SU734860A1 - Thyristorized ac voltage regulator - Google Patents

Description

(54) THYRISTOR REGULATORY VARIABLE VOLTAGE

The invention relates to the field of variable voltage applications on a variable active-inductive load. IN ADAPTABILITY, IT MAY BE

Calibrated for smooth start. and speed control of asynchronous digits.

Known regulators of variable on. yarns containing a power unit and control circuit galvanically connected to the power unit

In these controllers, the output Hanpst Opinion is altered by. phase principle.

The disadvantage of these thyristor controllers is that the duration of the control pulses depends on the magnitude of the load and varies with the measurements of its parameters. In addition, in the l3 regulator circuit, the presence of a synchronizing transformer, sources of bias and control leads to an increase in the size and weight of the device, since each source contains rectifying diodes, a smoothing filter, and a transformer. And in the regulator circuit, And the control current of the power thyristor flows through the regulator load, which is a disadvantage, since with large load resistance the condition of opening of the thyristors is worse.

Claims (2)

It should also be noted that with high inductance to the load and a relatively smaller value of the load resistance, the voltage on the control electrodes of the power thyristor may reach unacceptable values, which is the reason why the thyristor is out of order. that the thyristors are opened asymmetrically in the half-cycle of the mains voltage. This happens because there are two transistors in the U-circuit, which have a technological variation of the gain factor, as a result of which the asymmetry of the switching-on of the transistors is aspirated, which in turn leads to the asymmetry of the unlocking of the thyristors, A to circuit 2, the slope of 734860 rsdn of control current of power thyristors is small and is determined by paparameters of active-inductive load. Consequently, due to the presence of a large variation in the magnitudes of control currents of the same type of thyristors, When the time ti-unlocking Ristori, is known From e7 thyristor regulators alternating voltage most close in the technical essence to the invention with tiristbrny regulator, opisanngy 4). This regulator consists of a bidirectional controlled key connected to the variable active-inductive load, made, for example, in the form of two oppositely connected thyristors and diodes, and connected along the circuit yrt to the cathode of a low-power thyristor connected to its common point by its anode a chain of a ballast resistor and a zener diode, through which the driver of control pulses is connected to the output of the rectifier connected by its input to the input terminals of the controller. However, in this controller The control pulse depends on the load parameters, which, moreover, reduces the steepness of the leading edge of the control pulse and makes it difficult to turn on the key at the beginning of the half of the mains voltage. In addition, under certain conditions in this controller, a case is possible when a current running through a thyristor switch's control junction passes a direction opposite to the load current and causes the latter to decrease. The purpose of the present invention is to increase the reliability of the controller by ensuring the independence of the duration of the control pulse on the load parameters. The goal is achieved by the fact that each thyristor of the specified key is shunted by a chain of two interconnected auxiliary diodes and opposite to the thyristor of auxiliary diodes; An anode of a low-power thyristor is connected, and a separating diode is connected in series with each key thyristor. The drawing shows a thyristor variable voltage regulator. Tristor AC voltage regulator contains two pairs of counter-connected thyristors 1, 2 and diodes 3, 4 of separation diodes 5, 6, connected in series to power thyristors, low-power auxiliary diodes 7, 8 and 9, 10, shunting respectively power thyristors 1 and 2 , two parallel chains, one of which consists of a series-connected capacitor 11 and a resistor 12, and 93 another — 93 Low-power additional diodes 13, 14 that are on-line, the anodes of which are connected to a ballast resistor 15 and the Zener diode 16, low-power rectifier assembled on diodes 17, 18, 19, 20, thyristor 21, whose cathode is connected to power thyristors, respectively, through diodes 22, 23, and pulse driver 24. Load 25 is connected between common points of diodes 3, 5 and 4, 6, respectively. The essence of the operation of the circuit is as follows. A variable voltage is applied to the clamps 26, 27. Let clamp 26 have a positive potential relative to clamp 27. Then the mains voltage is rectified by diodes 17, 18, 19, 20 And part of the rectified voltage is stabilized by the zener diode 16. Upon receiving power from the zener diode 16, the pulse shaper 24 forms a pulse at the input of the thyristor 21 and the last is unlocked. In this case, an unlocking current of the power thyristor 2 along the circuit is formed: clamp 26, diode 17, resistor 15, thyristor 21, moR 22, control transition of the thyristor 2, clamp 27. This forms a holding current of the thyristor 2 in the open state, regardless of the parameters load 25, c & pi: clamp 26, diode 17, resistor 15, diode 14, diode 10, thyristor 2, clamp 27., From the moment of unlocking the thyristor 2, the chain consists of 5 serially connected thyristors 21, diode 23, governing transition thyristor 2 is shunted by a circuit consisting of a series-connected diode 14, diode 10, and Stora 2. As a result, the current flowing through the control transition of the power thyristor 2 disappears automatically formed and trailing edge uprav573 lunoJUGio mmpulg.sa. Simultaneously from the time 141 of the thyristor 2, the holding current of the thyristor 2 flows in the open state along the circuit: clamp 26, diode 7, capacitor 11, resistor 12, diode 10, thyristor 2, clamps 27. It should be noted that due to the absence of inductance In the circuit where the thyristor holding current is formed in the open state, the duration of the triggering pulse of the power thyristor is determined by its own turn-on time of the thyristor. The load current is formed on the circuit: clamp 2.6, diode 3, load 25, separation diode 6, thyristor 2, clamp 27, Similarly, the thyristor 1 is unlocked. At a positive potential of clamp 27 relative to the potential of clamp 26, the network voltage is rectified by diodes 17, 18, 19, 20 and a part of the rectified voltage is stabilized by the zener diode 16, the voltage of the latter supplies s to the input of the pulse driver 24 and a pulse is formed at the input of the thyristor 21, as a result of which the latter is unlocked. In this case, the unlocking current of the power thyristor 1 along the circuit is formed: clamp 27, diode 18, resistor 15, thyristor 21, diode 23, control thyristor junction .1, clamp 26; In this case, the thyristor 1 is held in the open state by the current flowing through the circuit: terminal 27, diode 18, resistor 15, diode 13, diode 8, thyristor 1 ,. clamp 26. From the moment the thyristor 1 is unlocked, the chain consisting of a series-connected low-power thyristor 21, diode 23, controls the thyristor junction 1 (pa 1 is shunted by a circuit consisting of series-connected diode 13, diode 8, thyristor 1. As a result, the current, flowing through the control switch of the resistor 1, the leading edge of the control impulse will automatically disappear. Simultaneously from the moment of unlocking, the thyristor 1 flows the holding current of the iriver I in the open state along the circuit: terminal 27, diode 9, resistor 12, capacitor 11, di 8, thyristor 1, clamp 26. The load current is formed along the following circuit: clamp 27, diode 4, load 25s separating the diode 5, thyristor 1, clamp 26 Thus, the duration of the unlocking pulse of the power thyristors 1, 2 remains narrow and does not depends on the parameters of the load 25 and on the change, since the thyristors 1, 2 are unlocked and kept in the open state by the current of the holding (auxiliary) circuits, due to the presence of dividing diodes 5, 6, which separate the load circuits 25 and the indicated (auxiliary ) retention net. The claims of the Thyristor AC voltage regulator consisting of a bi-directional thyristor switch connected to a variable inductive load circuit and connected to a cathode of a low-power thyristor connected to the common point of the chain from a ballast resistor and a zener diode connected to a pulse shaper control is connected to the output of a mittel connected by an input to the input of the controller, characterized in that, in order to increase reliability by providing He3aBHcmv (o cTH of the control pulse duration from the load parameters, each thyristor of the indicated key is shunted by a chain of two diodes connected according to each other and opposite to the thyristor, the common points of these chains are connected through a series-connected capacitor and resistor, to each of these points through an additional diode An anode of a low-power thyristor is connected in the forward direction, and a separating diode is connected in series with each thyristor. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 342268, cl. H 02 M 5/22, 1970. 2. USSR Author's Certificate No. 519831, cl. H 02 M 5/257, 1974, 3. | B. I. I. and fsp. Pulse control circuits for thyristor amplifiers, M., 197O, p. 68. 4. Thyristors (technical reference), M: Energie, 1971, p. 240, fig. 9-32.