SU538450A1 - Distance protection device - Google Patents

Description

FIG. 2 is a possible implementation of an additional cue, which provides the direction of action of 1B1I with & liz: ki. 3.

The device of protective protection contains measuring blocks 1, 2, 3 soproti | VLENI with a directional response characteristic passing through the origin of the plane L, a logical element OR 4, a logical block 5 of distance protection, output circuit 6 of protection, m-Axislector 7, the output signal of which is dropropion-Ialen to the greatest at the moment Mpnovennuyu value of one of the extraordinary grandeur, the threshold element 8, the element 9 time delay, the logical elements AND-NOT 10, 1: 1, 12, 13, 14 - the diodes of the max selector, the operational amplifier 15 , ele1 cients 16, 17 defining iorog srabativaii oneratsionnogo amplifier elements 18 and 19 that provide the necessary delay in actuation.

/ lv, / su, / CA, VAB, VBC, VGA, Vco, vo, VAO, are the currents and voltages applied to the protection.

The reduction of all Tipex voltages at the input of the Macyulector below a predetermined level determined by threshold element 8 corresponds to a three-phase r. in the place of installation of the protection (external or at the beginning of the protected zone).

The time delay of element 9 is chosen more than the time of appearance of the working signal / 1 at k. A. in the zone.

When a three-phase K. h. at the beginning of the protected zone, due to the presence of a delay by element 9 ((sigal / 2), the blocking signal / 3 from element 10 arrives at the inputs of element 11 later than the working signal / i, which is fed from the measuring protection blocks through element 4. Availability of feedback between the output of element 11 and the input of element 10 leads to the fact that the occurrence of a blocking spInal from element 9 at another input of element 10 does not change the state of the circuit. The strong to disconnect will exist for a time determined by the duration of the operating signal

When three phases (nc. S. Outside the zone of action, the blocks 7–10 also work as in the previous case. However, at the first moment the signal from block 4 does not come to shutdown. Therefore, after a time determined by element 9, the input element 11, a blocking signal arrives, and later on, when the frequency leaves the system and the phase shift of the emf "memory and network, the appearance of the signal / i" and the actuation from the measuring bodies does not change the state of the circuit elements, i.e. No false triggering of protection occurs.

The de-scrubber 7 can be performed with the help of; diode circuits. At the same time, smoothing of the signal at the output of the block is not required, since to trigger the element

Delay 9 is necessary to reduce the amplitude for a considerable time, longer period of industrial frequency.

Possible option of realization of the device providing directivity of the differential protection at close to. shown in FIG. 2, works as follows. Diodes 12, 13, 14 perform the function of a max-selector for positive values of the input signals (the circuit for simplicity is made half-wave). Resistors 16, 17 set the threshold for triggering amplifier 15, i.e. the minimum value of input voltages at which a blocking signal appears,

The timing of the driver chain (18, 19) in combination with the trigger threshold of the element 10 determines the setpoint according to the time delay of the blocking signal (another implementation of the delay element is also possible). Interaction

logic elements 10 and M are described above. The lack of connection with the current circuits in the proposed device reduces the consumption of the indicated circuits, the absence of nonlinear parametric elements that increase the errors in the range of currents and voltages and control simultaneously the three measuring bodies of the Bscex phases enhances protection as a whole. The device can be made on typical logical and functional elements, which makes it easy to dock it with modern semiconductor protection circuits.

Claims (2)

1.Chernobrovov N.V. “Relena protection,“ Energie, M., 1974, p. 308-312. 2. Magazine “Elektrichespvo, No. 5,” become “Semiconductor directional resistance relay with the use of a parametric frequency divider (prototype). Ll..e, U, B P ..r UfA / ffm sfloxa tt To 6lon 5