SU572881A1 - Dc to dc converter - Google Patents

Description

The diode 17 is turned on by the thyristor 1 cathode. In some cases, it is advisable to add a circuit to the diode 17 and the resistor 18 connected in parallel with the thyristor 6.

When a power source 2 is connected, the master oscillator 13 is energized immediately in the case of direct power or at the moment of connecting the load 3, if the generator is powered through the transistor 14. In the latter case, when the load circuit 3 is open, transistor 14 is locked. At the moment of connecting the load 3 through the resistor 15 to the base of the transistor 14, an unlocking signal is applied, causing the transistor to open, connecting the power supply circuit to the master oscillator 13. The latter periodically switches the key 16. When the key 16 is first closed, a switching pulse 6 is generated on the winding 11, which, however, does not lead to a change in the state of the circuit. When the key 16 is unlocked, a turn-on pulse of power thyristor 1 forms on the winding 10 of the transformer. The latter is unlocked by connecting load circuit 3 to power supply 2. Since the potential of cathode of separation diode 4, to which resistor 15 is connected, becomes approximately equal to the emitter potential of the transistor 14, the latter is locked, however, power to the master oscillator 13 continues to flow through the thyristor 1 and the diode 19.

The switching capacitor 5 is charged to a voltage equal to the sum of the voltage of the power source 2 and the EMF of the winding 8 induced by the remagnetization of the core of the transformer 9 ampere-turn windings 12.

If there is a circuit from resistor 18 and diode 17, at the initial stage the accelerated charge of capacitor 5 occurs. This may be necessary for the inductive nature of the load, when after turning off the thyristor 1 the polarity of the voltage on the capacitor changes sign (plus facing) due to EMF self-induction load.

At the moment of the next closure of the key 16, the reverse reversal of the core of the transformer 9 occurs, since the ampere turns of the winding 8 are larger than the ampere turns of the winding 12. On the winding 11 a switching pulse of the extinguishing thyristor 6 is formed. capacitor 5 and source voltage. 2. Thyristor 1 is turned off.

If inductive in nature, the load is connected to the converter without a separating diode 4, the circuit of the resistor 18 and diode 17 performs other functions. Without this circuit, after turning off the quenching thyristor 6, the capacitor 5 charged by the plus on the bottom plate begins to discharge through

the winding 8 and the load 3. This may create conditions when during the next opening of the switch 16, the current drop in the winding 8 is insufficient to form a switching pulse of power thyristor 1 on the winding 10. The presence of a circuit from resistor 18 and diode 17 creates an additional discharge path condenser 5.

It should be borne in mind, however, that connecting an inductive load to a converter without isolation diode 4 is not always acceptable, since the discharge of capacitor 5 causes a reverse current pulse in the load, and the circuit from diode 17 and resistor 18 aggravates the problem.

At the next opening of the key 16, the thyristor 1 is turned on again, and then the processes are repeated.

Claims (1)

Invention Formula A DC / DC converter containing a master oscillator, a transformer with several secondary windings, a power thyristor, the anode of which connected to one of the terminals for the power source, and between the cathode and the other terminal for the power source, a series circuit of a switching capacitor and an extinguishing thyristor is connected, in parallel with which a series circuit of a diode and a reactive element is connected, in order to improve reliability, the two secondary windings of the transformer are connected in antiphase to the control inputs of the thyristors, and the primary winding is connected between the cathode of the power thyristor on the second of the mentioned leads for the power supply , the corresponding mentioned windings are connected to the cathode of the power thyristor and its control electrode by the like terminals, and the third secondary winding of this transformer is used as the indicated reactive element.