SU789983A1 - Switch-type dc voltage stabilizer - Google Patents

Description

Union of Soviet Socialist Republics

State Committee

USSR

DESCRIPTION OF THE INVENTION TO COPYRIGHT CERTIFICATE (61) Additional to ed. certificate (22) 3April 16.10.78 (21) 2674119 / 24-07 with the addition of application No. (23) Priority for inventions and discoveries

Published 12/23/80. Bulletin No. 47

Date of publication of the description 23.12.80 (72) Authors of the invention

V.I. Khandogin and V.I. Khandogin (71) The applicant, 789983 (51) M. Kl '?

Q 05 F 1/58 (53) UDC621.316.

.722.1 (088.8) (54) KEY DIRECT STABILIZER

This device relates to a conversion technique, in particular to secondary power sources, and can be used to stabilize DC voltage in various radio engineering devices.

Known are key stabilizers, voltages, containing an oscillator and converter cells, each of which consists of a series-connected power amplifier, transformer, rectifier, filter, and the inputs of one amplify power are connected to the input of the oscillator, and other power amplifiers are connected to the input of the oscillator through key regulators consisting of a series-connected key element and a filter, the outputs of the conversion cells being connected. _m us consistently? and the outputs of the oscillator are connected to the control inputs of the power amplifiers of the converter cells [~ ij.

However, due to the phase management of the power amplifiers of the converter cells, significant ripple occurs at the input and output of the device, and when the input voltage changes, the efficiency decreases and ripples increase.

Closest to the proposed one is a key voltage regulator containing an oscillator and converter cells, each of which consists of a series of connected power amplifiers, a transformer, a rectifier, a filter, and the inputs of some power amplifiers are connected to the input of the oscillator and power buses, and other power amplifiers are connected with the input of the oscillator through key regulators, consisting of a series-connected key element and filter, and the outputs of the conversion the cells are connected in series and the outputs of the oscillator are connected to the control inputs of the power amplifiers of the conversion cells ^ 2 ^.

The disadvantages of the known key voltage regulator are high ripple output and input voltage and low KGS.

Nel invention - reducing ripple of the output and input voltage and increase efficiency.

The goal is achieved by the fact that in a device ^ consisting of a self-oscillator and conversion cells, each of which consists of a series-connected power amplifier of a transformer, a rectifier, a filter, and the inputs of some power amplifiers are connected to the input of the oscillator and power buses, etc. -! j x power amplifiers are connected to the input of the oscillator through key regulators consisting of a series-connected key element and a filter, the outputs of the transducer ₂ cells being connected in series, the keys, transistors, pulse generators, voltage to code converter, winding, the oscillator output connected to the control input the first power amplifier, and the winding located on each transformer of the converter cell, except the last, is connected to the control input power of the subsequent converter cell, two parallel-connected keys are connected between the control input of the key element of the key controller and the power bus, and two transistors are connected in parallel to the control inputs of the two keys, and the control inputs of the keys are connected to the output of the pulse generator, and the transistors are converted to the output in series, the output of the oscillator 1 is connected to the control input of the first power amplifier 6 of the converter cell 2, and the winding ^ located on each transformer e converter cell 2,3,4 is connected to the control input of the power amplifier 6 of the subsequent converter · cell, two parallel connected keys 13 and 14 are connected between the control input of the key element 11 of the key controller 10 and the power bus, and two transistors 15 and 16 are connected in parallel the control inputs of the keys 13 and 14, and the control inputs of the latter are connected to the output of the pulse generator 17 (for example, a multivibrator), and transistors 15 and 16 are connected to the output of the voltage converter T8 to a code whose input with the gene Rathore 17 connected to the input pulses.

The device operates as follows.

When a key voltage stabilizer is connected to a constant voltage, the oscillator 1 generates rectangular pulses that open and close the keys of the power amplifier 6 of the converter cell 2. Due to the imperfect edges of the output voltage and the inertia of the rectifier diodes, the output voltage ripples at the filter output. shown in FIG. 2 (V · ⁴ -1). The control voltage at the input of the power amplifier 6 of the converter cell '3 arrives with a delay relative to the control voltage of the oscillator 1 by the amount of voltage in the code, the input of which and the input of the pulse generator are connected to the power buses.

Pa fig. 1 is a diagram of a key voltage stabilizer; in FIG. 2 ripple output voltage.

The proposed device consists of an oscillator 1 and converter cells 2, 3, 4, 5, each of which contains a series-connected power amplifier 6, a transformer 7, a rectifier 8, a filter 9, and the inputs of the power amplifier 6 of the converter cells 2, 3, 4 are connected to the input of the oscillator 1, and the power amplifier 6 of the converter cell 5 are connected to the input of the oscillator 1 through a key regulator 10, consisting of serially connected key element and filter 12, and the outputs of the converter cells 2, 3, 4, 5 with dine-

Where

- signal delay time when passing through the amplifier • 6 power converter cells;

- the delay time of the signal when passing through the transformer 7 of the Converter cell.

.IN. as a result of this, the output voltage dips (ripple) · at the output of the filter 9 of the converter cell are shifted along the time axis by the value V (Fig. 2 Uу Q).

. Thus, the total ripple voltage at the output of the device is equal in magnitude to the ripple voltage at the output (of one converter cell (Fig. 2

To satisfy equality

U ^ = U ~;

It is necessary that ¹ Ί -Т / П _о 5щ | ,

-de η · _ the period of the following voltage dips at the output of the filter;

More, ”total number of conversion cells.

Stabilization of the output voltage through4 proceeds as follows.

At low input voltages the key element 11 a key regulator 10 is fully open, since the keys 13 and 14 are controlled in phase opposition by the pulse generator 17 and represent something gorot- ¹ circuit, and transistors 15 and 16 are closed signals removable from the voltage converter 18 outputs code (regular unit code). With increasing input voltage from the PNA output, for example, an opening voltage is applied to the control input of transistor 15 and the key 13 closes. The duty cycle of the key element 11 of the key regulator, 10 becomes equal to 0.5. At the output 2 of the key controller 10, the voltage is 0.5 kJ. With a further increase in the input voltage, the key 14 is closed and at the output of the key controller 10, the voltage becomes equal to O. _ ³¹

The number of converter cells with key controls is selected from the required stabilization discrete.

If the total output voltage is 3: ^p o5sc. t'atAKi) '

-de output voltage of one

1 of the conversion cell, then the accuracy of maintaining the output voltage bu— $ det is

When the output voltage is stabilized, the ripple of the output voltage does not change 4 '. Due to the fact that when switching the keys of the amplifiers 6 of the power of the converter cells, an increased through current occurs, and phase control only enhances the inrush current, 5! then the control delay of the power amplifiers 6 by the value of 'b can significantly reduce the ripple of the input voltage. Moreover, the PNA input can be connected not only to the input, but also to you — S: while the device is running, and in the number of the 17 pulse generator, additional outputs of the self-oscillator 1 can be used.

EFFECT: invention makes it possible to reduce the output capacitance of filters by a factor of _{улучшить and} to improve the shape of the consumed current, increase the efficiency of the key stabilizer, and also reduce the weight and dimensions of the entire device as a whole.

Claims (2)

This device relates to converter equipment, in particular to secondary power sources, and can be used to stabilize the DC voltage in various radio devices. The key stabilizers are made of yarns containing an auto-oscillator and pre-educational cells, each of which consists of a power amplifier connected in series, a transformer, a rectifier, a filter, and the inputs of one power amplifiers are connected to the input of the auto-generator, and other power amplifiers are connected to the input of the oscillator through the key regulators consisting of a series-connected key element and a filter, the outputs of the converter cells being connected. us consistently; and the outputs of the oscillator are connected to the control inputs of the power amplifiers of the converter cells ij. However, due to the phasing of the control of the power amplifiers of the converter cells, significant pulsations occur at the input and output of the device, and as the input voltage changes, the efficiency decreases and the ripple increases. Closest to the present invention is a key voltage regulator containing an auto-oscillator and converter cells, each of which consists of successively connected power amplifiers, a transformer, a rectifier, a filter, the inputs of some power amplifiers connected to the input of the autogenerator, and power buses, and other power amplifiers are connected to the input of the auto-generator through the key controllers consisting of a series-connected key switch and a filter, with the converter outputs being They are connected in series, and the outputs of the autogenerator are connected to the control inputs of the power amplifiers of the converter cells. 3.78 The disadvantages of the known key voltage regulator are the high output and input voltage ripples and the low efficiency that are being tapped. The purpose of the invention is to reduce the output and input voltage ripple and increase the transmission. The goal is achieved by the fact that a device consisting of an auto-generator and transformer cells, each of which consists of a transformer power amplifier connected in series, a rectifier, a filter, the inputs of some power amplifiers connected to the auto-generator input, and power buses, and others. these power amplifiers are connected to the input of the oscillator through key controllers consisting of a serially connected key element and a filter, with the outputs of the converter cells connected in series, keys, transistors, pulse generators, voltage converter to code, winding, auto generator output are connected to the control input of the first Power amplifier, and winding located on each transformer of the converter cell, except the last one, is connected to the control input of the power amplifier of the subsequent converter cell , two parallel-connected keys are connected between the control input of the key element of the key regulator and the power supply, and two transistors are connected by parallel control Clue whose two inputs, wherein the control inputs, keys connected to the output of the pulse generator, and transistors - a converter output voltage into the code input is input and a pulse generator coupled to power rails. Ma FIG. 1 is a circuit diagram of a key voltage regulator; in fig. 2 ripple output voltage. The proposed device consists of an auto-oscillator 1 and converter cells 2, 3, 4, 5, each of which contains a power amplifier 6 connected in series, a transformer 7, a rectifier 8, a filter 9, and the inputs 6 of the power of the converter cells 2, 3, 4 connected to the input of the auto-oscillator 1, and the amplifier 6 of the power of the converter cell 5 is connected to the input of the auto-oscillator 1 via a key regulator 1O, consisting of successively connected key element 11 -I filter 12, the outputs of the converter cells 2, 3, 4, 5 are connected in series, the output of the autogenerator 1 is connected to the control input of the first power amplifier 6 of the converter circuit 1 and 2, and the winding located on each transformer of the converter cell 2,3,4 is connected to the control input of the amplifier 6 power of the subsequent converter cell, two parallel connected key 13 and 14 are connected between the control input of the key element 11 of the key regulator Yu and the power supply, and two transistors 15 and 16 are connected in parallel with the control inputs of the keys 13 and 14, m control inputs are connected to the last output pulse generator 17 (e.g. multivibrator), and transistors 15 and 16 - to yield a voltage converter T8 code in which input from the pulse generator input 17 is connected to the input. The device works as follows. When a key voltage regulator is connected to a constant voltage, the auto-oscillator 1 generates square pulses that open and close the keys of amplifier 6 of the power of the converter cell 2. Due to the non-ideal output voltage fronts and. of the inertia of the rectifier diodes; the output voltage ripples at the filter output have the form shown in FIG. 2 (l / - l). The control voltage to the input of the amplifier 6 of the power of the converter cell 3 arrives with a delay relative to the control voltage of the autogenerator 1 by the value of the signal delay time when passing through the amplifier b of the power of the converter cell; the delay time of the signal during its passage through the transformer 7 of the converter cell. ,AT. as a result, the dips of the output voltage (ripple) at the output of the filter 9 of the converter cell are shifted along the time axis by the value of t- (Fig. 2 vv-v a) ... Thus, the total voltage of the pulsations at the output of the device is equal to the magnitude of the ripple voltage at the output of one converter cell (Fig. 2 V -), to satisfy the equality of sludge ,; It is necessary that - H / Pob ... -ce - the period of following voltage dips at the output of the Gossch output, the total number of transformed | thermal cells. Stabilizing the output voltage is as follows. When the input voltage is low, the key element 11 of the key regulator Yu is fully open, since the keys 13 and 1 are controlled in antiphase from the pulse generator 17 and constitute a short circuit, and the transistors 15 and 16 are closed by signals removed from the transducer 18 voltages to a code (ordinary single code). As the input voltage rises from the output of the NCP, for example, the opening voltage is applied to the control input of the transistor 15 and the key 13 closes. The duty cycle of the operation of the key element 11 of the key regulator 10 becomes 0.5. At the output of the pressure regulator 1O, the voltage is 0.5 Un ,. . With a further increase in the input voltage, the key 14 is closed and, at the output of the key controller, U is set to O. The number of converter cells with key regulators is selected from the required stabilization discrete. If the total output voltage is equal to .., -СЫУ О5ш, .и2, | 5 (1.,, -De Ue, j) iy- the output voltage of a single transformative cell, then the accuracy of maintaining the output voltage will be equal to VmG2Pri The stabilization of the output voltage of the output voltage pulsation does not change. Due to the fact that when switching the keys of power amplifiers 6 of the converter cells, a through current of increased magnitude arises, and the phase control only amplifies the inrush current, the control delay of the power amplifiers 6 by the value of C significantly reduces the input voltage ripple. Moreover, the PNK input can be connected not only to the input but also to the output of the device, and in the number of the generator 17 pulses can be used to add additional outputs of autogeneration 1. 7 36 The invention reduces the output capacitance of filters in h paaj to improve the shape of the consumed current key stabilizer, as well as reduce the weight and dimensions of the entire device in the chain. Claims of the invention A key constant-voltage stabilizer, containing an auto-oscillator and converter cells, each of which consists of successively connected L1X power amplifiers, transformation-. ° P "rectifier and filter, and some power amplifiers are connected to the autogenerator input and power buses, and other power amplifiers are connected to the autogenerator input through key regulators consisting of a connected key element and a filter, and the outputs of the conversion cells are connected consistently with each other, characterized in that, with a circuit for reducing the ripple of the output and input voltage and increasing the transmission, the keys, transistors, pulse generators, transducer Jets in April code winding at ztom oscillator output coupled to a control input of the first amplifier and moschnosti- winding disposed on the transformer each, except the last one. connected to the control input of the power amplifier of the subsequent converting cell, with two parallel-connected keys connected each time to the control input of the key controller and the power bus, and two transistors connected in parallel to the control inputs of the two keys, while the control keys of the keys are connected to the output of the generator pulses, and transistors with the converter output are voltage; 11y to the code, the input of which and the input of the pulse generator are connected to the power buses. Sources of information taken into account in the examination, 1. Romash E. Transistor converters in electronic equipment power supplies. M., Energie, 1975, p. 141 .. 2.MONN V.S. Stabilized RNA Transducers. M., Energie, 1972, p. 277, fig. 8-12a.