SU752682A1 - Alternating current-to-direct current converter - Google Patents

Description

one

The invention relates to the conversion of AC energy to constant and can be used in adjustable power sources.

Known adjustable AC-to-DC converters with forced commutation 1. Known devices can only be used with a single-phase non-alternating current network.

AC-to-DC converters are known, containing a three-phase transformer, the secondary winding of which is connected to a star, its terminals are connected to a rectifying thyristor bridge, and the common point to two series-connected thyristors connected to the corresponding DC terminals of the bridge and capacitor 2 .

A disadvantage of the known converter is its unstable operation at low output currents.

The aim of the invention is to expand the range of regulation. The goal is achieved by the fact that a choke is connected in series with the aforementioned capacitor, the free output of which is connected to the terminals of the transformer secondary winding through anti-parallel connected thyristors.

A schematic diagram of the device is shown in FIG. one; current and voltage diagram in FIG. 2 and 3.

The converter contains a transformer with secondary windings 1, 2, 3, six main thyristors 4-9, two zero thyristors 10, 11. To increase the power factor, the rectifier is supplemented by auxiliary thyristors 12-17, connected back-to-back and parallel between one terminal a chain consisting of droplets 18 and a capacitor 19, and a trassformator phases. The second terminal of the chain 18, 19 is connected to the middle 15 point of the zero thyristors 10, 11 connected to the zero of the power source.

The Converter operates as follows.

Let at the time (-a) a control pulse is applied to the thyristor 9. When it is turned on, the current will flow through phase 1 of the power supply, thyristor 9, zero thyristor 10, zero of the power supply. A voltage t / d equal to the voltage is applied to the load (Unp. Capacitor 19 is charged at this time as shown in

FIG. 2. At the moment of time (- + a), the control signal to turn on

thyristor 17. Then through the choke 18, the valve Neither the thyristor 17 from the capacitor to the thyristor 9 is applied to the opposite direction. The thyristor 9 is closed, and the current of phase 1 is closed along the circuit: thyristor 17, capacitor 19, choke 18. As a result, capacitor 19 is recharged to reverse voltage. With the inductive nature of the load, the output current closes through the valves 10 and 11, and the voltage at the output of the rectifier becomes equal to the bullet. Similar processes occur when the other phases of the rectifier. Diagrams of currents and voltage when the angle a varies within O-30 el. hail shown in FIG. 3. When the angles of regulation of email. hail, the mode of operation of the circuit changes. So, in the interval

time (a) - (- + “) current to load

at the same time, the thyristors 5 n 9 are conducted, and the voltage at the output of the heater will be equal to the linear voltage Uab-. After turning off the thyristor 5, which is carried out in the manner described above, the output current will pass through the thyristors 9 and 10. switching current from thyristor 10 to thyristor 4, as a result of the output of the rectifier, the voltage will be equal to linear Uac. In momeit time

.- + a) turn off the thyristor 9 as previously described. Further, the processes in the circuit are repeated. Charts of currents and voltages when changing the voltage and within 30-60 e.grad. shown in FIG. 3

Claims (2)

1. Pateit Austria No. 309687, cl. H 02 p 7-38, 06.25.76. 2. Author's certificate of the USSR in the application K ° 2035203/07, cl. П 02 М 7/06, 31.05.74. Va r r r Vut.Z l gzh  A l Zjl n П П П g C Jl-2,