SU681384A1 - Digital method for measuring pulse repetition rate - Google Patents

Description

(54) DIGITAL METHOD OF MEASURING THE FREQUENCY OF FOLLOWING PULSES

Claims (2)

The invention relates to the field of electrical measuring equipment and can be used to measure low and infronowys pulse frequency. Methods are known for measuring the pulse frequency, based on the inverse of the period of the measured signal at each measurement step, followed by storing the result before the next step Ul. A disadvantage of the known method is a delay equal to the current period of the input signal. There is also a known digital method of measuring & a pulse frequency, based on subtracting from the pulses corresponding to the maximum value of the measured frequency, the pulse of the main sequence, the frequency which varies inversely with the square of the current time value of G 2 3. This technical solution is the closest to the technical essence and the achieved result. A disadvantage of the known technical solution is the limited dynamic accuracy due to the fact that during the current period the measurement results remain unchanged and equal to the value obtained at the end of the previous period. The purpose of the invention is to reduce the dynamic measurement error. To this end, after the expiration of the period of the previous, previous measurement cycle, the KOI is formed. The recited sequence of pulses, the frequency of which is proportional to the first derivative of the instantaneous value of the frequency in the previous period, and in accordance with the sign of the derivative of the input signal, is the algebraic summation of the result of the subtraction of the main sequence; pulses from the number of pulses corresponding to the maximum value of the measured signal obtained in the previous period, with the current value of the result of integrating the pulses of the correction sequence in the time interval of the current period. The proposed method is carried out as follows. A sequence of impulses of the reference frequency is formed, divided by a constant division factor K; determine the variable division factor by squaring the current value of the integration result of this pos. pulse duration; form the main sequence of pulses, the frequency of which changes. inversely proportional to the square of the current time value, by dividing the reference frequency by the variable division factor determined above, subtracting the number of pulses corresponding to the maximum value of the measured frequency, the main sequence pulses, form a correction sequence of pulses, the frequency of which is proportional to the first derivative of the measured the signal, the magnitude and sign of which is determined in the previous period; in accordance with the sign of the first derivative of the measured signal, an algebraic summation was performed during the current period; the number of pulses received during the previous period. with the number of pulses of the correction sequence. This method is due to the operators for introducing correction to the measurement result by the derivative of the input signal. 68 44 allows to reduce the dynamic dimension & measurement. DETAILED DESCRIPTION OF THE INVENTION A digital method for measuring the pulse frequency, based on subtracting from the number of pulses during the period, corresponding to the maximum value of the measured frequency, the main sequence pulses, the frequency of which is changed back by the projection of the current time value, characterized by to reduce the dynamic measurement error, after the end of the period of the previous measurement cycle, a correction sequence of pulses is formed, the frequency of traces which is proportional to the first derivative of the instantaneous value of the frequency in the previous period, and in accordance with the sign of the derivative of the input signal, the result of subtracting the main sequence of pulses from the number of pulses corresponding to the maximum value of the measured frequency obtained in the previous period, is the current value of the integration result of the pulses of the correction sequence in the time interval of the current period. Sources of information taken into account in the examination. i. USSR Author's Certificate No. 310386, cl. H 03 K 13 / O2, 1971. 2. Author's certificate of the USSR 37O536, cl. Gi 01 R 23/02, 1973.