SU1091286A1 - Adjustable a.c. voltage-to-a.c. voltage converter - Google Patents

Abstract

A VARIABLE VARIABLE VARIABLE CONVERTER, containing a series-connected choke, a T-shaped quadrupole consisting of charging and discharging thyristors in the armature NF & the circuit and the storage capacitor B / transverse circuit and the primary winding of the transformer, the secondary winding of which is connected to the active inductance, characterized in that, in order to improve the output voltage harmonics and increase the efficiency, the capacitor inserted sequentially into the circuit -inductive load, and T-cell quadrupole, connected in parallel to the first one, the capacitor of the storage capacitor and the inductance of the primary winding of the transformer are chosen from However, the SP of the critical discharge, for which the time of reaching the discharge current maximum is equal to 1/4 of the period of the mains voltage.

Description

The invention relates to electrical engineering, is used in electric power systems of active-inductive consumers, in particular in electromagnet powering systems of a magnetodynamic pump. AC voltage converters are known, in which the output voltage amplitude is controlled using tap transformers Xl 5 and C2, In these converters with a good form of output voltage, the regulation of its amplitude occurs in steps, and the number of thyristor The keys are significant, which are the non-residues of these converters. The closest to the expected one is an adjustable AC-to-AC converter containing a series-connected choke, a T-shaped quadrupole consisting of a charging and discharging thyristor in the longitudinal circuit and a storage capacitor in the transverse circuit, and the primary winding of the transformer, the secondary which connection is connected to active-inductive load. In this converter the load voltage on the load is regulated by changing the charge level of the storage condensate. and RFP. The disadvantages of the known converter are the non-sinusoidal output voltage during uni-polar current flow and the discharge of the storage capacitor is not critical, which means that the use of the energy of the charged capacitor is not full, as part of the energy of the storage capacitor returns to cumulative capacitor, and during aperiodic discharge, the decaying discharge current will not be transmitted to the load. The purpose of the invention is to improve the harmonic ratio of the output voltage and increase the field ratio of the device. This goal is achieved by the fact that in an adjustable AC-to-AC converter of the contents of a series-connected choke, a T-shaped four pole consisting of a charging and discharging thyristors in the longitudinal circuit and a storage capacitor in the transverse circuit, and the primary winding of the transformer, the winding of which is connected to the active-inductive load, a capacitor connected in series into the active-inductive load circuit and the second T-shaped four-field are additionally introduced nickname included in anti-parallel to the first, wherein the capacitance of the storage capacitor and the inductance of the transformer primary windings are selected from the conditions of the critical discharge for which the time to reach the maximum discharge current is equal to / 4 periods of the mains voltage. The drawing shows the layout of the device. The AC to AC converter contains a series-connected input choke 1 and two T-shaped quadrupoles consisting of charge thyristor 2, discharge thyristor 3, charge thyristor 4, discharge thyristor 5, storage capacitors 6 and 7, equivalent to the total active resistance of the discharge circuit consisting of its own total active resistance R of the discharge circuit RQ n of the resistance R introduced from the series resonant circuit 8, and the primary winding 9 tons ranformat with inductance L-J. The secondary winding 10 transformer-. Pa with inductance L2 is connected to a load consisting of inductive element II with inductance L, capacitor 12 with capacitance of oscillatory circuit C and total active resistance of series resonant circuit 3. The converter operates by alternately charging accumulative capacitors 6 and 7 from the network through thyristors 2 and 4 and alternately discharge them through thyristors 3 and 5 to the coil 9 of the transformer. The capacitance of the storage capacitors 6 and 7 is selected depending on the active power in the load according to the formula 1: C where P is the load power active; T is the period of natural oscillations of a series resonant circuit 10–13;

Claims (1)

'ADJUSTABLE AC VOLTAGE CONVERTER TO VARIABLE, containing a series-connected inductor,' T-shaped four-terminal, consisting of charge and discharge thyristors in the process * and storage capacitor l, the transverse circuit and the primary winding of the transformer, the secondary winding of which is connected to the active winding of the transformer characterized in that, in order to improve the harmonic coefficient of the output voltage and increase the efficiency, a capacitor is added, connected in series with s active-inductive load, and T-shaped four-pole included in anti-parallel to the first, wherein the capacitance of the storage capacitor and the inductance of the primary winding of the transformer g chosen from the condition of critical discharge for which the time to reach the maximum discharge current is equal to 1/4 period of the mains voltage. -S and .. „1091286>