CS258684B1 - Connecting the tropospheric radio system - Google Patents

Abstract

The connection of a tropospheric radio system relates to the field of communications technology and solves the technical problem of suppressing the influence of two-beam and multi-beam propagation in the troposphere on the amplitude of the demodulated low-frequency signal. The essence of the connection of a tropospheric radio system lies in the fact that on the transmitting side, the modulation input of the first transmitter and the modulation input of the second transmitter are connected to the output of the source of a common modulation signal, and on the receiving side, the demodulation output of the first receiver and the demodulation output of the second receiver are connected to the input of the common low-frequency part. The connection of a tropospheric radio system can be used for the transmission of amplitude- and frequency-modulated signals through the tropospheric interference tract in the very short wave band.

Description

Involvement of the tropospheric radio system relates to the field of switching technology and solves the technical problem of suppressing the effect of two-beam and multi-beam propagation in the troposphere on the amplitude of the demodulation low-frequency signal. The principle of the tropospheric radio system is that on the transmitting side, the modulation input of the first transmitter and the modulation input of the second transmitter are connected to the output of the common modulation signal source, and on the receiving side the demodulation output of the first receiver and the demodulation output section.

The connection of the tropospheric radio system can be used to transmit amplitude and frequency modulated signals through the tropospheric interference tract in the very short-waveband.

The invention relates to the involvement of a tropospheric radio system.

Pte suppression of the effect of two-ray and multi-ray propagation on the demodulation signal, a special radio system is used in the long-range zone of the long-range tropospheric links. The hitherto known connection of this system to the transmitter power consists of a transmitter modulated in frequency by the sum of the information and crelation signals, and on the receiving side from an autocorrelation receiver with a delay member. Disadvantages of the prior art circuitry are the need to adjust the frequency of the correlation modulation signal and the delay of the delay member always according to the frequency selectivity of the interfering tropospheric tract of radio signal propagation, the large several megahertz bandwidth transmitted. a frequency modulated signal having a substantial input from the frequency of the correlation modulation signal.

The principle of the tropospheric radio system according to the invention is that on the transmitting side the modulation input of the first transmitter and the modulation input of the second transmitter are connected to the output of the common modulation signal source, and on the receiving side the demodulation output of the first receiver and inputting together the low-frequency part].

In particular, the advantages of engaging the tropospheric radio system of the present invention are the automatic suppression of the effect of two-beam and multi-beam propagation on the amplitude of the demodulation low-frequency signal, the substantially smaller bandwidth of the transmitted radio signal.

The drawing shows the block connection of the tropospheric radio system.

The connection of the tropospheric radio system consists of a transmitter side of a first transmitter 1, a second transmitter 2, a common modulation signal source 3, and a receiving side of a first receiver 4, a second receiver 5, a common low-frequency] part 8.

The modulation input of the first transmitter 1 and the modulation input of the second transmitter 2 are provided with a modulation signal from the output of the common modulation signal source 3, wherein the carrier frequency of the first transmitter 1 and the carrier frequency of the second transmitter 2 are one to two or inverted. . The first receiver 4 and the second receiver 5 receive radio signals obtained predominantly by the interference of two tropospheric rays. Dual-beam interference may be due, for example, to the direct beam interference between the transmitter and receiver and the beam reflected from the earth's surface, or the interference of the two beams reflected on the tropospheric inequalities. For example, at the frequency ratio of the carrier signal of the first transmitter 1 'and the carrier signal of the second transmitter one to two, the first maximum signal at the demodulation output of the first receiver 4 coincides with the first maximum signal at the demodulation output of the second receiver 5 and the second maximum signal at the demodulation output of the first the receiver 4 runs at the same time as the third maximum signal at the demodulation output of the second receiver 5 _S, wherein the first minimum is at the demodulation output of the first receiver 4 at the same time as the second maximum signal at the demodulation output of the second receiver 5. The second receiver 5 at the input of the common low-frequency portion 6d thus automatically suppresses the effect of the dual-beam propagation on the amplitude of the demodulating low-frequency signal. The bandwidth of the tropospheric radio system according to the invention in the case of amplitude modulation of the first transmitter 1 and the second transmitter 2 will be equal to four times the highest frequency of the modulation signal, which is substantially less bandwidth than the previously known connection. In the case of frequency modulation of the first transmitter 1 and second transmitter 2, the bandwidth of the present invention will be equal to twice the bandwidth of a conventional frequency modulated transmitter in the very short waveband and will be less than the prior art wiring.

The tropospheric radio system of the present invention can be utilized in the very short range of biased and multi-beam remote and near-range propagation of amplitude and frequency modulated signals in the troposphere.

Claims (1)

SUBJECT A tropospheric radio system connection, characterized in that on the transmitting side the modulation input of the first transmitter (1) and the modulation input of the second transmitter (2) are connected to the output of the inventive modulation signal (3) and ) and the demodulation output of the second receiver (5) is connected to the input of the common low frequency part (6). 1 sheet of drawings