SU1029156A1 - A.c.amplitude stabilizer - Google Patents

Abstract

A STABILIZED THREE-PHASE power supply system containing a single-phase to three-phase voltage converter with a neutral wire, the outputs of which are connected to phase stabilization channels, each of which includes a phase coupler connected to it, the first adjustable divider, the stabilizer of the first harmonic of the alternating voltage, and the phase shifter, the first adjustable divider, the voltage regulator, the first harmonic of the alternating voltage, and the phase shifter. comparison and the supporting element, the output transformer and the second adjustable voltage divider, the output connected to the supporting element and the node equilibrium, a symmetry indication node, including, a switch, some inputs are connected to the secondary windings of output Kangshov transformers, other inputs — to the second outputs are adjustable :: M1X voltage dividers, and the output through the adder and the selective amplifier with an indicator, o tl-h ,, so that, with the aim of expanding the functionality of the riy to obtain the normalized amplitudes of the higher harmonics of the industrial network and the non-sinusoidal factor, it introduces a frequency multiplier whose input is It is connected with one of the outputs of a single-phase voltage converter to a three-phase voltage, the output is with inputs N: entered divisors of a part with different division factors, the outputs of which are connected to an input additional voltage adder, which is connected to the input of one through an additional voltage divider the amplitude of the first harmonic is stabilized, I and through the introduced compensation circuit consisting of the second additional divider and the additional phase shifter - with the output of the second regulator a voltage divider, and an effective voltage voltmeter connected to the output of the adder, with the transmission coefficients of the additional voltage dividers and the compensation circuit being selected from the ratio. К4 / Кз -КуКа гДе transmission coefficient of amplitude stabilizer of the first harmonic; the transmission coefficient of the first additional voltage divider; Cd is the transmission coefficient of the second regulated divider; K.- transfer coefficient of the compensation circuit.

Description

The invention relates to electrical engineering and can use dp. To create exemplary three-phase voltage sources with normalized amplitudes of higher harchMONIK and non-sinusoidal coefficients, necessary as a means for checking various frequency spectrum analyzers and analyzing the effects of poor-quality electricity on the work of various consumers.

Known are three phase stabilized power systems 13 and 2.

One of the known systems contains a single-phase generator and three channels of stabilization, and provides independent and precise control in amplitude and phase angle of the voltages of each phase of system l.

A disadvantage of the known power supply system is the instability of the amplitude and frequency of the single-phase generator and transfer coefficients of the functional units of the system, as well as the presence of non-linear distortions in the output voltages caused by the non-linearity of the single-phase generator and accumulators, pickups and pulsations of power, which prevent getting stable

three phase voltage system

- -

The closest to the technical essence of the invention is a stabilized, three-phase power supply system containing a single-phase IB three-phase voltage converter with a neutral wire, the outputs of which are connected to phase stabilization channels, each of which includes a series-connected phase shifter, the first adjustable divider, amplitude stabilizer the first harmonic of an alternating voltage with a selective comparison node and a supporting element, an output transferator and a second adjustable divider voltage, output connected to the reference element and the comparison node, the symmetry indication node, which includes a switch, one input connected to the secondary windings of the output transformers of the channels, others - to the outputs of the second adjustable voltage divider, and the output through the adder and selective amplifier with an indicator.

Due to the use in the known device of the amplitudes of the first harmonics of the phase voltages, based on the change of their transmission coefficients when the differences between the amplitudes of the first harmonics of the output voltage of the second adjustable voltage divider and the constant reference signal, as well as the display unit of symmetry, are obtained to reproduce the reproduction of the normalized values of the parameters of the quality of electric power determined by the symmetrical components of the three-phase voltages children (asymmetry, neutral displacement, voltage deviation) 2.

. However, this system does not allow to set the normalized amplitudes of higher harmonics and non-sinusoidality coefficient, which are also the parameters of power quality.

The aim of the invention is to extend the functionality by obtaining the normalized values of the amplitudes of the higher harmonics of the industrial network and the non-sinusoidal coefficient.

The goal is achieved. A stabilized three-phase power supply system containing a single-phase to three-phase voltage converter with a neutral wire, the outputs of which are connected to phase stabilization channels, each of which includes a series-connected phase shifter, the first adjustable divider, and the amplitude stabilizer of the first harmonic of an alternating voltage. with a comparison reference unit and a support element, an output transformer and a second adjustable voltage divider, an output connection Connected to the reference element and the comparison node, the symmetry indication node, which includes a switch, is connected to the secondary windings of the output transformers of the channels by one input, the other voltage regulators are controlled with the second outputs, and the output multiplier and selective amplifier with an indicator are entered through the outputs, the input of which is connected to one of the OUTPUTS of a single-phase voltage converter into a three-phase voltage; the output is connected to the inputs of N entered frequency dividers with different division factors, the outputs of which connected to the input additional voltage adder, which through the first input additional voltage divider is connected to the input of one of the stabilizers of the first harmonic amplitude, and through the input compensation circuit consisting of the second additional divider and additional phase shifter with the output of the second adjustable the voltage divider, and the voltmeter of the current voltage value, connected to the output of the adder, and the transfer coefficients of additional voltage dividers and compensation chain is selected from the corresponding

K4 / K -K K / g.

where KI is the transmission coefficient of the stat-. the first-harmonic amplitude bielector; KA - transfer coefficient per. additional voltage divider; KL is the transmission coefficient of the second regulated divider;

Ki is the transmission coefficient of the compensation circuit.

The drawing shows a block diagram of a stabilized three-phase power system ..

The device contains a transform. 1 single-phase voltage to three-phase and three of the same type of power supply stabilization. The transducer outputs are through phase shifters 2-4 and the first adjustable voltage dividers 5-7 are connected to the input of stabilizers 8-10 of the first harmonic of an alternating voltage with a transformer output on transformers 11 g- 13. The control inputs of stabilizers 8-10 are connected to the outputs of selective nodes Comparison 14 - 16, one input of which is the output of the reference cells 17 - 19, and the other input - the input of these supporting elements connected through the second adjustable terminals of voltage 20 - 22 to the outputs of the transformers 11 - 13, which the switch 23 is connected in the symmetry of the output voltages to the symmetry indication node, which consists of the adder 24, the selective amplifier 25 and the indicator 26. One of the outputs of the converter 1 (phase A output) is connected to the frequency multiplier 27, whose output through frequency dividers 28- 30 with different division factors is connected to the inputs of the voltage adder 31, which through the first additional voltage divider 32 is connected to the input of the stabilizer 8, and through the compensating circuit consisting of the second additional voltage Ithel voltage 33 and phase shifter 34, - with the output of the divider 20. To the output of the adder 24 is connected voltmeter 35 current values.

The stabilized three-phase system, the topic of nutrition works as follows.

The three-phase output signal of the single-phase to three-phase voltage converter 1 through phase shifters 2–4 and the first adjustable voltage dividers 5–7 are supplied to the regulators 8–10 of the first harmonic of the alternating voltage with selective comparison nodes 14–16 and the supporting elements 17–19 of the alternating voltage. voltages, with the help of which the output voltages of transformers 11-13 are maintained with high accuracy at the required level by comparing the amplitudes of the first harmonics of voltages from the outputs of the second adjustable dividers

0 20 - 22 and support elements 17 - 19, Output voltages of transformers 11 -. 13 are fed to the symmetry indication node, namely, the inputs of the adder 24 through a switch 23. In the three-phase voltage system balancing mode, the symmetry setting is carried out by alternately adjusting the phase shifters in two phases until the indicator 26 is zero.

0

Reproduction of the normalized values of harmonic amplitudes and non-sinusoidal coefficient is carried out by sweeping into the input signal one of the stabilizers of the amplitude of the first harmonic of the alternating voltage (stabilizer 8): a signal consisting of either one harmonic or several harmonics. For this purpose, the output voltage of one of the phases of the converter 1 is fed to the frequency multiplier 27, from whose output a signal having a frequency times the frequency of the first harmonic is removed.

5 This signal is fed to frequency dividers 28-30 having different frequency division coefficients. The output voltage of the frequency dividers are summed in the adder 31 and through the voltage divider 32

0 to the input of the stabilizer 8, and through the voltage divider 33 and the phase shifter 34 to the output of the voltage divider 20, where the divider 20 is summed with the output voltage.

5 I

The introduction of a compensating circuit from the voltage divider 33 and the phase shifter 34 is due to the need to suppress higher harmonics at the control input of the supporting element

0 17, since it forms a rectangular signal unchanged in amplitude, the initial phase of which coincides with the moments of transition through the zero voltage level at the input of element 17. Otherwise, in the absence of a compensating circuit, the presence of higher harmonics in the output signal of the divider 20 may cause a moment offset

0 transition through the zero level of the input signal of the element 17 in comparison with the initial phase of the first harmonic of this signal, which leads to a significant phase error, stabilizer 8, and therefore.

five

to symmetry breaking of a three-phase system of stresses. Phaser 34 is required to compensate for the phase shift of stabilizer 8 and transformator 11.

With the symmetry of the first harmonics of the voltages at the terminals (the indicator 26 has a zero reading), the output of the adder 24 is only the voltage of the higher monoks generated by the blocks 27-31. Voltmeter 35 measures the effective value of the voltage i Ur these rmonik and its reading is proportional to the non-sinusoidal coefficient

where C is the nominal value of the voltages of the first harmonic at the output of the transformers 11–13. For normal operation of the stabilizer 8, it is necessary that there are no higher harmonics in the input voltage of the support element 17. The voltage Ug of higher harmonics at the output of the voltage divider 20 with the compensation circuit off is equal to ,,

where U-- is the highest harmonic voltage

the output of the adder 31; K K - transfer coefficients. Stabilizer 8, deliv- ers, voltage cells 32 and 20 respectively,

on the other hand, yhrdnr, the voltage U) t of the circuit is equal to. Kj,, where the transmission coefficient of the compensating circuit. Consequently, in order to have no higher harmonics at the input of the support element 17, it is necessary that the condition be met.

or, which is the same,

- K4., K 2.

The use of the new elements of frequency multiplier 27, frequency dividers 28-30, adder 31, voltage divider 32 and the compensation circuit from voltage divider 33 and phase shifter 34 allows to expand the functionality of the system, since the normalized amplitudes of the higher harmonics and the non-sinusoidal coefficient are set, moreover, the assigned values of the amplitudes of higher harmonics and the non-sinusoidal coefficient are estimated directly by a voltmeter. 35 Moreover, there is no need to use equipment for measuring the non-sinusoidal coefficient. This makes it possible to increase by an order of magnitude and better the accuracy of specifying the normalized amplitudes of higher harmonics and the non-sinusoidal coefficient.

Claims (1)

A STABILIZED THREE-PHASE power supply system containing a single-phase to three-phase voltage converter with a neutral wire, the outputs of which are connected to stabilization phase channels, each of which includes an alternately connected phase shifter, a first adjustable divider, a stabilizer, the amplitude of the first harmonic of the alternating voltage with a selective comparison unit and a reference element , an output transformer and a second * adjustable voltage divider connected by an output to a reference element and a comparison unit I, a symmetry indication unit, including a switch, with one input connected to the secondary windings of the output transformers of the channels, the other ¹ inputs with the outputs of the second adjustable voltage dividers, and the output through the adder and selective amplify _with an indicator, © t l-t, h and kg I mean that, in order to expand the functionality of the void of obtaining normalized amplitudes of the higher harmonics of the industrial network and the coefficient of non-sinusoidality, a frequency multiplier is introduced into it, the input of which is connected to one and from the outputs of the single-phase voltage to three-phase converter, the output - with the inputs of N input frequency dividers with different * division coefficients, the outputs of which are connected to the input additional voltage combiner, which is connected through the first input additional voltage divider to the input of one of the amplitude stabilizers of the first harmonic, < and through the introduced compensation circuit, consisting of a second additional divider and an additional phase shifter, with the output of the second adjustable divider a meter of the effective voltage connected to the adder, with the additional transmission coefficients and the values to the output of the voltage divider factor and the compensation circuit are selected from the ratio. K4. / K3 = —K ^ · Ka where K ^ is the stabilizer transmission coefficient, the amplitude of the first harmonic; K ^ - transfer coefficient of the first additional voltage divider; Cd - gear ratio of the second adjustable divider; gear ratio of the compensation circuit.