DE704418C - Wireless telegraph system in which both the work elements and the rest elements are transmitted by one or more frequencies - Google Patents

Description

B 15606p

For the transmission of telegraphic characters by wireless means, it is known both the work elements and the rest elements of the pulse combination to transmit one or more frequencies. When using two frequencies, a such a process is called double-tone keying. The invention relates to a Improvement of such systems and is particularly useful for shortwave transmission repeated sending of characters, but only suitable for one-time character imprint. Such Systems in which disturbance satisfaction occurs through repetition are in principle of Verdan has been given. This basic principle however, it has the disadvantage that only disturbances of a single type, i. H. either additional, d. H. positive disorders or Shrinkage disorders, d. H. negative disturbances, can be eliminated. Besides, this is Verdan's system is particularly sensitive to disturbances that have not been eliminated.

Attempts have therefore been made to remedy these disadvantages, and Verdan (French patent 704 495) suggested transforming the effect of atmospheric disturbances so that they have the same effect on the recipient as the shrinkage disorders. this happens according to the known arrangement in that two different on the receiving side Matched receivers are provided, the output circuit of which contains a relay. The anchors of the relays are connected in series and control the telegraph circuit. If there is no reception, it is interrupted Relay of the first receiver the telegraph circuit, while the second relay the telegraph circuit when receiving interference opens. However, there are still a number of possible errors in this system, because through the shrinkage the resting elements, d. H. the pauses in the telegraph alphabet, are simulated can.

Other known circuits (German patents 514 962, 537 380) have the task of prevent both fading and atmospheric disturbances. This scarf

However, it is based on the basic idea that the repeated signs come together to compare and to assign the sign according to the rules of probability determine which is not disturbed. A conversion of disturbances of one kind, e.g. B. of shrinkage disorders, in disorders of the other kind, e.g. B. atmospheric disturbances, does not take place in these circuits, according to the invention there is an improvement of the systems mentioned at the outset achieved that in addition to the usual receiving channel, an auxiliary device in the receiver is provided, the frequencies transmitted by all the transmitter side is influenced and, in the event of fading interference, switches the usual receiving channel in such a way that that the telegraph apparatus receives currents in the same direction as the currents, such as those caused by atmospheric disturbances will.

This switching device thus has the consequence that the influence of fading disturbances missing pulses on the repeater are those caused by atmospheric disturbances additional impulses is equalized. The Verdan system thereby becomes the elimination useful for both types of interference. On the other hand, the already known telegraph systems with the elimination of the two types of disturbance compared to the invention achieved the advantage that the evaluation device for the individual pulses coming from the repeater can be set more favorably with regard to their response wave.

Further details can be found in the following description with the aid of the figures.
The transmission relay of a repetition system (not shown) is denoted by 9 in FIG. The contact 40 of the transmitter relay 9 is connected to a tone frequency generator 41 which generates a tone of a certain frequency. The contact 42 of the transmitter relay 9 is connected to a second audio frequency generator 43, which generates a different frequency. The armature 44 of the relay 9 is z. B. connected via a transformer 45 to the line leading to the radio station. The generator 41 generates a frequency which corresponds to the working elements of the telegraph characters, while the frequency of the generator 43 corresponds to the idle elements.

In the receiver part of the connection shown in FIG. 2, the low-frequency currents which are delivered by the radio receiver after rectification are fed to a common amplifier 46. A power branch is provided behind this amplifier 46. In one branch there is a filter 47 which does not allow the frequency of the generator 43 to pass. In the other branch there is a filter 54 which passes all incoming frequencies. The rectifier 48 provided behind the filter 47 thus only receives the frequency of the generator 41, which corresponds to the working elements of the telegraph characters, and also any additional currents which may arise from disturbances. The rectifier 55 provided behind the filter 54 receives both the frequency of the generator 41 and that of the generator 43 and also the additional currents which can arise from disturbances. The two rectifiers 48 and 55 are designed in such a way that if they do not receive any current from the filters 47 and 54 connected upstream of them, the coils 49 and 56 of the relays 50 and 57 are energized and the armatures 51 and 54 are excited. 58 are located at contacts 52 and 60, respectively. This can be achieved, as indicated in FIG. 2a, in that each rectifier is provided with an amplifier tube which is blocked when an incoming current of controllable strength arrives and reduces the current through winding 49 or 56 to XuIl. This has the very important advantage that, even with stronger signals, the current flowing through the two relays 50 and 57 always varies between the same maximum value and zero. 9f>

The armature 51 of the relay 50 is connected to the receiving part of the repetition system. In working condition, d. H. When the rectifier 48 receives currents at the frequency of the generator 41, the coil 49 receives it no current, so that the armature 51 is connected to the negative normally open contact 53 and the repeater system connected to this anchor receives working current. At rest Currents of the frequency of the generator 43 are received. These currents are blocked by the filter 47 and the rectifier 55 supplied so that the coil 56 of the relay 57 is de-energized and the armature 58 of this relay is connected to the positive contact 59 is laying. Since the rectifier 48 is not receiving any current in this case, the coil 49 is energized, and the armature 51 is located at the contact 52, so that the repetition system receives closed current via contact 59. A 15 incoming atmospheric disturbance affected both rectifiers, whereby the repeater system receives working current. If fading occurs, the rectifiers receive 48 and 55 no electricity, so that the> ao Coils 49 and 56 are both energized and armatures 51 and 58 to contacts 52 and 60, respectively

be placed. The repeat system receives working power under these circumstances. This will. achieves that the influence of atmospheric disturbances and fading-S on the repetition system is the same and the system is the same for both Types of disturbances Afbeitsstrom receives.

This result can of course also be achieved in other ways. the ίο Invention- is not limited to the embodiment limited according to Fig. 2, which shows an example arrangement according to the invention, where the relay positions shown correspond to a fading state. It is Z. B. possible, the armature 58 of the relay 57 instead of the contact 52 of the relay 50 to act on the rectifier 48, such that when the armature 58 is not at the Contact 59 is an amplifier tube of the rectifier 48 by applying a high negative grid bias is blocked. But if the armature 58 is on the contact 59, so this grid voltage z. B. eliminated by short circuit. Such a circuit has the advantage that it may work a little more reliably than that according to Fig. 2.

The two relays 50 and 57 are, as can be seen from the drawing,> still with one 3 »second winding, which is always traversed by a direct current of controllable strength and will ensure that when the windings 49 and 56 are not energized, the armature S1 and 58 to the contacts 53 and 59 are placed. This result can of course also be achieved by other means, z. B. springs, or achieve by means of the quiescent current.

In Figs. 1 and 2 it has been assumed that the carrier frequency alternates with two tone frequencies is modulated. But you can also use the circuit arrangement in this way perform that under "the influence of the transmitter relay 9 from the radio station alternately a high-frequency rest and work wave is emitted.

The method according to the invention for reversing the influence of the absence of current surges in a repetitive system can also be used if according to the Invention formed several transmission channels simultaneously via a radio transmitter be, d. H. when several reports are broadcast at the same time via a radio station. Such a transmission is when using repetition systems because of the considerably lower transmission capacity especially important. If normal transmission is used for this purpose, one or more channels for each channel Frequencies are needed, difficulties arise because in this case for a special fade reversing device must be provided for each channel.

According to one embodiment of the invention, this disadvantage is alleviated by a circuit arrangement eliminated the need to transmit multiple reports from a radio station at the same time at any moment only one frequency is used. In such an execution needs you only have one reversing device for all channels, and the important one continues to emerge Advantage that for each channel the entire transmitter energy is available.

Such a circuit arrangement is described as an example with reference to FIGS. 3 and 4. Fig. 3 shows the transmitter side, Fig. 4 the On the sender side you have two telegraph systems I and II. For these two telegraph systems, which work independently of one another, are now the result four different options, namely:

1. System I gives working current, system II gives quiescent current,

2. System I gives working current, System II gives working current,

3. System I gives quiescent current, system II gives working current,

4. System I is quiescent current, system II is quiescent current.

According to FIG. 3, each system is provided with two transmission relays 61, 62 and 63, 64 connected in series or in parallel. The normally open contact 65 of the relay 61 is connected to the normally closed contact 67 of the relay 63 via the output transformer of a tone generator 66. The normally closed contact 68 'of the relay 61 is connected to the normally open contact 70 of the relay 63 via the output transformer of a tone generator 69. Furthermore, the normally open contact 71 of the relay 62 is connected to the normally open contact 73 of the relay 64 via the output transformer of a tone generator 75 and the normally closed contact 74 of the relay 62 is connected to the normally closed contact 76 of the relay 64 via the output transformer of a tone generator 72. The armatures of the relays 61 and 62 are connected to one another and to one terminal of a transformer 77 , where this transformer is connected via a filter 78 to the line leading to the radio transmitter. The other terminal of the transformer 77 is connected to the two armatures of the relays 63 and 64. Since the relays are in operation in pairs at the same time, it follows from Fig. 3 that there is always one, but never more than one tone generator connected to the line leading to the radio transmitter.

On the receiver side (Fig. 4) two radio receivers, not shown, are provided.

Each receiver picks up a sideband of the incoming modulated carrier wave and feeds the telegraph characters to the associated low-frequency part of the circuit. In the drawing, the two low-frequency parts are indicated next to one another. they are are completely identical to each other and also work in the same way with those to be described later Rectifiers 79, 80 and 81 together.

The purpose of using two radio receivers is to counteract the effects of fading to mitigate. However, this measure is not essential. It is also possible to work with just one radio receiver. Of course, you then only need a low-frequency part. It is sufficient thus to explain the right part of FIG.

λο 46 is a low frequency amplifier. Three filters 48 are provided after this amplifier. Each filter corresponds to one of the first three possibilities given above. In each of these four cases, as in "5 Figure 3 is apparent., The frequency of the tone generators 66, 75, 69 and JZ (M _1, n>, Ji _{3," 4)} generated. The circuit of FIG. 4 is now such that the frequency% of the generator 66 influences the rectifier 79, the frequency M _{2 of} the generator 75 influences the rectifiers 79 and 80 and the frequency M _{3 of} the generator 69 influences the rectifier 80. All frequencies also influence The rectifier 81 via a filter 54. Since a frequency is always present, at least when no fading occurs, the relay 57 is in operation so that the armature 58 is at the contact 59. As a result, the left normally closed contacts of the two receiving relays 50 _a and So _{6 of} the telegraph systems are supplied with open circuit voltage. The system shown in Fig. 3 and 4 acts in the same way as that of Fig. 2. The input stage of each rectifier in the case of Fig. 4 * S consists of a combination of two rectifier tubes. The circuit shown with two input transformers and two rectifiers, which act on a common further amplifier tube, was chosen because if only one tube was used, the individual filters 48 and the filter 54 would always be connected to one another; it would namely when arriving z. B. acted upon by n _x also the rectifier 80, which should only _{respond when M 2} hits. The rectifiers must therefore be separated so that the frequencies M ₁ , M ₂ remain separate. You can of course expand the number of individual channels. It can e.g. B. three or more connection paths can be used.

all of which work with all the transmitter energy. The number of frequencies required is correspondingly higher, for example 8 frequencies for three channels, generally 2 η frequencies for η channels.

In the preceding it has been assumed that the synchronization between the machine Equipment for the repetition of characters on the sender and receiver side 7 » the connection is maintained.

In the case of repeaters, which are used in association with means that make the influence of the missing current surges equal to that of the additional current surges, however, special measures are required to maintain synchronism, This is because fading usually takes considerably longer than one Disturbance which causes an additional current surge and therefore a converted one Fading a synchronous pulse was simulated.

Claims (3)

Claims: * ⁵ i. Wireless telegraph system, especially for shortwave transmission with repeated sending of characters, but only one-time character imprint, in which both the work elements and the Quiet elements are transmitted by one or more frequencies, characterized in that in the receiver except The usual receiving channel is also provided with an auxiliary device, which is sent out by all of the transmitter side Frequencies is influenced and switches the usual receiving channel in such a way that the Telegraph apparatus receives currents in the same direction as the currents produced by atmospheric disturbances will. 2. Telegraph system according to claim 1, characterized in that for conversion for fading disturbances in atmospheric disturbances a power branch is provided in the receiver, one branch (54, 55 etc.) with no Switching means, e.g. B. relay (56) is provided that the other branch (47, 48) only switch over when shrinkage disorders occur. 3. Telegraph system according to claim 1, wherein with a transmitter over several Channels can transmit multiple messages at the same time, characterized that on the receiving end a common for all channels »ao switching device (50 ,,. 57, 50 », Fig. 4) \ Or is seen. 4 · Telegraph system according to claim 3, characterized in that on the Transmitter side one tone frequency for each possible simultaneously existing operating state the telegraph apparatus is provided and control relays (61, 62 or 63, 64) are provided for each channel (I, II) are, which control the audio frequency generator (66, 69, 72, 75) so that when sending each message only χ ο a single audio frequency is sent with the transmitter energy. . 1 sheet of drawings