SU978065A1 - Pulse spectrum analyzer - Google Patents

Description

(54) PULSE SPECTRUM ANALYZER

The invention relates to a radio measuring technique and can be used to study the amplitude and phase spectra of single and non-periodic pulsed signals. The closest to the present invention is a device comprising a broadband amplifier, a set of measurement channels, a switch, a converter and a recorder 1. A disadvantage of the known devices is the limited functional capabilities that allow measuring only the amplitude-frequency spectrum. The purpose of the invention is to expand the functionality of the analyzer by measuring the complex spectrum. The goal is achieved in that a pulse spectrum analyzer containing a broadband amplifier connected in series, parallel connected measurement channels, a switch, an analog-digital converter and a recorder, each measuring channel consisting of series-connected resonator, detector and integrator, are additionally introduced shaper end of pulse, as well as in each channel shaper pulse zero, shaper time interval and transducer duration - amplitude, connected n hence, included between the output of the resonator and one of switch inputs, the input end of the pulse shaper connected to the output of broadband amplifier, and its output is connected with the second slot formers vhodbiii all measurement channels. The drawing shows a structural diagram of the analyzer. The analyzer contains a broadband. amplifier 1, resonator 2, detector 3, integrator 4, switch 5, analog-digital converter b, recorder 7., driver 8 pulses. zero, driver 9 time interval, converter 10. duration - amplitude and driver 11 end of pulse, measure telnye kdnaly 12.1-12.N Analyzer, works as follows. ... The test pulse is amplified to the required level by a wide-band amplifier 1 and affected by N re. zonators 2 .with different central-; MI frequencies. Shaper 11 impulse amplify, limit, differentiate and develop a pulse corresponding to the rear. Front of the input pulse. The impulse of shape-, tgle 11. Sets in the state 1 of the formers 9 time slots in all N channels.

Returning to the state O, the shaper 9 translates by a pulse,., Generates the shaper 8. This pulse is formed at the moment when the response of the resonator 2 has a positive derivative and crosses the zero level. The impulse of the output of the formaker 9 is fed to the input of the converter 10, the duration is the amplitude of the generating voltage of the direct current, which is proportional to the argument of the k-th component of the spectrum. A voltage proportional to the module of the K-th component of the spectrum is produced by the detector 3 and the integrator from the resonator response 2.

The output voltages of all N channels, proportional to the module and the argument of the corresponding spectral components, through the switch 5 are fed to the input of the analog-digital converter b, and then in digital form are fed to the recorder 7,

A preliminary analysis showed that in the range up to 1.0 MHz, the measurement error of the spectrum does not exceed 3-5%.

Thus, the proposed device differs from the known ones in order to measure both the amplitude-frequency and phase-frequency spectrum of single pulses with the relative simplicity of the circuit implementation of the device.

Claims (1)

1. Author's certificate of the USSR K 588504, cl. G 01 R 23/00, 1978.