SU64966A1 - Method of radio communication - Google Patents

Description

A serious obstacle to the use of frequency modulation in telephone communications at short wavelengths are the strong distortions that appear in the low-frequency output signal of the receiver. The cause of these strong distortions is the multipath propagation of short waves, as a result of which several modulated oscillations can arrive at the receiver antenna at each moment of time, coming in different ways and having their phase different. As a result of the addition of these oscillations, the individual components of the high-frequency transmission spectrum can greatly decrease in amplitude and even disappear completely or change their phase (this phenomenon is called selective fading).

Crosby (Prgos .. IRE, 936, June), devoted to the study of the effects of multipath radio waves on shortwave communication with frequency modulation, theoretically and experimentally showed that the distortions here could be much greater than with ammitter modulation. -, .. ,,,. N ,,:;. Hi:.: I: and::.

Study of ; the low-frequency spectrum at the output of a private-modulated receiver when receiving two beams shows that the greater the frequency deviation during frequency modulation, the lower the amplitude of the low harmonics of the distorted signal and the higher the higher harmonics. Consequently, if we sufficiently sharply limit the width of the low-frequency channel from above (e.g., -1010 2500 Hz frequency during telephony), then with appropriate selection of the frequency deviation, the intensity of the harmonics passing through the low-frequency channel can be significantly influenced.

However, under conditions of real transmission with a large dynamic range, it is not possible to ensure the constant presence of small distortions only by limiting the width of the audio channel, because with frequency modulation different loudness values correspond to different values of frequency deviation. Therefore, in real conditions, it is not possible to maintain a constantly large value. frequency deviation. To achieve a constant high frequency deviation value, it is required. apply the well-known s technique to the compression of the diamic range of loudness. At the reception, this may require an expander to expand the volume range.

The use of dynamic range compression at the transmitting end of the communication channel with frequency modulation and attenuation of the high frequency of the low frequency spectrum at the receiving K10 is the center of this channel and is a distinctive feature of the proposed radio communication method.

At the receiving end, the expansion in the low frequency path may be required.

Thus, with the proposed radio method, a conventional transmitter of frequency-modulated signals must be supplemented by a dynamic-range compressor, made according to any scheme, and must provide frequency deviation of the order of 3 (for example, at Iniax 2500 Hz, the frequency deviation should be about 7500 Hz). The receiver of the frequency-modulated oscillations should differ from the usual ones only by using a sharply limiting filter in a low-frequency path that transmits only the frequency spectrum to Fmai. and the use of any type of expander.

Prev Invention

Frequency modulated radio communications with a modulation index at the highest frequency of the low frequency spectrum of at least two, characterized in that, in order to reduce distortions resulting from multipath propagation at short waves, compression of the dynamic loudness range, and at the receiving end, high frequencies in the low-frequency path are sharply attenuated (by using a low-frequency filter).