SU446848A1 - Comparison method for the phase of two variable signals of the same frequency - Google Patents

Description

one

The invention relates to the field of electrical measuring equipment and can be used in bridges and compensators of alternating current, devices for tolerance control of parameters of complex resistances, etc.

Sometimes it is necessary not to accurately determine the phases of the signals, but only to fix the fact of a lag or advance in the phase of one of the signals with respect to the other.

The known methods of comparing the phases of two variable sinusoidal signals of the same frequency produce a comparison result only once per period, which significantly reduces their speed.

The proposed method allows to obtain the result of comparing two variable signals at any time.

The drawing shows timing diagrams for the method described.

There are two alternating voltages of the same frequency and phase (1 and 2). If we strengthen them, limit them to one level, and then integrate them during each half-period, then at the integrator output we will receive different polarized signals of a saw-tooth shape and the same amplitude (3 and 4). Allocating instantaneous amplitude values of sawtooth stresses at any instant of time and comparing them in absolute terms with each other, one can unambiguously obtain information on the phase ratio of the compared signals.

If the sawtooth voltage has the same polarity (intervals tz-ts,), then in the case when the instantaneous magnitude of the sawtooth voltage amplitude of one of the signals is greater than that of the other, the first signal is ahead of the second. If, however, sawtooth voltages have different polarity (ti- / 2, intervals), THEN is ahead in phase of that signal, the instantaneous value of the saw amplitude is smaller in modulus.

The result of the phase comparison does not depend on the magnitude of the amplitudes of the compared signals and on their shape. The time interval between adjacent moments of determining the instantaneous magnitude of the magnitude module can be arbitrarily small. It is limited only by the level of noise interference and is resolved by the ability of the nodes that compose the flowchart based on the proposed method.

25

Subject invention

The method of comparing the phase of two variable signals of the same frequency by enhancing them, distinguishes itself by the fact that, in order to improve speed, the compared signals are limited to the same level, integrated for each half-period and the instantaneous values of the sawtooth signals.

J