SU974296A1 - Device for measuring ac voltage curve shape coefficient - Google Patents

Description

The invention relates to electrical engineering and can be used to accurately measure the shape factor of the AC voltage curve (CF) in a wide range of measurements.

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Devices are known for measuring KF alternating voltage containing a DC curve unit coupled to the source of the test voltage through the series included chennye quadratic detector ^10, and AC voltage amplifier with adjustable amplification factor, the output of which through srednevypryamlennyh value detector is connected to one of the inputs of scheme ¹⁵ we are comparing, the other input of which is connected to the reference voltage source, and the output is connected to the control circuit, the gain of the AC amplifier tension · [1].

However, these devices are characterized by low accuracy and a limited measurement range.

The purpose of the invention is improving accuracy and expanding the measurement range.

The goal is achieved in that in the device for measuring the shape factor of the AC voltage curve, containing an adjustable amplifier, to the control input of which a comparison unit is connected, one input of which is connected to a reference voltage source, and the other is connected to the output of the adjustable amplifier through a quadratic detector, as well as a detector average rectified voltage values with a quadratic converter and an indicator, a second comparison unit, a low-pass filter and a second adjustable amplifier are additionally introduced, whose output through the low-pass filter is connected to the indicator and simultaneously through a series-connected detector of medium-rectified voltage values with a quadratic converter and a second comparison unit is connected to its control input. Moreover, one input of the second adjustable amplifier is connected to the output of the first adjustable amplifier, and its second input and second input of the second comparison unit are connected to the output of the reference voltage source.

The drawing shows a structural _s diagram of a device for measuring the shape factor of an AC voltage curve.

The device contains a first adjustable amplifier 1 of alternating voltage, connected in series with a quadratic detector 2. The output of detector 2 is connected to the first input of the comparison unit 3, the second input of which is connected to the reference voltage source 4, and the output is with the control circuit of the gain of the amplifier 1. The output of the amplifier, 1 is connected to the first input of the second adjustable amplifier 5, the second input of which is connected to the voltage source 4, ₂₀ and to the first input of the second comparison unit 6, and the output through the filter p 7 low frequencies - with current indicator 8 and Through a detector 9 of medium-rectified voltage values with a quadratic converter - with the second input of block 6, the output of which is connected to the control circuit of the gain of amplifier 5.

The device operates as follows.

The voltage under investigation through the amplifier 1 is fed to the input of the quadratic detector 2, the output of which ₃₅ is supplied to one of the inputs of the comparison unit 3. The voltage <J ₀ from the source 4 of the reference voltage is supplied to the other input of block 3.

If the compared voltages are not equal, then the mismatch voltage arising at the output of block 3 affects the gain of amplifier 1 until the equality of these voltages is established.

At the same time, the output voltage of the amplifier 1 is supplied to the input of the second amplifier 5, after which it is detected by the detector 9, from the output of which it goes to the first input of the second comparison unit 6. The second input of block 6 is supplied with voltage U _o from the reference voltage source 4.

The mismatch signal from the output of the comparison unit 6 affects the gain of lycHnHTensi 5 until the voltage at the inputs of the comparison unit 6 is equal.

The second input of the adjustable amplifier 5 receives the reference voltage U _o from the source 4, which, after amplification in the amplifier 5, enters the low-pass filter 7 and is measured by the indicator 8.

The deviation of the indicator pointer 8 is proportional to the square of the shape factor of the curve of the investigated 'alternating voltage.

The introduction of new features allows detecting in both detectors with the same fixed values of the extracted parameters and the test voltage, due to which the error of the quadratic detection scale is excluded from the measurement result, and the measurement range is determined by the gain control range of the second adjustable amplifier.

Claims (2)

The invention relates to electrical measuring technology and can be used to accurately measure the shape of an AC voltage curve over a wide range of measurements. Apparatus for measuring an AC voltage curve is known, comprising a DC device connected to the source of the voltage under study through a series-connected quadratic detector and an AC amplifier with an adjustable gain factor, the output of which is connected to one of the circuit inputs through the detector. comparison, the other input of which is connected to the source of the reference voltage, and the output to the control circuit, the gain factor of the variable voltage amplifier neither - 1. However, these devices are characterized by low accuracy and a limited range of measurements. The purpose of the invention is to improve the accuracy and the expansion of the measurement range. The goal is achieved in that a device for measuring the AC voltage waveform ratio, containing an adjustable amplifier, to the control input of which is connected a comparator unit, one input of which is connected to the reference voltage source, and the other is connected to the output of the adjustable amplifier through a quadratic detector, as well as a detector of mean voltage values with a quadratic converter and an indicator; a second comparison unit, a low-pass filter and a second adjustable amplifier are additionally introduced The output of which is connected via a low-pass filter to the indicator and simultaneously through serially connected detector of average voltage values with a quadratic converter and the second comparison unit is connected to its control input. Moreover, one input of the second adjustable amplifier is connected to the output of the first adjustable amplifier, and its second input and the second input of the second comparison unit are connected to the output of the reference voltage source. The drawing shows a block diagram of a device for measuring the AC voltage waveform coefficient. The device contains the first adjustable amplifier 1 AC; voltage connected in series with a quadratic detector 2. The output of the detector 2 is connected to the first input of the comparator unit 3, the second input of which is connected to the source 4 of the reference voltage, and the output is connected to the control gain control power amplifier 1. The output of the amplifier. 1 is connected to the first input of the second adjustable amplifier 5, the second input of which is connected to the source 4. of the reference voltage and with the first input of the second block 6 of the comparison, and the output through the low pass filter 7 with the current shadikator 8 and Through the detector 9 of the average voltage of the voltage with the quadratic converter to the second input of the block 6, the output of which is connected with a gain control circuit of amplifier 5. The device operates as follows. The test voltage through the amplifier 1 is fed to the input of a quadratic detector 2, from the output of which is fed to one of the inputs of the unit 3 of the comparison. To the other input of block 3, the voltage Up is supplied from the source 4 of the reference voltage. If the compared voltages are not equal, the error voltage that occurs at the output of block 3 affects the gain of amplifier 1 until equality of these voltages is established. At the same time, the output voltage of the amplifier 1 is fed to the input of the second amplifier 5, after which it is detected by the detector 9, from the output of which is fed to the first input of the second block 6 of the timeline. The second input of the block 6 is supplied with the voltage UQ from the source of the reference voltage 4. The error signal from the output of the comparison block 6 acts on the amplification coefficient | amplifier 5 5 until the equal voltages at the inputs of the block are compared. The second input of the adjustable amplifier 5 receives the reference voltage Uj from source 4, which, after amplification in amplifier 5, enters the low-pass filter 7 and is measured by indicator 8. The deviation of the indicator pointer 8 is proportional to the square of the curve coefficient of the variable voltage under study. The introduction of new features allows detection in both detectors with the same fixed values of the selected parameters and the test voltage, thereby eliminating the measurement result of the quadratic detection scale error, and the range of measurements is determined by the control range of the second adjustable gain. booster. The invention The device for measuring the coefficient of the AC voltage waveform, containing an adjustable amplifier, to the control input of which is connected a comparison unit, one input of which is connected to the reference voltage source, and the other connected to the output of the adjustable amplifier via a quadratic detector, and Also, a detector of mean voltage values with a quadratic transducer and an indicator, characterized in that, in order to vary the accuracy and extend the measurement range, it also has A second comparison unit, a low-pass filter and a second adjustable amplifier are introduced, the output of which is connected to the indicator through a low-pass filter and simultaneously through serially connected detector of average wired voltage values with a quadratic converter and the second comparison block is connected to its control input, and one the input of the second adjustable amplifier is connected to the output of the first adjustable amplifier, and its second input and the second input of the second comparison unit are connected to the output of the opto source pn tension Sources of information taken into account during the examination 1. USSR author's certificate No. 312209, cl. B 01 R 23/16, 1971.