SU716122A2 - Device for supply of high-voltage rectifier intrinsic needs - Google Patents

Description

The invention relates to electrical engineering and a cuff to be applied to control transducers for various applications, for example, in high voltage thyristor (HTV) valves of direct current electrical transmissions.

According to the main copyright certificate 353642 known device. , for power supply of high voltage THY35 rectifiers, containing at least one controllable and power take-off unit, formed by a chain of serially connected unmanaged gate and 1 {capacitor, switched on pair пара but controlled valve, and ) g of the threshold element, the outlet of which is connected with the control of the valve electrode.

However, the voltage stabilization at the storage capacitor is low.

In addition, since the charge of the storage capacitor takes place impulsively, almost instantly, and the discharge goes on continuously, which leads to an increase in the value of the pulsations on the storage capacitor.

The aim of the invention is to reduce the magnitude of the pulsing voltage on the storage capacitor.

This is achieved by the fact that the device for powering its own needs of high-voltage rectifiers is equipped with an additional capacitor, a supportive diode, a pulse transformer, a threshold-key element, an auxiliary diode and a thyristor, connected with a circuit consisting of successively connected throttles and a switching capacitor, and a capacitor the circuit is connected to the controlled valve in parallel via the auxiliary thyristor, which is connected in parallel with the auxiliary diode, in parallel to A separate capacitor of a series-connected additional capacitor and a retaining diode is connected to the heating capacitor; the threshold element with the series is connected antiparallel to

5 connected to the primary winding of a pulse transformer, while its secondary winding is connected to the control electrode of the auxiliary thyristor.

The drawing shows a device for supplying own needs of high voltage rectifiers. As an example, take a shoulder, a high-voltage rectifier, consisting of series-connected thyristors 1, with alignment chains, consisting of 1 of 1 series-connected capacitors 2 and a resistor 3, At the power takeoff potential, thyristors 4 are connected in series with thyristors 1 with a subclicated antiparallel diode 5. Allene to this thyristor is included the node bbd; a series-connected rectifying diode 6 and a storage capacitor 7 connected in parallel to the thyristor 4, with the positive capacitor 7 being connected via a zener diode 8 to the control electrode of the thyristor 4, a chain connected in parallel to the thyristor 4 consisting of series-connected switching capacitor 9, throttle 10 , thyristor 11 with A1NTY parallel connected auxiliary diode 12. Parallel to the storage capacitor 7 is connected Kepechka in series with Connected additional capacitor 13 and a-retaining diode 14, antiparallel to the second podplizchen dynistor 15 with a series-connected primary winding 16 of the pulse transformer 17, the secondary winding 18 of which is connected to the control electrode of the auxiliary thyristor 11. A load 19 is connected to the storage capacitor 7, before the storage capacitor 7 is connected, there is a current 19, preceded by a secondary thyristor 11. By way of example, a shaper of wide control pulses connected through the pulse distribution system 20 to the TIELISTOR 1 control circuits - the circuit works as follows th.

When applying a paralyzed voltage to either the shoulder of the mittel, consisting of thyristors i and 4, with a positive half-period of ax n ap: key and capacitors 2, resistors 3 and diode 6, a storage capacitor 7 is charged and an additional capacitor 13 is charged through diode 14. In addition to that, the charge of the switching capacitor 9 is simultaneously charged through the choke 10 and the auxiliary diode 12.

Negative Ioluvolna voltage Hrffl is shunted by diode 5. When the voltage on these capacitors 7 and 13 is exceeded, the voltage level of the threshold of the stabilizer 8 unlocks the thyristor 4, which shuits the positive half-wave of the leakage current.

When starting the shaper 19. Wide pulses in accordance with

The phase of the voltage through the pulse distribution system 20 turns on the power thyristors 1. The storage capacitor 7 through the open thyristors 1 and the diode 6 begins: to be charged by the shoulder current. But since the magnitude of the discharge current of the storage capacitor | On the load 19 is much less than the magnitude of its charge current, then at the very beginning of the passage of the power. The current through the rectifier shoulder produces the thyristor 4 in accordance with the description. In this case, the charging of the storage capacitor 7 is stopped, and in its discharge through the load 19 continues. By reducing the initial voltage on the storage capacitor 7 below a predetermined level determined by the threshold of the dynistor 15 and equal to the difference of the voltages on the additional capacitor 13 and the storage capacitor 7, the switching of the dynistor 15 occurs. At the same time, the additional capacitor 13 discharges into accumulated The capacitor capacitor 7, through the pre-installed dynistor 15 and the primary winding 16 of the pulse transformer 17, generates a control pulse, which through the secondary winding 18 turns on the thyristor 11. The switching capacitor Ator 9 begins to discharge through the tyre "stor 4, auxiliary thyristor 11 and choke 10. Since the capacitor 9 has created conditions for free oscillation in the discharge circuit of the commutator of the capacitor 9, then when it is recharged to the cathode of the thyristor 4, the Circassian diode 12 is applied a positive voltage, which suppresses this thyristor. In this case, a power current is provided to charge the capacitors 9, 13, and 7 as described above. When charging the storage capacitor 7 before the voltage damage, the value of Kotoporo is set by the zener diode 8, the subsequent switching on of the thyristor 4 switches to the last power current, and the process repeats.

Thus, the storage capacitor 7 maintains a stabilized voltage for the entire period of the passage of the power current through the shoulder of the high-voltage rectifier. As follows from the above, the range of possible variation of the voltage value on the storage capacitor can be preset. The maximum value of the voltage on the storage capacitor 7 is determined by the stabilization voltage of the Zener diode .8, and the lower value is determined by the voltage of the dynistor triggering threshold 15.

The proposed device provides unchanged, predetermined:

The level of the voltage ripple voltage in all modes of operation of the converter's shoulder. Invention Formula

The device for supplying its own needs to high-voltage rectifiers oil according to bus no. 353642 is required so that, in order to reduce the voltage ripple voltage on the storage capacitor, it is equipped with an additional capacitor, a supporting diode, a pulse transformer with a threshold-key element, auxiliary diode, thyristor and a switching circuit.

consisting of Ie series-connected throttles and a switching capacitor, with the switching circuit connected in parallel to the controlled valve via an auxiliary thyristor, antiparallel to which the auxiliary diode connected, parallel to the storage capacitor, a chain of a series-connected additional capacitor and a booster diode connected antiparallel to the threshold-key element with a series-connected primary winding of a pulse transformer, p At the same time, its secondary area is connected with the control of the auxiliary thyristor electrode.

Claims (1)

Claim A device for supplying the auxiliary needs of high-voltage rectifiers according to Autosw.No.353642, the only difference is that, in order to reduce the voltage ripple on the storage capacitor, it is equipped with an additional capacitor, a retaining diode, and a pulse threshold transformer a key element, auxiliary diode, thyristor and switching circuit, consisting of a series-connected inductor and a switching capacitor, and the switching circuit is connected in parallel to the controlled valve through spomogatel5 ny thyristor antiparallel is connected to the auxiliary diode, parallel to the storage capacitor connected to a chain of serially connected dopoljq tional condenser and the booster diode antiparallel to which it is connected are threshold-key element serially connected primary winding of the pulse transformer, while its secondary about ^kOe coil associated with control electrode auxiliary thyristor.