SU858189A2 - Stabilized ac-to-dc voltage converter - Google Patents

Description

The invention relates to electrical engineering and can be used as a stabilized power source in automation and radio. By bus. St. B57548 a device is known that contains a full-wave rectifier that controls the thyristor connected in series to the load circuit, a control circuit and an auxiliary thyristor. At that, the positive terminal of the capacitor is connected to the terminal for connecting the load, and the negative one about the code of the regulating thyristor and element of the control circuit - one FROM the inputs of the resistor voltage divider, the anode of the Zener diode and one output of the control capacitor, the control electrode of the thyristor regulator is connected to the cathode of the thyristor, whose control dongle is connected to the external output terminal of the transistor of the circuit, is comparable (the resistor voltage divider contains three series-connected resistors, the free end of the first resistor is connected to the positive output of the rectifier, and its connection point with the second reactor is connected to the base unit (a thyristor, the second output of which is connected to the anode of the auxiliary thyristor, the cathode of the zener diode, the second output of the capacitor, and the cathode of the coupling diode, the anode which is connected to the point of connection of the second and third resistors 1. A disadvantage of the known device is that when constructing a circuit for a high output voltage, it is required to have a significant value of the inductance of the throttle much higher than that required for operation in the set mode currents. The purpose of the invention is to improve the mass and weight characteristics of the device, improving reliability. The goal is achieved by introducing a chain consisting of a sequential connection of the YAZAOD. and a resistor, the anode of the diode is connected to the anode of the thyristor regulator, and the resistor is connected to the base of the transistor of the control circuit. The drawing shows the electrical circuit of the device. The converter is connected to a source of alternating sinusoidal voltage 1 and contains rectifier 2, a voltage divider on resistors 3-5,

discharge diode b, support element 7 (zener diode), control capacitor 8, cxeNBd control transistor 9, discharge thyristor 10, a chain consisting of a series-connected resistor 11 and a diode 12, a filter capacitor 13 connected to a load 14, a choke 15 regulating thyristor 16.

The alternating sinusoidal voltage of the source 1 is fed to the input of the rectifier 2, which provides the voltage output of the double frequency in the form of positive semi-sine waves. Each half-sine can be divided into two equal parts of time; increase and decline. At the beginning of the first section through the regulator thyristor 16 current does not flow. At the same time, from the voltage divider assembled on resistors 3-5 through diode 6, the capacitor 8 is charged to a voltage level determined by the supporting element 7.

Simultaneously, the charge of the capacitor 8 passes through the circuit: plus rectifier 2, capacitor 13 and load 14, choke 15, diode, 12, resistor 11, diode 6, capacitor 8, minus rectifier 2.

At the point of decrease in the voltage reduction process, at some point in time, the voltage at the base of transistor 9 becomes less than the voltage across capacitor 8. This happens when the voltage across resistors 4 and 5, as determined by the current through resistors 3 and 11, is less than the voltage on the supporting element 7. The transistor 9 opens and starts the discharge thyristor 10. The thyristor 10 discharges the capacitor 8 to the control electrode of the switching thyristor 16, which opens and through the choke 15 connects the filter capacitor 13 to the output power rectifier 2. There is a relatively fast charge of this capacitor to a certain level, and then the automatic switching off of the thyristor 16 occurs, since

the voltage of the half-sine becomes less than the voltage on the load.

At the moment when the second half-sine sine section ends, the capacitor 8 is discharged, and in the following half-period the described process repeats. When entering the device mode, the starting current is limited by choosing the moment of switching on the thyristor 16 in the voltage drop section. The moment of turning on the thyristor is chosen such that the anode-cathode voltage of the thyristor is relatively small and is determined by the resistors 11, 5 and the voltage of the support element 7.

The use of the device will, in comparison with the known devices A, limit the inrush current, increase reliability by simplifying the mode, the switching elements, and improve the mass-dimensional characteristics of the device. due to the use of drossel with the minimum allowable inductance, ensuring the normal operation of the device in a steady state and the use of rectifier diodes, designed for the rated operating current without taking into account the starting current.

Claims (1)

1. USSR author's certificate 6S7548, cl. H 02-m 7/217, 1977.