SU346773A1 - THYRISTOR TRANSFORMER WITH WIDE-PULSE MODULATION - Google Patents

Description

The invention relates to the field of pulsed technology and can be used in various systems of automatic regulation.

A thyristor converter with pulse-width modulation is known, containing two voltage sources and two working thyristors, between the common points of which are the primary winding of the main transformer loaded on the rectifier and the switching circuits consisting each of the switching thyristor, capacitor and the primary switching winding the throttle connected in series to the working thyristor circuit, the secondary winding of which through a diode is connected to the power supply busbars.

The purpose of the invention is to improve the frequency and load characteristics and reduce losses in the converter.

The goal is achieved by connecting additional transformers on ferrites with rectangular hysteresis and auxiliary thyristors to the secondary windings of commuting chokes, and the windings of each additional transformer are connected in series with the secondary winding of the switching throttle, the second winding whose ampeaters are directed opposite to the first one connected in series load, and a third of the core is connected between the control electrode and the cathode of the auxiliary thyristor.

FIG. 1 shows a diagram of the device; on

FIG. 2 - time diagrams of his work.

The converter contains two working transistors 1 and 2, two switching circuits consisting of thyristor 3 or 4, capacitor 5 and switching throttle 6 or 7, respectively, the main transformer 8, two sources 9 and 10, for example, rectifier: and load 12. The secondary windings of commutating chokes 6 and 7 include additional transformers 13 and 14 on ferrites

with a rectangular hysteresis loop and auxiliary thyristors 15 and 16, respectively. At the same time, the amperages of the windings of additional transformers connected in series with the secondary windings of chokes

6 and 7, and the windings connected in series in the load circuit, are directed oppositely; the load 12 is inductive in nature (in Fig. 1, the LC filter consisting of chokes 17 and the filter capacitor 18 is in front of the load).

Thyristors / and 2, alternately connecting the transformer 8 to the source 9 or 10, create on it rectangular alternating pulses (Fig. 2, c). The width of each pulse is determined by the time between the feed and the corresponding switching thyristors. FIG. 2.6 shows the control pulses of the thyristor 1; FIG. 2, c — thyristor control pulses 3. The voltage from the transformer 8 is rectified on rectifier 11. Thus, the average value of the voltage on the load is proportional to the fill factor of the rectified voltage. When the switching thyristor is switched on, the corresponding working thyristor is turned off, and an oscillating process occurs in the corresponding circuit (in Fig. 2, d the voltage diagram is shown, in Fig. 2, d is the current diagram in the switching choke 6. The thyristors 15 and 16 shunt the switching chokes to when the working thyristors are turned on. Due to this, the rise of the leading edge on the load and the current rise rate do not depend on the inductance of the chokes. Transformers 13 and 14 are used to form a signal (Fig. 2, e) to turn off the thyristors / 5 and / 5 at the moment of equal load current ampere and discharge current of energy stored in the inductor (through diodes 19 or 20 for the corresponding circuit). In Fig. 2, a current diagram in the secondary winding of the drossel 6 is shown. using a load current creates a kind of feedback on the load current, which allows to improve the load characteristics of the converter. Item of the Invention Thyristor converter with pulse-width modulation, containing two voltage sources and two working thyristor, between the common points of which the primary winding of the main transformer loaded on the rectifier and the switching circuits is included, consisting each of the switching thyristor, capacitor and the primary winding of the switching throttle connected in series to the working thyristor circuit, the secondary winding of which is connected via a diode to the buses power supply, characterized in that, in order to improve its frequency and load characteristics and reduce losses in the converter, the secondary windings of the comm additional transformers on ferrites with a rectangular hysteresis loop and auxiliary thyristors, the first winding of each additional transformer is connected in series with the secondary winding of the switching throttle, the second winding, the second winding, whose ampere turns are counter-first, is included in the circuit, the load and a third winding between the control electrode and the auxiliary thyristor cathode.