SU834594A1 - Method of measuring signal phase - Google Patents

Description

(54) METHOD OF MEASURING THE SIGNAL PHASE

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The invention relates to a radio measuring technique and can be used to measure the phase of a signal with increased accuracy and noise immunity.

The known method of measuring phase shift is based on integrating the input signal, selecting time points corresponding to the passage of the integration result through the zero level, forming and measuring the time interval between the moments passing through the zero level M

The disadvantage of this method is low noise immunity with respect to broadband noise.

There is also known a method for measuring the phase of a signal based on multiplying the measured signals and integrating 2.

The disadvantage of this method is the low accuracy due to the large errors introduced by

multiplication operation, as well as the complexity of its implementation.

The purpose of the invention is to improve the measurement accuracy and simplify the implementation of the method.

This goal is achieved by the fact that in the method of measuring the phase of a signal based on integration, additional integration of the input signal is performed, the beginning of the additional integration is fixed in time, and the end of the additional integration is the current time coordinate.

The drawing shows a diagram of the device that implements the proposed method.

The device consists of the control unit 1, the connected in series integrators 2 and 3 and the calculator 4.

The method is carried out as follows. The input voltage of the integrator 2 is the measured voltage, where f is the initial phase of the input signal, which must be measured. The reference signal is in the form of a harmonic voltage or in another form, for example, in the form of pulses tied to time points (2) where. T is the period of the measured signal; - any integer and goes to the control unit 1. According to the signal from the latter, integrators 2 and 3 are started. Integrator 2 is the integration of the input signal starting from the moment ty, (2). For simplicity, let. At the output of the first integrator 2, a signal U / t is generated - fu 5ihNot - "- P) i3t soy OS C Signal | W U (t) is reintegrated by integrator 3, which performs integration in finite limits, which is expedient to make equal or edge the input period. At its output, a signal is formed that is equal in magnitude to - - 1 -cofe () di is a multiple of the period of the input signal, the integral of the second term is equal to nYuj, i.e. Compliant and signal is supplied to the calculator (4), which carries out the calculated phase of the measured signal f according to the formula since, due to the introduction of or additional radio, the integrated multiplexing operation, which results in low measurement accuracy, is eliminated. Formula of the Invention The method of measuring the phase of a signal, Q integrated on integration, is necessary in order to increase the accuracy of measurement and to simplify its implementation, additional integration of the input signal is performed, and the beginning of the additional integration is fixed in time The total integration is the current time coordinate. Sources of information taken into account in the examination 1. USSR author's certificate number 573771, cl. G 01 R 25/00, 10.29.7 2.Musonov V.I., Kuznetsky S.S. and CHm1H M.K. New ideas in the construction of digital phase meters without frequency conversion.

Claims (1)

The claims of the invention integrate the input signal, starting from the moment ty, (2). For simplicity 25 let tft = 0. At the output of the first integrator 2, a signal is formed Ί About ^m [cosψ-cos (+ x >> 1 (3) The signal U ^ (t) is reintegrated by integrator 3, which performs integration within finite limits, which is expedient to make equal to or a multiple of the period of the input signal. A signal equal to The method of measuring the phase of the signal, based on integration, is characterized in that, in order to increase the measurement accuracy AND simplify its implementation, an additional integration of the input signal is carried out, and the beginning of the additional integration is fixed in time, and the end of the additional integration is current coordinate of time.