SU1309009A2 - Controlled d.c.voltage stabilizer - Google Patents

Abstract

The invention relates to electrical engineering, in particular, to sources of secondary power supply of communications equipment, atomatics and computer technology. The aim of the invention is to increase the efficiency of the stabilizer. Additional diodes are introduced into the device, where N is the number of power cells. Due to the connection between a zero potential facing the bus and no poles connected by the main diodes of any two power sources, one of the additional diodes reduces the total power of the diode losses, since in this case the load current does not close through all the diodes connected in parallel off power cells, but only through one of them. 1 il. so about so about so about so you

Description

The invention relates to electrical engineering, is intended for use in the implementation of power supply of communications equipment, automation and computer technology and is an improvement of the device according to the author. St. No. 864270.

The purpose of the invention is to increase KnZ controlled constant voltage stabilizer.

The drawing shows a functional diagram of the device.

The DC voltage stabilizer contains trigger zero-bodies 1-3, main diodes 4-6, transistor switches 7-9, the main source of 10 p. Of the sources, additional sources 11-13 of the power supply, the control transistor 14, the source 15 of the reference voltage power amplifier, 16 DC amplifier, additional diodes 17-19. Positions 20 and 21 in the diagram designate pins for connecting the load, and position 22 denotes the load itself. Zero-organs 1-3, transistor switches 7-9 and additional power sources M-13 form three power cells. If in the sheath, if the number of the latter is N, then in

The device uses --i - additional diodes. The control transistor 14 is connected to the output circuit of the main power source 10 in series with transistor switches 7-9 and additional power sources 11-13. The stabilizer output buses are connected to pins 20 and 21 for connecting the load 22. The inputs of the DC amplifier 16 are connected to the output of the stabilizer and to the output of the reference voltage source 15; and the output to the control input of the regulating transistor 14. The inputs of the zero-bodies 1 to 3 are connected between the output potential output of the stabilizer and the poles of the additional sources 11-13 power not facing the zero potential bus, and the outputs are connected to the control inputs of the transistor switches 7- 9. The main diodes 4-6 are connected in parallel to the output circuits of the power cells formed by elements 1-3, 7-9 and 11-13 with the possibility of their shunting. The zero potential of the bus and not connected by the main diodes 4-6 poles of any two power sources are interconnected by one of the additional diodes 17-19 in the direction coinciding with the direction of switching on the main diodes 4-6.

The stabilizer works as follows.

The output voltage of the stabilizer is controlled either by changing the reference voltage of source 15, or by using an input potentiometer (not shown) of the DC amplifier 16. A smooth change in the output voltage is performed by the control transistor 14 operating in a linear mode, and the power cells provide voltage stabilization on the transistor 14.

In order to ensure the greatest number of stages of regulation with the help of a small number of power cells, the voltage at the output of additional sources 11 - 13 must be correlated with

U, i 2Ua 4U ,,

When the output voltage is less than Uti, all the zero-units 1-3 are in the initial position, corresponding to the off state of the transistor switches 7-9, and the load current from the positive pole of the main power source 10 through the control transistor 14, the load 22 and the additional diode 19 is shorted to the negative pole of the source 10. When the output voltage exceeds the value Un, the zero-organ 1 is triggered and turns on the transistor switch 7. The input voltage of the regulating transistor 14 thus increases by U, j. The load current is closed from the positive pole of the main source 10 through the control transistor 14, the load 22, an additional diode 18, an additional source AND and a transistor switch 7 to the negative pole of the source 10.

When the output voltage exceeds 2Uii, the zero-organ 2 is triggered and turns on the transistor switch 8, and the zero-organ 1 and the transistor switch 7 are reset. The voltage at the input of the regulating element 14 is again increased by Un. As the output voltage of the stabilizer increases, the power cells can be connected either one at a time or as a group in various combinations with each other, ensuring the minimum voltage drop on the control transistor 14. The number of PSTUP steps from which the control transistor is formed 14, depending on the number of additional power sources, is expressed by the ratio 1.

In this case, the load current is closed through

Diodes connected in parallel to a group of switched off series-connected cells, which reduces the total power loss on the diodes as compared with the known device. Where the load current is closed through all the diodes connected in parallel

off power cell. This provides higher efficiency over a wide range of output voltages.

Claims (1)

Invention Formula Controlled constant voltage regulator by aut. St. No. 864270, characterized in that, in order to increase efficiency, N (N-1) it is introduced-additional.x diodes, where N is the number of power cells and the zero potential facing the bus and not connected by one of the main pole diodes of any two power sources are interconnected by one of the additional diodes connected in the direction coinciding with the direction of the main diodes.