SU1589356A1 - Dc voltage converter - Google Patents

Abstract

The invention relates to electrical engineering and can be used in the electric power supply and automation systems. The purpose of the invention is to improve the quality of the output voltage by decreasing its variable variable. The converter contains in the power circuit a resonant filter 3 with a resonance frequency close to the operating switching frequency of the power switches of the power amplifier 1. The output voltage ripple minimization system comprises a voltage pulse transducer 4 connected in a circuit, a variable voltage amplifier 5, an additional rectifier 6, a comparator 7, and a variable frequency master oscillator 9. The chain operates on the principle of a compensated closed-loop negative feedback system by comparison with the voltage of the element 8 of the reference voltage. 1 il.

Description

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The invention relates to electrical engineering and can be used in the systems of secondary power supply and automation.

The purpose of the invention is to improve the quality of the output voltage by reducing its variable component.

The drawing shows a diagram of the proposed Converter. The input voltage Ug; (supplied to the power amplifier 1, from the output of which through the main rectifier 2, the smoothing and resonant filters 3 and the voltage pulsation sensor 4 4) goes to the output of the converter (Ug (,, P. The voltage pulsation sensor 4 output The variable component amplifier 5 and the additional rectifier 6 are connected to the first input of the comparator 7. A voltage element 8 is connected to the second input of the comparator 7. The output of the comparator 7 is connected to the control circuits 9 n power amplifier keys, power 1..

The Converter operates as follows.

With the appearance of the voltage Ug of the signal from the supporting element 8 through the comparator 7 is fed to the input of the master oscillator 9, which generates a sequence of pulses with a frequency slightly lower than the resonant frequency of the resonant part of the filter 3 fed to the input of the control of the power bodies 1. In the power circuit of the converter, the voltage filtered by the smoothing and resonant filters 3 is transmitted to the output. Since the device operates at a frequency lower than the resonant one, the ripple of the voltage or current at the output of the power supply is significant. From the pulsation sensor 4 voltage, they are fed to the amplifier of variable component voltage 5 and rectifier 6, from where the constant component is fed to the input of comparator 7. At the same time, the voltage on both inputs of the comparator 7 cpaBHii- is increased, the input of the master oscillator 9 leads to an increase in the pulse frequency arriving at the control input of the power amplifier 1.

With an increase in the operating frequency, the efficiency of the resonant part

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filter 3 increases, and the voltage ripples at the output of the converter decrease, resulting in a decrease in the voltage at the input of the comparator, i.e. the process is stabilized. With a change in temperature, the resonant frequency of filter 3 varies somewhat, and the voltage ripple at the output of the converter remains unchanged, since the operating frequency of the switching of the keys of the power amplifier automatically monitors the resonant frequency.

Since the characteristics of some resonant filters are symmetric (for example, a notch filter), the operating frequency can be not only lower, but also more reasonable}). In this case, the comparator performs the operation of subtracting signals at its inputs.

The proposed device allows reducing the output voltage or current ripple level to a predetermined value and keeping it constant in the temperature range and under the influence of other destabilizing factors.

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A constant voltage converter containing a power amplifier whose power switches are controlled from a variable frequency master oscillator, the control input of which is connected to the output of a comparator, to which the first voltage element is connected to the first input, and the main rectifier is connected to the output power circuit of the converter the driver smoothing the filter and the resonant node, characterized in that, in order to improve the quality of the output voltage by reducing its variable component, as a resonant the node used a resonant filter with a resonance frequency close to the operating frequency of the power switches of the power amplifier turned on at the output of the smoothing filter whose input through the main rectifier is connected to the output of the power amplifier and the input pulsation sensor of the output voltage is connected to the output transducer the output of which is through the input of a variable voltage component amplifier and an additional rectifier connected to the second input of the comparator.

Claims (1)

Claim A DC voltage converter comprising a power amplifier, the power switches of which are controlled from a master oscillator with an adjustable frequency, the control input of which is connected to the output of the comparator, to the first input of which it is connected. a reference voltage element, and the main rectifier, a smoothing filter and a resonant assembly, are included in the output power circuit of the converter, characterized in that, in order to improve the quality of the output. voltage by reducing its variable component, a resonant filter with a resonance frequency close to the operating frequency of switching the power switches of the power amplifier, used at the output of the smoothing filter, the input of which through the main rectifier is connected to the output of the power amplifier, and to the output terminals of the converter, is used as a resonant node the input pulsation sensor of the output voltage is connected, the output of which through the input amplifier of the variable component of the voltage and an additional straighten s is connected to the second input of the comparator. <