SU1608588A1 - Method of converting alternating symmetric voltage - Google Patents

Abstract

The invention relates to electrical engineering and automatic regulation and can be used to measure the amplitude of an alternating voltage in voltage regulating systems of alternators. The purpose of the invention is to simplify and improve the accuracy of the method. The goal is achieved due to the fact that the transformations of a symmetric alternating voltage, which consists in forming a voltage shifted in phase from the input voltage, summing the input voltage and phase shifting, according to the invention, phase shift 180 By summing, the input and phase-shifted variable voltages are shifted in one polarity by half the amplitude of the input voltage. 2 Il.

Description

H

Acquisition refers to electro-ExHi-Ke and automatic regulation jf. can be used to measure the amplitude of an alternating voltage in the voltage regulating systems of alternators.

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

The essence of the method of converting an alternating voltage is to form from the input phase-shifted voltage, then the input and phase-shifted voltage of one polarity shift by half

are in

amplitudes of the input voltage and summicker with obtaining a signal equal to or proportional to the amplitude of the input voltage.

Indeed, if voltages are formed

and, - | 2 + Ugsinat; (ut,

where Uj is the amplitude of the measured voltage;

Ug is the anti-phase voltage amplitude,

then the converted signal

U ",, x U ,,

Figure 1-2 shows the device, illustrating the proposed method.

The device (Figures 1 and 2) consists of a driver 1 and an adder 2. In this case, the input of the driver 1 is connected to the source of the measured voltage, and its outputs are connected to the inputs of the totalizer

about

00

sd

00 00

pa 2, to the output of which the load is connected (Rj,) 3, Shaper 1 (Fig. 1) consists of two capacitors 4 and 5 and two diodes 6 and 7, and adder 2 is made on resistors, with capacitors 4 and 5 connected according to the scheme symmetric capacitive divider of the input voltage and shunted by diodes 6 and 7 with counter-switching and the common outputs of diodes 6 and 7 and the volume of the capacitors 4 and 5 are interconnected and connected to the common bus of the device, with the second terminals of the capacitors 4 and 5 and the cathodes of diodes 6 and 7 are connected. the first and second input of the adder 2, code to torogo through the load (PH) 3 is connected to the common bus.

The device (FIG. 1) operates as follows.

A capacitive voltage divider on capacitors 4 and 5 provides for obtaining a common bus of two antiphase voltages, and shunting capacitors 4 and 5 with diodes 6 and 7 with counter-switching enables an automatic displacement of these antiphase voltages by half the amplitude of the input voltage, then summing the displaced pro-phase voltages i4 and on adder 2 and on the load resistance RH, an output voltage U is obtained,

The device of FIG. 1 has a relatively large time constant for the discharge of capacitors 4 and 5, which determines the low speed of the device.

From this disadvantage, the device shown in Fig. 2 is free, and the anti-phase voltage driver 1, which is shifted by half the amplitude of the measured voltage, consists of a symmetric resistor divider 8 of the input voltage and two integrators 9 and 22 x, capacitors of which are bridged in one direction

diodes 11 and 12, the middle point of the divider 8 voltage being connected to the common bus of the device, and integrators 9 and 10 are connected between the corresponding input and output of the driver, the adder is implemented on the operational amplifier,

The device (Fig, 2) works as follows.

On the input voltage divider 8, two antiphase (relative to the common bus) voltages are formed, the amplitude of which is equal to half the amplitude of the input voltage. These voltages are fed to the inputs of the integrators 9 and 10, the output of which is due to the fact that the capacitors of the feedback circuit of the integrators 9 and 10 are bypassed with diodes. 11 and 12, they are automatically shifted by half the amplitude of the input voltage. Summed on adder 2, these voltages provide the output signal of the device

"..," I). To IT

- - sincot) - And,

where T is the integrator integration time constant; K - gain factor of adder 2.

Claims (1)

Invention Formula The method of converting a variable symmetrical voltage, which consists in forming a phase-shifted voltage from an input, sums the input voltage and a phase-shifted voltage, characterized in that, in order to simplify the method and increase the accuracy of the conversion, the phase shift is 180, prior to summing, the input and phase-shifted alternating voltages are shifted in one polarity by half of the amplitude of the input voltage. i 116 fuz.l . 2