SU1264090A1 - Spectrum analyzer - Google Patents

Abstract

The invention relates to measurement technology. The purpose of the invention is to expand the functional capabilities of the spectrum analyzer to change the spectra of pulsed signals with a variable follow-up period. The analyzer contains an input filter 1, an adder 2, an electronic switch 3, a delay line-4, a synchronizer 5, a sweep generator 6, an indicator 7, an oscillator 8, a modulator 9, an intermediate filter 10 and an output filter 11. The introduction of the detector 12 measures 13 periods, a digital-to-analog converter 14, a controlled local oscillator 15, mixers 16 and 18, a delayed dispersion line 17, a correctional delayed delay line 19 to form new connections between the elements of the device, doubles the limits ( pulse signals in the following period, which excludes a large number of parallel channels of analysis. 2 ill.

Description

1 The invention relates to a measurement technique and can be used in radio engineering. The purpose of the invention is to expand the functionality of the spectrum analyzer by measuring the spectra of pulsed signals with a variable follow-up period. FIG. 1 is a block diagram of a spectrum analyzer; in fig. 2 and 3 are time diagrams explaining the operation of the spectrum analyzer. The spectrum analyzer contains an input filter 1, an adder 2, an electronic switch 3, a delay line 4, a synchronizer 5, a sweep generator 6, an indicator 7, an oscillator 8, a modulator 9, a prointer filter 10, an output filter 11, a detector 12, a meter 13 periods, digital-to-analog converter 14, control of the local oscillator 15, first mixer 16, dispersion delay line 17 (DLLD), second mixer 18, corrective dispersion delay line 19 (CDRL). At the same time, the input filter 1, the adder 2, the electronic key 3, the 4 delay lines, the mixer 16, DLZ 17, the mixer 18, 19 are connected in series, the intermediate filter 10 and the modulator 9, the KOTjoporo output are connected to the second input of the adder, and also detector 12, period meter 13, digital-analog converter 14 and controlled local oscillator 15, the output of which is connected to the second inputs of mixers 16 and 18. Digital-analog converter 14 is connected via local oscillator 8 to the second input of the modulator 9, the input of the detector 12 is connected to the output of the input filter 1. Synchronization Op 5 through scan generator 6 is connected to an indicator 7 and a second output to the second input of the electronic, the key 3 Cym 1atop through an intermediate filter 11 is connected to) WPR entry indicator 7. The output of the detector 12 is connected to an input synchronizer 5, the spectrum analyzer operates trace

goptsh way.

Claims (1)

The probed pulse periodic signal is fed through the input filter 1, the adder 2 and the electronic key 3 to the delay line 4 and then to the first mixer 16, as well as to the DC 12, where the envelope pulse is separated. The video pulses from the detector carry out the transfer of the signal spectrum to the operating frequency of the dispersion lines 17 and 19 of the delay. The output filter 11 performs the spectrum weighting to reduce the side-lobe level, since the analyzer's response to the harmonic effect is a radio pulse 90J of the torus 12 is sent to a period meter 13, where their follow-up period is measured. The value of the repetition period of the input radio pulses in a digital code is fed to a common analogue converter 14, in which the period code is converted. repeat1 and pulses to voltage. (The reference voltage on the jBroBOM digital converter. Converter 14 is selected so that if the pulse repetition Tfi is equal to the total delay time T in the delay line 4 and the initial delay t in the delayed dispersion lines 17 and 19, the output voltage of the digital-analog converter is 14 equal to zero. In this case, the frequencies of the controlled local oscillator 15 and local oscillator 8 are equal, respectively, and the total initial delay in DLZ 17 and 19.} The input signal is delayed in delay line 4 and in DLZ 17 and 19 for time T + and then fed through an intermediate The filter 10 is fed to a single band modulator 9, where it is shifted in frequency by means of the local oscillator 8 by the amount ------. and fed to the second Ht input of the adder. In the adder, the phase of the input and delayed oscillations coincide. of the input signal, the moment of the phase will be determined, which is taken as a measure of frequency.At the time of the phase, there is an effective accumulation of signal energy.After a predetermined number of recirculation, the synchronizer 5 breaks the feedback circuit and starts a scan of the indicator 7, as a result ate which is indicated range of input vibrations 4 Using controllably -geterodina 15 and mixers 16 and 18, the filter 10 of the form sin X. If the period of the input radio pulses differs from the nominal one, then in the code of the digital-to-analog converter 14 a control voltage appears that changes the frequency of the controlled heterodyne by the value of lL, while the delay time in the DRL 17 changes to equal to the repetition period of the input pulses (Fig. 2). Corrective DPS 19 has a dispersion response law inverse to the dispersion response law (SLD) 17, which allows to correct the dispersion distortion of the signal in the feedback circuit. The band of its operating frequencies is much smaller than the frequency band of the DLS 17 and is determined by the width of the spectrum of the input signals. Simultaneously with the change in the delay time of the signal in the feedback loop with the help of the control voltage, the digital-to-analog converter 14 also changes the shift frequency of the local oscillator 8 to a value equal to T) 27Г .u- - h where T is the repetition period of the studied and mil. Thus, an automatic adaptation of the spectrum analyzer to the period of the studied signals is carried out. The use of the proposed spectrum analyzer in existing devices extends the limits of the study of the spectra of periodic pulse signals over the course of 1 to 90 times, which eliminates a large number of parallel channels of anilysis. The formula was invented by the FI Spectrum analyzer containing serially connected input filter, adder, electronic key and a delay line, a series-connected synchronizer, a sweep generator and an indicator, the second synchronizer output connected to the control input of the key the local oscillator connected via a modulator to the second input of the adder, an intermediate filter whose output is connected to the second input of the modulator, the output of the adder through the output filter is connected to the second input of the indicator, , in order to extend the functionality of measuring the spectra of pulsed signals with a variable follow-up period, a sequentially connected detector, a period meter, a digital-to-analog converter, a controlled local oscillator, the first mix are added to it only the dispersion delay line, the second mixer and the correction dispersion delay line, the detector input connected to the output of the input filter, the second inputs of the first and second mixers respectively connected to the R output of the delay line and the output of the controlled local oscillator, and the output of the corrective dispersive delay line connected to the input of the intermediate filter, the input of the local oscillator is connected to the output of the digital-to-analog converter, the output of the detector is connected to the input of the synchronizer. -f guset v fig.Z