RU2001121427A - Multifunctional system for receiving, demodulating and processing signals of I-IY levels of hierarchical compression - Google Patents

Claims (5)

1. A multifunctional system for receiving, demodulating and processing signals of I-IV levels of hierarchical multiplexing, containing a serially connected antenna with a drive and a guidance system, a reception filter, a low-noise amplifier, a high-frequency pre-amplifier, a power divider, K-radio receivers, an intermediate frequency switch , n-demodulating devices, n-demultiplexers of digital streams of the IV level of hierarchical multiplexing, m-demultiplexers of digital streams of the III level of hierarchical multiplexing, 1-demult plexor level II and p-I level demultiplexers, characterized in that its composition is introduced personal electronic computer with a monitor and keyboard, the outputs of which are connected to the control inputs of all devices included in the system. 2. The system according to claim 1, characterized in that instead of n-radio receivers with filtering and correction of the amplitude-frequency characteristic and group delay time for each signal, K-radio receivers (k <n) with reception and filtering in the 72 MHz band are turned on . 3. The system according to claim 1, characterized in that the demodulating devices are made according to the Kostas scheme and contain synchronous and quadrature demodulation channels, each of which includes a phase detector, a low-pass filter, an analog-to-digital converter, a digital filter, a digital filter corrector of the amplitude-frequency characteristic and group delay time, as well as a 90 ° phase shifter, the outputs of which are connected to the inputs of phase detectors, an input amplifier, an automatic gain control circuit, sequentially connected carrier frequency recovery circuit and restored carrier frequency synthesizer, serially connected clock frequency recovery circuit and clock synthesizer, as well as series-connected noise-resistant decoder of unsystematic convolutional codes, differential decoder, descrambler, noise-resistant decoder of systematic convolutional codes, deinterleaver and Reed code decoder Solomon, while the first and second inputs of the carrier frequency recovery circuit, the circuit is restored The clock frequency, noise-free decoder, and automatic gain control circuits are connected to the outputs of digital correctors of the amplitude-frequency characteristic and group delay time, the output of the clock synthesizer is connected to the second inputs of analog-to-digital converters, digital filters, digital correctors of the amplitude-frequency characteristic and group time delay and noise-free decoder, the synthesizer output of the restored carrier frequency is connected to the input of the phase detector and the common-mode channel and the phase shifter input are 90 °, the output of the automatic gain control circuit is connected to the second input of the input amplifier, the output of which is connected to the inputs of the phase detectors, while the composition of the demodulator devices and the sequence of their inclusion are configured programmatically. 4. The system according to claim 1, characterized in that the demultiplexers of levels III, II and I of the hierarchical compression level comprise a synchronous signal receiver, generator equipment, an asynchronous interface unit and a channel distributor, the second input of which is connected to the information input of the clock receiver, while the generator the equipment is made on random-access memory devices, in which the model of the processed signal from the memory of a personal electronic computer for clock selection is entered and pulses of the component streams of the input total digital stream. 5. The system according to claim 1, characterized in that the demultiplexers of the IV level of the hierarchical compression are made similarly to claim 4, but with processing at the same time through 1-4 channels, depending on the multiplicity of the phase modulation, and contain a series-connected clock receiver for four information inputs, a generator equipment, four asynchronous interface units and a four-way channel distributor, the inputs of which are connected to the inputs of the clock receiver, while the outputs of the channel distributor are connected to the second the inputs of the corresponding blocks of asynchronous coupling, the outputs of which are connected to the inputs of the stream combiner, and the generator equipment is made on random access memory devices, in which the model of the processed signal is stored from the memory of a personal electronic computer for selecting, with clock pulses, the constituent streams of the input total digital stream.