SU1272319A1 - D.c.voltage stabilizer - Google Patents

Abstract

The invention relates to secondary power sources of radio equipment. The aim of the invention is to reduce bullets; output voltage while increasing efficiency. When connecting the primary winding 2 of the power transformer to the network, the secondary windings 3, 14 and 17 are induced to emf, which is rectified by the rectifiers 4, 15 and 18, respectively. The voltage from the output of the rectifier 4 through the choke 5 feeds the load and the ferroresonant circuit on the capacitor 7 and the primary winding 8 of the transformer 9. The control transistor 12 receives the reference voltage from Zener diode 20 and the voltage from the output of the filter 16, changing its conductivity depending on the level of the input voltage. At the same time, the current addition given to the load 6 by the winding 10 changes. 1 sludge. 7i tt

Description

The invention relates to electrical engineering and is intended for automation devices, telemechanics and computer technology as a source of stabilized DC voltage.

The purpose of the invention is to reduce the ripple of the output voltage while increasing efficiency.

The drawing shows a circuit diagram of a DC voltage stabilizer. 1

The DC voltage stabilizer contains a power transformer I, the primary winding 2 of which is connected to the output terminals. The secondary winding 3 of the power transformer 1 through the first rectifier 4 and the inductor 5 of the first filter are connected to the load 6. The capacitor 7 in series with the primary winding 8 of the transformer 9 form a series ferroresonant oscillatory circuit, joking the output of the first rectifier; 4. The secondary winding 10 of the transformer 9 through a series-connected diode 1 1 and the regulating transistor 12 is connected to the load 6. The control transition of the regulating transistor 12 is shunted by the resistor 13. The second secondary winding 14 of the power transformer 1 through_. the second rectifier 15 is connected to the input of the second filter 16. The third secondary winding 17 of the power transformer 1 is connected through the third rectifier 18 to the input of the third filter 19, the output of which is shunted by the zener diode 20. The outputs of the second 16 and third 19 filters are connected again and are connected through the resistor 21 to the control transition of the regulating transistor 12..

The voltage stabilizer DC operates as follows.

When connecting the primary winding 2 of a power transformer 1 into an AC voltage source at its secondary windings 3, 14 and 17, induced electromotive force is rectified Ko _t Thoraya rectifiers 4, 15 and 18 respectively. The rectified voltage from the output of the rectifier 4 through the inductor 5 of the first filter feeds the load and the directly sequential ferroresonant circuit on the capacitor 7 and the primary winding 8 of the transformer 9. With a certain ratio of the parameters of these elements, stable autoparametric oscillations with a double network frequency are excited in the circuit. In this case, the EMF induced on the secondary winding 10 transformer ^! Mator 9, has its maximum value at the moment when the voltage at the load 6 has its minimum value. This voltage through the diode 11 is applied to a series-connected control transistor 12 and the load 6.

By changing the conductivity of the control transistor 12, it is possible to change the current flowing in addition to the main one in the load 6, and therefore, the output voltage of the stabilizer.

The control transistor 12 is controlled as a function of the input voltage from the secondary windings 14 and 17 of the power transformer 1. At the same time, the winding 17, the rectifier 18, the filter 19 and the stabilizer 20 form a reference voltage source: The difference between the rectified voltage of the rectifier 15 and the smoothed filter 16 of the winding voltage 14 and The reference voltage of the zener diode 20 is fed through a resistor 21 to the control junction of the regulating ⁵ transistor 12, changing its conductivity depending on the input voltage level. With an increase in the input voltage, the conductivity of the control transistor 12 decreases, and decreases, _{0 the} addition of current supplied to the load 6 from the secondary winding 10 of the transformer 9.. With a decrease in the input voltage, the conductivity of the control transistor 12 increases, the addition of the current supplied to the load 6 by the winding 10 than '5- _; th stabilization of output is achieved at. . straining.

Claims (1)

Claim A DC voltage stabilizer containing a power transformer whose primary winding is connected to ⁰ input terminals, and the first secondary winding through the first rectifier and inductor of the first filter is connected to the output terminals, the second rectifier and filter connected in series, the third rectifier and the filter regulating transistor ⁵ , a zener diode, a diode, a transformer, a capacitor and two resistors, characterized in that, in order to reduce the ripple of the output voltage while increasing the efficiency, power trans the formatter 10 is equipped with a second and third output windings, and the output of the first rectifier is shunted by a chain of series-connected capacitor and primary winding of the transformer, the secondary winding of which is connected through 15 sequentially connected diode and control transistor to the output terminals, the second secondary winding of the power transformer is connected to the input of the second rectifier , the third secondary winding of the power transformer through the third rectifier under> ° is connected to the input of the third filter, output. which is shunted by a zener diode, the secondly connected outputs of the second and third filters are connected through the first resistor to the control junction of the regulating transistor, shunted ^ ⁵ · 'by the second resistor. ВНИИПИ Order 6338/47 Circulation 836 Subscribed Branch of the PPP "Patent", Uzhhorod, st. Project, 4 ·