SU924789A1 - Static comprensator of reactive power - Google Patents

Description

The invention relates to the electric power industry, in particular to static reactive power compensators.

Known reactive power compensator containing a reactor and a thyristor switch, voltage and current transformers SPN The disadvantage of this device is the possibility of a constant current component in the circuit of the reactor and thyristor switch.

The closest technical solution to the proposed is a static reactive power compensator with. automatic current control, containing a series-connected reactor, thyristor switch and current transformer, in parallel with which a voltage transformer is connected, the first interrator, the first input of which is connected to the secondary winding of the voltage transformer, the second input and output are connected to the key element, and the output to the input of the second integrator, the output of the second integrator through an automatic controller is connected to the control electrodes of the thyristor key. The key element of this compensator is controlled by means of a conductive / 'thy - / thyristor sensor, the inputs of the first differential amplifier of which are connected through the divider (attenuator) to the terminals of the thyristor switch, and the output of which is via cable, the second differential amplifier and a polarity detector (differential stage) is connected to the control input of the key elementaG21 However ^ direct elektricheo ₁₅ kaya connection control equipment with a high-voltage power elektrooborudova * Niemi is needed awn application, high voltage divider (attenuator) reduce reliability and pomehoustoy20 bility. devices.

Moreover, the lack of a setup scheme for the initial conditions of the second integrator leads to a decrease in noise immunity and speed.

The purpose of the invention is to increase the reliability, noise immunity and speed of the device.

This goal is achieved by the fact that in a static reactive power compensator, containing a series-connected reactor, a thyristor switch and a 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 output which included the first key element, and an output also coupled to an input of the second integrator, the output of the second integrin Rhatore ₁₅ via the automatic controller is coupled to the control electrodes of the thyristor of the key, a transreactor, the first and second half-wave rectifiers, a comparator, a second key element, a zero-organ, two one-shots, two triggers and an AND logic element are introduced, while the primary winding of the transreactor is connected in series with the secondary winding of the current transformer, the secondary winding is connected to the first full-wave rectifier, a second full-wave rectifier connected to the secondary winding of the voltage transformer, the outputs of the two full-wave rectifiers ³⁰ cheny connected to the inputs of the comparator, the output of which is connected to the control input of the first key element, the input of the null organ is connected to the secondary winding of the voltage transformer, the outputs of the null- ³⁵ organ are connected to the inputs of two single vibrators, the outputs of which are connected to the control inputs of two triggers, the information inputs of the triggers are connected to the output of the comparator, and outputs with a logical element AND, the output of which is connected to the control input of the second key element connected between the second input and the output of the second integrator.

In FIG. 1 shows the functional block diagram of the device; in FIG. 2 - timing diagrams.

The device comprises a reactor 1 connected in series with a thyristor switch 2 and a current transformer 3, in parallel with which a transform is connected; torus 4 voltage. The secondary winding of the current transformer 3 is connected in series with the primary winding of the transreactor 5, the secondary winding of which is connected to the first half-wave rectifier 6, the second half-wave 4 rectifier 7 is connected to the secondary winding of the voltage transformer 4. The outputs of the rectifiers 6 and 7, having different polarity, are connected to the inputs of the comparator 8.

The first input of the first integrator 9 is connected to the secondary winding of the voltage transformer 4, the second input and output are connected to the first key element 10, the output of the integrator 9 is connected to the first input of the second integrator 11; the output of which is connected through the automatic regulator 12 to the control electrodes of the thyristor switch 2. The input of the zero-organ 13 is connected to the secondary winding of the voltage transformer 4, the outputs of the zero-organ are connected to the inputs of two one-shots 14 and 15, the outputs of which are connected to the control inputs of two triggers 16 and 17, info mation inputs are connected to the output of the comparator 8 and outputs. a logical element And 18, the output of which is connected to the control input of the second key element 19 connected to the second input and output of the second integrator 11.

The compensator works as follows.

A serial circuit consisting of a reactor 1, a thyristor switch 2, and a current transformer 3 is connected to an AC voltage source. The voltage at the terminals of the secondary winding of the transreactor 5 is proportional to the first derivative of the current in the circuit. At the outputs of the rectifiers 6 and 7, bipolar signals are generated proportional to the instantaneous voltage and the first derivative of the current, and the instantaneous signal of the derivative of the current is significantly (for example, 1.5 to 3 times) higher than the voltage signal.

The comparator 8 through the key element 10 controls the operation of the first integrator 9, the output of which produces a signal proportional to the instantaneous current value, which is the voltage integral in the conduction interval of the thyristor switch 2.

The signal at the output of the second integrator 11, proportional to the DC component of the current, f arriving at the input of the controller 12, causes the thyristor control angle to mix, leading to the elimination of the specified DC component of the current.

In the case when the thyristor switch is locked by the signals of the controller 12, the specified control loop is blurred5

924789 4 repents, the voltage at the output of the second integrator 11 is determined by the drift of the circuit and is the source of the interference signal at the input of the controller 12, which leads to a decrease in the speed of the device. 5 The installation of the required, in particular zero initial conditions of the second integrator 11 is carried out by opening the second key element 19 after a time approximately equal to one period »0 of the alternating voltage after the current interruption. The second key element 19, controlled by the element And 18, is locked while at the output of at least one of the triggers 16 and 17 there is a logical 15 О 'and is open when at the outputs of both triggers 16 and 17 there is a logical / * 1. In state О (Installation) triggers 16 and 17 are switched, for> 'an example, by a negative sign of voltage 20 of the output of comparator 8, to state 1 - (Reset) by pulses of one-shots 14 and 15, controlled by a zero-organ 13 that responds to a voltage sign. 25

The application of the proposed device will improve the reliability of the compensator by refusing direct electrical communication of the control equipment with power equipment and from the rear of the installation of a high-voltage voltage divider (attenuator), and also increase the noise immunity and speed by introducing a circuit to set the initial conditions of the integrator at the output of the device in the absence of thyristor switch current - ³ , cha.

Claims (2)

The invention relates to electric power industry, in particular to static reactive power cells. A reactive power compensator is known, comprising a reactor and a thyristor switch, voltage and current transformers lij. The disadvantage of the device is the possibility of the appearance of a constant component of the current in the reactor circuit and the thyristor key. The closest technical solution to the proposed is a static compensated reactive ms value. an automatic current control containing a series-connected reactor, a thyristor switch and a current transformer, in parallel with which a voltage transformer is connected, the first integrator, the first input is connected to the secondary side of the voltage transformer, the input and output are connected to the key element, and the output is 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. The key element of this compensator is controlled by a thyristor sensor, the inputs of the first differential amplifier of which are connected to the terminals of the thyristor switch through a splitter (attenuator), and the output of a second differential amplifier and polarity detector (differential cascade ) is connected to the control input of a key electronic 1enat2x. However, a direct electrical connection of the control equipment with high-voltage power equipment is necessary st use, high voltage divider (attenuator) -Reduces pomehoustoychivost- and reliability of the device. In addition, the absence of the installation scheme of the initial conditions of the second integrator leads to a decrease in noise immunity and str. The purpose of the invention is to improve the reliability, noise immunity and speed of the device. The goal is achieved by the fact that a static reactive power compensator containing sequentially connected reactors, a thyristor switch and a 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 the first key element, 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 thyristor control electrodes key, transreactor, first and second full-wave rectifiers, comparator, second key element, null organ, two one-oscillator, two triggers and logic element AND, the primary winding of the transreactor is connected in series with the secondary winding of the current transformer, the secondary winding of the first is connected full-wave rectifier, the second full-wave rectifier is connected to the secondary winding of the voltage transformer, the outputs of both two half-cycle rectifiers are connected to the inputs of the comparator, you the stroke of which is connected to the control input of the first key element, the input of the nullorgan is connected to the secondary winding of the voltage transformer, the zero outputs of the organ are connected to the inputs of two-one-single-vibrators, the outputs of which are connected to the control inputs of two triggers, information inputs of the trigger trigger are connected to the output Dompactor, and outputs with a logical element And, the output of which is connected to the control input of the second key element connected between the second input and the output of the second integrator. FIG. 1 given functional block device of the device; in fig. 2 - time diagrams. The device comprises a reactor 1, which is sequentially connected to a thyristor switch 2 and a current transformer 3, in parallel with which a voltage transformer 4 is connected. The secondary current transformer 3 is connected in series with the primary winding of the reactor 5, the secondary winding of which is connected to the first full-wave rectifier 6, the second full-wave rectifier 7 is connected to the secondary winding of the voltage transformer 4. The outputs of the rectifiers 6 and 7, having different polarity, are connected to the inputs of the comparator 8. The first input of the first integrator 9 is connected to the secondary winding of the voltage transformer 4, the second input and output are connected to the first key element 10, the output of the integrator 9 is connected to the first the input of the second integrator 11., the output of which through the automatic regulator 12 is connected to the control electrodes of the thyristor switch 2. The input of the null organ 13 is connected to the secondary winding of the voltage transformer 4, the outputs of the zero organ are connected to the inputs two There are 14 and 15 single bins, the outputs of which are connected to the control inputs of two triggers 16 and 17, whose information inputs are connected to the outputs of comparator 8, and the outputs of c. logical element And 18, the output KOTOpioro is connected to the control input of the second key element 19 connected to the second input and output of the second integrator 11. The compensator works as follows. A series circuit consisting of a reactor 1, a thyristor switch 2 and a current transformer 3 is connected to an alternating voltage source. The voltage across the terminals of the secondary winding of the transreactor 5 is proportional to the first derivative of the current in the circuit. The outputs of the rectifiers 6 and 7 produce opposite polarity signals proportional to the instantaneous values of the voltage and the first derivative of the current, and the instantaneous value of the signal of the derived current substantially (1.5 to 3 times, for example) exceeds the value of the voltage signal. The comparator 8, through the key element 10, controls the operation of the first integrator 9, the output of which produces a signal proportional to the instantaneous value of the current, which is an integral voltage in the conductivity interval of the thyristor key 2. The output signal of the second integrator 11 is proportional to the constant & the current, f-access to the input of the regulator 12, causes a displacement of the thyristor control angle, leading to the elimination of the specified constant component of the current. In the case when the thyristor switch is locked by the signals of the regulator 12, the indicated control loop is open, the voltage at the output of the second integrator 11 is determined by the circuit drift and is the source of the disturbance signal at the input of the regulator 12, resulting in a decrease in the speed of the device. The installation of the required, in particular, zero initial conditions of the second integrator 11 is made by opening the second key element 19 at a time approximately equal to one period of the alternating voltage after the current ceases. The second key element 11 controlled by the element I 18 is locked until the output of the one of the triggers 16 and 17 is logical and open when the outputs of both of the triggers 16 and 17 are logic 1. In the state O (Installation) the triggers 16 and 17 switch, for example, to negative signs of the output of comparator 8, to state 1 - (Reset) by pulses of one-shot 14 and 15, controlled by a zero-body 13, responsive to the sign of voltage & nIN. The use of the proposed device will allow for the reliability of the compensator by eliminating the direct electrical communication of the control equipment with power equipment and the installation of a high-voltage voltage divider (attenuator), and taKKe will increase the electrical noise (speed and speed by introducing the initial conditions of the integrator at the output of the device in the absence of thyristor current. Claims of the invention A static reactive power compensator containing a series-connected reactor, a thyristor switch and a current transformer, in parallel with which a voltage transformer is connected, to the secondary winding of which the first input of the nepBioro integrator is connected, between the second input and the output of which the first key element is connected, and the output is also connected to the input of the second integrator, the output of the second integrator via automatic control The torus is connected to the upriding electrodes of a thyristor switch, characterized in that, in order to increase reliability, noise immunity and speed, a transreactor is introduced into it, the first and second Two full-wave rectifiers, a comparator, a second key element, a null organ, two single vibrators, two triggers, and a logic element AND, in this case, the primary winding of the traction reactor is connected in series with the secondary winding of the current transformer, the secondary winding is connected to the first two-period cable, which is connected to the first two wires of the current transformer; The second full-wavelength coupler is connected to the secondary winding of the transformer nagfc, the outputs of both two-half-cycle rectifiers are connected to the inputs of the comparator whose output is connected to. the control input of the first key element, the input of the null organ is connected to the secondary winding of the voltage transformer, the outputs of the nullorgan P6; These are keyed to the inputs of two single vibrators, the outputs of which are connected to the control inputs of two triggers, the information inputs of the triggers 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 input of the second key element connected between the second input and output second integrator. Sources of information taken into account in the examination 1. US patent N ° 3963978, cl. 323-102, 1975. 2. US patent number 4OO1671, cl. 323-119, 1977. JO Iff dildt / / Sbtafl / foffftafamofl ff Hy organ 0 , Jjmj 9-.r I f / 9f9t and 4 WITH