SU982169A1 - Self-sustained three-phase inverter - Google Patents

Description

(54) AUTONOMOUS THREE-PHASE INVERTER

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The invention relates to power semiconductor converter technology and automated electric drives and can be used in converters made in an autonomous voltage inverter circuit.

Three-phase autonomous voltage inverters are known, containing a three-phase main thyristor bridge with six commutation reactors, included between the output and output pins of the inverter and the cathode anode and the cathodes of the main thyristor anode, containing switching thyristors, capacitors and reverse diodes, and to limit the voltage at the level of the inverter supply voltage, the anodes of the cathode group diodes are connected to the anodes of the thyristors of the cathode group of the main bridge, and The anode diode diodes are connected to the cathodes of the thyristors of the anodic group of the main bridge 1.

The disadvantage of such an inverter is its reduced switching stability.

Claims (2)

during overloads, since the dependence of the time represented by the thyristors of the inverter bridge to regain controllability has a steeply dipping character due to the lack of dependence of the voltage on the switching capacitors on the load current. Connecting the anodes and cathodes of the reverse bridge diodes to the output terminals of the inverter leads to an uncontrolled voltage of a voltage on the elements of the inverter power circuit. The closest to the proposed technical entity is an autonomous 1n three-phase inverter, in which the voltage on the switching capacitor is limited at the level of an auxiliary recharging power source, containing a three-phase main gyristor bridge, a reverse diode bridge connected between the input and output power terminals of the inverter and the common a forced switching node containing two commutating thyristors connected in series between the input terminals of the inverter, and the common point of the thyristors is connected There is no switching capacitor, the distributor thyristors, the tr of which are connected by anodes to the anodes of the cathode group of main thyristors, the other three by cathodes to the cathodes of the anode group of main thyristors, and the second clamps of the distributing thyristors are connected together with the free output of the switching capacitor: included, turn, into the diagonal of a single-phase thyristor bridge, which is supplied from a recharging direct current source, and for a limitation (book on the switching capacitor, tionary thyristors of said single-phase bridge includes additional bypass diodes, and an auxiliary capacitor 2. A disadvantage of the known inverter is also the low switching resistance in case of overload due to the lack of dependence of the voltage on the switching capacitors on the load current, i.e. no increase in voltage with increasing current. The purpose of the invention is to provide high switching stability of the inverter. This goal is achieved by the fact that an autonomous three-phase inverter containing three-phase bridges connected to the input terminals of the main terminals and reverse diodes, the AC terminals of which are connected to the output terminals, and Two series-connected switching thyristors connected to a common point through a switching capacitor to the connection point the distribution of thyristors, three of which are connected by cathodes to the cathodes of the anodic group of main thyristors and the other three are connected by anodes to the anodes of the cathode group of bases thyristors, as well as the switching inductive element, are equipped with a varistor, a bypassing the switching capacitor, and the switching inductive element is made in the form of six chokes, each of which is connected between the corresponding main thyristor and the output terminal. The drawing shows an autonomous three-phase voltage inverter. A stand-alone three-phase voltage inverter contains a three-phase main thyristor bridge 1-6, a reverse diode bridge 7-12 connected between the output and input terminals of the inverter, and a common forced switching node containing two switching thyristors 13 and 14 connected in series between the input The inverter terminals are connected to a common thyristor point by a koM mutating capacitor 15, six distributive tirstors 16-21, three of which are connected by anodes to the anodes of the cathodic group of main thyristors, Tjm the rest by cathodes to the cathode Am anodic group of the main thyristors, and the second clamps of the distributor thyristors are connected together with the free. , the output of the switching capacitor, six switching chokes 22-27 connected between the output terminals of the inverter and the anodes of the cathode group and the cathodes of the anode group of main thyristors, varistor 28 connected between the common point of the thyristors and the common point of the thyristors. As is known, the time T provided to the thyristors of the main bridge is directly proportional to the voltage across the switching capacitor and inversely proportional to the switching current. Therefore, with increasing load current, time t decreases. In the circuit, the chokes 22-27 at the inter-commutation intervals flow around the load current, and at the commutative intervals, the energy accumulated by the interrogators is communicated to the switching capacitor 15 and with increasing load current the voltage across it increases. This leads to the fact that with an increase in the load current, the time t decreases significantly to a lesser extent than in the case when the voltage on the capacitor 15 does not increase and the switching stability of the inverter increases. However, for large overloads and short circuits at the output of the inverter, the voltage across the capacitor may exceed the permissible value. In order to limit the voltage on the capacitor between the common point of the distributed thyristors and the common point of the switching thyristors, i.e. parallel to the capacitor, the varistor is on. The voltage on the capacitor does not exceed the voltage of the threshold of the varistor and, being greater than the nominal, provides the required time t. Claim of the invention A stand-alone three-phase inverter containing three-phase main thyristors and reverse diodes connected to the input terminals, alternating current terminals of which are connected to the output terminals, and two series-connected switching thyristors connected by a common point through a switching capacitor to the connection point of six distribution thyristors, three of which are connected by cathodes to cathodes g i of the anodic group of main thyristors, and the other three are anodes to the anodes of the cathode group of the main THjMicTOpoB, as well as a switching inductive element, characterized in that, in order to ensure switching stability, it is provided 5 982169 " varistor, schuntiruyu m kommtyruyuyyTIndpochshki information,. Compensator, and commutator inductance Ny element is in the form of six droc-1. From fishing poluyukrovodnikota equipment Germany. Sers, each of which is included between. 2, M., Informelectro, 1969. the corresponding main thyristor and you-5 2. USSR author's certificate N 279782, travel terminal H 02 M 7/515, 1968.