SU728201A1 - D.c. to d.c. voltage converter - Google Patents

Description

(54) CONVERTER, VOLTAGE TO CONSTANT CONVERTER The goal is achieved in that in a DC / DC converter, containing a main thyristor, connected between the first input and output terminals, a switching circuit connected in parallel to the main terminal, formed by a switching circuit connected by a commutating diode, a choke, auxiliary and main capacitors, as well as a charging circuit, connected by the auxiliary point and the main condensation point The second input and output terminals, the charging circuit are made in the form of chokes and a diode connected in series, and the switching thyristor and diode are connected oppositely in parallel and connected between the first input pin and the switching choke. The circuit diagram of the converter is shown in drawing. The converter contains; main tcristor 1, load 2, switching thyristor 3, main 4 and auxiliary 5 capacitors, switching diode 6, switching gap 7, throttle 8 and charging circuit diode 9, zero diode 10 and control system 11. The converter operates as follows. The control impulses entering the control system 11 unlock the OCHOI thyristor 1, the current begins to flow through the load 2 and the switching capacitor starts flowing. 4 through the charging choke 8 and the diode 9 is charged to a voltage of 2E. When the load current reaches the required value, control pulses are applied, which unlock the switching thyristor 3. A discharge of the switching capacitor 4 occurs along the circuit; thyristors 1 and 3, choke 7, auxiliary capacitor 5 .. V, when the discharge current reaches the magnitude of the load current, the main thyristor is locked. In this case, the capacitor 4 is charged before the voltage of the power source, the capacitor 5 is charged before the double voltage of the power source and the thyristor 3 is locked. Due to the introduction of an internal droplet 8 and a diode 9, a resonant charge of the switching and auxiliary capacitors (up to double voltage of the source for a short period of time) occurs, which is essential for switching stability, the ratio of current control in the load and the value of the installed power switching and auxiliary capacitors .... The next control pulse of the main thyristor 1 causes it to open. The voltage is applied to the load, and the auxiliary capacitor is applied 5 times It takes up to the power supply voltage across the circuit: choke 7, diode 6, thyristor 1, capacitor 4, which is charged at the same time to double voltage of the source. In the future, the processes are repeated. Use of charge droplets and diode increases switching stability, multiplicity adjusting the current or voltage and allows decreasing the magnitudes of the capacitances of the switching and auxiliary capacitors. rmula Tt 3 is bothersome. The DC / DC converter containing the main thyristor is switched on between the first input and output terminals, a switching circuit connected in parallel to the main thyristor, formed by a switching thyristor and connected in series by a switching diode, a throttle, auxiliary and main capacitors, and a charging circuit connected between the connection point of the auxiliary and main capacitors and the second input and output conclusions, characterized in that, in order to reduce the installed power of the switching and auxiliary capacitors, the charging circuit is performed in the form of ar The osep and the diode connected in series, and the switching thyristor and the diode are connected in anti-parallel and connected between the first u, one output and the switching choke. - Sources of information taken into account during the examination 1. L. B. Birznieks. Pulse transducers of direct current. M., Enery, 1974, p. 186, figure. 8-4, c. 2. Goncharov Yu. P .. and gtsz. Autonomous nvertory, Chisinau, Shtiintsa, 1974,. 122, fig. 54 a. 3. USSR author's certificate No. 369560, cl. G09F 3/00, 08.12.69.

Claims (1)

Claim A DC / DC converter containing a main thyristor connected between the first input and output terminals, a switching circuit connected in parallel to the main thyristor, formed by a switching thyristor and connected in series by a switching diode, inductor, auxiliary and main. capacitors, as well as a charging circuit connected between the connection point of the auxiliary and main capacitors and the second input and output terminals, characterized in that, in order to reduce the installed power of the switching and auxiliary capacitors, the charging circuit is made in the form of a choke and a diode connected in series, and the switching thyristor and diode are connected counter-parallel and connected between the first input terminal and the switching choke.