SU652667A2 - Controllable rectifier - Google Patents

Description

(54) CONTROLLED RECTIFIER:

 , 1 The invention relates to power engineering (converter technology and is complementary to the author's certificate No. 468342. The controlled rectifier according to aut. St. 468342 has limitations on the control range of the input power factor and the output power. This is due to the fact that the angles rectifier control can be changed only in the range corresponding to the conduction angles of the uncontrolled rectifier valves to a limit of 60 degrees in. When control pulses are applied to the valves before the moment, the The rectifier is not disturbed, the required switch pattern for the cathode group valves is violated. As a result, the setpoint values of the output voltage and the input power factor become difficult C. The aim of the invention is to expand the range of the input power factor of the rectifier. the charge thyristor connected between the negative poles of the bridges is connected to the negative pole of the power bridge through a diode in the conductive direction. FIG. 1 is a schematic diagram of the device; FIGS. 2, 3, 4 are timing diagrams of the rectifier operation. The device consists of a power controlled multiphase bridge on thyristors 1-6, an auxiliary uncontrolled bridge on diodes 7-12, two charge thyristors 13 and 14.. One forced switching node contains a switching capacitor 15, a choke 16 and a recharge thyristor 17. A positive bridge is connected to the positive regiment,. :: ohm of the power bridge via a thyristor 18. The connection point between the throttle and the recharged thyristor is connected to the positive pole of the power bridge through diode 19. In parallel with the load, the zero valve 20 is turned on. Another node The switching circuit contains a switching capacitor 21, a choke 22 with a series-connected recharge thyristor 23, With a negative pole of the power bridge, the switching node is connected through the thyristor 24. The connection point of the throttle and the recharge thyristor is connected to the negative pole-force bridge through diode 25 ..

The device works as follows.

When the control signals are applied to thyristors 13 and 14, the switching capacitors are charged with the polarity of the indicated neither fig. 1 without brackets. After that, control signals are supplied to thyristors 17 and 23. Due to the chokes of 16 and 22, the capacitors are recharged with the polarity indicated in FIG. 1 in the side. To lock the power bridge power drivers, the control signals to the thyristors 18 and 24 are applied. The voltage of the switching capacitors through the auxiliary uncontrolled rectifier is applied to the power thyristors 1-6 in the lock direction, which leads to their switching. In addition to the circuit containing the load, Perezard capacitors are provided with additional circuits:, 15-18-19-16-15, and 21-22-24-25-21. After the voltage on the capacitors with the polarity indicated on WtV 1 without brackets has been restored, the thyristor 18 and 24 are locked. Then the cycle repeats.

The functional OPTIONS of the diagrams are indicated by the timing diagrams in FIG. 2, 3, 4. FIG. 2 shows the timing diagrams of the operation mitel with a power factor equal to one. With this control algorithm, the power valves operate in pairs with a pause between switching on the alternate pairs. - FIG. 3 shows the timing diagram of the work of the Vypra, mItel with a leading factor Tibschybsty. There are no pauses in the conduction of the keys of the power bridge

therefore, turning on valve 20 is not necessary.

With such a control algorithm, the introduction to the rectifier circuit of diode 25 can be significantly expanded. possible control range of input power factor and output voltage. In the absence of a diode 25, the supply of an enable pulse to the power valve 6 in accordance with the timing diagrams in FIG. 3 would not have opened this valve. This is due to the fact that all the valves of the cathode group of the power bridge are connected by anodes through recharge choke 22 and diodes 8, 10, 12 of the auxiliary MocTai to the network and at the moment of applying the pulse to valve 6, the most negative potential has valve 4. Therefore, in the absence of diode 25, the rectifier operation is possible only in the range of control angles corresponding; unmanaged rectifier / as shown in FIG. 2 ..

Claims (1)

1. USSR author's certificate No. 468342, cl. H 02 M 7/12, 25.Q4.75