SU658754A1 - Arrangement for automatic selection of discrete channels - Google Patents

Claims (1)

The invention relates to radio and can be used with diversity reception of both synchronous and start-stop radio telegraph transmissions. A device for discrete channel autoselection is known that contains a switch and two processing paths, working and measuring, each of which contains a serially connected receiver, a time distortion analyzer and a distortion counter, and the switch outputs are connected to the inputs of receivers 1. However, the accuracy of channel selection is insufficient in the known device. The purpose of the invention is to improve the accuracy of channel selection by reducing information loss. To do this, a discrete channel auto selector device containing a switch and two processing paths, working and measuring, each of which contains a serially connected receiver, a temporal distortion analyzer and a distortion counter, with the switch outputs connected to the receiver inputs, sequentially connected — a register block. comparison unit, memory unit and working path switch, as well as measuring path switch, control unit, the first, second, third and fourth outputs of which are connected respectively to another input of the comparison block, block input: registers, another distortion counter input and measuring switch input path, the first and second outputs of which are connected respectively to another input of the memory unit and one input of the switch, the other input of which is connected to the switch output of the working path, the other input of which is connected En with the output of the counter distortion of the working path. The drawing shows a structural electrical circuit of the proposed device. The device contains a switch 1, two processing paths, working and measuring, each of which contains a receiver 2, an analyzer 3 temporal distortions and a counter 4 distortions, a block of registers 5, a block. Comparison b, memory block 7, switch 8 of the working path, switch 9 of the measuring path, control unit 10. The device operates as follows k) M. The signal from the output of the receiver 2 of the measuring path in the form of parcels of a constant eye sends 3 time distortions to the input of the analyzer, which generates an error pulse for each parcel of the analyzed sequence that is distorted above the specified threshold. (Hereinafter, the threshold is the amplitude of the temporal distortion, which is determined by the correcting ability of the terminal equipment). During the set analysis time, the error pulses are summed in the first of two counters 4 distortions. After the channel analysis time expires, the control signals of the control unit 10 are switched by the measuring path switch 9 to the switching path to the next antenna, and the results obtained from the analysis of the previous channel are processed: a) overwriting the contents of the first counter 4 into the first of two block registers registers 5-, b) resetting the first counter; c) comparing the readings of the first register with the readings of the second register in the comparison block 6. If the number of error pulses recorded in the first register is less than in the second register, then the output of the comparison block 6 shows a pulse that goes to memory block 7 where will fix the corresponding antenna number, and also give a command to overwrite the readings of the first register in the second. If the number of error pulses recorded in the first register is greater or equal to the number of errors recorded in the second register, then the output of the comparison block 6 will not have a pulse, and the second register and memory block 7 will save the previous state. When switching the measuring path to the next antenna, the output of the time distortion analyzer 3, by a command from the control unit 10, is connected to another counter, which counts error pulses in the channel of this antenna during the same analysis time. During this time, the processing of the first distortion counter 4 is performed. Thus, counters 4 are connected to the analyzer 3 temporal distortions alternately: the readings of these counters are alternately recorded in the first register of register block 5 and compared with the readings of the second register, which contains the smallest of the counted counters 4, the number of error pulses in the Kth of M oprosheynyh antennas, and in memory block 7, the number of K-th antenna is recorded. In the working path, the signal passes the same as the measuring path, the path to the distortion counter 4, summing the error pulses from the analysis output torus 3 temporal distortion during the analysis. If, over the set time interval, the counter 4 is not filled, then the pulse of the master oscillator time is zeroed. If the counter 4 is filled up to the end of the set time interval, then from its output the command коммут switch 8 of the working path follows to switch over. working path to the antenna fixed in memory block 7 (at the moment of the arrival of the command). Thus, the working path is switched to the new antenna selected by the measuring path only if the radio conditions in the channel do not satisfy the set requirements, which can be determined by the reliability of the received information at the given speeds, working time analysis and volume distortion counter. Thus, in the proposed device, due to the presence of the measuring and working paths, the possibility of continuous preliminary comparative analysis of channels on all M antennas in the measuring path is obtained in order to detect a channel with the smallest number of time distortions over a given period of time and prepare the selected channel before turning on working path, formula of the invention A device for selecting a discrete channel, containing a switch and two processing paths, working and measuring, each of which comprises a series-connected receiver and analyzer TBC counter distortion, wherein the switch outputs are connected to the inputs of receivers, wherein. what. in order to improve the accuracy of channel selection by reducing the loss of information, serially connected block registers are introduced. the comparison unit, the memory unit and the working path switch, as well as the measuring path switch, the control unit, the first, second, third and fourth, whose outputs are connected to another input, and the comparison, the input of the register unit, the other input of the distortion counter and the input the measuring path switch, the first and second outputs of which are connected respectively to another input of the memory unit and one switch input, the other input of which is connected to the switch output of the working path, the other input of which is connected n yield. counter distortion of the working path. Sources of information taken into account in the examination of i USSR author's certificate No. 425365. cl. H 04 B 7/02. 1973.