SU797081A1 - Satellite communication system with reliable communication - Google Patents

Description

one

The invention relates to radio engineering and can be used to exchange information between ground stations using artificial earth satellites as active transponders.

A satellite system with frequency multiplexing is known, containing in series a receiver and a first intermediate frequency amplifier, as well as a transmitter, and a transmitter and receiver 1 at each ground station.

However, the known system has a wide frequency range.

The purpose of the invention: - reducing the frequency range while maintaining the transmitted information.

This goal is achieved by introducing the first and second demodulators, an adder, a modulator, a second intermediate frequency amplifier into the repeater, and a delay line and a subtractor are introduced at the ground stations, and the output of the first intermediate frequency amplifier is connected to the demodule inputs on the repeater tori, the outputs of which are connected through a series-connected adder, a modulator and a second intermediate frequency amplifier are connected to the transmitter input, and at each ground station between the receiver output and the transmitter input turn on serially connected subtractor and delay lines.

The drawing shows a structural

electrical circuit of the proposed system.

A satellite-based satellite frequency communication system consists of a transponder 1 onboard an AES, its content is 1, its receiver 2, the first IF amplifier 3, the first and second demodulators 4 and 5, the adder 6, the modulator 7, the second IF amplifier 8 and transmitter 9, as well as from two ground stations 10

and 11, each of them, respectively, a transmitter 12, a receiver 13, a delay line 14 and a subtractor 15.

The device works in the following way.

Let the communication be established between two ground stations 10 and 11. Then, two frequency-modulated signals are received at the input of the receiver 2 of the onboard transponder 1: the first from transmitter 12 of ground station 10, and the second from transmitter 12 of another ground station 11, and let the spectra of these signals do not overlap. Taking into account the large supply of energy on the Earth-HIS line, frequency deviation

transmitters from both terrestrial stations

10, And reduce, which practically does not lead to a deterioration of the noise immunity of the entire communication channel between ground stations 10, 11, but significantly reduces the frequency band of the transponder 1 on the Earth-HSS line occupied by signals. After conversion at receiver 2 and amplification in the common path of the first OO 3, these signals are separately demodulated first in the first demodulator 4, and second in the second demodulator 5. The messages i (t) and 52 selected after demodulation ( (i) are combined in adder 6, and after adder 6, they have a bluff spectrum.

After amplification in the second IFA 8, the signal is fed to the input of the transmitter 9 of the transponder 1, and from its output is transmitted to the inputs of the receivers 13 ground stations 10 and I, between which information is exchanged.

In receivers 13 of ground stations 10 and 11, as a result of demodulation, the summary messages Si (-t) + Sz (t-t) are output to the subtractors 15 at the ground station 10, and the second input of this subtractor 15 arrives line 14 of the delay for the passage of communication over the communication channel signal Si (t-t), resulting in the output signal of the correspondent 15

Si (-t) + Sz (t - T) - Sl (-t) Si (/ -t), and at the ground station 11 to the subtractor 15, and the delayed delay line 14 arrives at the second input of this subtractor 15 for the transit time messages on the communication channel signal $ 2 (1 - m), as a result of which the output of the subtractor 15 of the ground station 11 is allocated the signal of the correspondent: SI (-T) 4-S2 (-T) -S2 (-t) SI (-T )

Thus, in the proposed invention, the occupied frequency band of the transponder trunk on the Earth-HIS line is reduced by reducing the modulation indices, and on the AES-Earth line, by transmitting the combined message on one carrier, the power of which is doubled.

Claims (1)

1. Fundamentals of technical design communication systems through satellites. Ed. Fortushenko A.D., M., “Svy, 1970, p. 216-222.