SU642696A1 - Controllable three-phase inductive-capacitive converter of voltage source into current source - Google Patents

Description

The second phase of the rotor winding of each phase is connected to the output of the previous phase. The second output of the stator winding of each phase is connected to one face of capacitors 14, 15 and 16, the other face of which is included in the subsequent phase of the power supply.

The capacitance C of each condenser is selected from the condition

3031 iaC

where is the frequency of the mains,

L is the inductance of the phase winding of the transformer, and its transformation ratio is equal to one.

The expression for the load current module is

)

where d: coL is the reactance of one phase winding of the transformer, and в is the angle of regulation.

The level of constant current at the converter output can be smoothly adjusted by turning the transformer rotor with a rotating magnetic field by an angle &

Experimental verification of the proposed converter was carried out at a facility in which a phase regulator FR-5 1 was used as a transformer with a rotating magnetic field, the load was three-phase resistance. The adjustment characteristics shown in FIG. 2 show a good convergence of theoretical and experimental studies, which confirms the efficiency of the circuit and the achievement of the goal. From the analysis of dependencies, it is clear that there are two areas of level control. constant current in the load: when the control angle is changed from -120 to 180 °, the level of the current in the load changes from zero to maximum

value, when 0 changes from 180 to 240 °, the current level in the load changes from its maximum value to zero.

Formula invented

An adjustable three-phase inductance-capacitive converter of the voltage source into a current source containing a three-phase transformer with rotating magnetic field with a transformation ratio equal to one, the first terminals of the stator windings of which are connected to the power supply terminals, the first output of the rotor winding of each phase to the first load terminal, n a capacitor in each phase, connected by one lining with a second terminal of the JM of the stator winding of this phase, characterized in that, in order to extend the range of current control, The second output of the stator winding of each phase is connected to the second output of the load of this phase, the other capacitor plate of each phase is connected to the output of the next phase of the supply mains, the second output of the rotor winding of each phase is connected to the output of the previous phase of the supply network, and to the first output of the rotor winding of each phase phase is connected by one plate to an additional capacitor connected by another plate to the output of this phase of the mains, and the capacitance of each capacitor exceeds three times the inductance of the phase winding Matora.

Sources of information taken into account in the examination

1. Mil x A.I. and others. Unchanged current systems based on inductive-capacitive converters, Kiev, Naukova Dumka, 1974, p. 129-133.

2. USSR author's certificate №416682,

Yu1. G 05 F 3/06, 1971.

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