SU935810A1 - Signal parameter measuring device - Google Patents

Description

This invention relates to radio measurements.

A device for measuring signal parameters is known, comprising an event sensor, a multivibrator waiting, a programmable frequency generator, a switch, a crystal oscillator, a time counter, an output counter, memory blocks, a comparison device, a converter, a decade time setting device, and a triggering unit l.

However, this device does not provide sufficient accuracy.

The closest in technical essence to the invention is a device containing a frequency converter, the output of which is connected to n channels, each of which contains m parallel connected subchannels, including a series-connected band-pass filter and an envelope detector, the first and second outputs of the phase-locked loop of each of n channels through the control switch are connected to the inputs of the Doppler frequency counters, the third output of the phase-locked loop of each of the n channels through the control yuschy switch is connected to the input of sync blocks and the first input of the integrator, the second input of which is connected to output of the respective sync block, the integrator output is connected to decision element 23.

However, this device is characterized by insufficient reliability and relatively long duration.

10 detection cycles.

The aim of the invention is to increase the reliability of measurement results.

The goal is achieved by

15 that a device containing m detection channels, each consisting of n frequency selection channels, including a series-connected band-pass filter and a detector, and a phase-locked loop unit, a mixer, whose input is connected to the input bus and filters of all n channels of frequency selection, a co-switch, whose input is connected to the outputs of the phase-locked blocks of all m detection channels, and the corresponding outputs of the switch are connected to 30 two inputs of each of the two x Doppler frequency counters and inputs of two processing units, each of which consists of a series-connected synchronizer, an integrator, the second input of which is connected to the synchronizer input, and a deciding unit, are added to each of the m detection channels and the follower | channel switch, shaper code converter codep voltage and block discrete frequency control, the input of which is connected to the input of the phase locked loop, and in each of the channels In the frequency selection section, a comparison unit is entered, one input of which is connected to the detector output, and another input is connected to the output of the comparison signal generator of this detection channel, the inputs of each channel switch are connected to the outputs of the comparison block of this detection channel, the second output of the channel coc / mutator is connected to the input of the comparator signal generator, and the second inputs of all discrete adjustment blocks: the frequencies are connected to the mixer output.

The drawing shows a structural electrical circuit of the device being retailed.

The device contains a CTRAJTb 1 frequency, channels 2-1, .. ,, 2-m detection, each of which includes channels, n., 3-frequency; selections that include bandpass filter 4f detector 5 and comparison block b, channel switch 7, for1Ф5ро. 8 comparison signal generator, code shaper 9, code-voltage converter 10, discrete frequency control block 11, phase-locked loop 12 .

The device also includes a switch 13, processing units J. 4 and 15, counters 16 to 17 of the Doppler frequency. The composition of bzheka processing vkod t synchronizer 18, the integrator 19 and the decision block 20. The input signal is fed to the input value 21 o

The device works as follows.

Neither the INPUT of the transducer 1 is supplied alone or simultaneously, several signals of different frequencies that need to be detected and whose parameters need to be measured. In the frequency converter 1, the frequency of the input signal decreases. From the output of the frequency converter, the signals simultaneously arrive at the inputs of the 2-t bandpass filters and at the inputs of frequency mixers (not shown) located in blocks 11 of the discrete frequency control. The combination of bandpass filters covers the entire range of possible changes in the frequencies of incoming signals, and the signals pass through those filters in the passbands of which are their frequencies. From the outputs of the bandpass filters, the signals are fed to the inputs of the envelope detectors 5, where the permanent components of the signals that are fed to the first inputs of the blocks of 6 corresponding subchannels are separated.

From the outputs of the driver 8 to the second inputs of the blocks 6, simultaneous comparison signals are provided, the levels of which vary with time. As soon as the levels of the constant components of the incoming signals exceed the levels of the comparison signals, the outputs of the respective comparison blocks appear signals that are fed to the switches 7. Comm / tator stop the operation of the formers 8 and at the same time connect to the formers a subchannel whose filter passband is the frequency of the input signal. The PSDcd shaper generators generate codes corresponding to the subchannel numbers, and these codes arrive at the codec voltage transducers. In transducers, the piping codes of subchannels are converted into voltages, which are trimmed by controlled oscillators (not shown) located in discrete frequency tuning blocks of N channels so that the frequencies of the signals whose parameters need to be measured are converted into a capture band blocks 12 phase-locked loop.

The frequencies of the controlled oscillators (not shown) of the phase-locked loop systems with the frequencies of the incoming signals, the detection of information symbols, and the selection of carrier frequencies, the Doppler shift, are synchronized. At the same time, the outputs of the phase-locked blocks of the frequency are generated by sig-aly, indicating that the phase-locked loop is in sync. I

Claims (2)

Using these signals, the combinator 13 connects one of the phase locked loops to a free counter 16,17, where the Doppler frequency offset is measured, and to a free information processing block consisting of; / from the synchronizer 18, the integrator 19 and the decision block. 20, in which there is a selection of characters of information. The introduction of additional blocks into the device allows one to obtain more accurate signal processing, which ensures greater reliability of measurement re-eats. The invention The device for measuring the parameters of signals containing m kangshov detection, each of which consists of n frequency selection channels including a series-connected band-pass filter and detector, and a phase, frequency control unit, a mixer whose input is connected to the input bus, and an output with the inputs of the bandpass filters of all n channels of frequency selection, the switch, the inputs of which are connected to the outputs of the phase-locked blocks of the frequency of all m detection channels, and the corresponding outputs of the switches It is connected to the two inputs of each of the two Doppler frequency counters and the inputs of two processing units, X1 each of which consists of a series-connected synchronizer, integrator, the second input of which is connected to the synchronizer sync input, and what. . II rj, in order to increase the reliability of the measurement results, a comparison signal generator and a serially connected channel switch, a code generator, a code-voltage converter and a discrete frequency control unit, the output of which is connected to the input of the phase-locked loop, are entered into each of the m detection channels. In each n frequency selection channels, a comparison unit is entered, one input of which is connected to the detector output, and the other input is connected to the output of the comparison signal generator of this channel The detector is connected, the inputs of each channel switch are connected to the outputs of the comparison blocks of a given detection channel, the second output of the channel switch is connected to the input of the comparison generator, and the second inputs of all discrete frequency control blocks are connected to the mixer output. Sources of information taken into account in the examination 1. US Patent 3842347, cl. 32478, 15.10.7C. 2.ARGOS sategeite location and date coCEection system. Center National d'Etudes SpatiaCes, Paris, September, 1978.