SU1130994A1 - Self-excited voltage inverter - Google Patents

Abstract

A AUTONOMOUS VOLTAGE INVERTER containing an interrupter consisting of two reactors connected to the input terminals, the other terminals of which are connected to a pair of switching thyristors sequentially connected in the forward direction in parallel with which the circuit from the first drop drop throttles connected in the forward direction of the first working thyristor, connected in parallel, a pair of switching diodes connected in the opposite direction, connected in the forward direction of the second working thyristor and the second droplet of the decay, a capacitor connected About different plates to common points of pairs of switching thyristors and switching diodes, and two reverse diodes, each of which is connected to the input terminal and the output terminal of the same device, each of which is formed by the connection point of the working thyristor and switching diode, and connected to the output terminals a chopper is at least one cyclo-inverter, i characterized by the fact that, in order to improve the harmonic composition of the output voltage, two input signals are connected counter-parallel to the switching of the diodes There are two serially connected circuits at the input terminals of the inverter, each of which consists of a CO reset diode connected in reverse mode: and a resistor, and about and the common point of the switching thyristors .

Description

The invention relates to a converter technique and can be used as a stand-alone inverter or frequency converter in installations of an adjustable electric drive. An autonomous voltage inverter is known, consisting of an anodic and cathodic chokes connected through working windings, a main thyristor bridge connected in alternating current to a reverse current diode bridge connected to a source, to which the anode and cathode windings are connected through a reset diode. chokes and a circuit from the first pair of switching thyristors connected in the forward direction to the DC terminals of the main thyristors bridge are connected the second pair of switching thyristors are switched on in the forward direction, and to average pairs of points - one capacitor. A disadvantage of an autonomous voltage inverter is the low frequent possibilities due to the fact that the reset time is 5 times longer than the time of application of the reverse voltage I The closest to the technical essence of the proposed is an autonomous voltage inverter containing a breaker, consisting of and from to the input terminals of two reactors, the other outlets of which are connected to a pair of switching thyristors in a straight forward direction, parallel to which is connected a circuit from the first drop drossel, VC Directly connected to the first working thyristor, a pair of reversely connected rytypy diode diodes, connected in the forward direction of the second working thyristor and second droplet of the decay, a capacitor connected by different plates to common points of pairs of switching thyristors and switching diodes, and two reverse diodes, each of which is connected to the input terminal and the output terminal of the interpreter of the same name, each of which is formed by the junction point of the working thyristor and the switching diode, and Turning to the output chopper vgaodam one or .bolee tsikloinvertorov 2. The main drawback of the known inverter - low functionality at the switching frequency, which ultimately degrades the harmonic structure of the output voltage. This follows from the fact that after a commuting recharge of a capacitor, it is charged on the load circuit. At the same time, the voltage at the output of the chopper decreases almost to zero, while the current in the cyclo-inverter thyristors is still some time longer than the switching current, the latter significantly increases the pause, and therefore reduces the switching frequency. i The aim of the invention is to improve the harmonic composition of the output voltage. The goal is achieved by the fact that in an autonomous voltage inverter containing a chopper consisting of two reactors connected to the input terminals, the other terminals of which are connected to a pair of switching thyristors j in series in parallel with which the circuit from the first drop throttles is connected included in the forward direction of the first working thyristor, a pair of switched on, reverse-switched commutating diodes, included in the forward direction of the second working thyristor and the second other cpl of the decay, a capacitor connected by different plates to common points. pairs of switching thyristors and switching diodes, and two reverse diodes, each of which is connected to the input terminal and the same output terminal of the chopper, each of which is formed by the point of connection of the working thyristor and the switching diode and at least one cyclo-inverter connected to the output pins of the chopper, anti-parallel to the switching diodes are connected - two inputted dosing diodes, and to the input pins To the torus, two series-connected circuits are connected, each of which consists of a reset diode connected in the opposite direction. and a resistor, the common point of these circuits being connected to the common point of the switching thyristors, 3 In FIG. 1 is a diagram of an inverter, in FIG. 2 - diagrams of the control pulses of the thyristors of the chopper and the output voltage curves of the chopper and the capacitor voltage. A stand-alone voltage inverter consists of the chopper 1, to the output of which one (or more) cyclo-inverter 2 is connected, the chopper 1 contains two connected in series , each of which consists of a reset diode 3 (4) and a resistor 5 (6), connected to the input terminals of two reactors 7 and 8, to the other terminals of which are connected in the forward direction a pair of switching thyristor 9 and 1C, and flaxally connected two chains, each of which consists of droplets 11 (12) decays. a forward working thyristor 13 (14) and a reverse commutator comm commuter diode 15 (16); in addition, common points of operating thyristors 13 and 14 and commutating diodes 15 and 16 are connected to the output of the interrupter 1, antiparallel commuting diodes 15, 16 are connected to charge thyristors 17 and 18, capacitor 19 is connected to the middle points of the pairs of switching thyristors 9 and 10 and diodes 15 and 16, and reverse diodes 20 and 21 are connected to the same input and output terminals of the inverter 1. The autonomous voltage inverter operates as follows. The current consumed from the source commutes alternately in the positive or in the negative wire of the chopper 1 with a frequency that exceeds at least the order of the envelope of the output voltage of the cyclo-inverters 2. The frequency of the latter is regulated by 44 sets of the required number of output voltage pulses interrupter 1 and their duty cycle, i.e. the delay of switching on the thyristors of cyclo-inverters 2. As shown by curve 22 (Fig. 2), the use of discharge circuits from resistors 5 and 6 and diodes 3 and 4 limits the voltage on the capacitor 19 at each voltage level of source E, and the use of dosing thyristors 17 and 18 allow us to obtain curve 23 of the output voltage of the chopper 1 without flat sections of the slice, which eliminates the current in the thyristors of the cycloinverter 2 being inhibited. The breaker works as follows. Thyristors 9 and 18 are turned on, and capacitor 19 is charged to 2E minus losses in the circuit. Source E — Reactor 7 — Thyristor 9. Capacitor 19 — Thyristors 18 and 14. 5, diode 3 — source E — diodes 20 and 16. Then thyristor 10 is turned on, oscillatory recharge of capacitor -19 to E occurs, minus circuit losses thyristor 10 — reactor 8 — thyristor 20 — diode 16. In this case, the current is switched to negative bus breaker 1. After a voltage drop at the output of the preregeate 1 is turned on and the thyristor 17 dozar capacitor 19 charges to a value slightly larger E. Further, the mirror-like processes. The invention makes it possible to improve the hermonic composition of the output voltage by increasing the carrier frequency.

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Claims (1)

AUTONOMOUS VOLTAGE INVERTER, comprising a chopper, consisting of two reactors connected to the input terminals, the other terminals of which are connected to a pair of switching thyristors connected in the forward direction, parallel to which a circuit is connected from the first recession inductor connected in the forward direction of the first working thyristor, the pairs connected ^ in the opposite direction of the switching diodes, included in the forward direction of the second working thyristor and the second recession choke, the capacitor connected are different plates to the common points of the pairs of switching thyristors and switching diodes, and two reverse diodes, each of which is connected to the input terminal and the output terminal of the chopper of the same name, each of which is formed by the connection point of the working thyristor and the switching diode, and connected to the output terminals of the chopper at least one cycloinverter, characterized in that, ®, in order to improve the harmonic composition of the output voltage, two introduced charging thyristor, and two series-connected circuits are connected to the input terminals of the inverter, each of which is worn from a reset diode, turned on in the opposite direction, and a resistor, and the common point of the circuits is connected to the common point of the switching thyristors. 1 1130994