SU32569A1 - Method of radio communication - Google Patents

Description

The invention relates to such radio communication methods in which the transmission of the same signals (telegraph or telephone) is simultaneously carried out by two transmitters of the same power, differing in wavelength by a small amount. In this case, the modulation is performed in such a way that the modulation coefficients of the transmissions of both stations are equal, and a differential receiver is used for reception.

The proposed method, radio communication, aims to reduce the harmful effects of atmospheric interference. According to the invention, transmitter modulation is opposite in phase. Each of the two stations is received by a separate high-frequency receiver circuit. Each of the circuits receiving one of the stations contains a high-frequency amplifier with auxiliary devices (eg, local oscillator) and a detector.

When two stations are simultaneously received at the outputs of the detector cascade of both circuits, low-frequency currents are obtained, shifted in phase relative to each other by 180.

If you now turn the direction of one of the currents and then add both currents together, you get a double (due to the equality of the currents) reception effect.

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Practically, this can be done using a transformer having three windings, of which two are included in the anode circuits of the detector lamps of both circuits accordingly, and the third one gets the total effect.

Atmospheric interference should not affect this receiver. In fact, since the wavelengths of transmitters differ by a very small amount from each other, it is necessary to make both receiving chains of MO5-XNO very close in terms of parameters. As is known from the theory of the oscillation of the oscillatory circuits, two circuits, excited by the same electric shock, if they are exactly the same, are excited exactly the same, i.e. oscillations occur in them - of the same amplitude. Consequently, both receiving chains will be excited at the same time and in exactly the same way. These oscillations, when supplied to the detectors, produce at the output of the last currents exactly the same in amplitude and phase, and since, according to the above, one of the currents is inverted relative to the other, the total effect of the currents excited by interference will be zero.

As mentioned above, it is advisable to make the difference between the wavelengths of stations as small as possible. This makes it possible to get the same vibration amplitudes excited by noise. In addition, the small difference in wavelengths will determine the same conditions for their propagation and, therefore, at the reception site, the field strengths of both stations will be equal, which is highly desirable, since the uniformity of the amplitudes of the voltages generated by the stations on the detectors of their receiving devices detector mode for atmospheric noise.

It is possible to make the frequency difference of both stations equal to an audible sound frequency, but lying above the maximum frequency sufficient for conversational reception.

The choice of the wave difference corresponding to the beats of the sound frequency is also useful from the point of view of classifying telephone conversations, since such a transmission cannot be received by a simple receiver due to the presence of beats; on the special receiver beats will not be heard.

The application of the proposed method of radio communication can provide the following advantages. Radio will become more reliable, i.e. will depend on atmospheric conditions less; easier reception under severe conditions (e.g., near a magneto, etc.); becomes

it is possible for short distances to use very weak, low-power, and therefore simple and light transmitting stations and very sensitive receiving stations. The latter was still impossible due to atmospheric noise. Since the output voltage for receiving on the phone is small, the gain factor is needed small and it is easy to get it. Greater sensitivity is easily achieved using superheterodyne; therefore, despite the very high sensitivity, the receiving station is simple.

As mentioned above, in the case of application of transmitting stations with a frequency difference equal to the sound frequency, reception is only possible at a special receiver.

Of particular value, detuning is for telemechanics and for writing telegraph reception.

The subject matter of the invention.

A method of radio communication using two transmitters transmitting the same signals having equal radiation powers and equal modulation coefficients, but different in wavelength, AND a differential receiver, characterized in that the transmitters modulate oppositely in phase.