SU547937A1 - Device for controlling the output amplifier of a static converter - Google Patents

Description

(54) DEVICE FOR CONTROLLING THE OUTPUT AMPLIFIER OF THE STATIC CONVERTER

The thyristor 10 is connected to the phase-shifting device 12 through the prohibition thyristor 13. The control electrode of the prohibition thyristor 13 is supplied with a trigger pulse synchronized with the traction network from the pulse generator 14. In parallel with the prohibition thyristor 13, the rectifier bridge output 15 is connected and its input is connected to the input of the static converter 1. The discharge capacitor through the auxiliary thyristor 16, controlled by the pulse generator 17, is connected in parallel to the inhibit thyristor 13. As an impulse generator 14,17 standard phase control nodes (e.g., vertical control) may be used.

In the normal mode of operation of the generator, the load current is adjusted by varying the voltage of the power transformer and the output voltage of the static exciter by means of phase regulation. Thus, by changing the opening angle of the thyristor 10 using a phase shifter 12, the output amplifier generates pulses removed from the secondary windings of the pulse transformer 11. These pulses are phased relative to the half-wave of the voltage supplied to the static driver, and phase-controlled rectified voltage. FIG. Figure 1 shows the control channel for one half-wave of the exciter voltage.

At unsteady modes, the inverter load current changes, which, in turn, leads to an increase in the switching angle (7) of the thyristor arms, and, consequently, to a decrease in the safety angle (b). When the safety angle decreases below the critical one, the stable operation of the inverter and the consequence is that the inverter overturns, a mode dangerous for the inverter's electrical equipment. However, the proposed device removes the control pulses from the thyristors of the static exciter, the recovery current decreases, which leads to an increase in the reserve angle of the inverter and thus the tilting mode is prevented. For this purpose, a prohibition thyristor 13 is injected into the control circuit of the discharge thyristor 10, which is switched on by supplying a trigger pulse (Fig. 2.6) from the individual generator 14 in the presence of inter-channel voltage (Fig. 2, a) removed from the output of the emergency bridge 15, the input of which is connected to the input of the static converter 1. In the case of decreasing the inverter reserve angle below the critical inter-voltage voltage on the inhibit thyristor becomes zero and the thyristor 13 does not turn on, and accordingly the thyristor does not open or bit 10. Thus, the output amplifier does not control

impulses on thyristors static exciter. With an increase in the margin of the margin above the critical, the operation of the output amplifier resumes. To ensure that the prohibition thyristor 13 is turned on at time i It / w, when the inter-anode voltage removed from the top of the receiver decreases to zero, the precharged discharge capacitor 8 is charged to the anode circuit of the prohibition thyristor 8 through the auxiliary thyristor 16, on a control electrode of which, at time i, is supplied a trigger pulse (Fig. 2, c) from the generator 17.

Claims (3)

1.Tikhmenev B.N., Trakhtman L.M. Rolling stock of electric railways, M .; Transport, 1969. 2.Novikov OI. Thyristor control system in regulated power plants of electric rolling stock. Proceedings of VNIIZhT Study of Electric Locomotives and Variable Electric Trains current, out 312, Transport, With ,, 1966., with. 48-64. 3.Technical report № 73027285 UDC 621.335.2.04.001.4 p. 8 - the use of an AC electric locomotive of 25 KB 50 Hz with regenerative braking of type VL80R on thyristors T2-320, Novocherkassk, 1974 (prototype). LL W WITH eleven with 7J .mf14g .1 zg G: 57G Jl 2 S