PL70883B2 - - Google Patents

Description

These relays are used, among others, as elements of distance and comparative-directional protection in the power industry. Until now known resistive polyphase relays, which have all types of short circuits in all phases, were based on the amplitude method, which boils down to comparing the maximum and minimum values of selected from two groups of constant voltages proportional to the modules from alternating voltages, which are in the most general case linear functions of currents and voltages of the protected object. The relays created in this way had circular characteristics. The relays used had, for example, the disadvantage that, when protecting long and heavily loaded lines with them, there was a risk of malfunction due to their circular characteristics being too wide. Moreover, the disadvantage of the method used so far is the necessity to compensate for the earth fault simultaneously in the currents and voltages in order to obtain the correct range for two-phase faults with the ground. The aim of the invention is to remove these disadvantages by changing the circular characteristic to another and the method of its formation. The object of the invention has been achieved by using a minimum of three groups of alternating voltages in the amplitude method, which are linear functions of voltages and currents of the protected object, that is: iy = klut - j ^ ... U ^ -k ^ -JjZ "* .. . »; U"; U. "k '; k"; kl "U.;!. U, w = k" ^ - 1 ^ '"+. alternating voltages; coefficients (generally real); phase voltages and currents or associated; 2 70 883 Z'; Z"; Z "' - complex factors with the impendence dimension (they can also be purely resistive or reactive); and - index denoting the phase or phases to which the size applies (i ¦ a; b; c; ab; be; ca). voltage is created, in a known manner, constant voltages proportional to the modules of each of the alternating voltages \ U? \\ | UjM |; | Uj "'| and the desired effect is obtained by using selection circuits selecting the maximum and minimum voltages from a given group, and then they are compared in a known way, e.g. using the zero indicator, e.g. Min IUj'1 + Min | U, "| = Max lUfl where : Min - applies to the minimum voltage from the group of voltages given in parentheses, Max - refers to the maximum voltage from the group of voltages given in parentheses. The desired effect can also be obtained by choosing the maximum or minimum values from the differences of the corresponding voltages belonging to different groups, and then they are compared in a known manner, e.g. when using the zero indicator, e.g. Min IUj'1 = Max | U, m | - lUfl or Min IIYI - lUfl + Min | Uj, M | - lUfl = 0 »You can also proceed as above after introducing a fourth group of voltages (Uj), selecting the maximum or minimum voltages from the differences of corresponding voltages belonging to different groups, and then they are compared in a known manner, e.g. using individual zero angle, e.g. Min | U / | - | U | IV | + IMin lUfl- lUfl = 0 Compensation of voltages and currents in two-phase faults with earth is necessary when comparing voltages selected only from the voltages of a given group. In other cases, only current compensation is used. Relays of narrow directional operating characteristics created according to the invention complement the existing fault in power engineering protection technology. An example of the invention application is shown in the figure, which shows a block diagram of the measuring part of a multi-phase relay with elliptical characteristics. The system consists of input circuits 1 connected with rectifying circuits 2, selection circuits 3, and a resistive divider 4 and a zero indicator 5. In the input circuits from phase currents I; J ^; Jc and bend Ufl; U ^; Uc linear functions U * are shaped; U ", U" \ In layout 2, modules are created from these functions. Elements 3 are used to select the minimum value of the Min IUj'1-IUjH and Min | Uj '"| - lUfl. Voltages, which are compared in the zero indicator by a resistance divider of 4 with resistances Rj and 1 * 2. 5. The equilibrium state of the zero indicator has place when: R * • Min lUfl- | IY "| + R, Min | Ujw | - | U ,, M | = 0 Assuming that the minimum values refer to the same phase or phase Uj = U; Jj = J R2 | k'U - JZ '| - | JZ '"| + R2 | k'U- JZ" | - | JZ '"| = 0 U Determining the impedances on the relay terminals Z = j / * - £ /? / * - £ / -¦ £ • /? •• / This equation on the impedance plane Z describes an ellipse-like closed curve, and in particular with ¬ cases for: 3 70 883 Ri k "= R2 kV 0 ellipse with focal points at the points Z _ Z i equation * *, z *, z" R, + R2 ./z- /.+ /.z- /. = P / z "7 k * k" R2k * 'Z "R2k' = 0 a Ri k" = £ 0 the circle with the center moved to the point. "; Ri + R2 /«,?, / radius r = 0. "/ Z / Kik Z "and the equation / Z -," / = r Z 'Ri k * # 0 a R2 k' = 0 the circle centered to the point «,; Ri + R2i ", M / radius r = *, / Z / Z 'and the equation / Z- -, / = r By appropriate selection of the coefficients Z'; Z "; Z '"; k '; k "; km; k 'k"; Ri and R2 can be freely shaped ellipse-like curves, their position, size and axis directions. PL

Claims (1)

1. Patent claim A method of creating multi-phase resistive relays with elliptical and ellipso-like characteristics, characterized in that from at least three groups of alternating voltages, which are linear functions of voltages and currents of the protected object, groups of constant voltages proportional to the modules of each alternating voltage are obtained, and then by means of selection circuits, the minimum or maximum openness voltage is selected from among the voltages of a given group, or from differences of corresponding voltages belonging to different groups, and the selected voltages are compared in terms of their values in a known manner, e.g. using an indicator zero.KI. 21c, 68/60 70883 MKP M02h 3/00 • i • T 5 N * fi * tlil 3 3 * <* SS * ^ m 333 * Fiac. Typographer. UP PRL. Zani. 8042/21/74. Mintage 120 + 18 Price PLN 10. PL