SU959236A1 - Three-phase current rectifier - Google Patents

Description

The invention relates to electrical engineering, and converting technology and can be used in converters of alternating three-phase current into direct current.

Known rectifiers containing ⁵ gates and capacitors for multiplying the output voltage tl] and f2].

The closest in technical essence to the present invention is a three-phase rectifier., A current containing four input terminals for connecting an AC source, two output terminals for _{| 5} connecting the load, four valves and four capacitors for multiplying voltage, and the valves are connected. interconnected in series, and the free cathode of the first valve and the free anode of the fourth valve are connected, respectively, one with the first capacitor and the positive output terminal, and the other with the second capacitor and the negative output terminal [3].

The disadvantages of the known devices are the increased ripple of the output voltage and the inability to use electrolytic capacitors with a low unit cost.

The purpose of the invention is to reduce the pulsations of the output voltage and reduce the cost of the device.

This goal is achieved by the fact that in the three-phase rectifier. a current containing four input terminals for connecting an AC source, two output terminals for connecting a load, four valves and four capacitors for multiplying voltage, the valves being connected together in series, and the free cathode of the first valve and the free anode of the fourth valve connected accordingly, one with the first capacitor and a positive output terminal, and the other with the second capacitor and a negative output terminal, one of the input terminals is common, and to the anode of the first cathode fourth valves connected respectively third and fourth capacitors, the free ends of which, a connection point of the second and third gates are connected to three input terminals, a common terminal connected to the connection point of the free ends of the first and second capacitors. ^?

The drawing shows an electric circuit of a three-phase current rectifier.

The rectifier contains positive 1 and negative 2 output terminals for connecting with a load resistance of 3, four input terminals 4-7 for connecting a three-phase AC source to phases 8-10 and a valve-condenser rectifier-voltage multiplier formed by four capacitors 11-14 and four diodes 15 “18. These diodes form a series-matching gate valve. The anode terminal of the diode 15 is connected to the negative 2, and the cathode terminal of the diode 18 is connected to the positive 1 output terminals. The output of the midpoint of the valve cell formed by the cathode of the diode 16th anode of the diode 17 is connected to one of the terminals of the phase winding 8 and the input terminal 4. The findings of the other two phase windings are connected to the plates of the capacitors Ni 12 and, respectively, to the input terminals 5 and

6. The capacitor plates 13 and 14 are connected to the negative 2 and positive 1 output terminals, respectively. Other capacitor plates 11 and 12 are connected respectively to the anodes of the diodes 18 and 16, and the other * capacitor plates 13 and 14 are connected to the common input terminal 7 of the device.

The device operates as follows.

Under the action of voltages 10 and 8 of the phases through the valve 17, the capacitor 11 is charged to the maximum voltage determined by the geometric sum of the voltages of 10 and 8 phases. Then, through the valve 18, the capacitor 14 is charged to a voltage whose value is equal to the sum of the voltages on the capacitor 11 and the maximum voltage of the phase 10. The capacitor 13 is similarly charged. The voltage on the load 3 is determined by the sum of the voltages on the capacitors 13 and 14 and can reach a value exceeding the maximum voltage value of one phase is 5.46 times.

As capacitors 13 and 14 10, polar electrolytic capacitors can be used, the unit cost of which is several times lower than the unit cost of non-polar capacitors, which, ultimately, 15 can significantly reduce the cost of the entire device.

Claims (3)

. one. . The invention relates to electrical engineering and converter technology and can be used in converters of alternating three-phase current to constant current. Rectifiers are known that contain valves and capacitors for multiplying the output voltage til and 2. The closest to the technical essence of the present invention is a three-phase rectifier,: a current containing four input terminals for connecting an AC source, two output terminals for connecting the load, four valves and four capacitors to multiply the voltage, the valves being connected in series, and the free cathode of the first valve and the free anode of the fourth valve are connected according to It is actually one with the first capacitor and a positive output terminal, and the other with the second capacitor and a negative output. The disadvantages of the known devices are the increased value of the output voltage ripple and the impossibility of using electrolytic capacitors with a low specific cost. The purpose of the invention is to reduce output voltage and reduce the cost of the device .; The goal is achieved by the fact that the rectifier is three phase. a current containing four input terminals for connecting an AC source, two output terminals for connecting a load, four valves and four capacitors for multiplying the voltage, the valves being connected in series with each other, and the free cathode of the first valve. l and the free anode of the fourth valve are connected, respectively, one with the first capacitor and a positive output terminal, and the other with the second capacitor and negative output terminal, one of the input terminals is common, and the third and fourth capacitors are connected to the first anode and the cathode of the fourth valve , the free ends of which, as well as the point of connection of the second and third valves are connected to the three input terminals, and the connection point of the free ends of the first and the second is connected to the common terminal capacitors. The drawing shows an electrical circuit of a three-phase current rectifier. The rectifier contains positive 1 and negative 2 output terminals for connection with load resistance 3, four input terminals i-7 for connection to phases 8-10 of a three-phase AC source, and a valve-capacitor rectifier-voltage multiplier formed by four capacitors ll- l and four diodes. These diodes form a valve consistent-matching cell. The anode terminal of the diode 15 is connected to the negative 2, and the cathode terminal of the diode 18 to the positive 1 output terminals. The middle point of the valve cell formed by the cathode of diode 16 and the anode of diode 17 is connected to one of the terminals of the phase winding B and the input terminal k. The terminals of the two other phase windings are connected to the plates of capacitors 11 and 12 and, respectively, to input terminals 5 and 6. The plates of capacitors 13 and I are connected to negative 2 and positive 1 output terminals, respectively. The other plates of the capacitors 11 and 12 are connected respectively to the anodes of the diodes 18 and 16, and the other plates of the capacitors 13 and 1 to the common input terminal 7 of the device. The device works as follows. Under the action of voltages 10 and 8 phases, a capacitor 11 is charged through valve 17 to a maximum voltage determined by the geometric sum of voltages 10 and 8 phases. Next, through the valve 18, the capacitor I is charged to the voltage, the value of which is equal to the sum of the voltages on the capacitor 11 and the maximum value of the phase voltage 10. Similarly, the capacitor 13 is charged. The voltage on the load 3 is determined by the sum of the voltages on the capacitors 13 and And, it can reach a value exceeding the maximum value of the voltage of one phase by 5.6 times. As capacitors 13 and I, polar electrolytic capacitors can be used, the specific cost of which is several times less than the specific cost of non-polar capacitors, which ultimately allows a significant reduction in the cost of the entire device. A rectifier, a three-phase current, contains four input terminals for connecting an AC source, two output terminals for connecting a load, four valves and four capacitors for multiplying the voltage, the valves being connected in series with each other, and the free cathode of the first valve and the free anode The fourth valve is connected to one of the first capacitor and a positive output terminal, respectively, and the other with a second capacitor and a negative output terminal, characterized in that o, in order to reduce output voltage ripples and reduce cost, one of the input pins is common, with the third and fourth capacitors, respectively, connected to the anode of the first and fourth cathodes, and the free ends of the second and third valves are connected to the three input pins, and to the common input pin is connected the connection point of the free ends of the first and second capacitors. Sources of information taken into account in the examination 1. US Patent No. 3525031, cl. H 02 M 7/00 (321-1), 1970. 2.Patent UK No. 532551 cl. H 02 M, igfl. 3. Roginsky V.Yu. Electric power supply of radio devices, M., SEI, 1957, p. fig 3-3b.