that the transmitter has switching devices are assigned (relays G and U), which determine the for each character element Current state depending on the type of the previous character element and the type of character element following this according to your respective combination picture cause. 3. Arrangement according to claim i and 2, characterized in that two Switching devices are available, which are alternately effective and from which each depending on the current state for the next character element to be sent out from your associated transmitter contact (i to 5) and from the status of the other switching device controls. d .. Arrangement according to claims i to 3, characterized in that the two Switching devices or their contacts via contact tracks of a circulating transmission distributor alternately controlled resp. be effective. 5. Arrangement according to claim i, characterized characterized in that the receiver is provided with a starting magnet and a plurality of storage magnets is equipped, which via the contact track of a rotating reception distributor switched on a capacitor and excited by its charging or discharging currents. 6. Arrangement according to claim i and 5, characterized in that the capacitor by changing the position of the contact of the receiving relay in the pause between two Sampling points is brought back into the effective charge state. 7. Arrangement according to claims 1, 5 and 6, characterized in that two capacitors are provided that are alternately charged and discharged.