SU1026255A1 - Stabilized converter - Google Patents

Description

1 The invention relates to converter electronics and can be used in electric power sources (electronic power supply equipment. A stabilized converter is known which contains a pulse-width modulator for controlling the output voltage of the intermediate inverter 1. The converter has a low efficiency factor. The closest to the one proposed is a stabilized envelope containing an inverter on power transistors with an output transformer, an output rectifier with a filter to which A feedback spindle is connected to a pulse-width modulator, the outputs of which are connected to the inputs of the respective power transistor control blocks, each of which contains a disconnecting transistor to the base of which the first resistor, a blocking voltage source, a diode, an unlocking voltage source, the first output which is connected via a switching transistor to the second resistor, and the second output of the unlocking voltage source has a common connection point with the first output of the locking voltage source. 1 2 3. The disadvantage of the converter lies in its low efficiency, due to the large losses in controlling the power transistors, since a diode is connected to the base current circuit. The purpose of the invention is to increase the efficiency by reducing losses for control. The goal is achieved by the fact that in a stabilized converter containing an inverter on power transistors with an output transformer, an output rectifier with a filter to which a pulse-width modulator is connected to the inputs of the corresponding blocks through a feedback amplifier. control of power transistors, each of which contains a disconnecting transistor, to the base of which a first resistor is connected, a block voltage source, a diode, a gate voltage source, the first terminal to The op is connected via a switching transistor to the second resistor, the second output of the unlocking voltage source has a common connection point with the first output of the locking voltage source, the second resistor is connected to the base of the power transistor, the emitter of which is connected to the specified common connection point of the unlocking and locking voltage and the first resistor, the second output of the source of the blocking voltage is connected to the emitter of the blocking transistor, the base and the collector of which form the input of the control unit It is a power transistor, and the specified collector is also connected to. the base of the switching-on transistor, the control transition of which is shunted by the indicated diode. When performing a pulse-width modulator with a matching transformer, the output windings of the latter are connected to the inputs of the corresponding control units of the power transistors via half-wave rectifiers. ". The drawing shows the function. The scheme is a stabilized converter. The stabilized converter contains an inverter on power transistors 1. t, an output transformer with an output winding 6 connected via an output rectifier 7, a filter 8 and a feedback amplifier 9 with a pulse-width modulator 1 o with an output winding AND a matching transformer connected to the base-collector junction of the tripping transistor 12 through diode 13 wiring in the direction of the collector, and the base of the tripping transistor 12 is connected via the first resistor 1 with the midpoint of the winding of the transformer 15 of the auxiliary converter 16. The extreme points of this winding are connected to the diagonal AC bridge diode rectifier 17. The diagonal DC voltage of the rectifying bridge with capacitors 18 and 19 form the sources of unlocking and blocking voltages, the common point of which is connected to the midpoint of the output winding of the transformer 15 and the emitter of the power transistor 4, whose base is through the second resistor 20 is connected to the emitter including

transistor 21, the collector of which is connected to the positive source of the unlocking voltage (17, 18. The base-emitter junction of the turning on transistor 21 is bounded by the diode 22. The collector of the tripping transistor 12 is connected to the base of the turning on transistor 21, and the emitter of the tripping transistor 12 is connected to the minus of the locking voltage source ( 19, 17).

The control units 23 2b are of the same type and are connected respectively to the control transitions of the POWER transistors 1 - t of the bridge inverter.

The device works as follows.

When voltage is applied to the auxiliary converter 16, it begins to produce a variable voltage, pazh, which through the transformer 15 to the sources enters the sources. and closing voltages, as well as energizes the amplifier 9 and the pulse-width modulator 10. The power transistors 1-4 through

control blocks 23 - 26 are switched by switching on 21 and disconnecting 12 transistors by applying voltages of capacitors 18 and 19 through them to control intercepts. The switch on and off sources are charged from the bridge rectifier 17. The switching on transistor 21 is controlled from the winding 11 of the output transformer of the pulse width modulator 10 by a positive polarity pulse through a diode 13 and a resistor N.

. The control current of the power transistor 4 flows through the circuit plus the unlocking voltage source (18, 17, the collector-emitter junction of the switching transistor 21, the current limiting second resistor 20, the aza-emitter junction of the power transistor 4 and the minus source

(1.7, 18. In the absence of a control pulse on the winding 11 or its negative polarity, an otigrading transistor 12 is turned on

5 control through a resistor 14 from plus a block voltage source. (19 17). The locking current of the power transistor k flows through the following circuit: plus a source of blocking voltage (19, 17 /, emitter-base transition of transistor 4 — current limiting resistor 20 — diode 22 collector-emitter junction of switching off transistor 12 — minus voltage source (19, 17-.

The duration of the switching-off current pulse and its value is determined by the magnitude of the charge of minority carriers of the base-emitter junction of the power transistor 4 and the time constant of the elements of the tripping circuit.

The output voltage t is stabilized as follows.

5 When increasing the output voltage, the feedback amplifier 9 controls the pulse width modulator 10 in such a way that the duration of the control voltage pulse on the winding 11 decreases. At the same time, the on-state time of the two power transistors 1 and 4 or 2 and 3 decreases, and the output voltage value decreases accordingly; horse trainer With an increase in output voltage, the process proceeds in the reverse order. Thus, due to the action of the feedback amplifier 9 and the pulse-width modulator 10, the output voltage of the converter is kept constant.

 Thus, a change in the interconnections between the elements of the power transistor control unit made it possible to exclude the auxiliary circuit from the base circuit. A careful diode and thereby reduce control losses.

Claims (2)

1. A STABILIZED CONVERTER containing an inverter on power transistors with an output transformer, an output rectifier with a filter, to which a pulse-width modulator is connected through a feedback amplifier, the outputs of which are connected to the inputs of the corresponding power transistor control units, each of which contains a disconnecting transistor, the base of which is connected to the first resistor, a source of blocking voltage, a diode, a source of blocking voltage, the first output of which is connected through a switching transistor to the second resistor, and the second output of the trigger voltage source has a common connection point with the first output of the trigger voltage source, in that, in order to increase the efficiency by reducing control losses, the second resistor is connected to the base of the power transistor _{f, the} emitter of which is connected to the indicated common connection point of the sources of unlocking and locking voltages and the first resistor, the second output of the source of the locking voltage is connected to the emitter of the locking transistor, the base and collector the torus of which forms the input of the power transistor control unit, and the specified collector, in addition, is connected to the base of the switching transistor, the control transition of which is shunted by the indicated diode. 2. The converter according to claim 1, characterized in that the pulse-width modulator has a matching transformer, the output windings of which are connected to the inputs of the corresponding, corresponding control units through half-wave rectifiers. SU p „1026255 /