SU769684A1 - Three-phase voltage source with adjustable asymmetry - Google Patents

Description

one

The invention relates to electrical measuring technology and can be used for testing and calibrating unbalance meters, as well as for physical modeling of electrical networks with asymmetric modes.

A source of three-phase voltage with adjustable asymmetry is known, containing a series-connected source of symmetric three-phase voltage and an asymmetry control unit made on the phase-rotating R, C, L chain x.

With the help of this source, only three asymmetry parameters can be set, the voltage of the forward f / (i) and the reverse (Y (2) sequences and the angle ф2.1 between them. And the set parameter f / d) is determined indirectly, and parameter f2.1 is set only in a narrow range (120-180).

The closest to the proposed source of technical essence is a device containing a three-phase voltage source and an asymmetry adjustment unit connected to it. The latter consists of three potentiometers connected in a star and connected to the source, the fourth additional potentiometer connected in parallel to one of the main potentiometers. The monitored asymmetry is monitored with ac voltmeters 2.

5 Due to its limited functionality, this device can exhibit only two unbalance parameters, C / (1) and U (Moreover, one of the exposed parameters IJ () is determined indirectly by mathematical processing of the AC voltmeter readings, which increases the calibration time and shines the manufacturability of these processes.The accuracy of the device is determined mainly by the accuracy class of ac voltmeters and the accuracy of a three-phase voltage source that is powerful enough to and the effect of the load on the exposed asymmetry parameters. Since the accuracy class of ac voltmeters is still relatively low and providing a sufficiently powerful output of the three-phase voltage source

25 to the additional characteristics due to an increase in the asymmetry of the output voltage, the setting and monitoring of the parameters I) and t / (2) will be carried out with insufficient accuracy. Wherein

30, the error of not one, but two voltmeters of alternating current sneaks into the value of the set parameter D. The aim of the invention is to improve the accuracy, manufacturability and expansion of the number of asymmetry parameters set. The goal is achieved by the fact that in a known device, containing a source of symmetric three-phase nanowire and an asymmetry control unit with three linear potentiometers and control devices, the asymmetry adjusting unit is supplemented by a direct current source, three three-input adders, a three- and single-phase phase shifter - 15 mi and seven copiers. three of which are combined into a direct sequence unit, three others with a three-phase phase shifter into a reverse sequence unit and the last 20 pho, with a single-phase phase shifter into a zero-sequence unit, with one input of multiplying devices in each block potentiometers, others - 25 to the source of three-phase voltage: in the block of a direct sequence directly and with a direct alternation of phases, the reverse - through a three-phase phase shifter and with a reverse alternation phase, zero through the phase shifter to any of the phases, the outputs of the field devices of the direct sequence unit to the first inputs of the adders, the reverse to the second, zero to the third outputs, totaling 35 tori to the output terminals of the adjustment unit asymmetries, extreme terminals of potentiometers to the poles of the DC source. The drawing shows a functional diagram of a three-phase voltage source with adjustable asymmetry. It contains series-connected three-phase voltage source 1 and 45 asymmetry adjustment unit 2 (RMS). A load 3 is connected to the output terminals A, B, C of the source. The BRN 2 consists of a direct current source 4, three linear potentiometers 5 with control 50 devices 6, a direct sequence unit 7 (BPP), a reverse sequence unit 8 (BOP), block 9 zero-sequence (BNP) and three adders 10, and BPP 7, BOP 8, and BNP 9 contain multiplying devices And, and the last two blocks, in addition, three-phase 12 and single-phase 13 phase shifters, respectively. The DC voltages applied on linear potentiometers 5, 1/2, and Uz are fed to the first inputs of the respective multiplying devices 11, to the second inputs of which from a three-phase voltage source are fed to BPP 7: V or to input V out to l where this is the floor and according to the sum of the form and odd by the hearth of SL 65 threef UA and cos w, and i-cos (wt Uc U-cos Ы (BOP 8 taking into account the reverse connection of the phases and phase shift Φ2, ь realized by a three-phase phase distributor 12: i / A (o) + 2, l), 411, 411 - - + 2,), UB b-COS wt Uc U-cos (t-, i 3 BNP 9 when its second is connected to phase A and taking into account the phase shift driven by the phase shifter 13: and A - f / -cos (t "/ +" po, i). The result of a phase-by-phase multiplication on the multiplying devices 11 half BPP 7: UAW / 7 (1) -cos sig; UB () - U (i) cos (wt G-, t tI 4P Uc (l) - U (ly (iO: Ut- J OP 8 / L (2) U (2yCOS (w -f cp2, l), G-, , / j 411, C / B (2) C / (2) COS (wg (- () 2,1 UCC2) - and (2) COS (w (- +; p2, i J; NP 9: (O ) i / B (0) c (O) f / o cos (o (+ PO.I), Um U, -U;) Lf, U, U (,) U, -U voltages are used in quality-balanced symmetric Correspondingly, tori 10 are made, for example, in transformers with three primary secondary windings. From the outputs, pogo and third (from top to bottom -yyy ./retail) adders 10 to load 3 ts, respectively: O A - UA () + l (2) - | - UA (O), OB Ov (1) + UB (- {- ifB (0), and with Uc () + C (2) + OC (H). Consequently, a different voltage with a given asymmetry is applied to load 3. Control over the asymmetry parameters U (i) Ui U, lJ (y U2-U, U (o) is carried out using coitrol instruments, for which it is convenient to use digital voltmeters of direct current of the required accuracy class. It is convenient to set and control the parameters ф2.1 and фо, 1 on precision graded phasors slots made, for example, on RC elements.

Thus, the proposed source allows all five asymmetry parameters to be set, not two, each being set by one regulating element. This circumstance, as well as the absence of indirect calculations in determining the parameters to be set, significantly reduces the time for setting each parameter.

Claims (2)

1. Otto Hasenpusch. Einfaches gewinnen unsymmetrisher Spannunger aus dem symmetrischen Drehstromnetz. Electrotechnik 1975, 4, p. 10-11. 2. PHP patent number 48177, cl. 21 s, 36/04, 1976.