SU1046743A1 - Ac voltage stabilized source - Google Patents

Abstract

A STABILIZED AC VOLTAGE SOURCE containing a transformer, the primary winding of which is connected to the input terminals, the secondary - to the output terminals of an AC stabilizer connected by the first pin to one input terminal, and the second output through the compensation winding of the transformer that is connected to a section of a counter, and a single terminal through one compensation terminal, and the second output through the compensation winding of the transformer that is connected to a section of a counter and a single input terminal through one compensation terminal, and the second output through the compensation winding of the transformer that is connected to a section of a counter and one of the enclosures of the counter and one input terminal another input terminal, an additional winding of the transformer, connected to the input of the AC / DC converter, the output of which is connected n through a potentiometer with control inputs of the thyristor optocouplers, and the AC stabilizer is made in the form of two stabilizers: direct current jams, each of which consists of a transistor, the base of which is connected to a moving output of an alternating resistor, two diodes and a zener diode, and the emitter of the transistor through the first diode and one output of the variable resistor through the second diode are connected to the first output of the AC stabilizer, the second output of the variable resistor is connected via a zener diode to the second output AC power amplifier, characterized in that, in order to expand i control range and reduce energy losses, these (L C transistors are made composite, and their collectors are connected to the second output of the AC stabilizer, thyristor optocouplers are connected between the power base and the collector of additional transistors composite transistor, while the collector of the additional transistor 4 35 through the input resistor is connected to the second variable resistor 1 torus. 4 OE

Description

one

The invention relates to electronics and can be used in devices that have high demands on the stability of the regulated output voltage with a wide range of variation of the load current and a minimum energy loss of m.

A stabilized alternating signal source containing two dc stabilizers, each of which consists of a control transistor, a resistor, a reference voltage source and a diode, is known, and the transistors are made with a different type of GDK. The disadvantages of this device are low output voltage stability, no adjusting the output voltage, significant energy loss and low temperature stability.

The closest to the present invention is a device containing a transformer, the primary winding of which is connected to the input terminals, the secondary - to the output terminals of the AC stabilizer, connected by the first output to one input terminal, and the second output through the compensation winding connected to it by another input a terminal, an additional winding, an AC / DC converter, and an additional winding is connected to the input of the converter, the output of which is connected to the control inputs Amplifier optocouplers, and two AC stabilizers, each of which consists of a transistor, the base of which is connected to a moving output of an AC resistor, two diodes and a Zener diode, as well as thyristor optocouplers connected between the collectors of the corresponding transistors and the second view of the AC stabilizer.

Moreover, the output of the variable-voltage converter can be connected to the control inputs of the optocouplers via potentiometer 2.

The disadvantages of the known device are the narrow range of output voltage regulation, certain energy losses due to the flow of load current through the optocouplers and low temperature stability due to the control level 046743

searching for elements along collector circuits as well as a narrow current range of device operation.

The purpose of the invention is to expand the range of regulation and reduce energy losses, as well as to increase the current range of the device.

The goal is achieved by

that in a stabilized AC voltage source containing a transformer, the primary winding of which is connected to the input terminals, secondary to the output terminals, an AC regulator connected by the first output to one input terminal, and the second output through the compensation winding of the transformer connected opposite the primary winding connected to a different input terminal, an additional winding of the transformer connected to the input of an AC-DC converter, the output of which is connected through a potentiometer with control inputs of the thyristor optocouplers, and the AC stabilizer is made in the form of two DC stabilizers, each of which consists of a transistor, the base of which is connected to a movable variable of the AC resistor, two diodes and a zener diode, and the emitter of the transistor through the first diode and one variable voltage resistor through the second diode is connected to the first output of the AC stabilizer, the second output of the variable resistor through the zener diode is connected to the second output of the stabilizer AC transistors, these transistors are made composite, and their collectors are connected to the second output of the AC stabilizer, the thyristor optocouplers are connected between the power base and the collector of the additional transistors of the composite transistor, and the collector of the additional t) of the anzistor is connected to the second through the input resistor the output of a variable resistor.

The drawing shows a diagram of a stabilized AC voltage source.

The stabilized AC voltage source consists of a transformer I with a primary 2, a secondary 3 and a compensation 4 windings, a source 5 of a controlled voltage containing an additional winding 6 and an alternating voltage converter 7, permanently connected via a control potentiometer 8 s the thyristor optocoupler 9 and 10, and two DC stabilizers, including transistors 11 and 12 of reverse conductivity, whose emitters are connected to the anodes of diodes 13 and 14, the cathodes of which respectively, with the input of the device and the compensation winding 4 and the cathodes of the diodes 15 and 16, connected to variable resistors 17 and 18, the movable contacts of which are connected to the bases of transistors 11 and 12, and the other terminals to the anodes of the zener diodes 19 and 20, the cathodes of which are connected respectively with compensation winding and device input. The collectors of transistors 11 and 12 are connected to resistors 21 and 22, the other outputs of which are connected to the anodes of the stitartrons 19 and 20, and through the thyristor optocouplers 9 and 10 to the bases of the power transistors 23 and 24, the emitters of which are connected to the anodes of the diodes 13 and 14, and the collectors - with anodes of zener diodes 19 and 20. The source works as follows. When the initial voltage is changed, the voltage decreases or increases in both the primary 2 and the compensation 4 windings. The regulator, made in the form of DC stabilizers and connected in series with the compensation winding, allows reducing or increasing the opening degree of the transistors 23 and 24 to reduce or increase the current flowing through the compensation winding 4 The trimmers 17 and 18 are designed to set the current stabilization of zener diodes 19 and 20 and for changing the bias voltage to the bases of transistors 11 and 12, i.e. changing the position of their operating points on the current-voltage characteristics with their nonidentical parameters. The resistors 21 and 22 are designed to set the initial bias voltage to the bases of the transistors 23 and 24 and to effect the temperature stabilization of the transistors 11 and 12. Minor voltage fluctuations (fractions of volts) in the auxiliary winding 6 are transmitted through the variable voltage constant-to-voltage converter 7 potentiometer 8 to the control inputs of optocouplers 9 and 10, which change their resistances, and therefore, and the current, which regulates the degree of opening of the transistors 23 and 24, thereby eliminating certain power inputs e losses voznikak que if incorporation into the collector circuits of optocouplers regulating transistor through which flow compensating currents. The inclusion of optocouplers 9 and 10 in the basic circuits of control transistors 23 and 24, together with the control potentiometer 8, makes it possible to significantly expand the range of control of the output voltage. The implementation of the regulating element in the form of a composite transistor allows the current range of the proposed device to be expanded. Thus, the invention makes it possible to significantly expand the range of output voltage control and reduce energy losses.

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Claims (1)

A STABILIZED AC VOLTAGE SOURCE containing a transformer whose primary winding is connected to the input terminals, the secondary to output terminals with another input terminal, an additional transformer winding connected to the input of the AC to DC converter, the output of which is connected through an otsentiometer with thyristor optocoupler control inputs, and an AC stabilizer is made in the form of two stabilizers: DC gates, each of which consists of a transistor, the base of which is connected to the movable output of an alternating resistor, two diodes and a zener diode, and the emitter of the transistor through the first diode, and one output of the variable resistor through the second diode is connected to the first output of the AC stabilizer, the second output of the variable resistor through the zener diode is connected to the second output of the stabilizer variable current, characterized in that, in order to expand the control range and reduce energy losses, these transistors are made composite, with their collectors connected to the second output of the AC stabilizer, thyristor optocouplers are connected between the base of the power and the collector of the additional transistors of the composite transistor, while the collector of the additional transistor through the introduced resistor is connected to the second output of the variable resistor. SU „p 1046743>