SU1073841A2 - Static compensator of reactive power - Google Patents

Abstract

STATIC COMPENSATOR OF REACTIVE POWER according to author. St. № 924789, about the t of l and-ch and y with the fact that, in order to increase the sun

Description

This invention relates to electric power industry, in particular to static reactive power cosensors.

According to the main author. St. 924789, known static compensator reactive power containing. series-connected reactor, thyristor key and current transformer, in parallel with which a voltage transformer is connected,

To the secondary winding of which the first input of the first integrator is connected, between the second input and the output of which the first key element is turned on, and the output is also connected to the input of the second integrator, the output of the second integrator is connected via an automatic controller to the control electrodes of the thyristor switch that contains a transducer, the first and second full-wave exponents, the comparator, the second key element, the null-organ, two single-oscillators, two triggers, and the logical element AND, with the primary. the transreactor winding is connected in series with the secondary winding of the current transformer, the secondary winding is connected to the first full-wave rectifier, the second full-wave rectifier is connected to the secondary winding of the voltage transformer, the outputs of both of the full-wave rectifier are connected to the comparator inputs, and the output voltage of the comparator is connected to the secondary winding of the voltage transformer; the input of the first key element, the input of the null organ is connected to the secondary winding of a voltage transformer, the outputs of the null organ are connected to the inputs of two one The oscillators whose outputs are connected to the control inputs of two triggers, the information inputs are connected to the output of the comparator, and the outputs to the logic element I, the output of which is connected to the control of the first input of the second key element connected between the second input 13 and the second integrator 13 of the second integrator.

A disadvantage of the device is the impossibility of a fast-acting prohibition of opening the thyristor key in the event of failure to open at least one of the thyristors.

The purpose of the invention is to increase reliability.

The goal is achieved by the fact that the static reactive power compensator is equipped with a thyristor prohibiting unit consisting of two single-oscillators, two AND logic elements, an OR logic element and three triggers, the first inputs of the AND logic elements being connected through one-vibrator to the additional outputs of automatic regulation the torus, the second inputs - with the output of the conduction sensor of the conductors, and the outputs - with the information inputs of the first and second triggers and the inputs of the logic element OR, the output is th connected to data input of the third flip-flop, whose output is connected to the second input of the automatic

 regulator.

Introduction to the known device of the blocking the opening of the thyristor key allows to increase the reliability by ensuring the quick action of the Siaero prohibition to open the thyristor key in the event of failure to open at least one of the thyristors.

The drawing shows a diagram of the device.,

0 The device contains a reactor 1 connected in series with a thyristor switch 2 and a current transformer 3, in parallel a transformer of voltage 5 and 4 is connected. To the secondary windings of transformers 3 and. 4 a thyristor conductivity sensor 5 is connected, having a transreactor b, two full-wave rectifiers 7 and 8, and a co-ordinator 9. The output of the conductivity sensor, thyristors 5, is connected to the first input of a DC-suppressor unit 10 that includes two integrators 11, 12 , two

- key elements 13, 14, nullorgan 15, two single vibrators 16, 17, two flip-flops 18, 19 logical AND 20 pulses. The second input of the DC suppression block is connected to the secondary winding

0 of the voltage transformer 4, and the output through the automatic controller 21 is connected to the control electrodes of the thyristor switch 2.

The block for opening the thyristor 22 logical elements AND 23, 24, the first inputs of which through one-shot 25, 26 are connected to the additional; Telny, isolated from others out of the regulator 21,

0 second inputs - with the output of the conduction sensor 5, and outputs - with the information inputs of the flip-flops 27, 28 and the inputs of the logic element OR 29, the output of which is connected to

5 with the information input of the trigger 30. The output of the trigger 30 is connected to the second input of the automatic controller 21, the logical element OR 29 has a third input, the triggers 27, 28, 30 - upd equal inputs.

The device works as follows.

A series circuit consisting of a reactor 1, a thyristor switch 2 5 and a current transformer 3 is connected to an alternating voltage source. The state of conduction of the key 2 at the output of the thyristors conductivity sensor 5 corresponds, for example, to the signal O, to the locked state - 1 The voltage on the circuit of the constant control block was 10 kHz and is proportional to the indicated constant current of the thyristor key 2, which enters the input of automatic regulator 21, causes a displacement of the control angle of the tyrstroke, leading to its elimination. In the absence of a current of thyristor cluster, the integrator 12, whose output is the output of the DC elimination unit 10, switch to the zero initial conditions setup mode. Simultaneously, with the appearance of an automatic control pulse 21 switch on the thyristor switch 2 at any of the outputs, a pulse is triggered at its additional output that triggers the corresponding one-shot 25 (2 €). The cycle time of each of the single drivers 25 and 26 is several times longer than the time required for the thyristor to go to class 2 in the conduction state and to change the output information of the thyristors conductivity sensor 5. Thus, in the case of opening the key 2. after the arrival of a pulse from the output of the regulator 21. The prohibitive signal (O) from the output of the sensor 5 arrives at the second inputs of logic elements And 23, 24 before the end of the cycle of the one-shot 25 (26), the output information changes the element AND 23 f24) and the element OR 29 does not occur, the triggers 27 (28) remain in the initial state, into which they were previously transferred by a reset pulse through their control inputs. In the event of a failure to open any of the key 2 thyristors, the second input of the logic elements 23 23 24 receives a permit signal (1), under the action of the signal at the end of the cycle of the corresponding bottom of the vibrator 25 (26 | appears, the signal at the output of the element 23 23). translating trigger 27. (28) and, through the element OR 29, trigger 30 into the installation state. The second input of the controller 21 receives a signal prohibiting the formation of control pulses at the outputs of the controller 21 and thereby opening the thyristor switch 2 Triggers 27 and 28 fix failure to open respectively key 2. The additional input of the USh 29 logic element is used to prohibit the opening of the thyristor key from the outside (for example, from relay protection of the reactor 1 or at the command of personnel). At that, the trigger 30 is switched to the installation state and the second input of the regulator 21 receives a signal which prohibited the forging of pulses at its outputs and, therefore, opening the thyristor key 2. After eliminating the cause of the failure to open the key 2, the triggers 27, 28, 30 are reset to their original state by applying by the operator, for example, Signal Reset Reset to their control inputs. The use of this device allows to improve the quality indicators of the compensator current, as it makes it possible to shorten the emergency mode of the static compensator to the maximum extent by quickly preventing the opening of the thyristor key, and also accelerate the detection of the reasons for the failure of the opening of the thyristors by fixing the failed thyristor compared to the prototype, wherein the DC elimination unit entering the static compensator is slow acting and emergency bench, soprovonzdakhtsiys the advent of d.c. current in the compensator is maintained for a significant (several seconds) time period, In addition, no fixation failed thyristor.

Claims (1)

STATIC COMPENSATOR REACTIVE POWER by author. . . St. No. 924789, due to the fact that, in order to increase reliability, it is equipped with a blocker for prohibiting the opening of thyristors, consisting of two one-shots, two logical elements AND, a logical element OR and three triggers moreover, the first inputs of the AND logic elements are connected through single-vibrator / to the additional outputs of the automatic controller, the second inputs to the output of the thyristor conductivity sensor *, and the outputs to the information inputs of the first and second triggers and inputs of the logic element IL ^, the output of which is connected to information the third trigger input, to the output of which the second input of the automatic controller is connected. rmzor ns “>