SU898585A1 - Method of exciting resonance oscillations in inverter - Google Patents

Description

(54) METHOD OF EXCITATION OF RESONANT OSCILLATIONS IN THE INVERTER

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The invention relates to converter equipment and can be used in power supplies of communication devices and electrical technology installations.

Methods are known for producing oscillations in electrical circuits with the help of inverters, to whose input a constant voltage is applied, and periodic oscillations of a certain shape and frequency are created at the output. In frequency converters with a pronounced DC link, the inverter is powered by the rectifier with a pulsating voltage. The frequency of the pulsations is determined by the rectifier circuit and the frequency of the supply voltage (I) and 2.

The closest to the technical essence of the invention is a method of exciting resonant oscillations in an inverter, consisting in the formation of a constant and variable component 3 at the input of the inverter.

The value of the output voltage is determined by the input voltage of the inverter and depends on the parameters of the inverter, but if you use the properties of the inverter in transient conditions, the output voltage amplitude can be significantly increased with the same parameters of the circuit and make it adjustable.

The aim of the invention is to increase the amplitude of oscillations and to increase the functionality by adjusting the voltage.

The goal is achieved by the method of excitation of oscillations measuring the intrinsic resonant frequency of the inverter and setting the frequency of the variable component of the voltage at the input of the inverter equal to the intrinsic resonant frequency of the inverter.

A stand-alone inverter (Fig. 1a) is some kind of dynamic system. When a power supply voltage is applied to the input of the inverter (Fig. Ib), a transient mode arises, which may be oscillatory (Fig. 1c). The envelope of the transient curve has a frequency of the rf-bend. . determined by the parameters of the inverter. The frequency can be called the self-resonant frequency of the inverter. If the frequency of the variable component at the input of the inverter coincides with the frequency of the envelope, then the output oscillations are resonant in nature. The amplitude of these oscillations may exceed the amplitude of oscillations at a frequency variable of the input voltage that is different from the resonant one. The amplitude of the envelope can be adjusted by changing the frequency and amplitude of the variable component of the input voltage. In FIG. 2 shows an example implementation of the method. The device contains a pulse-width converter 1, a filter 2, an inverter 3, a block 4 measuring the resonant frequency of the inverter, a frequency controller 5 and a control unit 6 of the converter 1. A load 7 is connected to the output of the inverter 3. When the inverter is supplied to the input voltage When the device is turned on, a transient oscillatory process occurs. The oscillation frequency of the envelope is measured by block 4. The output voltage of block 4 is fed to the input of frequency controller 5, which, through control unit 6, controls the converter 1 so that the voltage frequency at its output is equal to the frequency of the envelope. Thus, the formation of the input voltage of the inverter, which has a variable component with a frequency equal to its own

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Claims (3)

Output FIG. Inverter frequency, allows you to get an increased voltage at the output of the inverter and to ensure the possibility of its regulation. Claims An excitation method of resonant oscillations in an inverter, consisting in forming a power supply voltage at the input of a power inverter, having constant and variable components, characterized in that, in order to increase the vibration amplitude and enhance the functionality by adjusting the voltage, the resonant frequency of the inverter, set the frequency of the variable component of the voltage at the input of the inverter, equal to the natural resonant frequency of the inverter. Sources of information taken into account in the examination 1. USSR author's certificate number 130103, cl. And 02 M 7/48, 1959. 2. USSR author's certificate number 604122, cl. H 02 R 13/16, 02.06.75. 3.Patent of France No. 1469123, cl. H 02 R, 1967.: