SU1264088A1 - Method of comparing amplitudes of two alternating voltages - Google Patents

Abstract

This invention relates to electrical measuring technology. Can be used in devices admitted to control / control for comparing two sinusoidal voltages of the same frequency and out of phase. The purpose of the invention is to improve the accuracy and expansion of functionality. The proposed method is as follows. In the first half-period of the compared voltages, the first time interval is recorded from the moment of transition through a zero value (NC) from the negative (positive) region of the first voltage value to the moment of transition through the NC from the positive (negative) region of the second voltage value. The goal is achieved by comparing the stresses in the tolerance zone. In the second half-period, at the moment of equality of the compared stresses, the leading front of the first pulse is formed, the back front of which is formed in the next half-period at the moment of equality of the same 1 Hr. Simultaneously with the first pulse, Q forms a second pulse, the leading front of which (L ogo coincides with the falling front of the first. A narrow voltage pulse is formed and shifted in time by a tolerance value. impulse 1 ill. tvD O) 00 00

Description

The invention relates to electrical engineering, and can be used in tolerance control devices to compare two sinusoidal voltages, identical in frequency and shifted along the Laz.

The purpose of the invention is improving accuracy and expanding functionality by comparing stresses in the tolerance zone.

The drawing shows a timing chart explaining the steps of the signal conversion in the conversion process according to the proposed method.

On the part of about. the diagrams show the change curves of two AC voltage signals C = f (t) and \ 4 === f (t) under the condition that ill 7 U ₂

At the time tj, when the voltage V ₂ = f (t) passes through the zero value from the negative region, the leading edge of the pulse Vj is formed, the trailing edge of which is formed at the time t _{2 of the} transition through the zero voltage V, (t) from the positive region. The width of this pulse is equal to the first time interval. In the second half-cycle at the moment of equal voltage V) and \ / _g , the leading edge of the first pulse is formed (V _fc whose back edge is formed in the next half-cycle at the same voltage point. At the same time, the leading edge of the second pulse is formed (V ₅ ) whose trailing edge is formed in the subsequent half-cycle at the moment of the equality of the same stresses.

The time interval equal to half of the first interval after which a narrow impulse Ud (time t ₃ ) is counted from the time of the repeated transition through the zero value of voltage V _{g is} calculated. The position of this pulse corresponds to the moment of equality of two voltages with the same amplitudes (V) -Vj). If ''/]> V ₂ , then the narrow pulse V4 coincides with the first pulse V ₆ for V ₂ <V _{2 the} narrow pulse V ₄ coincides with the second pulse V _s .

With tolerance control, shifting in time a narrow impulse to one or the other side relative to the moment of its position, with equal amplitudes, specify the value of the upper and lower tolerance limits for the ratio of the compared voltages.

Claims (1)

The invention relates to electrical measuring equipment and can be used in tolerance control devices for comparing two sine impedance voltages of the same frequency and out of phase. The purpose of the invention is to improve accuracy and to expand the function, and the possible possibilities by comparing the stresses in the tolerance zone. The drawing shows a timing diagram illustrating the steps involved in converting the signals during the conversion process of the proposed method. Part a of the diagram shows the curves of the variation of two voltage signals, and, f (t) and V f (t), provided that Uj Uj At time tj, when the voltage Vi f (t) passes through a zero value from the negative the regions are formed by the leading edge of the pulse Vj J whose edge is formed at the time t of transition through the zero value of the voltage V, (t) from the positive region. The pulse width is equal to the first time interval. In the second half-period at the moment of equality of the stresses V, | and Vj form the leading edge of the first pulse. (4) the rear front of which is formed in the next half-period at the moment of equal voltage of the same stresses. At the same time, at the same moment of time, the leading front of the second pulse (V ;;) is formed, the back front of which is formed in the subsequent half-period at the moment of equality of the same voltages. From the time point t of the repeated passage through the zero value of the voltage V2, a time interval equal to half the first interval after which a narrow pulse V4 is formed (the time t,) is counted. The position of this pulse corresponds to the moment of equality of two voltages with the same amplitudes (Vj-Vj). If Vi V,, then the narrow pulse coincides with the first pulse V with Vj Vj the narrow pulse V coincides with the second pulse Vg. With tolerance control in time displacement, a narrow pulse in one or the other side relative to the moment of its position with equal amplitudes sets the value of the upper and lower tolerance limits of the ratio of the compared stresses. The invention The method of comparing the amplitudes of two alternating voltages, namely, that in the first half-period of comparative voltages the first time interval from the moment of passing through a zero value from the negative HQ, (positive) region of the first voltage to the moment of passing through a zero voltage is recorded} The measurement is from a positive (negative) second voltage region, characterized in that, in order to increase the accuracy and enhance the functionality by comparing the voltages in the tolerance zone, in the second at the time of equality of the compared stresses, the leading edge of the first pulse is forged, and in the next half-period, at the moment of equality of the indicated stresses, its rear front and at the same time the front of the second pulse re-fix the moment of transition through the zero value from the negative from a given point in time, a time interval equal to half of the first interval, after which a narrow voltage pulse is formed and displaces it in time by mask tolerance in the next half cycle when equality of the compared voltages forming the trailing edge of the second pulse, and the desired value determined by coincidence of the narrow pulse to a first-or second pulses. //. four