SU653696A1 - Stabilized voltage source - Google Patents

Description

The invention relates to electrical engineering and can be used in power supply units for automation devices, telemechanics and computer technology.

A source of stabilized voltage is known, which contains a main and a low-voltage stabilizer and a controllable converter operating in a wide range of voltage regulation 1.

A disadvantage of the known source is that it does not have protection against the failure of the main or low voltage stabilizer, as well as the converter. When one of them fails, a situation is possible in which the failure of all load elements is not excluded, since the source is designed for a wide range of voltages.

. The closest to the proposed invention is a source of stabilized voltage containing a series-connected DC voltage pulse stabilizer and a key controlled DC / DC voltage converter, where the pulse stabilizer consists of the power element included in one of the second stages. saturation throttle, a control node connected by the input to the terminals for connecting a DC load, and an output to the input of the key start-up unit, a cat The aux is connected to the control input of the control element, and the key controlled converter is made of transistors and a transformer with at least one output winding connected to the terminals for connecting an AC load 2.

The disadvantage of such a source is low reliability due to one-sided prevention of converter start-up when exiting the stabilizer mode, i.e., if the converter or the secondary circuits of the converter are faulty, the stabilizer channel is not disconnected from the load, which can cause the equipment to fail. is based on a given program.

The purpose of the invention is to increase the reliability of protection upon exiting from the mode of any channel and preventing the launch of any channel upon exit from one of them.

This goal is achieved by the fact that a stabilized voltage source containing a series-connected DC voltage regulator and a key controlled DC / AC voltage converter are connected in series, and the pulse stabilizer consists of the regulating element included in one of the power components and the saturation points. a control node connected by an input to the terminals for connecting a DC load, and an output to the input of a key start-up unit whose output is connected to the control an input of the regulating element, and the key controlled converter is made of transistors and a transformer with at least one output winding connected to the terminals for connecting the AC load, a trigger circuit is inserted on the diode connected between the center point of the winding of the constant-voltage impulse stabilizer and a triggering input of a key controlled converter, and a series of additional transformer transformer winding, diode and resistor, under for prison between the common bus and the supply input of the trigger key block.

The principal electrical circuit of the voltage-stabilized source is shown in the drawing.

The source of stabilized voltage contains a series-connected pulse voltage regulator consisting of regulating element 1, saturation throttle 2, switching diode 3, control node 4 and key starting block 5, and key controlled converter 6 on transformer 7 with at least one output winding connected to the terminals for connecting the AC load, a rectifier with a filter 8, a starting toggle switch 9, a starting capacitor 10 and a resistor 11, a trigger circuit on diode 12 and The sequence of the chain of auxiliary winding 13, diode 14 and resistor 15. The key starting unit 5 is formed on the transistors 16 and 17.

The source of stabilized voltage works as follows.

When the starting toggle switch 9 is turned on, the input voltage goes to the regulating element 1 and the starting capacitor 10. Through the capacitor 10 and the resistor 11, the voltage goes to the input of the transistor 17 of the key starting unit 5 and opens it. When the transistor 17 is opened, the regulating element 1 is opened and the output voltage rises at the input of the stabilizer.

Upon reaching a predetermined voltage level at the output of the stabilizer, the control unit 4 opens the transistor 16. When the transistor 17 is closed, the regulating element 1 is closed. The accumulated energy at the saturation inductor is diverted to maintain the voltage at the stabilizer output and to open the key controlled transducer 6 connected in series with stabilize eom. Switching on the key controlled converter 6 occurs through diode 12 connected to the part of the choke 2. When the voltage at the output of the stabilizer decreases, the control node 4 closes the transistor 16 and opens the key starting transistor 17

5 of the block 5. The regulating element 1 is opened and energy is again accumulated on the throttle 2. The process repeats before entering the converter mode 6, i.e. when it enters the switching mode and on the windings of the transformer 7, alternating voltage is applied. The rectified voltage from the transformer 7 along the feedback bar goes to the key start-up bdok 5 by performing the feedback of the converter with the main channel. The constant time of the starting circuit (capacitor 10 and resistor 11) is chosen to be slightly longer than the constant start-up of the latter, since as the capacitor 10 is charged, the resistance of the starting circuit dramatically increases along the circuit capacitor 10, the resistor 11

 the starting block 5 does not open. Shutting down the entire block occurs at any deviation from the pulse mode of both the stabilizer and the converter, since after starting the source, the stabilizer depends on the accumulated energy in the throttle 2 of the stabilizer, and the latter from the pulse mode of the converter, the breakdown of which can occur during a fault the converter, and from a short circuit in the power supply circuits.

When you turn off the toggle switch 9, the capacitor 10 is discharged.

Claims (2)

1. USSR author's certificate number 438083, cl. G 05 F 1/56, 1972. 2. USSR author's certificate number 449424, cl. H 02 M 3/155, 1972.