RU1788584C - Device for automatic search of radio communication channels - Google Patents

Abstract

Usage: radio, receiving centers. The inventive device for automatic search for radio channels contains blocks for generating preliminary and main analysis time 1, 2, key 3, comparison threshold switch 4, pulse shaper Test 5th, additional key 6, comparison element 7, frequency switch 8, trigger 9, radio receiver 10, element 11, delay element 12, first and second pilot signal generators 13, 14, adder 15, part 16 conversion path, first and second pilot signal filters 17, 18, first and second amplifiers: plate detectors 19 , 20, first and the second comparators 21.22, the first and second elements OR 23.25, the additional element And 24 and the integrating circuit 25. The device provides an analysis of the operating frequencies according to two criteria: not exceeding the noise level of a given threshold level and the absence of blocking of the common path of the radio receiver due to interference , which improves the accuracy of the choice of communication channel. 1 ill.

Description

The invention relates to the field of radio communications and can be used in radio stations and receiving centers to automate the search for channels, free t interference,

; The purpose of the invention is to improve the accuracy of the choice of communication channels.

The device for automatically searching for radio channels contains (see, drawing) a unit for generating a preliminary analysis time 1, a unit for generating a main analysis time 2, a key 3, a comparison threshold switch 4, a pulse shaper Sample 5, an additional key 6, a comparison element 7, a switch frequency 8, trigger 9, radio 10, element 11, delay element 12, first and second pilot signal generators 13 and 14, adders 15, frequency converter path 16, filters of the first and second pilot signals 17 and 18, first and second amplitude de projectors 19 and 20, first and second comparators 21 and 22, a first OR gate 23, the additional AND gate 24, the second element IL1L 25 and integrating circuit 26.

The device operates as follows. ;,. ;; .,: - {:, -. . ,, -..- - /; - When a trigger pulse arrives that determines the start of the analysis at the first inputs of the preliminary 1 and basic 2 analysis time blocks, 1 voltage pulses are generated, the duration of which determines the preliminary and main analysis time. These impulse voltages are simultaneously supplied to the switch 3, the comparison threshold switch 4 and the Sample pulse forming unit 5. The key 3 is closed, providing an increase in the potential at the output of the integrating circuit 26 due to the voltage of noise coming from the output of the radio 10. At the output of the switch 4 of the comparison thresholds, the comparison potential is set. Corresponding to the principle for preliminary analysis, due to the action of the pulse supplied to it from the formation of the preliminary analysis time 1, but whose output is disconnected from the comparison element 7, but whose output is disconnected from the comparison element 7, since the additional key b is closed by the potential applied to it from the sample forming unit 5. The output of the switch 4 to the comparison element 7 is connected for the duration of the probe pulse to the additional key 6 formed by the probe pulse generator 5 at the end of the preliminary analysis time interval. If during the preliminary analysis the potential for

the output of the integration circuit 20 will be higher than the threshold comparison potential received at the comparison element 7 from the comparison threshold switch 4, then the element 7

comparison, through the second element OR 25 gives a pulse to the frequency switch 8, the busy channel is switched. Frequency switch 8 switches the radio receiver 10 to a new frequency, after which the signal about the end of tuning the receiver goes through the first element And 11, prepared by trigger 9, to restart the forming units preliminary 1 and main 2 analysis times. Trigger 9 is reset to its initial state by a pulse from the main unit: analysis time 2 through delay element 12. The next analysis cycle at the new frequency will begin.

If the output of the integrating circuit 26

0 during the preliminary analysis, the potential does not exceed the threshold comparison potential, then the comparison element 7 does not give a command to rebuild the radio receiver 10, the additional key 6 is turned off and

5, the output of the threshold switch 4 is turned on, on which the threshold comparison potential adopted for the main analysis time is set from the comparison element 7, and the analysis continues for 0. the main time of analysis. At the end of the main analysis time, a second Sample pulse is generated by the Sample 5 pulse forming unit, which provides connection through

5 additional key 6, the output of the comparison threshold switch 4 to the comparison element 7 .. If the measured level is greater than a predetermined threshold, the process of changing the operating frequency will be repeated. If

If the measured potential is less than the threshold, then this frequency is suitable for communication according to the criterion of minimum interference.

The signal from the output of the adder 15 enters the frequency conversion path 16, where, using the local oscillatory voltages supplied to its reference inputs from the radio 10, it is transferred to. operating frequency and goes to an additional

0 the input of the radio 10. The frequencies of the generators 13 and 14 are selected so that at the output of the common path of the receiver (main selection and power path) these frequencies are at the borders of the transmission band of the common radio path. Their level is chosen so that at the output of the adder 15, and therefore at the output of the particle conversion unit connected to the additional input of the radio receiver, to ensure the level of these

signals sufficient for their reliable isolation and further processing. The signal from the output of the common path of the radio receiver 10 is fed to the inputs of the first 17 and second 18 filters, which allocate the frequencies of the generators of the first and second pilot signals 13 and 14,

The first and second amplitude detectors 19 and 20 rectify the voltages coming from the outputs of the filters 17 and 18, respectively. The voltage at the input of the first 21 and second 22 comparators coming from the amplitude detectors 19 and 20, respectively, are compared with the reference voltage. If at the input of the comparator (s) the voltage is lower than the reference voltage, then at the output of this comparator (s) the level of a logical unit will appear, which indicates blocking of this frequency by out-of-band interference. The logical unit from the output of the comparator (s) through the first element OR 23, is input to the second element. And 24, from the output of which, under the influence of the Sample pulse, which is formed by the Sample 5 pulse forming unit, which enters the other input of the second And 24 element; through the second OR 25 element it enters the inputs of the frequency switch 8 and trigger 9, it provides a frequency change and the preparation of a new cycle measurement.

If a logic zero level is present at the output of the comparators, then the analyzed frequency is suitable for communication by the criterion of no blocking.

Claims (1)

The claims A device for automatically searching for radio channels, comprising a radio receiver with a frequency switch, serially connected integrating element connected to the output of the radio receiver, and a comparison element, a key connected in parallel to the output of the integrating element, serially connected switch of comparison thresholds and an additional key whose output is connected to another input the comparison element, the unit for generating the main analysis time and the unit for generating the preliminary analysis time, the first inputs of which These are the input: Start of the device, pulse generator Sample, the inputs of which are connected to the first outputs of the main and preliminary analysis time generating units, 5 series-connected delay element, trigger and And element, connected between the second output of the main analysis time generating unit and the second, inputs of the blocks formation of the main and. 0 preliminary analysis time, the inputs of the comparison threshold switch are connected to the first output of the pulse shaper Sample, to the second output of the preliminary shaper 5 of the analysis and the third output, the main analysis time generators, the control inputs of the key and the additional key, are connected to the first outputs of the main analysis time formation unit and 0 pulse former Sample, another input of the trigger is connected to the output of the comparison element, another input of the element And is connected to the output of the analysis Perestroika is finished with the radio receiver, with the exception of 5, so that, in order to increase the accuracy of the choice of the communication channel, the adder, the generator of the first pilot signal and the generator of the second pilot signal, the outputs of which are connected to the inputs of the adder, are introduced into it, 0 frequency conversion path, the inputs of which are connected respectively to the output of the adder and the local oscillator outputs of the linear path of frequency conversion and amplification of the radio signal, and the output to the input 5 radio receivers, the filter of the first pilot signal connected in series, the riep amplitude detector and the first comparator, the filter of the second pilot signal connected in series, the second amplitude detector and the second comparator, the first OR element connected in series, the inputs of which are connected to the outputs of the first and the second comparator, an additional element AND, another input of which is connected to the first output of the pulse shaper Sample, and a second element OR, another input and output of which is connected respectively to the outputs dy comparing element and a control input 0 of the frequency switch, and the filter inputs of the first and second pilot signals are connected to the output of the linear path of frequency conversion and amplification of the radio receiver signal; ke. .-. - .. ...;.