SU1675869A1 - Stabilized voltage source - Google Patents

Abstract

The invention relates to the secondary power supply sources of electronic equipment. The aim of the invention is to increase reliability while reducing power dissipation. The output voltage of the rectifier 2 is smoothed by a capacitive filter 9 connected to its output through the switching semiconductor element 10 and an inductive capacitive filter 3. The output voltage of the inductive capacitive filter 3 is stabilized by a stabilizer on the composite transistor. At low input voltages x, the threshold element 13 maintains the switching semiconductor element 10 in the on state, which provides power to the pre-transistors 6, 7 of the composite transistor from an overvoltage capacitive filter 9. When the input voltage rises, the threshold element 13 turns off the switching semiconductor element 10 , and the power of the pre-transistors 6,7 of the composite transistor is carried out through the diode 14 from the output of the inductive-capacitive filter 3. 1 Il. sks e VsE "sa

Description

The invention relates to electrical engineering and can be used in the design of secondary power supply sources.

The purpose of the invention is to increase reliability while reducing power dissipation.

The drawing shows the electrical circuit of the proposed source of stabilized voltage.

The stabilized voltage source contains a power transformer 1, a rectifier 2, a smoothing LC filter3, an output capacitor 4, a stabilizer that includes control 5, matching 6 and control 7 transistors of the control element, control node 8, input capacitor 9, switching semiconductor element 10 , made, for example, on the LED 11 and the photothyristor 12, the threshold element 13, the diode 14, the output terminal 15 and the common bus 16. The primary winding of the power transformer is connected to the input terminals. The secondary winding of the power transformer 1 through a 2 m rectifier smoothing LC filter 3 is connected to the collector of the regulating transistor 5, the emitter of which is connected to the output terminal 15, the base through transitions emitter-base of the matching 6 and controlling 7 transistors is connected to the output of the control unit 8, the collector of the control transistor 7 is directly connected to the collector of the matching transistor 6, through the input capacitor 9 is median with a common bus 16, through the diode 14 with the output of the smoothing LC filter H, and through the photo thyristor 12 conductive switching element 10 - in a yield of rectifier 2, LED 11 of the semiconductor switching element 10 connected between the output of the smoothing filter LC-W and the output 13 of the threshold element.

The source of stabilized voltage works as follows.

When the supply voltage is lowered, the photothyristor 12 is unlocked using the signals of photodiode 11 and threshold element 13. The voltage on the input capacitor 9 exceeds the output voltage of the smoothing LC filter Z. This ensures a minimum voltage drop on the control transistor 5, a low power dissipation 5 matching 6 and controlling 7 transistors.

In the case of increasing the supply voltage to the value at which the regulating 5, the matching 6 and the controlling 7, the transistors can operate in normal

mode, with their common supply voltage, the threshold element 13 turns off the power of the LED 11, the photo thyristor 12 is locked, and the matching 6 and the control 7 transistors of the regulating element

they are fed through a diode 14c of the output of the smoothing LC filter Z. This ensures a decrease in the voltage on the control 5 and control 6 transistors, reducing their power dissipation, i.e. increases

reliability of a source of stabilized voltage.

Claims (1)

Invention Formula A stabilized voltage source containing a power transformer, the primary winding of which is connected to the input terminals, and the secondary winding through a rectifier is connected to the power and common buses respectively, a smoothing LC filter whose choke is connected in series to the power bus connected to the collector of the regulating transistor, emitter which is connected to the output terminal, the matching and control transistors of the same type of conductivity, connected according to the scheme of a composite transistor connected by a control input to the output control unit, the combined collectors of the mentioned matching and control transistors are connected to the common bus through the input capacitor, and through the switching semiconductor the element is connected to a common point of the rectifier with a power bus, the output formed by the matching and control transistors of the composite transistor is connected to the base of the regulating transistor, characterized in that, in order to increase reliability while reducing the dissipated power, a threshold element and a diode are introduced into it, the input of the threshold element is connected to the power bus, and the output is connected to the control input of the switching semiconductor element, the diode is connected in the forward direction between the collector and integrated collectors of matching and control transistors.