SU1078562A1 - Secondary power source - Google Patents

Abstract

SECONDARY PITA NII source, which contains an inverter and a linear stabilizer, the inverter transistor collectors and the input of the linear regulator are connected to the input terminal of the device, to the other input terminal of which is connected the middle output of the primary winding of the output transformer, the secondary winding of which is connected to the output terminals of the device, control transistors whose base-emitter junctions are connected through control resistors through control coils, and the emitters to the bases of the inverter's transistors, whose emitters connected to the extreme terminals of the primary winding of the output transformer, and the base-emitter junctions are connected via diodes to the locking windings, characterized in that, in order to increase the efficiency, a master oscillator with a matching transformer, only the secondary windings, which are used as said control and the locking windings, the other, the secondary winding, is connected to the collectors of the control transistors by the extreme leads and to the output of the linear stabilizer by the middle lead.

Description

The invention relates to electrical engineering and can be used in secondary power sources of radio engineering, automation, and computing devices.

The stabilized power sources are known, which contain a two-stroke inverter, a preliminary stabilizer, a comparing unit, the output of which is connected to the transformer windings included in the basic circuits of the transistors of the oscillator 1 and 2.

The lack of these devices is low efficiency and a narrow range, stabilizing the output voltage.

The closest in technical essence to the present invention is a secondary power source containing an inverter and a linear stabilizer, with the collectors of the inverter transistors and the input of the linear regulator connected to the input terminal of the device, the secondary primary terminal of the output transformer whose secondary winding is connected to another input terminal to the output pins of the device, the control transistors, the base-emitter transitions of which are connected via resistors to the control winding m, and the emitters - to the bases of the transistor of the inverter, the emitters of which are connected to the extreme terminals of the primary winding of the output transformer, and the base-emitter transitions are connected via diodes to the locking windings 3.

A disadvantage of the known device is low efficiency, a narrow range of output voltage stabilization due to a significant voltage drop across the linear stabilizer and control transistors, and therefore a significant voltage drop across the inverter transistors.

The purpose of the invention is to increase the efficiency and broaden the stabilization range of the output voltage by reducing the voltage drop across the inverter transistors.

To achieve this goal, a power source containing an inverter and a linear stabilizer, the collectors of the inverter's transistors and the input of the linear regulator are connected to the input terminal of the device, to the other input terminal of which the middle terminal of the output transformer of the output transformer is connected, the secondary winding of which is connected to the output terminals of the device, control transistors, whose base-emitter transitions are connected via resistors to the control windings, and emitters to inverter transistors bases ora, the emitters of which are connected to the extreme terminals of the primary winding of the output transformer, and the baso-emitter junctions are connected via the diodes to the locking windings, a master oscillator with a matching transformer is introduced, only the secondary windings of which are used as the mentioned control and locking windings, another secondary winding with extreme leads .connected to the collectors of control transistors, and the middle output - to the output of the linear stabilizer.

The drawing shows a power supply diagram.

The power supply contains a linear regulator 1, the transistors 2 and 3 of the inverter connected by collectors to the input terminal 4 of the device, another input terminal 5 of which is connected to the middle terminal of the primary winding of the output transformer 6, the secondary winding of which is connected to the output terminals 7 and 8 of the device controlling the transistors 9 and 10, the base-emitter transitions of which are connected through resistors 11. and 12 to the control windings 13 and 14, the locking windings 15 and 16 connected through diodes 17 and 18 to the base-emitter transitions of transistors 2 and 3 of the inverter, the master oscillator 19 with a matching transformer 20, the additional winding 21 of which is connected to the second power electrodes of the control transistors 9 and 10 and to the output of the linear regulator 1.

The device works as follows.

When the supply voltage is switched on, the master oscillator 19 begins to work and a variable voltage arises on the windings 13-16. Suppose that, in the first half-peripher, the stresses on the outflows, the windings began positively. Consequently, the inverter transistor 2 is opened, as the control transistor 9 is saturated with current flowing from the winding 13 through the resistor 11, and a voltage equal to the sum of the output voltage of the linear regulator and half of the additional winding 21 is applied to the base of the inverter 2. At the same time, a negative voltage is applied to the base-emitter junctions of the transistors 3 and 10 from the windings 14, 16 and the transistors 3, 10 are locked. In the other half period of the alternating voltage on the windings of the matching transformer 20, transistors 2, 9 are closed and transistors 3 and 10 are open. Thus, alternately opening inverter transistors 2 and 3 creates an alternating voltage: on the primary winding of the output transformer 6, from which secondary winding This voltage is applied to the output pins 7 and 8 of the device.

The magnitude of the voltage on the additional winding 21 is chosen such that at the maximum output voltage of the linear regulator 1, the transistors 2 and 3 of the inverter enter saturation mode. When the output voltage at the terminals 7 and 8 deviates from the nominal value (for example, when decreasing), the linear regulator 1 increases the output voltage and compensates for the deviation of the output voltage at the terminals 7 and 8. Thus, the output voltage is stabilized, and changes in the input voltage at which the output voltage is kept constant are wider than in the known

devices, since the transistors 2 and 3 of the inverter at the lower edge of the input voltage measurement range go into saturation mode. In addition, only the base current of the inverter transformers 2, 3 flows through the linear stabilizer 1 and, consequently, the efficiency of the device increases. .

Claims (1)

A SECONDARY POWER SUPPLY containing an inverter and a linear stabilizer, the collector of the inverter transistors and the input of the linear stabilizer connected to the input terminal of the device, the other input terminal of which is connected to the middle terminal of the primary winding of the output transformer, the secondary winding of which is connected to the output terminals of the device, control transistors the base-emitter junctions of which are connected through resistors to the control windings, and the emitters are connected to the inverter transistor bases, the emitters of which are directed to the extreme terminals of the primary winding of the output transformer, and the base-emitter junctions are connected through diodes to the locking windings, characterized in that, in order to increase the efficiency, a master oscillator with a matching transformer is introduced, one secondary winding which is used as the aforementioned control and locking windings windings, another secondary winding with the terminal leads connected to the collectors of the control transistors, and the middle output § to the output of the linear stabilizer.