SU696613A1 - Solving device of multichannel radio receiver - Google Patents

Description

The invention relates to radio engineering and can be used in communication systems with lacTOTHo-BpeMeHHbifvf psaechenie channels. It is a well-known multi-channel radio solver that contains in each channel a first filter, a first amplitude detector, a delay element and a switch and sequentially connect a second filter whose input is connected to the input of the first filter, a second amplitude detector, and a comparison unit, however In this, the device is solved; it is impossible to obtain a high probability of correct distribution of signals with overlapping spectra over the frequency channels while optimally filtering these signals. s of the noise in each working channel. The invention is aimed at reducing the likelihood of error when receiving signals over frequency channels with overlapping spectrum. To do this, in each multichannel radio receiver, which contains in each channel, the first filter, the first avfpludt detector, the delay element and the switch, and the second filter connected in series, whose input is combined with the input of the first filter, the second amplitude detector and the comparison unit, are entered in each channel a strobe generator {pulse pulses, wherein in each channel the output of the comparison unit via r & the gate gate pulse is connected to the control input of the coaxmotor, the second and the third inputs of the q-unit are connected to the outputs of the second amplitude detectors of the previous and subsequent adjacent channels, respectively, and the inputs (| of all the channels are combined). In each channel, the first amplitude detector, torus 1, delay element 2, switch 3, first filter 4, second filter 5, second amplitude detector 6, unit 7 of comparison, and Strobe pulse generator 8. The decisive device of a multichannel radio receiver works as follows. Pulse radio signals from all channels, mixed with fluctuating noise, are sent to the device input. The adjacent channels are equal to uCjUg. The first and second filters 4 and 5 of each channel are tuned to the center frequency of this channel, but differ in either shape or frequency response band. The first filter 4 is consistent with the signal of this channel from the point of view of the best (according to a given criterion) selection of this signal from the fluctuation noise and its frequency characteristic does not depend on the size of LH, .. The second filter 5 has a frequency response that the accuracy of distinguishing the signals of adjacent channels in the presence of noise (also according to some selected distinction criterion).

The parameters of the frequency response of the filter .5 depend on the magnitude of the mismatch between the Canadian AdJj-. The output radio pulses of the first and second files. Terra 4 and 5 are detected by the first and second amplitude detectors 1 and 6 of each channel, respectively. Video pulses from the outputs of the second amplitude detectors 6 of the working and two adjacent channels are compared with each other in block 7 of the comparison. The bela video pulse of the working channel at the same time exceeds the amplitude of the video pulses of adjacent channels by a given relative value and the duration of this excess is within certain predetermined boundaries. Comparison unit 7 generates a command pulse imparted to the strobing pulse generator 8. At this command, the generator 8 forms a strobe, under the influence of a

Claims (2)

Invention Formula / A multichannel radio receiver, containing in each channel a first filter connected in series, a first amplitude detector, a delay element and a switch and a second filter connected in series, the input of which is combined with the input of the first filter, a second amplitude detector and a comparator unit, that, in order to reduce the probability of error when receiving signals through frequency channels with overlapping spectra, a strobing pulse generator was introduced in each channel, with each channel the output of the comparison unit is connected via a sampling pulse generator to the control input of the switch, the second switch 3 is opened for a time interval equal to the duration of the strobe. The signal from the output of the first amplitude detector 1 is delayed by the delay element 2. The delay time of this delay element 2 and the duration of the ba ff are chosen so that the delayed signal from the first amplitude detector 1 is completely missed by the switch 3, In cases where the comparator unit 7 forms the next command pulse before the strobe is called - the action of the previous command pulse, has not finished yet, the generator 8 continues to generate the strobe, ending it through the segment (Y after the moment of the last command pulse. This is done so that in case of a false response of the comparison unit 7 the noise does not suppress the useful signal immediately following the moment of false alarm. Comparative analysis showed that when using the proposed device, the probability of correct detection of signals with overlapping spectra over the frequency channels can be increased to a potential (maximum possible in these conditions) value at at the same time ensuring optimal filtering of field signals from noise according to any desired criterion. 569661 and the third inputs of the comparison unit are connected to the outputs of the second amplitude detectors, respectively, of the preceding and adjacent channels, and the inputs of the filters of all channels are combined. 3 Information sources taken into account during the examination 1. USSR author's certificate No. 552707 / CL, H 04, B 1 / 1O, 1975 (prototype).