SU641612A2 - Three-phase inverter - Google Patents

Description

one

The invention relates to devices used in power supply systems and AC electric drives for converting a DC voltage to an AC three-phase voltage with a stepped, close to sinusoidal, form of output voltage and is an improvement of the known device described in the author. St. No. 554601.

According to the main author. Ev, No. 554601, a three-phase inverter is known, which is used mainly in power supply and electric drive systems for converting a constant voltage to an alternating three-phase voltage with a stepped output voltage. The inverter is designed as p single-phase converters with output transformers, the secondary windings of which are connected in series ij.

Claims (1)

For phase A, the secondary windings of the transformers of all the converters are connected with a direct alternation of polarity and are made as a separate coil with sections, the number of which is equal to the number of steps per half period in the form of output voltage. Moreover, section j encompasses n + 2-2J cores of these transformers. Beginning with number j, for phase B, the secondary windings of transformers of converters with numbers from 1 to 2 n / 3 are connected with reverse polarity, and with other numbers with direct alternation of polarity and made in the form of two separate coils with sections. Moreover, the section with the number j from 1 to p / 3 -f I of the reverse alternating polarity coil simultaneously covers 2n / 3 h - 1-j cores, starting with the core with the number n / 3 + j, and the remaining sections simultaneously cover n 4- 2 - 2 cores, starting with the core with the number p / 3 -f j. The coil with direct alternation of polarity has p / 3 sections, simultaneously encompassing their j cores, starting from the first for phase C secondary windings of transformers with numbers from to p / 3 connected to direct, the rest - with reverse alternation of polarity and made in the form of two separate coils with sections. Moreover, the section with the number from 1 to n / 3 + I of the coil of reverse alternation of patrols simultaneously covers 2n / 3 + I - j cores, starting from the first. The remaining sections simultaneously cover n + 2 - 2j cores, starting from the core with the n / 3 number, and the coil with direct alternation of polarities has n / 3 sections that simultaneously cover the j cores, starting from the core with the 2n / 3 + J. In such an inverter, the turns of the secondary winding cover the primary winding on two or three sides in accordance with the arrangement of the core in the middle or at the end of the section. This leads to an increase in copper consumption and increased pressure. The aim of the invention is to improve the mass and size parameters and efficiency of the converter. This goal is achieved by the fact that in the inverter auth. St. No. 554601, the output transformers are made on two P-shaped cores, which are arranged in two rows, and the like sections of the output windings, which form phase voltages, cover Msf nitroprovod, of the same name transformers of both rows. On f "1g. I depicts an electrical circuit of a three-phase inverter; in fig. 2 - Transformator unit of the inverter. The inverter consists of twelve single-phase and 1-12 converters, a feedback unit 13, a phase-shifter 14 and a transformer node 15. Single-phase converters are connected into two groups of three-phase converters (1-6) and (7-12), each of which is single-phase converters included in the open ring circuit. The output voltage of the two three-phase converters is summed algebraically, and the phase between them is adjusted by the phase shifter 14. The output transformers of the single-phase converters are made on U-shaped cores and are located in two rows 16-21 and 22-27. The secondary windings are made in the form of separate coils 28-32 with sections. The like sections of the output windings that form phase voltages encompass the magnetic conductors of the like transformers of both rows. For example, the first section of coil 28 covers the magnetic cores of transformers 16 and 22 of both rows, the second section of coil 28 covers the magnetic cores of transformers 16, 17 and 22, 23 of both rows, etc. This design solution reduces the average length of the secondary turns. as the latter cover the primary winding on one side only, when the core is located between two sections or on both sides directly at the section. Reducing the average length of the turns of the secondary winding leads to an improvement in mass-dimensional parameters and efficiency of the inverter. The invention is a three-phase inverter according to the author. St. No. 554601, characterized in that, in order to improve the mass-dimensional parameters and the efficiency of the converter, the output transformers are made on two U-shaped cores, which are arranged in two rows, and the like sections of the output windings that form phase voltages, cover the magnetic circuits of the same name transformers both ranks. Sources of information taken into account in the examination: 1. Copyright certificate № 554601, cl. H 02 M 7/537, 1974. 31 L Jn ri guv zg jL