SU1136278A1 - Voltage converter - Google Patents

Abstract

CONVERTER VOLTAGE, containing the power amplifier, you-. transistorized circuit with a midpoint of a transformer, a master oscillator with a control transformer, the secondary winding of which is connected via resistors to the bases of the transistors of the power amplifier, and a switch node containing an additional power source, in parallel with which the first optocoupler emitter and a resistive current sensor are switched on via an RC circuit the power supply circuits, in parallel to which the light emitters of the second and third optocouplers are connected through resistors, in order to increase the In operation, an additional power source is connected to the control junction of the transistor of the protection node in the opening direction through a resistor and 4 otiristor of the first optocoupler whose cathode is connected to the basic output of the input protection transistor connected to the junction of the emitters of the transistors of the power amplifier and media ( It is the secondary winding point of the control transformer, and the anode, via the input dissolving diodes, is connected with the anodes of the photothyristors of the second and third optocouplers, whose cathodes are connected respectively with the beginning and end of the secondary winding of the control transformer.

Description

1 The invention relates to converter technology and can be used in the design of secondary power sources. Voltage converters are known that connect a transistor power amplifier according to a circuit with a midpoint of a transformer, a master oscillator with a control transformer L and W. A disadvantage of the devices is the lack of protection against short circuits and overloads at the output. The closest to the invention is a voltage converter containing a power amplifier, performed on transistors according to a circuit with a midpoint of a transformer, a master oscillator with a control transformer, the secondary winding of which is connected to the bases of transistors through resistors, and the protection unit 3J reduced reliability due to the lack of overload protection in the presence of protection against short circuit at the output. The purpose of the invention is to increase the reliability of the device. The goal is achieved by the fact that in a voltage converter,; containing a power amplifier made of transistors according to a circuit with a midpoint of a transformer, a generator with a control transformer, the secondary of which is connected via resistors to the bases of transistors, and a protection node containing an additional power source, in parallel with which the light emitter of the first is switched on via an RC circuit optocoupler, and a resistive current sensor in the power supply circuit, in parallel with which the light emitters of the second and third optocouplers are connected through resistors to the control transition of the transistor protection in the optical direction is connected to an additional power source through a resistor and photoristor of the first optocoupler, the cathode of which is connected to the base terminal of the inserted protection transistor connected between the emitter connection point of the transistors of the power amplifier and the middle point of the secondary winding of the control transformer, and the node through the input connecting diodes - with the anodes of the photothyristors of the second 82 and third optocouplers, the cathodes, which are connected respectively to the beginning and end of the secondary winding of the control transformer laziness. The drawing shows a diagram of the proposed device. The device contains a master oscillator 1 connected to the primary transformer 2 of the control transformer, the secondary winding of which is connected through the limiting resistors 3 and 4 in parallel to the base of the emitter of the transistors 5 and 6 of the power amplifier, and the protection transistor 7 connected to the connection point emitters of transistors 5 and 6, and its emitter is connected to the midpoint of the secondary winding of control transformer 2. Parallel to the base-emitter junction of the protection transistor 7, an additional power source is connected (the power supply, with its positive pole through the limiting resistor 8 and the Lotistrist 9 of the first optocoupler 10 connected to the base, and the negative power supply connected in parallel with the emitter. the light fixture 11 of the first optocoupler 10, the resistor 12 and the capacitor 13. The positive pole of the power source through the current overload sensor 14 and the primary windings of the output transformer 15 is attached to the call The power amplifier transistor 5 and 6. The negative pole of the power supply is connected directly to the emitters of transistors 5 and 6. In parallel with the current overload sensor 14 through the limiting resistors 16 and 17, the 18 and 19 of the second 20 and third 21 optocouplers are switched on, the photo thyristors 22 and 23 of which are connected by cathodes respectively to the beginning and to the end of the secondary winding of the control transformer 2, and their anodes are connected via an isolating diode 24 and 25 to the anode of the photothyristor 9 of the first optocoupler 10. The device operates as follows shim. in a way. In normal operation, the signals from master oscillator 1 through the secondary winding of the control transformer 2, limiting resistors L or 4 and protection transistor 7

3

alternately open the transistors 5 or 6 of the power amplifier. At the same time, the current flowing in the circuits of their collectors through the sensor 14 of the current overload 14 and primary windings of the output transformer 15 is insufficient for opening the light emitters 1P and 19 of the second 20 and third 21 optocouplers.

As the load current increases, the voltage drop across the current overload sensor 14 increases, and the light emitters 18 and 19 through the limiting resistors / 16 and 17 open. Depending on the polarity of the control signal on the secondary winding of the control transformer 2, one of the photo thyristors 22 or 23 opens and. closes fo362784

the totiristor 9 of the first optocoupler 10,. thereby closing the transistor 7 of protection and breakage of the control circuit of transistors 5 and 6 of the power amplifier. The protection transistor 7 is opened from the auxiliary power source through the limiting resistor 8 and the photo thyristor 9 of the first optocoupler 10 by a signal from the light output of the driver 11, which turns on an iHbW pulse, the magnitude and duration of which is determined by the resistor 12 and the capacitor 13,

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5 - Thus, in the proposed device, protection against short circuits and against overcurrents is implemented, which significantly increases the reliability of the entire device.

Claims (1)

VOLTAGE CONVERTER · containing a power amplifier, made on transistors according to the scheme with the midpoint of the transformer, a master oscillator with a control transformer, the secondary winding of which is connected through resistors to the bases of the transistors of the power amplifier, and the protection unit containing an additional power source, in parallel of the third optocouplers, which is due to the fact that, in order to improve reliability in operation, to the bending transition of the protection transistor in the unlocking direction under. the keys an additional power source through the resistor and the photo-thyristor of the first optocoupler, the cathode of which is connected to the base terminal of the input protection transistor connected * between the connection point of the emitters of the power amplifier transistors and the middle point of the secondary winding, the control transformer, and the anode through the input decoupling diodes - with the anodes of the photo-thyristors of the second and a third optocouplers, the cathodes of which are connected respectively to the beginning and end of the secondary winding of the control transformer. 1? 1 3 N oo