SU928255A1 - Device for measuring symmetric components of three-phase network voltage - Google Patents

Description

(5) DEVICE FOR MEASURING SYMMETRIC

COMPONENT VOLTAGES OF THREE-PHASE NETWORK

I

The invention relates to a measurement technique and can be used to measure the symmetrical components of the fundamental frequency and the harmonics of the voltages of a three-phase network.

A device for measuring the symmetrical components of the forward and reverse sequences of a three-phase voltage system is known, which contains a side-pass filter, a three-phase voltage-to-T converter, a full-wave rectifier, a frequency selective filter, and a voltmeter. This device allows you to measure the symmetric components of the harmonics of the voltages of a three-phase network 1.

The disadvantages of this device are: the use of cumbersome and complex in the manufacture of multiphase transformers, the need for selecting diodes of identical volt-ampere characteristics, as well as the use of selective filters built on different voltage harmonics, which reduces the accuracy of determining the symmetrical components, the voltage.

The closest to the invention by; the technical entity is a device for measuring the symmetrical composition of their three-phase network voltage, comprising a generator, a phase shift unit, an indicator, a voltage summer unit, a switch, a multiplier unit, a decoder, a counter, a frequency multiplier, a code converter into the number of pulses, a voltage divider two low-pass filters, two AND elements, five keys 21.

Claims (2)

However, this device has relatively low speed and accuracy. This prevents the fluctuations of the three-phase network voltage, which are characterized by the rate of change of the voltage envelope, from being varied. Phase voltages are converted over four periods of network voltage, and simultaneous measurement of phase voltages leads to significant measurement errors in symmetric components. In addition, the presence of ana (halogen integrats and an indicator does not ensure the accuracy of the measurement of symmetric components above 2–3 of the nominal value of napr. Kenny. The purpose of the invention is to increase the speed of operation and the accuracy of the measurement. The goal is achieved by components of three-phase network voltages, containing a scale-up converter, a switch, two keys, a code-voltage converter, a constants formation unit, a driver, a frequency multiplier, a task to the harmonics number, the display unit, the counter and the And element, with the input terminals through a scale-reducing converter and a switch connected to the inputs of the first and second keys, the outputs of which are combined and connected to the input of the code-voltage converter, whose control inputs are connected to KOHCTaHt forming unit, and one of the input terminals through the driver is connected to the input of the frequency multiplier, a voltage-code converter, a combination adder, a register, an inverter, two AND groups, a computational the unit, the output of the frequency multiplier is connected to the synchronization input of the computing unit and to the counting input of the counter, the setpoint input of which is connected to the output of the imaging unit, the output of the low-order counter is connected to the first input of the combinational adder and the first input of the And element, the output of the next the counter's discharge is connected to the control input of the second key, and through the inverter to the control input of the first key, and also connected to the second input of the And element, the output of which is connected to the second input of the combinational total Pa, the outputs of the register are connected to the address buses of the constants forming unit, two higher bits connected via a combinational adder, the output of the code-voltage converter is connected to the input of the voltage converter-code whose outputs are connected to the inputs of the first group of elements And, the harmonic number setter connected to the second 5 group of 9 elements And the outputs of the first and second groups of elements I, the input of the display unit, the input of the register are combined and connected to the computing unit, controlling the outputs of the computing unit They are provided with control inputs of the first, second groups of elements AND, a display unit and a register, respectively, and outputs of a counter connected to the control inputs of a calculation unit. The drawing shows a block diagram of the device. The device contains a scale-sum converter 1, switch 2, keys 3 and, converter 5 - code-voltage, voltage-code converter 6, first group of elements 7, indication block 8, driver 9, frequency multiplier 10, computing unit 11, counter 12, combinational adder 13, element I 1, inverter 15, register 1b, unit 17 for forming constants, unit 18 for harmonics, the second group of elements AND 19. The device operates as follows. at once. The mode of operation is set by switch 2, the number of the measuring harmonic is set as a code at the output of the unit 18 of the harmonic number. One cycle of operation of the device corresponds to one period of voltage. The operation of the device is synchronized by the output pulses of the driver 9, these pulses are input to the input signal. Resident 10 frequency. The output pulses of the frequency multiplier go to block 11 and to the counting input of counter 12. Since setting the counter 12 to O is synchronized by the shaper 9, then the state O of the counter 12 corresponds to the number of the output pulse of the frequency multiplier and is used to control the computing unit 11. I. Output code Register 16 enters the constant formation block 17; Each state at its input corresponds to a constant at its output. The input voltage of the code-voltage converter 5 is equal to the product of the voltage at its input and the constant at its control inputs. The output voltage of converter 5 is converted into code by converter 6. This code, through a group of elements And 7, enters the computing unit. To simplify the description of the operation of the computing unit 11, the resulting calculation results in generating control signals to the first and second groups of elements 7 and 19, the necessary information is entered into the register 16. After the completion of the calculations, the code is output from the block 11 . In the device, in comparison with the known device, the speed is once, and the accuracy is increased B-6 times. This is achieved by reducing the duration of one cycle of operation from four to one period of mains voltage using an algorithm of accelerated phase balancing. . The positive qualities of the device make it possible to use it as part of measuring and information systems for monitoring the quality parameters of electrical energy. Apparatus of the Invention A device for measuring symmetrical components of voltages of a three-phase network, comprising a scaling converter, a switch, two keys, a code-voltage converter, a constant shaping unit, a driver, a frequency multiplier, a harmonic number setter, a display unit, a counter, and the element And, the input terminals through the scaling converter and the switch are connected to the inputs of the first and second keys, the outputs of which are combined and connected to the input of the code-voltage converter The control inputs of which are connected to a unit for forming constants, and one of the input terminals is connected to the input of a frequency multiplier through a driver, characterized in that, in order to improve speed and increase accuracy, a voltage converter, a combination combiner, a register, an inverter, two groups of elements And, a computing unit, with the output of the frequency multiplier connected to the synchronization input of the computational block and to the counting input of the counter, the input device in which is connected to the output the distributor, the output of the low-order bit of the counter is connected to the first input of the combinational adder and to the first input of the element I, the output of the next digit of the counter is connected to the control input of the second key, and through the inverter to the control input of the first key, and also connected to the second input of the element I, the output of which is connected to the second input of the combinational adder, the outputs of the register are connected to the address buses of the unit for forming constants, the two most significant bits connected through the combinational adder, the output of the converter the code-voltage is connected to the input of the converter; the voltage code, the outputs of which are connected to the inputs of the first group of elements, the unit number of the harmonic is connected to the second group of elements, the outputs of the first and second groups of elements, the input of the display unit, the register input are combined and connected to the computational block, the control outputs of the computing unit are connected to the control inputs of the first and second groups of elements AND, (the display and register units, respectively; the outputs of the counter are connected to the control inputs of the calculation block . I Sources of information taken into account during the examination 1. USSR author's certificate No. 73126, cl. G 01 R 29/0, 1975. 2. USSR author's certificate number 76S760, cl. G 01 R 29/16, 25,09.78 (prototype),