SU822065A1 - Device for measuring spectral coefficients of signal shape - Google Patents

Description

The drawing shows a block. Scheme of the proposed device.

The device allows you to determine the spectral waveform coefficients) carried intermediate signal-spectrum-spectrum) in accordance with the mathematical definition) () The device contains the first spectrum analyzer 1, the second spectrum analyzer 2, the first computing unit 3, the second computing unit and the delay element b . A device for measuring spectral waveform coefficients operates as follows. The analyzed signal f (t) goes to the second spectrum analyzer 2, the outputs of which at the inputs of the second computing unit 4 receive a quasi-constant voltage equal to the value of the zero and first spectral amplitudes. The second computational unit 4 generates a constant voltage equal in magnitude to the ratio of the spectral amplitudes. The signal under study passes through delay element 5 (greater than possible value 4) to the cervical spectrum analyzer 1, and the control voltage from the output of the second computational unit C of the outputs of the first analyzer 1 is removed, the value of which is determined by the relation. N- (V 5 f (t) L () E foat. This voltage is fed to the input of the first computing unit 3, which produces a constant voltage equal to the value of the spectral coefficients. G In any spectrum analyzer input discriminator that serves the moment of reading the measurement result to the analyzed pulse and generating the voltage drop to form the functions Ln (t) E. In the proposed device, the discriminator of the first analyzer 1 of the spectrum under the action of the output of the second computing unit

Claims (3)

5 control voltage — produces a voltage drop delayed relative to the signal being analyzed for time (t), whereby the output of the first spectrum analyzer 1 yields a voltage determined by the relation for Vn. The measurement accuracy in the device is improved by eliminating the intermediate conversion of the signal under investigation into the spectrum, and the measurement speed is increased by reducing the time for determining the spectral coefficients of the waveform by the counting time of the first computational unit 3. The device allows to measure:. parameters of pulse signals (spectral coefficients of forefile) and can be used in automated installations that control technological processes, identify broadband radio engineering devices, fast processes and measure the parameters of the process under study, both spectral and temporal. Claims. An apparatus for measuring spectral coefficients of a waveform comprising a first spectrum analyzer and a first computing unit connected in series, characterized in that, in order to improve the accuracy and speed of the measurement, a second spectrum analyzer, a second computing unit and a delay element are inputted into it with the first input of the first spectrum analyzer, with the inputs of the device and the second spectrum analyzer, the outputs of which are connected to the second computing unit, the output of the latter is connected to o the second input of the first spectrum analyzer, the third input of which is connected to the output of the delay element. Sources of information taken into account in the examination 1.R Binin Yu. A. Stroboscopic oscillography. Ow. radio, 1972. 2. Гр знов М. И. Integral method of pulse measurement. Ow. radio, 1975. 3. Trakhtmai AM Introduction to the generalized spectral theory of signals. Ow. radio, 1972, p.232 (prototype). 1 I fft-i)