SU1014106A1 - Frequency converter - Google Patents

Abstract

A FREQUENCY CONVERTER containing a transformer transformer located on the magnetic circuit. There are two primary windings, each made with a medium output, one of which is connected directly to one of the input terminals for the power supply and the other to the power supply. to the same input terminal through a con- nector, a capacitor, a secondary winding connected to the output terminals, and a self-magnetizing winding, four valves, each 3 of which are output by the cooTBetcT- V € ESC: 4 f 11ЛТаГКе .. .. I l liASS-rt; A shunt capacitor is connected to one of the free terminals of one of the primary windings, and a shunt capacitor, characterized in that, in order to simplify, increase efficiency and reduce mass and dimensions, a second shunt capacitor is added, and with An output terminal connected to another input output for connecting a power source and parallel to each of its formed semi-windings a corresponding shunt capacitor is connected, the end of the winding is connected to the beginning of the anode of the two vents (Lei, the cathode of each of which is connected to the beginning of the corresponding primary winding, and the beginning of the winding self-biasing is connected to a common connection point of the cathodes of the other two (gates, and each of which is connected to the –end of the corresponding ary winding.

Description

The invention relates to electrical engineering, in particular to converter equipment, and can be used as a power source for various electrical engineering devices. current increased frequency. Frequency converter devices are known, for example, a ferromagnetic frequency multiplier, on four ferromagnetic cores of which primary, secondary / windings, as well as bias and self-magnetize windings are located, the latter of which are closed to capacitors p. However, this device contains a large number (four) of ferromagnetic cores, a large number of magnetic biasing and self magnetic biasing, and a constant current source is needed to power the magnetic biasing windings. In addition, to power the device, it is necessary to have two independent sources of variable Toka, the voltage of which should be shifted by 90 el. hail. It is also known a device for obtaining a frequency doubling with a single ferromagnetic core, consisting of a transformer with an unbranched magnetic circuit, carrying three windings: primary, secondary, and self-magnetization winding. The primary winding feeds from a single-phase alternating current network / via a full-wave rectifier consisting of a four-arm bridge, the two arms of which are rectifying diodes, and the other two - the half-winding of the primary winding of the transformer transformer, and the anode of one diode is connected to the cathode of another diode , and free. their terminals are connected to the initial and terminal terminals of the primary winding of the transformer transformer, respectively, and the mains voltage is connected to the points, one of which is a common diode connection, and the other point of the network connection is the midpoint of the primary winding of the transformer transformer. In addition, the device contains a secondary winding, from which the voltage of twice the frequency is removed, and a self-magnetization winding loaded on a capacitor, and an adjustable half-wave rectifier 62 with a filter to obtain a constant magnetic flux component that compensates the Constant flux component. magnetic flux generated by the primary winding I / -21. A disadvantage of this device is the possibility of obtaining only a doubling of the frequency of the alternating current, as well as the fact that the compensating flow is created by the current transformed in the self-magnetization winding, which reduces the total useful output power at the doubled frequency transformed into the output winding of the transformer. The closest in technical essence to the present invention is a frequency converter containing a converter. A transformer, on the magnetic core of which two primary windings are made, each made with an average output, one of which is connected directly to one of the input terminals to connect the power source, and the other to to the same input terminal through a capacitor, the secondary winding of self-magnetization, four valves, each of which is connected to one of the output of the corresponding power electrode free terminals of one of the primary windings, and a shunt capacitor. In addition, this frequency converter includes an adjustable resistor and filter choke sj. However, the known device has insufficient output power, since the compensation of the constant component occurs due to the rectification of the current of increased frequency, the increased mass-dimensional indices due to the use of throttles, as well as the complexity of tuning and the device as a whole. The aim of the invention is to simplify, increase efficiency and reduce weight and size parameters. The goal is achieved by having a partial transducer containing a transformer transformer, on the magnetic core of which there are two primary windings made each with a middle terminal, one of which is connected directly to one of the input terminals to connect the power source, and the other input terminal through a capacitor, a secondary winding connected to the output terminals and a self-magnetizing winding, four valves, each of which is connected to the output of the corresponding power electrode with one of the free leads of one of the primary windings, and a shunt capacitor, a second shunt capacitor is additionally inserted, and the self-magnetization winding is made with a middle lead connected to another input lead to connect the power source, and the corresponding shunt is connected in parallel to each of its formed semi-windings the capacitor, the end, the self-magnetization winding is connected to the common connection point of the anodes of two valves, the cathode of each of which is connected to the beginning of the corresponding The beginning of the self-magnetization winding is connected to the common winding point of the cathodes of two other valves, the anode of each of which is connected to the end of the corresponding primary winding. The drawing is a schematic diagram of the proposed frequency converter device. The network terminals 1 and 2 are supplied with the voltage of the original frequency. The mains terminal 1 is connected to the midpoint of the self-magnetization winding 3 and divides this winding into two Za and 36 half windings, each of which is shunted by the same capacitors .1 and 4.2. The end terminal of the half winding is connected to the anodes of two diodes 5.1 and 5.2, the cathodes of which are connected respectively to the initial leads of the primary windings 6a and 6b of the transformer transformer 7. The middle point of the first primary winding 6a is connected directly to the second network terminal 2, and the middle point of the second primary winding 6b connected to the same network terminal 2, but through a capacitor 8. The end terminals of the primary windings 6a and bb are connected to the anodes of the other two diodes and 9. whose cathodes are combined and connected to the initial terminal the self-magnetizing coils 36, and the output voltage of the quadruple frequency is removed from the output windings 10a and 106 connected in series and in accordance with. The principle of operation of the frequency converter is based on the following. The single-phase voltage of the original frequency, removed from the network terminals 1 and 2 by means of the phase-shifting capacitor 8, is converted into a two-phase voltage, shifted one relative to the other by 90 el. Degrees, and each individual voltage is rectified, forming two A half-wavelength alternation, after which each voltage is applied to the primary windings 6a and 6b of the transformer transformer 7 with a shift of 90 elec. hail. To eliminate the constant component of the magnetic flux created by the currents of the primary windings 6a and 6b, an automatic self-magnetizing compensation winding 3 was introduced, while the self-magnetizing winding was wound so that the permanent magnetic flux in the core was directed by a piece of the sleeve. the primary windings of the transformer 6a and 6b, and due to the filter, the role of which is performed by capacitors C. and 4.2, bypassing the semi-windings of self-magnetization, the entire winding of the self-magnetizing .vozbuzhdaet audio only a constant magnetic flux equal and opposite napraz.penny. the resulting constant h; which leaves the magnetic flux created by the currents in the primary windings of the transformer transformer. Consequently, a constant 1 nn filtered current passes through the automatic self-magnetization circuit, and a variable current component passes through the capacitors, the automatic self-magnetization semi-winding semi-winding. Pulsiruction, the magnetic flux generated by the current of the first primary winding can be represented by a series of Fu () I Am / 1 1 3 - cosAu ": - -p sobol -...) .. RR 37 having limited to the 6th harmonic inclusive . A pulsating magnetic flux created (by current) by the second primary winding 6b, shifted relative to the first primary winding by 90 will be represented by a row of Fourier of the following type 4Ат, 1, 1 (у-4-- cos2 (JJt t .... 1 cos6u) t ...). 3..5 cos (t

Claims (1)

A FREQUENCY CONVERTER containing a conversion transformer, a coil connected to the corresponding shunt The magnetic core of which there are two primary windings, each made with an average terminal, one of which is connected directly to one of the input terminals for connecting the power source, and the other to. to the same input terminal via a capacitor, the secondary winding is connected to the output terminals and winding samopodmagnichivaniya, four valves each _Z bonds which sootveTstruyuschy output capacitor Tsamopodmagnichivaniya 'end of the winding is connected to a common g: the connection point of the anodes of two venti- ^*! lei, the cathode of each of which is connected to the beginning of the corresponding primary winding, and the beginning of the magnetization winding itself is connected to the common point of the cathodes of the other two valves, the anode of each of which is connected to the end {of the corresponding primary winding. 10141