SU1053080A1 - A.c. voltage stabilizer - Google Patents

Abstract

AC VOLTAGE STABILIZER containing a regulating link, the output of which is connected to the input of the power amplifier, and the input to the input terminal, Exemplary measure of voltage, the output of which is connected to the first input of the electronic voltage switch, the second input of which is connected to the amplifier's output, power and output terminal, measuring transducer,. The KOToiporo output is connected via an electronic voltage amplifier to the left input of a synchronous detector, the output of which is connected via an integrator to a control input of a regulating link, the integrator being made as a chain of a resistor connected to a non-inverting input of a voltage attenuator, shunted by a capacitor, while at that. This voltage is connected to the common bus through a voltage divider, the divider output is connected via a two-way diode voltage suppressor to the synchronous output detector, the reference frequency generator, the output j of which is connected to the second input of the synchronous detector, is shown in this section and -. . This is due to the fact that, in order to increase the accuracy of the calibration of the level of the V.OUT voltage, the first, second, third and fourth differentiating circuits, the first and second switching impulse drivers, the first and second one-shot, and the first and second triggers are entered into it. , the first and second inverters, the first and second electromechanical: cic keys, while still,; the contact of the first electromechanical key is connected to the output of an exemplary voltage measure, the first fixed contact of the second electromechanical key is connected to the output of the power amplifier, while the movable contacts of the first and second electromechanical cables and the output of the electronic switch 1 are connected to the input of the measuring converter, the control inputs of the first and the second electromechanical keys are connected: 5unen to the output of the first formate. l switching pulses, the input of which is connected through series-connected, the first trigger and the first iivertor is connected to the output of the first differentiating circuit, the input of which is connected to the inputs of the second and third differentiating circuits, as well as to the output of the reference frequency generator, the output of the second differentiating chain through the first connected the one-shot and the second inverter are connected to the control input of the first co-switching pulse generator, the output of the third differentiating circuit is connected to the input of the second one-shot, and its output through the fourth differential:

Description

The circulating circuit is connected to the input of the second trigger, the output of which is connected via the second driver of the switching pulses to the control inputs of the electronic voltage switch.

The invention is related to electrical engineering and can be used to power various radio equipment. .

A device is known. Containing a switch, through which alternately with frequency |; enters the measuring transducer measurable and sample voltage. From the output of the converter, the signal enters an amplifier and a synchronous detector, to the output of which a low-pass filter IjQ is connected.

The closest to the invention in its technical nature is a device containing a control link, the output of which is connected to the input of the power amplifier, and the input to the input output, an exemplary voltage measure, the output of which is connected to the first input of the electronic voltage switch, the second the input of which is connected to the output of the power amplifier and the output terminal, the measuring transducer, the OUT of which through an electronic voltage amplifier through an integrated switch is connected to the control input of the regulating link, the integrator is made as a chain from a register connected to the non-inverting input of a voltage amplifier shunted by a co-sensor, while the non-inverting input of this amplifier is connected to the output bus through a voltage divider, the divider output is connected to the output of a synchronous detector through a two-way diode voltage suppressor frequency, the output of which is connected to the second input of the synchronous detector 2Q.

The disadvantage of the known devices. The calibration accuracy of the output voltage level is low.

The aim of the invention is to increase the accuracy of the calibration of the output voltage level.

The goal is achieved by the fact that a voltage regulator contains a regulating link whose output is connected to the input of the power amplifier, and the input to the input terminal / exemplary voltage measure whose output is connected to the first input of the electronic voltage switch.

the second input of which is connected to the output of the power amplifier and the output output, a measuring converter, the output of which through an electronic voltage amplifier is connected to the first input of a synchronous detector, the output of which is a cherbz integrator connected to a controlled input of the regulator, and the integrator is made in the form of a chain of a resistor, connected to the non-inverting input of a voltage amplifier, shunted by a capacitor, while the non-inverting input of this amplifier is connected via a voltage divider - common bus, divider output through a double-sided diode voltage suppressor connected to the output of the synchronous detector, a generator. reference frequency, the output of which is connected to the second input of the synchronous detector, entered the first, second, third and fourth differentiating circuits, nepBbipL and the second switching impulses , the first and second one-shot, the first and second triggers, the first and second inverters, the first and second electro-mechanical cling, while the fixed contact of the first electromechanical key is connected to the output of an exemplary voltage measure / the first fixed contact of the second electromechanical key is connected to the output of the power amplifier, while the movable contacts of the first and second electromechanical keys and the output of the electronic voltage switch are connected to the input of the measuring converter, the control inputs of the first and second electromechanical keys are connected to OUTPUT of the first switching and switching pulse generator, whose input is through a serially connected pervt, a trigger and the first inverter under It is connected to the output of the first differentiating circuit, the input of which is connected to the inputs of the second and third differentiating circuits, as well as to the output of the reference frequency generator, the output of the second differential circuit through the first single-oscillator connected in series and the second inverter connected to the control (to it the input of the first switching pulse generator the output of the third differentiating circuit is connected to the input of the second one-shot, and its. the output through the fourth differentiating circuit is connected to the input of the second trigger, the output of which through the second driver of the switching pulses is connected to the control inputs of the electron-.

voltage switch.

FIG. 1 is a schematic representation of a variable voltage stabilizer; in fig. 2 - diagrams of the U (t) -works of the electronic-mechanical switch. ,

The alternating voltage regulator contains regulating 3neno 1, block 2 of the power amplifier, block 3 of an exemplary voltage measure, computer, rator 4 of the effective voltage value, which consists of an electronic-mechanical co-regulator 5, including this node 6-20, measuring transducer 21 of the actual voltage, electronic voltage amplifier 22, synchronous detector 23, integrator based on electronic voltage amplifier 24, capacitor 25, resistor 26, voltage divider on resistors 27 and 28, diode limiter april on diodes 29 and 30, oscillator 31, reference frequency.

Additionally entered nodes; These include the first electromechanical key 8, the second electromechanical key 7, the first driver 9 switching pulses, the first trigger 10, the first inverter

11, first differentiating chain

12, second differentiating circuit

13, the first one-shot 14, the second inverter 15, the third differentiating circuit 16, the second trigger 19, the second shaper 20 switching pulses, in the drawing are circled in dotted lines. The output of the control link 1 is supplied to the input of the amplifier 2 power.

In the comparator 4 inputs electron-j. the leg of the voltage switch 6 is connected to the output of the power amplifier 2 and to the block 3 of the exemplary voltage measure. The output of the electronic switch is connected to the input of the measuring converter 21 of the operating voltage, and its output is connected to the first input of the synchronous voltage amplifier 22 detector 23. Its output is connected to the INPUT of an electronic integrator based on an electronic voltage amplifier 24, a resistor 26, a capacitor 25. A resistor 26 is connected between the output of the synchronous detector 23 and the input A capacitor 25 is connected between the input and output of the electronic amplifier 24. Moreover, the common point of connection of the resistor 26, the capacitor 25 and the inverting input of the electronic amplifier 24 is connected to the input of a resistive voltage divider on resistors 27 and 28. The output of the resistive divider is through a diode A voltage limiter on diodes 29 and 30 is connected to the output of synchronous detector 23.

The reference generator 31 is connected to a synchronous detector 23 and to the inputs of the first and second and third differential circuits 12, 13 and 16, respectively. Integrator output

5 is connected to a control input. of the regulating element 1f In the switchboard voltage 5, the fixed contact of the first electromechanical key 8 is connected to an exemplary measure 3

0 voltage The movable contact of the first electromechanical key 8 is connected to the input of the transducer 21 of the effective voltage value. First fixed contact wto

5 of the electromechanical key 7 is connected to the output of the power amplifier 2 and to the output bus. In this case, the movable contacts of the first and second electrical 1-mechanical keys

0 is connected to the input of the measuring transducer 21 of the actual voltage value. The control inputs of the first and second electromechanical keys are connected.

5 to the output of the first imager 9. switching pulses, the first two inputs of which are connected. to the output of the first trigger 10, the input of which, in turn, through the first inverter 11 is connected to the output of the first differentiating center and 12, and its input is connected to the output of the generator 31 of the reference frequency.

In addition, the output of the generator 31 reference frequency through the second

5 differentiating circuit 13 is connected to the input of the first one-shot 14, the output of which through the second inverter 15 is connected to the third input of the first shaper 9 com mutation pulses. The output of the reference frequency generator through the third differentiating circuit. 16 is connected to the input of the second single-vibrator 17, and its output through

5, a fourth differentiating circuit 18 is connected to the input of the second trigger 19, the outputs of which are connected to the control via the second switching pulse generator 20

0 inputs of electronic switch 6 voltage.

FIG. 2 (ab) shows diagrams,. or jittering voltage of the switch 6: a is the voltage form, coming from the generator 31I output

five

the reference frequency, at the input of the first, second and third differentiating circuits 12, 13 and 16, respectively;

b - the same at the output of the first, second and third differentiating chains 12, 13 and 16, respectively,

B - the same, at the output of the first one-shot 1.4; d - the same, at the output of the BTopord of the inverter 15, the same, at the output of the first inverter 11;

e and h - Too, on the first and second outputs of the first trigger iO; u on the first and second outputs of the first driver 9 switching pulses; k - the same at the output of the second ,. The one-shot 17J liter is the same. At the output of the fourth differentiating circuit 18; Mi h is the same, at the outputs of the second trigger 19, o and p is the same, at the outputs of the second imaging unit 20 switching points, j.

The stabilizer works as follows: Image.; J

Bust, - the voltage Ujj from the output of yc and the customer 2, the power of the variable voltage regulator is not equal to the output voltage of the image of the voltage UQ, i.e. Uy fUo .. Then, at the output of the converter 21, the effective voltage value is incremented by a voltage of 1U, which, after amplification by the amplifier 22, is fed to the input of the synchronous detector 23. The output of the synchronous detector 23 is a rectified voltage iU. After filtering the voltage DC, the value of which is proportional to the deviation of Ux over the Up ratio, this voltage, which is fed to the control input of the regulating link 1, regulates the voltage at the input of the power amplifier 2 so that the output voltage of the power amplifier 2 equal to the stress of the exemplary measure of block 3.

 From the diagrams above, it can be seen that the electromechanical keys 7 and 8 operate synchronously with the electronic keys of the electronic switch 6 voltage. If at the moment the first electronic key of the Electron switch 6 is connected to unit 3, then in parallel it also includes an electromechanical key 8. If next time the second electronic key of electronic switch 6 is connected to unit 2, then in parallel it also includes an electromechanical key 7. Switching The electronic keys of the electronic switch 6 occur in the time interval when the electromechanical keys 7 and 8 are briefly turned off during the switching phase. Synchronous - the work of the electronic and electromechanical power switches of the voltage switch provides the high metrological parameters of the hundred: biller; AC voltage, since the transducer 21 of the current voltage value is connected to the output of block 2, then to the output of block 3, both through a small resistance-contact pairs of electromechanical switches 7 and B, and electronically, using a switch, electromechanical switch 6 in static mode. In the transient operation mode of the electromechanical keys 7 and 8, the transducer 21 of the current value, the voltage is connected to the outputs of blocks 2 and 3 via the electronic keys of the electronic switch 6..

Thus, the proposed invention allows one to increase the accuracy of the calibration of the output voltage level.

Claims (1)

AC VOLTAGE STABILIZER containing a regulating element, the output of which is connected to the input of the power amplifier, and the input to the input terminal, an exemplary measure of voltage, the output of which is connected to the first input of the electronic voltage switch, the second input of which is connected to the output of the amplifier, power and output terminal , a measuring transducer, the output of which through an electronic voltage amplifier is connected to the first input of a synchronous detector, the output of which is connected via an integrator to a controllable control input guide link, wherein the integrator is configured as a chain of resistors connected to the noninverting input of the voltage amplifier, a capacitor shunted, the input of this neinvertiruyuschyy usi-. of the divider through a voltage divider is connected to a common bus, the output of the divider through a two-sided diode voltage limiter is connected to the output of the synchronous detector, a reference frequency generator, the output of which is connected to the second input of the synchronous detector, about, l and -. . Particularly, in order to increase the accuracy of calibrating the output voltage level, the first, second, third, and fourth differentiating circuits, the first and second switching pulse shapers, the first and second one-shots, the first and second flip-flops, the first and second inverters, first and second electromechanical keys, thus motionless; elektromehanichesko- first contact _of the first switch is connected to the output voltage raztsovoy ob- 18 measures a first fixed contact of the second electromechanical switch connected n to the output of the power amplifier, while the movable contacts of the first and second electromechanical keys g and the output of the electronic switch. The voltages are connected to the input of the measuring transducer, the control inputs of the first and second electromechanical keys are connected to the output of the first shaper of "switching pulses, the input of which is connected through series-connected , the first trigger and the first inverter is connected to the output of the first differentiating circuit, the input of which is connected to the inputs of the second and third differentiating circuits drink, as well as to the output of the reference oscillator, the output of the second differentiating 'chain via a series-connected first monostable multivibrator and a second inverter connected to the control input of the first switching pulse generator, the third output of the differentiating circuit is connected to the input of the second monostable multivibrator, an output of the fourth through the _{differential;} 1053080, the coding circuit is connected to the input pulses and is connected to the second trigger, the output of which is equal to the inputs of the electronic commutator via the second voltage commutator.