SU905941A1 - Method of control of symmetrization device - Google Patents

Description

(54) METHOD OF CONTROL OF SYMMETRIC DEVICE

Claims (2)

The invention relates to electrical engineering and can be used in balancing devices (SUs) designed for balancing the currents of three-phase networks when three-phase loads are connected to them, varying in nature and size. There is a known method of automatic reuplation of balancing devices. three-phase networks with a three-phase load to disconnect the voltage flj. The disadvantage of this method is that the re-arrangement does not take into account the deviation of other parameters. The closest to the proposed method is the control of a balancing device based on automatic control of the value of one of the balancing elements by exposing it to a signal proportional to the load conductance obtained from the measured values of current and voltage I2j. The disadvantage of this method is that it is suitable for balancing three-phase networks only with single-phase loads, which significantly limits its scope. In addition, the method cannot provide high accuracy of symmetrization in the presence of phase asymmetry, i.e. with an arbitrary nature of the load. The purpose of the invention is to improve the balancing accuracy under any load. This goal is achieved in that according to the method of controlling a balancing device, consisting in automatically controlling the conductivity of one of the balancing elements by acting on a signal proportional to the conductivity of the load of one of the phases, the conductivity of the other two phases is measured, the power factor of each phase is measured and from the measured values they form signals that are proportional to the active conductors of the phases, compare the indicated sig3905941 napa with each other and take into account Etate comparing signapom affect balun elements of the respective phases. Let the three-phase system of currents in j of a three-wire three-phase network contain the constituent of an inverse sequence) C) gDeld,:, complexes of phase currents; to j Urf)) current feedback loop; 1 phase multiplier. SU dp of compensation of currents of reverse current in a three-phase circuit in the 15th common range should contain three elements connected to the power voltage. These elements are chosen purely reactive with the conductivities C – CHOV-i Ai (20 V o-b c No-V; WuVAs) where Tb1Y V) is the symmetrical part of the parameters of the SU; LUdd, DChp, uVjv are asymmetrical or adjustable parts of SU parameters,) 0- (3), and Dp of the current of reverse reversely xIX with a symmetrical voltage system, you can get the following expression:,.,: J, V3uv, t5} where V is phase mains voltage,) By compensating for the current of the inverse of i if-4af - “S1Ymetrical system of equations for AC fluxes ,,., uNjv and Chd is spedyusha:, i (i4 4d4ft4d Nf g) (t) | ((... where with a hf-coupled complex of reverse current strength, Solving the control system (7), we find the results of this, (a) i). ). Expressing the parameters of the balancing solubility through the currents being symmetrized: g and Lie phase shifts, n in t, x currents with respect to the corresponding phase voltages, using equation (1), we get A-fWl u sV A AJ; 49) V-WU-lV5V s4g), 005.4d, 005. c factors of each phase. A.T. Taking into account that neither (9) is written as (aC sifg-: j Gc 54J;) i O A l. ttsh - if4 gtl j. V-GW A 8Cos a). --В-)) i. ,, Oes4j-, H 0054oactive conductances of the phases of the load. Thus, in the proposed method for controlling the control system, the following operations must be performed: to form signals proportional to the total conductivity m, 1 / a, -, the voltage division fault to the GOK of each phase; to form signals proportional to the power coefficients сое д, СОЗЧа, С05 of each phase; generate signals proportional to the active conductance of the phases by multiplying the conductors and power factor signals of each phase; on the distribution of each pair of these signals, form the control of the C1 signal according to the pressures (11) and these signals affect three reactive elements of the SU connected between the respective phases. The drawing shows a block diagram of one of the variants of the control system that implements the method. The block diagram contains a balancing device I, a load 2 (in general, a three-phase, varying in time), a conduction sensor 3, a power factor sensor 4, an arithmetic unit 5, and a SU control unit 6. Sensors 3 and 4 provide the voltage and current of all phases of the load. In sensor 3, the voltage is divided by the current, i.e. Signals, proportional to conductivities kg / d, 11, 11, loads, are output. In sensor 4, one of the known methods is used to measure the power factors S05Chd, C05Ce, OOB. Of each phase and form signals proportional to these power factors. The signals from the inputs of sensors 3 and 4 are fed to an arithmetic unit 5, in which the multiplications of signals from sensors 3 and 4 are performed to obtain signals proportional to the active conductivity of the OSL, a, CjJ. phases, and the differential signaling operation. Then, the resulting difference signals from the outputs of the arithmetic unit 5 are fed to the control unit 6 of the control system, which performs the restructuring of the control parameters in accordance with the extrusions (11), valid for any three-phase load with variable missions. Thus, the proposed method is applicable to three-wire three-phase circuits under any load (single-phase, two-phase and three-phase), the parameters of which can vary arbitrarily with time. At the same time, it provides more vyyuyu accuracy of balancing, as it takes into account not only the deviations of voltages and currents, but also the phase asymmetry of currents. This greatly expands the field of application of control systems in industrial and autonomous power supply systems. The formula of the invented shadow. The method of controlling a balancing device, which consists in automatically controlling the conductivity of one of the balancing elements by influencing a signal on it, about the conductive loading of one of the phases, characterized in that, in order to increase the balancing accuracy at any load, the conductivity is additionally measured the other two phases, the power factor of each phase is measured, and from the measured values they form signals proportional to the active conductivities of the phases; I compare These signals with each other and the resulting signal by comparison act on the symmetric elements of the corresponding phases. Sources of information taken into account in the examination 1. USSR author's certificate number 353314, cl. H 023 3/18, 1972. 2. USSR author's certificate number 57O15O, cl. H O2: j 3/26, 1977.