SU1312549A1 - Pulsed-continuous stabilized source with voltage inversion - Google Patents

Abstract

The invention relates to electrical engineering and can be used in the power supply circuits of various radio engineering equipment. The purpose of the invention is to increase the stability of the output voltage, the stability of operation and reliability, and the reduction of the output voltage ripple. In the stabilized source circuit, there is a sequential chain of capacitor 12 and resistor 13, connected between the output of the pulse stabilizer and the output of the voltage divider on resistors 10 and 11. This allows the source to operate smoothly without starting currents and interruptions in oscillations, since the voltage across the capacitor 12 increases smoothly when turned on. The output parameters of the source are mainly determined by the parameters of the continuous stabilizer. Therefore, it has improved parameters for stability, stability and output voltage pulsations. 1 il. co 4 ate

Description

The invention relates to electrical engineering, to devices for regulating a constant voltage, and can be used in the power supply circuits of various radio equipment.

The purpose of the invention is to increase the stability of the output voltage, the stability of operation and reliability, and the reduction of the output voltage ripple.

The drawing shows a schematic diagram of a pulsed continuous stabilized source with voltage inverting.

The stabilized source contains a control transistor 1 connected by an emitter to the positive input terminal, a switching transistor 2 connected by an emitter to the common stabilizer bus, and a collector through a resistor 3 to the base of the control transistor 1, a DLC filter consisting of diode 4, a capacitor 5, Drossel 6, the first output connected to the total stabilizer, and the second output - to the collector of the regulating transistor 1 and the cathode of diode 4, the capacitor 5 is connected to the anode of the diode 4 and the input of the regulating element 7 discontinuous stabilizer, and another output to the common stabilizer bus, the timing chain consisting of a series-connected capacitor 8 and a resistor 9, the second lead of the capacitor 8 connected to the collector of the control transistor 1, and the second lead of the resistor 9 to the base of the switching transistor 2 , a resistive divider, consisting of resistors 10 and 11, with one output of the resistive divider connected to the plus input terminal of the stabilizer, and the second to the base of the switching transistor 2, connected in series A sensor 12 and a resistor 13, the second terminal of which is connected to the midpoint of the resistive divider (resistors K) and 11).

The second terminal of the capacitor 12 is connected to the input of the regulating element 7 of the continuous stabilizer, and the connection point of the capacitor 12 and the resistor 13 to the collector of the transistor 15 of the reference unit 14, the base of the transistor 15 through the resistor 16 is connected to the output of the regulating element 7 of the continuous stabilizer, the emitter of the transistor 15 through the zener diode 17 (the reference voltage source of the feedback circuit) is connected to the input of the regulating element 7 of the continuous regulator, the continuous regulator control unit 18 connected by the output to the control input of the regulating element 7 (for example, a transistor), and the inputs to the output of the stabilizer.

The device works as follows. When a current is supplied to the input device through the resistors U and 11, the switching transistor 2 and, therefore, the regulating transistor 1 is opened, while the charging current of the capacitor 8 through the resistor 9 is kept in the open state, at the same time accumulating energy in the inductor 6, and the current through the inductor 6 increases exponentially, and the voltage across it varies from JKX to 0. Part of the current flowing through the resistors 10, 11, starts through the resistor 13, the capacitor 12, the diode 4 and the dross When 6 is discharged to the common bus, this causes the switching transistor 2 to the regulating transistor 1 to close, this process is forced by the discharge of the capacitor 8, since after closing the regulating transistor 1 the voltage on the choke 6 abruptly changes from O to UBX ( the switching transistor 2 is in the closed state at the time of the discharge of the capacitor 8). The energy from the droppers of the village 6 is transferred to the capacitor 5 through the diode 4. At this moment, a voltage appears on the capacitor 5, and consequently, at the output of the continuous stabilizer 7.

5 After the nominal voltage stabilizer is installed at the output, a random change in the load current and the voltage at the output of the continuous regulator 7 entails a change in the voltage on its regulating transistor.

0 This voltage is compared with the voltage on the stabilizer. Titron 17 is amplified by the transistor 15, which changes the amount of current drawn from the resistors 10 and P. through the resistor 13, i.e. changes the ratio of the time of the closed and open state of the switching transistor 1 in such a way that the voltage on the regulating element 7 of the continuous stabilizer remains constant. Resistor 16 limits the base current of the transistor 15, the control node 18

It controls the regulating element 7. The continuous stabilizer can be any stabilizer having a regulating transistor in the negative bus and satisfying the requirements imposed on the output parameters and conditions

5 operation.

Since the voltage on the capacitor 12 increases relatively slowly when the device is turned on, the device starts up smoothly, without inrush currents.

0 and without interruption of oscillations, due to the fact that the output voltage is greater, the longer the open state of the regulating transistor 1, and at start-up there is no output voltage. When operating resistor 13 and capacitor 12

5 damps various transients in the control circuit, preventing the device from disrupting under the influence of various disturbing factors.

The circuit of the pulse part of the device is characterized by simplicity and a minimum number of elements.

The proposed device as compared with the known one has improved output parameters for stability, stability and output voltage pulsations, since the output parameters of the device are determined mainly by the parameters of the continuous stabilizer.

Claims (1)

Invention Pulse Continuous Stabilized of operation and reliability and reduction of output voltage ripples, a switching transistor with a resistor in the collector circuit and a protective DR circuit in the base-emitter circuit, a time setting RC circuit, a resistive divider, a series-connected resistor and a capacitor, and the switching transistor is connected to the common bus by an emitter, by a resistor in its collector circuit to the control input of the regulating element and the pulse stabilizer, and the base to one pin is the time of the driving RC circuit, the other pin of which is connected to Exit regulating member Pulse th source stabilinyi inverting voltage containing 15 mash connected in series, a resistive divider is connected to a single-pulse stabilizer with an inverting output to the input power tap of a voltage and a continuous stabilizer regulating the element of a stabilized feedback stabilizer circuit, and the feedback loop of the continuous stabilizer is connected to the output of the regulator element of the continuous stabilizer, and the output to the input of the feedback circuit of the pulse stabilizer, characterized in that, in order to increase the stability The second output is connected to the base of the switching transistor, and the middle lead to the resistor connected in series with the capacitor, the second output of which is connected to the input of the continuous regulator, and the common point to the output of the feedback circuit of the pulse regulator. of operation and reliability and reduction of output voltage ripples, a switching transistor with a resistor in the collector circuit and a protective DR circuit in the base-emitter circuit, a time setting RC circuit, a resistive divider, a series-connected resistor and a capacitor, and the switching transistor is connected to the common bus by an emitter, by a resistor in its collector circuit to the control input of the regulating element and the pulse stabilizer, and the base to one pin is the time of the driving RC circuit, the other pin of which is connected to Exit regulating member Pulse th stabilizer, a resistive divider connected single-output them to the input power take-off regulating member pulsed stabilization the resistor divider is connected by one output to the input power tap of the regulating element of the pulse stabil the second, to the base of the switching transistor; and the middle, to the resistor in series with the capacitor, the second terminal of which is connected to the input of the continuous regulator, and the common point to the output of the feedback circuit of the pulse stabilizer.