SU1273895A1 - Stabilized source of electric power - Google Patents

Description

The invention relates to electrical engineering and can be used to power various electronic equipment.

The purpose of the invention is to increase the reliability and stability of the output voltage when the load current and temperature change.

The drawing shows an electrical circuit of a stabilized power supply.

The device contains a DC-to-AC converter 1 at the transistors (can be made according to any scheme), a power transformer 2 of the converter, a rectifier 3, a regulator transistor 4 (can be composite) 5 voltage boost rectifier with filter f) (can be connected to a separate winding of the transformer 2), the starting diode 6, the amplifying transistor 7, the resistor 8, the zener diode 9, the resistive divider 10, the additional diode 11.

The device works as follows.

When the supply voltage is applied to the input terminals through the starting diode B and the resistor 8, the control transistor 4 is opened and the voltage is fed to the input of the converter 1. After starting the converter 1 at the output of the booster rectifier

3po is higher relative to the input voltage and the triggering diode 6 is locked. Next, the output voltage at the output of the stabilizer through a resistive divider 10 is compared through an emitter-to-base transition of the transistor 7 with the total voltage drop of the Uonop at the zener diode 9

and diode 11. A voltage proportional to the UOP is set at the output of the stabilizer.

8x support

where K is the coefficient of dividing the divider

ten ().

The output voltage is stabilized by changing the resistance of the control transistor.

4 and the amplifying transistor 7,

When the load current changes as well as the temperature changes, the voltage drop across the diode of the rectifier 3 changes, but when the load current changes, the current flowing through the additional diode 11 also changes, which leads to similar changes in the voltage drop across the additional diode 11, Increase in voltage drop on diode 11

either decreasing it leads to corresponding changes in the reference voltage and, as a result, the voltage at the output of the stabilizer,

Assume a voltage drop

the extra diode is increased by di. This causes an increase in the output voltage at the emitter of the transistor (relative to the second input terminal) by the value of iU-K. However, the increase in the voltage applied to the input of the converter (relative to the common bus of the converter) will be less by, i.e., AUK - di.

Thus, the greater the division factor of the resistive divider 10, the more the voltage drop in the capacitive diodes through which the load is connected to the output winding of the power transformer will be compensated. At the same time, the change in voltage of the voltage addition source also enhances the compensation effect by reducing the static comparison error by the transistor 6, by selecting the ratio of the voltage drop on the additional diode 11 and the zener diode 9, taking into account the transformation ratio of the transformer 2, full compensation can be achieved

changes in voltage across the load both with changes in load current and with changes in temperature.

When the input voltage is reversed, the current flows through the lower resistor of the resistive divider 10, the base-to-collector transistor 7 transition, the base-to-first collector of transistor A to the first input terminal. Since the resistor has a relatively large value, the current is limited at a negligible level and remains significantly lower than the maximum permissible at the device elements.

Thus, the device significantly increases the stability of the voltage on the load, both when the load changes and when the temperature changes, reliability increases due to the presence of protection against polarity reversal of the input voltage

It is particularly effective to use a power source in devices where the load is galvanically developed from a stabilizer, as a result of eliminating complex devices that provide feedback, transmitting a change in voltage to an input voltage comparing the j stabilizer device.

Claims (1)

Invention Formula A stabilized power supply source containing a DC / AC converter on transistors with an output transformer, the secondary winding of which through a rectifier is connected to the output terminal 15, the regulating transistor whose collector is connected to the first input terminal, the emitter is connected to the middle one output transformer primary output, booster 20 rectifier with filter, input connected to the outputs of a voltage converter, a zener diode connected by one output to a common bus, an amplifying transistor whose emitter is connected to the second output of the zener diode, a collector to the base of the regulating transistor directly through a resistor to the output of the booster rectifier and through the start of the diode to the first the input terminal, the resistive divider, the first output of which is connected to the emitter of the regulating transistor, the middle point - to the base: the amplifying transistor, and the second output - to the second input terminal, characterized in that, in order to increase the reliability and stability of the output voltage when the load current and temperature change, a diode is connected between the common bus and the second input terminal.