RU2612621C2 - Alternating voltage regulator - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: regulator is proposed, which comprises a primary and a booster transformer, the first and the second thyristor keys, a phase sensitive unit made in the form of two measuring transformers, two zero-bodies and a logical element "AND", a comparison unit made in the form of the zero-body, logical elements "OR" and "AND", the first amplifier, the first delay element having an input connected to the voltage transformer via the auxiliary zero-body, the second amplifier, an auxiliary logical element "AND", the second logical element "AND", a logical element "NOT", the second delay element, an auxiliary logical element "OR", wherein an additional adjustable delay element is introduced into in the control circuit by one of the thyristors of the second thyristor key.

EFFECT: regulating reactive power consumption of the main and booster transformers.

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Description

The invention relates to electrical engineering, in particular to converter technology, and can be used in powerful transformer-thyristor voltage regulators operating on an active inductive load.

Known AC voltage regulator - A.S. No. 1064417 of the USSR, V.N. Krysanov, Yu.N. Lyskov, M.M. Rasulov, Ya.S. Ruby; Azerbaijan Scientific Research Institute of Energy named after I.G. Esmana. - No. 3391556; application 04/14/1982 - containing the main and boost transformer, thyristor switches, as well as a phase-sensitive unit and a comparison unit, the outputs of which are connected with each other and with the corresponding thyristor switches, which reduces the asymmetry of the output voltage using the auxiliary logic element “I” and a zero-organ, whose input is connected parallel to the output of the measuring voltage transformer, and its output through the delay element is connected to one of the inputs of the auxiliary logic element "AND", the second input which is connected directly to the output of the comparison unit, and its output is connected to the input of the amplifier of the comparison unit.

The closest in technical essence is the AC voltage regulator - A.S. No. 1267384 of the USSR. AC voltage regulator. / V.N. Krysanov, M.M. Rasulov, Ya.S. Rubin, V.E. Bykov, A.F. Mamedov; Azerbaijan Scientific Research Institute of Energy named after I.G. Esmana. - No. 3917763; application 06/27/1985. It also contains a main and boost transformer, thyristor switches, as well as a phase-sensitive unit and a comparison unit, the outputs of which are connected with each other and with the corresponding thyristor switches. This device extends the control range with the help of an additional element “OR”, “NOT”, “AND” and a delay element, moreover, one of the inputs of the additional element “AND” is connected to the output of the comparison unit through the additional element “NOT”, its second input - with the output of the auxiliary null organ through an additional element that implements a different time of the conducting state of each of the two thyristors of the thyristor switch, and the output - with one of the inputs of the additional element "OR", the second input of which is connected to the output of the phase detector th block, and the output - to the input of the amplifier.

The disadvantage of this device is the relatively low range of regulation, as well as the inability to regulate the consumption of reactive power.

The invention is aimed at obtaining a new quality, namely, the regulation of reactive power consumption by main and boost transformers.

This is achieved by introducing into the control electrode circuit of the second thyristor switch an adjustable delay element, which allows to obtain a constant component in the harmonic composition of the voltage on the transformer, which changes the consumed reactive power (Dependence of the harmonic composition of the voltage of the high-voltage regulator on the control modes. V.N. Krysanov // Electrical complexes and management systems. - VSTU. - 2009/3 (11)).

The technical essence of the invention is illustrated in the drawing.

The device consists of a main transformer 1; boost booster transformer 2; thyristor keys 3 and 4; phase-sensitive block 5, made in the form of measuring transformers 6 and 7, zero-organs 8 and 9, the logical element "And" 10; block comparison 11, made in the form of a zero-organ 12, logical elements "OR" 13 and "AND" 14; an amplifier 15, the output of which is connected to the control electrodes of the thyristor switch 3; a delay element 16, the input of which is connected to a voltage measuring transformer 18 through an auxiliary null-organ 19; an amplifier 17, the output of which is connected to the control electrodes of the thyristor switch 4; measuring voltage transformer 18; auxiliary null-organ 19, the input of which is connected parallel to the output of the voltage measuring transformer 18, and its output through the delay element 16 is connected to one of the inputs of the auxiliary logic element “I” 20, the second input of which is connected directly to the output of the comparison unit 11, and its output - with the control electrodes of the thyristor switch 4 through the amplifier 17; the logical element "And" 23, one of the inputs of which is connected to the output of the comparison unit 11 through the logical element "NOT" 21, and the second input of the logical element "And" 23 through the delay element 22 and the auxiliary zero-organ 19 is connected in parallel with the output of the voltage measuring transformer 18, the output of the AND gate 23 is connected to the input of the auxiliary OR gate 24, the second input of which is directly connected to the output of the phase-sensitive unit 5, and the output of the auxiliary OR gate 24 is connected Erez amplifier 15 to the control electrodes of the thyristor switch 3; an additional element 25 that implements a different time conducting state of each of the two thyristors of the thyristor key, the input of which is connected to the output of the amplifier 17 and one of the control electrodes of the thyristor key 4, and the output is connected to the other control electrode of the thyristor key 4.

The device operates as follows: at the time when the supply voltage is supplied to the main transformer 1, a voltage appears on the thyristors 3 and 4, which is supplied through the measuring transformers 6 and 7 and the zero-elements 8 and 9 to the two inputs of the logical element "And" 10 phase-sensitive block 5, and through a voltage transformer 18 and a zero-organ 12 to the input of the logic element "And" 14 of the comparison unit 11 and the delay element 16 through an auxiliary zero-organ 19. The generated signal from the output of the phase-sensitive block 5 is one at the same time, through the auxiliary element "OR" 24 is fed to the input of the amplifier 15, which processes the signal at its output, and to the input of the logic element "OR" 13, as a result of which a voltage appears at the output of the comparison unit 11, which remains until the network passes through zero value.

From the output of the comparison unit 11, the signal is supplied to one of the inputs of the auxiliary element "And" 20, the other input of which receives a signal from the output of the delay element 16, which starts when the voltage passes through the zero value.

Next, the signal that appears at the output of the amplifier 15, opens a parallel thyristor switch 3, which leads to the removal of the signal at the output of the phase-sensitive unit 5.

In turn, in accordance with a given control angle, a pulse is generated at the output of the delay element 16, which is supplied through an auxiliary logic element “I” 20 and an amplifier 17 to an additional element that implements a different time of the conducting state of each of the two thyristors of the thyristor switch 25 connected to one of the control electrodes of the thyristor key 4, the output of which is connected to the other control electrode of the thyristor key 4. In this (first) mode, the delay of the adjustable element 25 has zero beginning.

Turning on the thyristor switch 4 leads to turning off the thyristor switch 3, since the latter is under reverse voltage, i.e. the introduction of booster EMF from the primary winding of booster transformer 2 in the power circuit of the main transformer 1.

The opening of the thyristor switch 4 leads to a release of voltage at the output of the auxiliary null-organ 19 and its appearance at the output of the null-organ 8.

This state of the circuit is maintained until the time when the mains voltage passes through the zero value and for a short time as a result the voltage at the outputs of the zero-organ 12 and the auxiliary zero-organ 19 disappears, which leads to the removal of the signal at the output of the delay element 16 and the output of the comparison unit 11.

In this case, the state of thyristor switches 3 and 4 does not change, thyristor switch 3 is closed, and thyristor switch 4 conducts current until the moment when the load current passes through a zero value, after which the thyristor switch 4 naturally turns off and voltage appears at the auxiliary zero output body 19.

Thus, it is possible to introduce a boost boost EMF over a period of time from the moment the current passes through the zero value to the moment the voltage passes through zero.

To enter the boost boost EMF during the time from the moment the voltage passes through the zero value to the moment the current passes through zero, it is necessary to control the moment of turning on the parallel thyristor switch 3, which is carried out using the delay element 22, the logical element "AND" 23, the logical element "NOT" 21, the auxiliary logic element "OR" 24.

The logical element "NOT" 21 inverts the signal from the output of the comparison unit 11, thereby creating a condition for the output of the logical element "AND" 23 to pass the control signal from the output of the delay element 22 to the input of the auxiliary logic element "OR" 24 and then to the input of the amplifier 15 only during the time from the moment the voltage passes through the zero value to the moment the current passes through zero.

The supply of a signal from the output of the auxiliary null-organ 19 ensures the start of the delay element 22 and the subsequent removal of the signal from its output at the moments of passage of the mains voltage through a zero value.

In the case of a signal from the output of the delay element 22 during the time from the moment the current passes through the zero value to the moment the voltage passes through zero, the signal passage to the auxiliary logic element "OR" 24 is blocked by the absence of an enable signal at the output of the logic element "NOT" 21.

In the case of a signal from the output of the delay element 22 during the time from the moment the voltage passes through the zero value to the moment the current passes through zero, the thyristor switch 3 is turned on.

Turning on the thyristor switch 3 leads to turning off the thyristor switch 4, since the latter is under reverse voltage.

This state of the circuit is maintained until the moment when the current passes through the zero value. At this moment, the parallel switch 3 is naturally turned off and voltage appears at the output of the null-organ 9 of the phase-sensitive unit 5.

Next, the processes proceed similarly to those described above in the first mode (voltage regulation).

Claims (1)

An AC voltage regulator containing the main and boost transformers, the first and second thyristor switches, a phase-sensitive block made in the form of two measuring transformers, two zero-organs, a logical element "I", a comparison unit made in the form of a zero-organ, logical elements " OR ”and“ AND ”, an amplifier whose output is connected to the control electrodes of the first thyristor switch, a delay element, the input of which is connected to a voltage measuring transformer through an auxiliary zero-org en, an amplifier, the output of which is connected to the control electrodes of the second thyristor switch, a voltage measuring transformer, an auxiliary zero-organ, the input of which is connected in parallel with the output of the voltage measuring transformer, and its output through the delay element is connected to one of the inputs of the auxiliary logic element "I", the second input of which is connected directly to the output of the comparison unit, and its output is connected to the control electrodes of the second thyristor switch through an amplifier, logic element “I”, od n from the inputs of which is connected to the output of the comparison unit through the logic element “NOT”, and the second input of the logic element “AND” through the delay element and the auxiliary zero-organ is connected in parallel with the output of the voltage measuring transformer, the output of the logic element “AND” is connected to the input of the auxiliary logic “OR” element, the second input of which is directly connected to the output of the phase-sensitive block, and the output of the auxiliary logic element “OR” is connected through an amplifier to the control electrodes Vågå thyristor key, characterized in that the control circuit of one of the thyristors of the thyristor of the second key introduced an additional element realizing different times of the conductive state of each of the two thyristors of the thyristor of the second key.

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