SU985905A1 - Series self-sustained inverter - Google Patents

Description

(A) SERIAL AUTONOMOUS INVERTER

one

The invention relates to a converter technique and can be used as a power source for electrotechnical installations of induction heating and melting of metals, installations of powder metallurgy, magnetostriction converters and other high frequency current consumers.

Serial bridge inverters with reactive energy recovery are known by switching on a reverse diode bridge. The inclusion of diodes counter-parallel to the thyristors makes it possible to avoid a significant increase in the voltage on the inverter valves at variable load due to the return of the excess reactive power stored in the switching capacitors and throttles

D1-3.

Also known are Serial autonomous inverters that contain thyristor bridge cells with

switching capacitors in diagonal bridges and a load circuit connected in series with a coupling capacitor and a switching choke, and switching to the common point of the latter and to the positive terminal of the reverse diode power supply allows stabilizing the voltage on the thyristors no more than double the voltage of the power source D.

A disadvantage of the known inverters is a change in the voltage level of the load with a change in the nature and magnitude of the latter, as well as a change in frequency.

Claims (3)

Closest to the proposed serial inverter contains a thyristor bridge cell, and the diagonal of the alternating current of which the switching capacitor is turned on, and the diagonal of the direct current is connected to the load in series through a coupling capacitor and switching choke, as well as to the power source through the input choke, the reactive energy discharge capacitor, thyristor connected to the power supply outputs, the anode of which is connected to the common point of the coupling capacitor and the switching throttle and the cathode to the positive pole of the power source f. This inverter has the same drawback as the inverters - This disadvantage is especially strong when the inverter is working on the load oscillating circuit. The purpose of the invention is to stabilize the voltage level at the load while changing the nature and magnitude of the latter and the frequency of the inverter. The goal is achieved by the fact that in a post-autonomous inverter a feedback connection is included in the thyristor control circuit, consisting of the following series-connected units: a rectifier connected directly to the load, an integrating link, a measuring bridge, an amplifier, a generator of sump voltage, synchronized connected to the generator of the inverter control unit, comparator, differentiator, pulse shaper, and pulse transformer The inverter allows you to adjust the level of reactive energy discharge from the serial switching circuit depending on the voltage to a varying load and thereby stabilize it. The drawing shows a schematic diagram of the power section of a sequential autonomous inverter with a block diagram of a feedback circuit made on the basis of a bridge inverting cell with a load connected to the filter capacitor circuit. A sequential autonomous inverter contains a thyristor bridge cell consisting of thyristors 1 whose capacitor 5 is connected to the alternating current diagonal. 8 a cell diagonal 8 is connected to a series circuit consisting of separation capacitor 6, switching throttle 7 and load 8. Anode thyristors 1 and 2 in series with the filter choke 9 are connected to the positive terminal of the source of supply, and the negative terminal is connected to the cathode group of the thyristors and. In parallel with the source, a capacitor 10 for resetting reactive energy is connected. The common point of the separation capacitor 6 and the switching drosel 7 is connected to the anode of the thyristor 11, the cathode of which is connected to the positive output of the power source. The control circuit of the aforementioned Iristor includes a feedback connection, which consists of the following sequence of connected units: a single-phase sensor 12, connected directly to the load, an integrated link 13-, measuring bridge 1, amplifier 15, generator 16 of sawtooth voltage, synchronized with frequency generator of the inverter control unit, comparator 17, differentiator 18, pulse generator 19 and pulse transformer 20. The device operates as follows. At nominal load, the output voltage is converted by rectifier 12 and smoothed by integrating link 13. Measuring bridge 1 compares converted voltage with set voltage U. The resulting voltage after amplifier 15 is fed to sawtooth generator 16, synchronized with inverter control frequency generator (synchronization voltage and ,;). At the time of equality of the sawtooth and constant voltage, the comparator 17 generates the output signal. The output signal of the comparator, converted by the differential link 18, goes to the pulse shaper 19, which generates impulses of voltage of the required shape and length. Through a pulse transformer, pulses are supplied to the control circuit of the thyristor 11. A voltage change at the load 8 causes a change in the level of the output DC voltage of the amplifier. In this case, the magnitude of the regulation angle of the thyristor cc changes. As the voltage increases at the load, the level of the output voltage of the amplifier rises, leading to a decrease in the turn-on delay of the thyristor, i.e. angle of about. Thereby, the load voltage decreases to the same level. Stabilization of the output voltage during its decrease occurs in the reverse order. In addition to the above positive effect, the inverter circuit has a more rigid external characteristic, which makes it similar in its properties to parallel autonomous inverter circuits. Claims of the invention A sequential autonomous inverter containing a bridge thyristor cell, in the diagonal of an alternating current that the switching capacitor is connected, and the diagonal of a direct current is connected to the load in series through a coupling capacitor and a switching choke; reactive energy connected to the power source, and the thyristor, the anode of which is connected to the common point of the separation capacitor and the switching throttle, and cat e - to the positive pole of the power source, as well as a control unit with a master oscillator, characterized in that, in order to stabilize the voltage on the load when the nature and magnitude of the latter and frequency of the inverter changes, feedback is connected to the control circuit of the thyristor The following units are connected in series: a rectifier connected directly to the load, an integrator, a measuring bridge, an amplifier, a saw-tooth generator, synchronized with a generator control unit of the inverter, comparator, pulse differentiator and pulse transformer. Sources of information taken into consideration in the examination 1. USSR author's certificate No. 30093, cl. H 02 M 5D2, 1968, 2. Authors certificate of the USSR) R 641608, cl. H 02 M 7/515, 1977. 3. Catsnelson S. M, Thyristor inverter with counter-parallel diodes and frequency doubling. Electricity, 1971, If 1. k. USSR author's certificate №, cl. H 02 M 7/515, 197. 5. USSR Author's Certificate No. 813630, cl. H 02 M 7/515, 1980, P X