SU1003366A2 - Multichannel relay station - Google Patents

Description

The invention relates to satellite communications and can be used for retransmitting telephone, telegraph and television communications.

According to the main author. svt. No. 720748 is known a multichannel repeater comprising a multiplexer, each output of which is connected to the inputs of the corresponding channel, each of which contains a series-connected first mixer, an intermediate frequency amplifier, a second mixer and an output amplifier, and their power inputs are connected to the output of the secondary power source, and master oscillator as well as a frequency divider, a frequency multiplier, a modulator, a first heterodyne frequency shaping unit, a second heterodyne frequency shaping unit, and a pho phase shifting, while the output of the master oscillator is connected to the combined inputs, divide the frequencies and the frequency multiplier, the outputs of which are connected to the corresponding inputs of the modulator, the output of which is connected to the input of the first mixer of each channel through the first heterodyne frequency generator and through the second unit to form) the heterodyne frequency with the input of the second mixer of each channel, and the output of the frequency divider is connected to the control input of the secondary source via the phase shift shaping unit power of each Cll channel However, the known repeater does not allow for the joint ret10 of the signals of the fixed and mobile radio services, since it is not possible to simultaneously retransmit signals of different wavelengths, and also not retransmit 15 signals with a large dynamic range characteristic for the mobile radio service.

The purpose of the invention is to expand the functionality by

20 to provide a joint retransmission of the fixed and mobile satellite services of the radiocommunication services.

This goal is achieved by the fact that in a multichannel repeater

Claims (1)

25, a third heterodyne frequency shaping unit and n channels are introduced, each of which contains a series-connected down-converter, a band-pass filter, a 30-down converter and an additional power amplifier, as well as a series-connected low-noise amplifier, additional mixer, attenuator, and additional amplifier-intermediate frequency, the output of which through the automatic gain control unit is connected to the second input of the attenuator, and the outputs of the third unit. frequency connections are connected to the first input of the downconverter, to the second inputs of the transmitter and the additional mixer of each channel, the first input of the low-noise amplifier, the input of the additional mixer, the second amplifier, the third input the upconverter, the second input of the downconverter is combined and connected to the output of the secondary power source of the corresponding channel, while the third input is guide transducer connected to an additional output of the intermediate frequency amplifier, the amplifier further intermediate frequency of the second output is connected to an additional input of the second mixer Accordingly, in each channel and the third input of the block forming heterodyne frequency is connected to the output of the modulator. The drawing shows the structures on the electrical circuit of the proposed transponder. The multichannel transponder contains multiplexer 1 and channels, each of. which includes the first mixer 2, the intermediate frequency amplifier 3, the second mixer 4, the output amplifier 5 and the secondary power source 6, as well as the master oscillator 7, the frequency multiplier 8, the frequency divider 9, the modulator 10, the first heterodyne frequency unit 11 / second heterodyne frequency shaping unit 12, phase shifting unit 13, step-down converter 14, band-pass filter 15, step-up converter 16, additional power amplifier 17, low-noise amplifier 187 additional mixer 19, attenuator p 20, an additional intermediate frequency amplifier 21, automatic gain control units 22 (AGC) and a heterodyne frequency generation unit 23. The repeater operates as follows. The input signal of the land station of the fixed and mobile radio services from the antenna-feeder device (, not shown) is fed to multiplexer 1, made on the separation waveguide microwave filters. In the multiplexer 1, the group signal is divided and filtered. The signal then goes to the first mixer 2 of the corresponding channel, where the frequency of the signal is reduced to an intermediate value. At the intermediate frequency, the channel signal is further filtered and its main amplification in the intermediate frequency amplifier 3. From the output of the amplifier 3 intermediate frequency, the signal is fed to the input of the serially connected second mixer 4 and output amplifier 5, where a signal is generated at the response frequency of the fixed radio service; connection of the additional output of amplification of the intermediate frequency 3, the signal is fed to the down-converter 14 and then to the band-pass filter 15, where the information of the mobile radio service is extracted from the spectrum of the channel signal. The extracted signal is then fed to the input of the serially connected step-up converter 16 and the additional power A-amplifier 17, where the signal is generated at the response frequency of the mobile radio service. The signals of the mobile stations are fed to the input of the low-noise amplifier 18, where they are preamplified. From the output of the low-noise amplifier, the signal is fed to the input of the additional mixer 19, where the signal frequency is reduced to an intermediate value. Further, the signal is pro; the intermediate frequency through the controlled attenuator 20 is fed to an additional intermediate frequency amplifier 21, where its main amplification and filtering occurs. From the first output of the additional intermediate frequency amplifier 21, the mobile service signal is fed to the additional third input of the second mixer 4, where it is mixed with the signal of the fixed radio service and converted into the answer frequency of the mobile radio service. Next, the signals of the fixed and mobile radio services are simultaneously amplified in the output amplifier 5. From the second output of the additional intermediate frequency amplifier 21, the signal goes to the automatic gain control unit 22, where a direct current signal is generated that is proportional to the level of its input signal, which is fed to the attenuator 20 and changes its attenuation in such a way that when the signal level of the mobile station at the output of the attenuator 20 changes, the signal keeps at a constant level. The signals of the heterodyne frequencies of the CC are blunt from the master oscillator 7, one by frequency multiplier 8, where they are multiplied by the corresponding multiplication factor, and others by the deligel 9, where they are divided by the corresponding division factor. Next, the signals arrive at the modulator 10 and through the block 11 formed heterodyne frequencies arrive at the mixer 2, through the block 12 arrive at the second mixer 4, and through the block 23 to the additional mixer 19, which boosts the converter 16 and the down converter 14.. In order to reduce the voltage ripple and impulse noise along the common power supply circuits of the secondary power supply converter 6, they are synchronized from the phase shifter 13. The proposed repeater allows extending the functionality of the well-known multichannel repeater in terms of providing co-retransmitting of the emissions of fixed and mobile satellite services of radio communications with high quality of signal retransmission, throughput, as well as manufacturability. St. 720748, characterized in that, in order to expand its functionality by providing co-retransmission of the radiation of fixed and mobile satellite radio services, a third unit of heterodyne frequency formation and n channels, each of which contains successively connected down-converter, is inserted into it; filter, boost converter and additional power amplifier, as well as series-connected low-noise amplifier, additional mixer, attenuator and will complement An intermediate frequency amplifier, the output of which is connected to the second input of the attenuator through the automatic gain control unit, and the outputs of the third heterodyne frequency shaping unit are connected to the first input of the downconverter and to the second inputs of the upconverter and additional mixer of each channel, the first input of the low noise amplifier, input additional mixer power, the second inputs of an additional intermediate frequency amplifier, an additional power amplifier, the third in one upconverter, the second input of the downconverter is combined and connected to the output of the secondary power supply of the corresponding channel, while the third input of the downconverter is connected to the auxiliary output of the intermediate frequency amplifier, the second output of the auxiliary amplifier of the intermediate frequency is connected to the auxiliary input of the second mixer in each channel, and the input of the third heterodyne frequency shaping unit is connected to the modulator output. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 720748, cl. H 04 B 7/14, 1978 (prototype).