SU576645A1 - Autonomous inverter with compound excitation - Google Patents

Description

one

The invention relates to the field of industrial electronics and can be used to convert direct current electricity into alternating with a wide range of input voltage variations and abrupt load changes, for example, in guaranteed electro-electrostatics installations of alternating current and frequency converters.

The known autonomous inverters 1 and 2, with abrupt changes in load, have significant frequency deviations or patterns from the established values and a switching switching stability. Overvoltages can lead to the breakdown of thyristors, and dips to dips in dipamic modes lead to a decrease in the thyristor locking angle and the inverter tilting.

The aim of the invention is to improve the dynamic characteristics and increase the switching stability of the inverter. This is achieved by the fact that, in the proposed inverter, the valve angle adjuster has three input and one output cascades, and the cascade that forms the sawtooth voltage of the controller is connected by one input to the input pins of the inverter and the other input to the automatic controller , forming, it is proportional to the amplitude of the linear

The panel of phases ab, the output of this stage is connected to the setpoint angle setting potentiometer n through a resistor to the output stage, forming a rectangular pair of hatching tongue, which in turn is connected to the input of the control panel according to the appropriate setting, its inverter valve.

Pa drawing dapa functional diagram of the described inverter.

Inverter contains presetter 1-6 angle, pulse amplifiers - formailer 7-12, outputting double pulses at the inverter valves, automatic regulator 13, for example, smoked: ivayup1, reactor 14, inverter 15-20, capacitor battery 21, compensator 22 rsaktnvpoy mosh, nostp, load 23, reactors 24 n Veptli 25-30 compensator, system 31 of the compensator control, setting the 1 generator 32, pshpy a, b p

from AC schertora, rezstorory 33 setpoint angle settings, cutterblocks, transistors 34, resistors 35 in the collector circuit of transistors 36 p 37, capacitor 38, memorizes the amplitude of the linear inverter pan panel, cp 40, form factor Lj, L proportional to the instantaneous value of the variable papr en lenter, cascade 41, form, ny, for example, IJ, nronorpsonalp

the amplitude of the linear voltage of the inverter, a cascade 42, forming a saw-tooth at the voltage t / h. transformers 43 and 44 and cascade 45, which form the rectangular voltage of the angle adjuster, whose zero-crossing time is determined by the equality of the sum of the voltages U, U, and (74.

Uab - Uba Ubc - bca - Linear voltage at the output of the inverter.

The inverter works as follows.

The I and II inputs of the angle adjusters 1-6 are supplied with line voltages from the output tires of the inverter. Resistors 33 are disconnected from the voltage Ui and i / 2, proportional to the voltage applied to the I input. The capacitor 38 is separated by a voltage U proportional to the amplitude of the voltage. 1/2 The angle of locking the valves 15-20 can be changed using an automatic regulator 13, for which the 111 input of the angle adjuster is fed a signal from the regulator.

The cascade 42 forms a sawtooth voltage U on the capacitor 39. The moment of formation of this voltage is determined by the moment it passes through the voltage zero Uac (for setting 1) supplied to the second input of the angle adjuster.

The moment of pulse formation is determined by the law Ll f / s-4-U.

The minimum locking angle of the valves 15-20 is selected from the switching stability conditions of the inverter and is set by the position of the resistors 33.

For example, when loading a load, the output voltage decreases. In this case, the proportional voltage varies in the angle adjusters. The ratio of the voltages U2 and f / i remains unrefined, which ensures that the locking angle of the valves 15–20 is unchanged.

By changing the input voltage of the ivertor, the automatic regulator affects the locking angle and stabilizes the output pulse.

In this way, the switching stability of the inverter is improved in both static and dynamic modes, its dynamic characteristics are improved, and the output voltage is also stabilized with changes in the input voltage.

The frequency at the output of the inverter is stabilized by a master oscillator 32 acting on the compensator control system 31.

Claims (2)

1. USSR author's certificate No. 343046, cl. H 02 P 13/18, 1970. 2. Chvanov V. A., Tolkachev A. I., Klushin G. M. “A control system for a thyristor frequency converter with a newly expressed DC link. Electrical Engineering N ° 3, 1968, “Energy. 35 TO 37