SU31478A1 - Method of two-time wireless transmission - Google Patents

Description

The existing methods of multiple radio transmissions are based, as is well known, on the application of modulation of oscillations of a constant carrier frequency by several — by the number of transmitted texts — frequencies that are much lower than the carrier ones.

This method also achieves a high stability of all frequencies through which multiple radio transmissions are performed, since if the carrier frequency is stabilized using piezoquartz or some other method, the stability of all other frequencies causing the transmission practically only depends on the frequency stability of the modulating oscillators. The frequency of the latter can be made very stable, since it is significantly lower than the carrier.

However, a significant disadvantage of such a multiple transmission method is that the transmitter power is distributed among all the transmitted texts.

Each of these texts contains (on condition that 1 frequency is transmitted without a nose) only a fraction of the total power supply.

transmitter (number of transmitted texts).

The proposed transmission method aims to eliminate this disadvantage in the case of the transmission of two texts and to provide each of them with the same power that it would have had if it were transmitted separately. This improves the use of transmitter power, while maintaining the advantage of the main method — high transmission frequency stability, which is very important for using the method at short wavelengths.

The essence of the invention is that the oscillation frequency of the transmitter is modulated by the modulator with three different frequencies, of which the frequency / i modulates the oscillations of the carrier frequency F at those times when the characters (dashes, dots) of one text are transmitted, and the signs of the second are missing, frequency / s modulates carrier frequency oscillations Fg at those times when the signs of the second text are transmitted, and the signs of the first text are missing; At the same points in time, when the signs or parts of the characters of both transmitted texts coincide in time, the modulation with frequencies i and / i stops and the carrier frequency oscillations are modulated by a third frequency / g, different from the first two.

Thus, and during transmission

characters of both texts together; carrier frequency oscillations are modulated by only one frequency, which allows to increase the modulation depth and, thus, make fuller use of the transmitter power.

Dual wireless transmission without power loss can be carried out on any multi-stage lamp transmitter. For this, the following additions are made to the transmitter circuit. In the grid circuit of one of the intermediate stages of amplification or multiplication, in addition to the alternating voltage coming from the previous stage, the voltage of the lower frequency (sonic or ultra-acoustic) from the additional modulator is also introduced.

The modulator is a single-stage, self-excited lamp oscillator. The oscillatory circuit, which determines the oscillation frequency of this generator, besides the basic capacitance and self-induction, also contains a small additional capacity and a very large additional self-induction, which is significantly superior to the main one. These capacitances and self-inductions are connected in parallel with the main capacitor when two relays are closed, which operate when the corresponding keys are pressed or when the transmitters operate, each of which transmits its own text. Then, when one of the first relays connecting additional capacitor in parallel to the main one is closed, the oscillation frequency of the modulator somewhat decreases and, for example, equals / i. When one second relay closes, connecting an additional self-induction parallel to the main capacitance (and, consequently, parallel to the main self-induction), the oscillation frequency of the modulator slightly increases and equals, for example, / s. 2, intermediate between / 1 and / 3, i.e. / h.

In this way, a change in the modulation frequency is achieved. Since the transmitter master oscillator and modulator operate continuously, in addition to changing modulation frequencies, it is necessary to interrupt oscillations in one of the transmitter cascades following the modulated one at those times when there are spaces between characters in both transmitted texts simultaneously. This is necessary to ensure that at the moments of coincidence of pauses between the characters in both texts, the transmitter oscillations are not radiated in the air. For this purpose, the same relays, which include additional capacitances and self-induction in the modulator circuit, at the same time also close the DC component of the grid current of one of the stages following the modulated one. Then, at those times when none of the relays is closed, the grid circuit is open and oscillations in this stage and in the next ones cease. When either of the relays or both are closed, simultaneously with the modulator frequency changing, the grid circuit also closes and the oscillations reach the antenna and are radiated.

In cases where it is desirable to emit not modulated oscillations, but continuous attenuated frequency, the modulated cascade or one of the following ones is collected in a balanced pattern. Then, in this cascade, the oscillations of the non-frequency frequency are eliminated, and in further cascades, only the side frequencies oscillate. However, by properly adjusting the circuits of these stages, it is not difficult to achieve that these frequencies will be amplified unequally, and practically the antenna will radiate only oscillations of one of the side frequencies, the oscillations of the antenna’s second side frequency will be achieved, since the contours of the transmitter are not tuned to them, whereby these oscillations will not increase.

The described method of changing the modulation frequency during the transmission of two texts is far from the only possible one. You can, for example, apply schemes in which, instead of stopping the transmitter's radiation at times g, the text on both texts will only turn off the modulator, and the transmitter will emit purely undamped oscillations at these times. It is also possible to use for modulating not one, but three separate modulators, switched on with the help of two relays, etc.

In charts. 1 and 2 of 5: the scheme of the Primzhoz scheme about: Cc: TV i / iH refer to the predae / keg1nemu spesoe.

The reception of Ka "qoro text with the method of the pered chi method is carried out by the receiver, which accepts oscillation, modulated frequency patterns / i and / 2 or / 2 and / 3, and not np HHviaranaro cal2bag1II, mets / lirazanna soogwegsgznnnnnnnnnnnnnncnn. Ego me / ket can be reached by two different spaseeami. The first one is: o5 for one is in oyl, the oscillations of the transmitter, amplification and detection are passed through the bandpass filter I, pro, triggering {I and / I and / I and cutting off the frequencies / I or the frequency: / i and / s and cutoff frequency / (Fig. 1). The second way is connected with the fact that in the receiver the oscillations of the FO + / I frequencies and (or F + fi and ./A) are applied to the oscillations from two local geochaloses, which are: frequency amplified further by one of the known methods. Even in this case, the frequency of the partial transducer is somewhat studied, the frequency of the low frequency remains constant. If the frequency of the generator is generated by generator, it is very likely that it will change to one side of the clock, which also preserves the constant constant 1 / cannon frequency.

FIG. 2 is an ibra-kacha circuit of such a receiver, where / and // are three independent high-frequency elements, in which the oscillations of two side frequencies are transformed by applying oscillations from two local oscillators A and A. the low-frequency Cotebana I amplified I5 known methods in the element // /. Finally, the third method consists in the fact that at the same time, regenerative receivers are used, which are self-excitation and are tuned in such a way that the frequency is used. oscillation of the receiver, the text of the receiver, lies in the middle between the back-up frequencies of the FolhA and the transmitter, the frequency of oscillations of the second receiver lies

M2KI / .ch1 cha: otami A and F, ± f ..

Subject matter

Claims (5)

1. Two-way radio-telegraph transmission method, characterized in that the oscillation frequency of the transmitter is mobilized at a pemoshchtch modulator with three different 1 frequencies, of which the frequency / i modulates the oscillations of the carrier frequency F during those times when signs are transmitted (dashes, dots) of one texga, and the signs of the second are missing, the frequency / i oscillates the carrier frequency FQ at those times when the signs of the second text are transmitted, and the signs of the first text are missing; At the same points in time, when the characters or parts of the characters of both transmitted texts coincide in time, the modular frequency frequencies (i and / 3) stop and the oscillations of the carrier frequency F are modulated by a third frequency, fi, different from the first ones. 2.Oj.i method according to claim 1, the use of a balanced modulator in one of the cascades of the transmitter. 3. In the method according to claim 1, the use of receive-iKa, which, after the detecting stage I (FIG. 1), contains a band luminance //, the transmission frequency / i and / 2, and the cutting frequency / j or the transmission frequency / 2 and / : r and cutting off the frequency / i. 4.When the method of PP 1 and 2 receive the receiver, which contains two independent high frequency elements / and // (Fig. 2) in which the oscillations of the frequency and (or -FfliA and) are transformed by superimposing the oscillations of the local oscillators fi and G-2 I subsequent detection in the lower frequency oscillations and further amplified by one of the effective methods in the element I /. 5. With the method according to p. P. 1 and 2 the use of a regenerative receiver operating in the presence of natural oscillations and tuned so that its own frequency lies between the bokozy frequencies / ojl / i and. (or F (t + f-2 and Ff, + / z).