SU145661A1 - The method of measuring the amplitude of the alternating voltage or current - Google Patents

Description

This invention relates to methods for measuring the amplitudes of an alternating current or voltage.

A method for measuring the amplitude of an alternating voltage or current using a digital DC compensator is known.

In this method, the autocompensator zero-organ is switched on only for short periods of time at those moments when the voltage or current being measured has values close to the amplitude, i.e. the period during which the zero-organ will be in the on state. , much less than the period of the measured value.

A significant disadvantage of this method is the need to strictly synchronize the operation of the measuring device with the measured voltage (current).

In order to increase the frequency limit of the measured signal and eliminate the need to synchronize the operation of the device with the measured signal, the null organ is switched on for a time longer than the measured signal, and the zero-organ memory cell is set to "overcompensation".

FIG. 1 shows graphs explaining the operation of the null organ and storage cell in a known measurement method; in fig. 2 shows graphs explaining the work of the null organ and the storage cell in the new measurement method.

t is the time interval during which the null organ will be in the on state (shown in the graphs as shaded rectangles along the t axis);

T is the period of the measured value;

Eur - balancing constant voltage;

The unit is the input voltage whose amplitude is measured.

No. 145661- 2 With a known measurement method, the memory cell located at the output of the null organ is placed before switching it to the under-compensation position.

In the case where the magnitude of the balancing DC voltage, as shown in graph a, below the amplitude value of the input voltage E, will be undercompensation, and the state of the memory cell set to undercompensation will not change.

In another case, shown in graph b, the magnitude of the counterbalancing voltage is greater than the amplitude value of the input voltage, i.e. there is overcompensation, and the storage cell is transferred to a new state by a negative pulse, which is depicted on the graph by a shaded area located between the Eur and the vertex of the curve E ..

With the new measurement method, the memory cell is tuned so that, before turning on the null organ, it is brought into a position corresponding to overcompensation.

After switching on the null organ in the case of undercompensation, the positive pulses shown on the graph in the form of blackened vertices of the sinusoid translate the memory cell into a state of undercompensation. If overcompensation takes place, as is shown in the graph g, then positive pulses do not arrive at the input of the zero-organ, the memory cell remains in the overcompensation position and at the right moment normally sends a signal to turn off the last triggered discharge.

The time interval t during which the null organ will be in the on state with the new measurement method is shown in the graphs of FIG. The 2 shaded rectangles along the axis, as can be seen, there is no such strict dependence between m and T as in the case of applying the already known measurement method. Enough to fulfill the condition. Thus, the new method of measurement does not require synchronization of the autocompensator with measured voltage or current.

In addition, the new method, by increasing the time interval compared with the period T of the measured value, opens up the possibility of increasing the frequency of the measured voltage or current. Suppose, for example, the time for testing one discharge cannot be less than 0.01 second, then during synchronous operation it is not possible to measure the voltage or current having a frequency above 100 Hz. If we switch to non-synchronous operation, the limiting frequency will be determined only by the speed of the input circuit of the null organ and therefore can be much higher at the same balancing rate.

Subject invention

A method for measuring the amplitude of an alternating voltage or current with a digital DC autocompensator having a memory cell at the zero-body output, characterized in that, in order to increase the frequency limit of the measured signal and eliminate the need to synchronize the operation of the instrument with the measured signal, the null organ is switched on for a time longer than the period of the measured signal, and the memory cell of the null organ is switched to the overcompensation position before it is turned on.

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