SU1539937A1 - Self-excited inverter - Google Patents

Abstract

The invention relates to converter technology and can be used to power AC motors and other electrical devices that require adjusting the magnitude, shape and frequency of the voltage or current, with their high quality. The aim of the invention is to improve the quality of the voltage generated by applying pulse amplitude modulation and sharing pulse frequency and amplitude pulse methods. The device contains two bridges on thyristors 1-6 and 7-12. The common point of the capacitors 23, 24 of the filter is connected by one electrode of a pair of auxiliary thyristors 13-16, the other electrodes of which are connected to switching capacitors 17, 18. Thyristors 13-16 allow operation of the device from half the voltage of the power source. In this case, the energy transferred to the load per cycle of operation decreases by 4 times. Therefore, for smallN ₂ is the serial number of the corresponding horizontal tire

Description

The invention relates to converter technology and can be used to power AC motors and other electrical devices that require adjusting the magnitude, shape and frequency of voltage or current, with their high quality.

The purpose of the invention is to improve the quality of the voltage generated by applying amplitude-pulse modulation and sharing frequency-pulse and amplitude-pulse modulation methods. The drawing shows a circuit of an autonomous inverter.

The inverter contains two bridges on thyristors 1-6 and 7-12 and auxiliary thyristors 13-16 with commuting, capacitors 17 and 18 in the diagonal x, commutating chokes 19-22, main and additional capacitors 23 and 24 of the filter, filter g chokes 25 and 26, reverse diodes 27-30, load 31 bypass capacitor 32, and reverse diodes 33-36.

When operating from full voltage supply, the auxiliary thyristors are not turned on and the circuit operates similarly to the known. Operation from half the voltage of the power source is as follows. When turning on the thyristors 1, 5, 7 and 16, the current flows through the circuit 23-1-17-5-19-31- -22-7-18-16-23. A similar current path exists when the thyristors are turned on 2, 4, 10, and 15, in which case the commutation capacitors 17 and 18 are recharged in the opposite direction. In the second half of the half cycle, when the sum of the voltages on the chokes x 19 and 22 exceeds the sum of the voltages on the load 21 and the capacitors 23 and 24, the diodes 27 and 30 open, causing the current in the previous circuit to stop and the capacitors 17 and 18 to restart. The loop 22-30-23-24- -27-19-31-22 flows through the discharge current of excess electromagnetic energy, in other cycles to prevent

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dimensional redistribution of voltage across capacitors 23 and 24 in the absence of the midpoint voltage of the power source includes thyristors 13, 5, 7, and 12. Current from the capacitor 24 flows through the circuit 24-13-17-5-19-31- -22-7 -18-12-24. The current path is similar when the thyristors 14, 4, 10 and 11 are turned on, and the switching capacitors 17 and 18 are recharged in the opposite direction. The discharge of excess electromagnetic energy occurs along the described circuit through diodes 27 and 30. To form the opposite polarity of the voltage, the thyristors 1, 6, 8 and 16 turn on, and to recharge the switching capacitors 17 and 18 in the opposite direction - thyristors 2, 3 , 9 and 15. The current from the capacitor 23 flows through the throttles m 20 and 21, and the discharge of the excess electromagnetic energy from them occurs through diodes 28 and 29. To prevent voltage redistribution across the capacitors 23 and 24, the thyristors 13, 6, 8 and 12 or 14, 3, 9 11 and the current from capacitor 24 flows through the inductors 20 and 21 and reset them to excess electromagnetic energy is performed through diodes 28 and 29.

When operating from half the voltage of the power source, the energy transferred to the load per one cycle of operation of the inverter decreases by a factor of 4 compared to the operation of the full voltage of the source. Therefore, at low loads, the ripple frequency can be increased by a factor of 4, which will require a smaller shunt capacitor to smooth the output voltage curve. The reduction of the shunt capacitor allows for a faster response to control actions, and the increased frequency of the pulsations and their small amplitude compared with the amplitude and frequency when the same voltage level is formed on the load from the full 5,1539937

power supply spins - improve carbon modulation, it is supplied with an additional quality output voltage. a filter capacitor and four

auxiliary thyristors, one paFormula of the invention which are connected with a common point by the combined anodes. a follower is an Autonomous inverter according to the author. capacitors connected to cathode no. 752695, characterized in that they are with anodic thyristor cathodes, in order to improve the quality of the form-group of the first bridge, and the other coupled voltage through the use of JQ is connected by combining cathodes with an amplitude-pulse module and the common point of the local use of capacitors of the frequency-impulse by the anodes - with the anodes of the thyristors of the cadre and amplitude-impulse method of the second bridge.

Claims (1)

Claim Autonomous inverter by ed. St. No. 752695, characterized in that, in order to improve the quality of the generated voltage through the use of amplitude-pulse modulation and the joint use of frequency-pulse and amplitude-pulse modulation methods, it is equipped with an additional filter capacitor and four auxiliary thyristors, one pair of which are connected by anodes connected to the common point of the series-connected capacitors, and the cathodes to the cathodes of the thyristors of the anode group of the first bridge, and the other pair is connected by combined cathodes with the indicated common point of the capacitors and the anodes with the anodes of the thyristors of the cathode group of the second bridge.