SU1275707A1 - Method of controlling stabilized inverter with choke in a.c.circuit - Google Patents

Abstract

The invention relates to electrical engineering, in particular to converter equipment. The aim of the invention is to increase reliability by providing overload protection. When a short circuit occurs at the output of the inverter 1, the output current of the inverter becomes greater than the maximum load current. The output voltage of the inverter decreases. The signal at the output of the comparator unit 16 takes its maximum value, and the magnitude of the maximum short-circuit current is determined only by the inductive resistance of the throttle 2, since The level of the feedback signal from the block 16 does not change, and the sawtooth voltage from the output of the generator 12, changing in proportion to the input voltage, ensures the constant value of the average voltage in the diagonal of the inverter 1 attached to the choke 2 in the ko mode ( Close circuit and, accordingly, the constancy of the maximum current value at the output of the preamplifier 9 through the choke 2. 3 ill.

Description

The invention relates to a converter technique and can be used to create inverters with sinusoidal output voltage. The aim of the invention is to increase reliability by providing overload protection. FIG. 1 shows a functional diagram of the device that implements the method; in fig. 2 - time diagrams; in fig. 3 - external characteristic of the inverter. Inverter 1, made according to a bridge circuit with a choke 2 in an alternating current circuit and a capacitor 3 connected in parallel to output 4 of inverter 1, converts the input voltage 5 of the direct current into an output voltage of blue-sine form. The antiphase control inputs of the inverter 1 are supplied by the master 6 and the known 7 control signals of a rectangular shape, which are formed by the preamps 8 and 9. The preamplifier 8. Is synchronized from the master oscillator 10 directly, and the preamplifier 9 through the pulse-width modulator 11, consisting of a sawtooth voltage generator 12 and a comparator 13; It supplies the first input of the comparator 13 with a signal 14 from the output of the generator 12 and to the second input, a feedback signal 15, which is generated by the comparison unit 16 and limited by the 17 o unit boundedness. The output 4 of inverter 1 may be shorted to ammeter 18 by means of switch 19. Sawtooth generator 12 is synchronized with a signal from master oscillator 10, and the input voltage of inverter 5 and the saw voltage amplitude setting signal 20 are supplied to its inputs. FIG. 2 shows: in diagram 21 - comparison of sawtooth signal 14 with feedback signal 15 in diagram 22 — the shape of the signal 6 at the output of the preamplifier 8, in diagrams 23-25 — the signal 7 at the output of preamplifier 9 for different input voltages and the output current of the inverter, in diagram 26, is the voltage form in the diagonal of the bridge inverter, in diagram 27, the form is crossover 2 in the short pull-out mode with a minimum of 28 and an intermediate value of the input voltage 5. 3 shows the maximum load current 29, the rated output apr 30, the rated output ok 31 and the short-circuit current 32. The control method is implemented by the device (Fig. 1) as follows. The antiphase control inputs of the inverter 1 are supplied by two voltages 6 and 7 of rectangular shape (diagrams 22-25, Fig. 2), the phase shift between which is controlled by the pulse-width modulator 11. The sawtooth voltage 14 at the output of the generator 12 varies in magnitude proportional to the magnitude of the input voltage of the inverter 5. The JTOT signal is compared in comparator 13 with the signal 15 by the feedback of the output voltage 4 of inverter 1 and limited by block 17. With block 17, the feedback signal is limited to a maximum value of 15 (solid 5 in diagram 21). When the inverter 1 is first turned on, its output is closed with a switch 19 to an ammeter 18, the short circuit current is measured and the amplitude of the sawtooth voltage 14 is set such that the inverter short circuit current is equal to the specified value 32. At a minimum input voltage 5, signal 14 is shown the solid line in the diagram 21, and at some intermediate value of the input voltage 3 - by the dashed line 14. Signals 6 and 7 correspond to positions 22 and 23 (Fig. 2), i.e. shifted by 180 e. hail. In the diagonal of the inverter bridge, a square-shaped voltage is formed, and the output voltage of the inverter is equal to the nominal value 31. To match the voltage of the sinusoidal form: a capacitor can be applied to the required voltage 5 on the capacitor 3. When the output current of the inverter decreases, the voltage at its output 4 increases, which leads to a decrease in the level of signal 15 at the output of comparator 16 (dotted line 15 in diagram 19), and this causes a phase shift between voltages 6 and 7 (diagram 1 s 22 and 25), the occurrence of a pause in voltage 2, which ensures the stabilization of the inverter output voltage.

As the input voltage of inverter I increases, the amplitude of sawtooth voltage 1A increases (dashed sawtooth line in diagram 21), the intersection point of signals 14 and 15 inertia-free shifts, which ensures phase shift of voltage 7 (diagram 24) and stabilization of the average voltage value wives in the diagonal of the bridge inverter.

In the event of a short circuit on the inverter 1, the output current of the inverter (I-) becomes greater than 29

ohh

the output voltage of the inverter 5 decreases, the signal 15 at the output of the comparator 16 takes its maximum value (solid line 15 in the diagram 21) and the magnitude of the maximum short-circuit current 32 is determined only by the inductive resistance of the throttle 2, since the level 15 does not change and the sawtooth voltage 14, varying in proportion to the input voltage, provides the constant value of the average voltage 26 applied to the choke in the short circuit mode, and accordingly the constant maximum current value 25 through. Choke 2.

Claims (1)

Invention Formula The control method of the stabilized inverter with a choke in the AC circuit, consisting in forming the master and slave square-wave signals to control the inverter’s phase-out inputs, on each half-period of the drive signal produces a sawtooth signal with an amplitude proportional to the input voltage, compare it with the feedback signal and at the time of their equality synchronize the driven signal, and with the fact that, in order to increase reliability by providing overload protection, The feedback signal is limited by the maximum value corresponding to the minimum output voltage, when the inverter is first turned on, its output terminals are closed, the inverter short-circuit current is measured and the amplitude of the sawtooth voltage of the inverter is set to the specified value, after which the output terminals of the current inverter are disconnected and for all values of the output voltage of the inverter, greater than the specified minimum value, the signal tnoj communication is reduced. J J / 29 2 7, d Fig.Z