SU572884A1 - Sele-contained voltage inverter - Google Patents

Description

Topa and series-connected bias resistor 37 and power supply. To automatically regulate the voltage on the capacitor 32, current sensors 38, 39 and 40 are connected in series with the load phases, which are connected to the control system 41, which pulses the control electrodes of the switching thyristors 20-25, 27-30, 34 and 35.

The inverter works as follows.

Let at the initial moment of time thyristors 1, 3, 5 be open and, for example, on the switching capacitor 32, on the switching capacitor 32 it has the form shown in FIG. 2a At the same time, the capacitor 32 plate has a positive potential.

At time ti, the switching process of the thyristor 1 begins.

To turn off the thyristor 1, control pulses are applied to the thyristors 20, 27 and 30. The capacitor 32 begins to recharge along the circuit 32-33-30-36-27-32 (see Fig. 2a), and the difference in load current flows through the thyristor 1 phase L / d and the current of the specified oscillation circuit hz, given through the transformation ratio to the secondary winding 13 of the transformer 19 (see Fig. 26). At the instant of time, the current / 3 becomes more current / d. The difference of these currents begins to flow through diode 7, and the thyristor 1 is under reverse voltage and is locked. The current reaches the minimum value, and then drops, and at the instant of / 3, BEFORE the 1z2 current drops to the current / d, a triggering pulse is applied to the thyristor 35 and a control closing pulse to the thyristor 20.

When the thyristor 35 is turned on, the thyristor 30 anode is more negative than its cathode and the thyristor 30 is locked. At the same time, a small bias current flows through the winding 36 of the transformer 19 (its value is determined by the ratio of the inverter power supply voltage and the resistor 37) and the magnetizing current of the transformer 19. The winding 13 also transforms only a small current (current Y Fig. 2d). Therefore, the conditions for locking the thyristor 20 are substantially improved.

At time 4, the current iaz drops to zero and the thyristors 27, 30 are turned off. During the time interval (), capacitor 32 is recharged to the voltage of the required magnitude, and the core of the pulse transformer with a rectangular hysteresis loop under the action of the bias current reverses to the initial state, after which next switching is possible in principle.

Adjusting the time for applying the delay of the pulses to the thyristor 35 relative to the pulses to the thyristors 27 and 30, or, equivalently, the delay time to the unlocking and locking pulses to the thyristor 20 (and the next commutation

the delay time of the control pulses on the thyristors 28, 29 and 34), it is possible to change the value of the initial voltage on the capacitor 32, and hence the amplitude of the current in the switching chain. In this case, it is possible to carry out feedback on the magnitude of the load current on the system of control by 41 thyristors 20-25, 27-30, 34-35 and, thus, automatically adjust the amplitude of the current

in the switching circuit, that is, the switching capacity of the switching node, depending on the magnitude of the load current.

Potential separation of the switching circuit from the power thyristors using

pulse transformer and the inclusion of parallel to the switching chain of counter-connected thyristors, the cathodes of which form a common point and are connected to the negative power supply bar

the voltage favorably distinguishes the proposed inverter from the known ones, since while maintaining the minimum number of reactive elements, the switching of the valves is ensured, and the regulation of the current amplitude in

a switching chain is reached without an additional power source. It is important to note that the reduction of the anode current in two-irradiation thyristors at the time of supplying the control locking impulses gives a significant improvement in the conditions of locking the dual-operation thyristors in the device, thereby contributing to an increase in the maximum power switched by the switching node under other equal conditions.

Claims (3)

1. Copyright certificate № 495749, cl. H 02M 7/515, 08.02.71. 2. Copyright certificate N ° 350111, cl. P 02M 7/515, 1970. 3. Reports of the All-Union Scientific and Technical Conference “Application of thyristor converters in the power industry, vol. 2, M., 1972, p. 284-293. fffoooS 20-25, Z7-Ji7, 34-, 35