SU637929A1 - Controllable ac-to-dc converter - Google Patents

Description

The invention relates to a converter technique and can be used to power various installations with a rectified current. Devices for direct current control are known, comprising an uncontrolled bridge rectifier, controllable switches and two series-connected capacitors connected in parallel to the load, in which one of the extreme outputs is connected to one of the output terminals of the rectifier. However, such devices provide a voltage variation on the load from U to 2 U, which is not enough to power some installations. In addition, at least two controllable keys are used to control these devices. The purpose of the invention is to expand the adjustment range and simplify the converter. This is achieved by the fact that in the proposed converter, the other extreme output of the capacitors is connected via a controlled key to another output, and the average point of the capacitors is connected to one of the input terminals of the uncontrolled rectifier. Such an embodiment of the converter provides the range of change of the alternating voltage from 0 to 2U with the help of one controlled key. The drawing is a schematic diagram of the described converter. Terminals 1–3 are connected to a three-phase network line wires (rectifier input). The converter contains rectifying power diodes 4–9, controllable key 10, for example, a thyristor, and capacitors 11 and 12. A damping diode 14 is connected to the load 13 if the load is active-inductive in nature. Power diodes 4-9 form a three-phase bridge unbalanced rectifier. The Converter operates as follows. The rectified voltage is directly on one side, and on the other, through the thyristor, is supplied to the load 13. Due to the capacitors 11 and 12, the voltage on the load 13 increases (the voltage doubles). When the thyristor is unlocked, when a control voltage is applied to its control electrode, the voltage on the load and the current take the maximum value. To disconnect the load, release the release voltage from the control electrode of the thyristor. Then at the time of passing the negative half-voltages in the linear wires 1 and 2 and a positive value (the positive I half-wave in the linear 4 wire 3, the rectified voltage applied to the thyristor on one side becomes less than the counter-voltage of double value on the capacitors 11 and 12 with another STOR01Sh,

why the thyristor is locked securely.

By periodically switching the thyristor with different turn-on duration and on-off duty cycle, the voltage on the load (and go) from zero to twice the value of the mains voltage can be adjusted.

The economic efficiency from the use of the invention is determined by the simplification of the converter circuit by reducing the number of controllable keys by expanding the output voltage control range by a factor of two.

Claims (1)

Invention Formula An adjustable AC-to-DC converter containing an unmanaged bridge rectifier, a control switch and a parallel connection to the output pins of the converter from two series-connected capacitors, one end of which is connected to one of the output terminals of the JlSj rectifier. characterized in that, in order to expand the control range and simplify, the other end of the circuit is connected via a controllable key to another output terminal, and the connection point of the capacitors to one of the input terminals of the rectifier.