SU1171921A1 - Stabilized power source - Google Patents

Abstract

A STABILIZED POWER SUPPLY, containing a pulse transformer, the first primary output of which is connected to the first input terminal through the first power switch and connected to the second input terminal through the first diode, and connected to the first input terminal through the second diode, The second power switch is connected to the second input terminal, and the secondary winding of the pulse transformer is connected via a rectifier and a filter to the output terminals, which differs That, in order to increase efficiency by reducing the losses to shutdown, the choke, the first and second capacitors, the third fourth and fifth diodes, and the first capacitor, the third diode, the second capacitor and the second capacitor are connected in series the primary winding of the pulse transformer, the fourth diode is connected between i the first input terminal and the common point of the second capacitor and in series (L connected the third diode and throttle, and the fifth diode is connected between the second input terminal and common point of the first capacitor and series-connected third diode and drossel. with HS

Description

The invention relates to electrical engineering and can be used for power supply with stabilized voltage for widely used electronic equipment.

The aim of the invention is to increase the efficiency of a stabilized power source by reducing switching losses.

The drawing is a diagram of a stabilized power source.

The stabilized power source contains a pulse transformer 1, the first primary output of which is connected to the first input terminal 3 via a power switch 2, and connected via diode 4 to a second input terminal 5. The second output terminal of the pulse transformer 1 primary diode 6 is connected to the first input terminal 3, and through the power switch 7 is connected to the second input terminal 5. The output winding of the pulse transformer 1 through the rectifier 8 and the filter 9 is connected to the output terminals and the input of the control unit 10, the outputs of which Dineny with control pins of power switches 2 and 7. Consistently connected capacitor 1 1, diode 12, choke 13 and capacitor 14 are connected between the terminals of the primary winding of the pulse transformer 1. Diode 15 is connected between the common point of droplets 13 and the capacitor 14, and the second input terminal 5, and a diode 16 is connected between the first input terminal 3 and the common point of diode 12 and capacitor 11.

The stabilized power source operates as follows.

In the initial state, both switches 2 and 7 are open and there is zero potential at the terminals of the capacitors 11 and 14. When the keys are closed, the supply voltage is suddenly applied to the choke 13 and the current begins to increase in the choke. Capacitors 11 and 14 are starting to charge. The charging process ends when the voltage on the capacitors 11 and 14 reaches the value of the supply voltage, and the blocking voltage on the diodes 15 and 16. decreases to almost zero. At the time of unlocking the keys 2 and 7, the primary current of transformer 1 closes to the mains through the following circuit: diode 15, capacitor 14, primary winding of pulse transformer 1, capacitor 11, diode 16. In this case, the rate of voltage change on keys 2 and 7 is determined the speed of recharging capacitors 11 and 14. After the total energy accumulated in the transformer (not shown) is completely discharged, the voltage on its primary winding becomes zero, and the circuit returns to its original state. The process then repeats.

The technical and economic efficiency of the proposed solution is to reduce the total switching losses in the opening mode of the power switches of the stabilized power sources by returning the power dissipated on the keys to the power supply circuit or source load, which in turn leads to an increase in the efficiency of the source.

Claims (1)

A STABILIZED POWER SUPPLY containing a pulse transformer, the first terminal of the primary winding of which is connected through the first power switch to the first input terminal, and through the first diode is connected to the second input terminal, the second terminal of the primary winding of the pulse transformer is connected through the second diode to the first input terminal, and through the second power switch is connected to the second input terminal, and the secondary winding of the pulse transformer through a rectifier and a filter connected to the output terminals, characterized in that, in order to increase efficiency by reducing loss on shutdown, a inductor, first and second capacitors, third fourth and fifth diodes are introduced into it, and the first capacitor, third diode, inductor and second capacitor connected in series between the first and second terminals of the primary winding of the pulse transformer, the fourth diode is connected between the first input terminal and the common point of the second capacitor and the third diode and the inductor connected in series, and the fifth diode is connected between the second input terminal and the common th point of the first capacitor and the third diode and inductor connected in series. ♦ Plate Npit