SU547016A1 - Straightener - Google Patents

Description

With a positive voltage half-wave in the secondary winding of the transformer 1, valve 2 is open and valve 3 is locked. The load current flows through the open valve and both drossel 4 and 5. At a negative half-wave, valve 2 is locked and the load current flows through valve 3. The effective value of the current in the secondary winding of the transformer is half the load current (provided that the inductance of the chokes has a sufficient value and current in them can be neglected). The increase rate of the calculated power of the proposed rectifier is 1.11 (as in the bridge circuit).

The proposed single-phase rectifier can also be made controllable. To do this, uncontrolled valves must be replaced with thyristors.

The rectifier (see Fig. 2) is open at any time, and the current is conducted by the valve whose potential of the anode is higher than the potentials of the anodes of the other valves with respect to the zero point of the secondary windings of the transformer 8. The voltage of the secondary winding with conductive the valve, at this time, is positive and greatest compared to the voltage of the other secondary windings.

The rest of the valves at this time can not hold, because the potentials of their anodes below the total potential of the cathodes. The switching of the current from one valve to the next occurs at the moments of the intersection of the positive half-sine voltage, i.e. each valve conducts a current for one third of the period.

The rectified current flowing through the load 16 is made up of alternating anode currents of valves 9-I. Therefore, the maximum value of the valve current is equal to the load current, and its average value is one third of the load current.

When reviewing the operation of a rectifier, it is assumed that the inductance of the smoothing chokes is quite large and the choke currents and anode currents remain constant, and the rectifier current curve is perfectly smooth. Then a constant current flows through each choke, which is equal to one third of the load current at any time.

The secondary current is equal to 2/3 of the load current when the valve connected to its circuit conducts, i.e., for one third of the period, and 1/3 of the load current when the valve is in non-conducting state, i.e. for two thirds of the period. The effective current of the secondary winding of the transformer is 2/3 of the load current, and the constant component is zero. The effective value of the secondary voltage is 0.855 of the rectified voltage.

The transformer utilization factor for the proposed lossless is equal to 0.83, whereas for a three-phase rectifier with a midpoint when connecting secondary windings to a star, the transformer utilization factor is 0.745, and when connecting secondary windings in zigzag - 0.685. The proposed rectifier, made according to the six-phase scheme, has a transformer utilization factor of 0.9.

The frequency of the main harmonic of the ripple voltage at the output of the rectifier is three times the frequency of the mains supply, since all the lower harmonics of the voltage are mutually compensated due to a phase shift in the voltage of the secondary windings.

The proposed multi-phase rectifier can also be made controllable. For this, non-controlled valves must be replaced by controlled ones, such as thyristors.

Claims (2)

Invention Formula Rectifier containing a transformer, valves connected to each anode the output of the secondary windings of the transformer, and a smoothing choke, characterized in that, in order to reduce the volume and weight of the transformer and eliminate the forced biasing of its magnetic circuit, it additionally introduced smoothing chokes, the number of which, together with the specified equal to the number of conclusions of the secondary windings of the transformer, connected to each output of these windings, while the cathodes of the valves and the other conclusions of the chokes are combined into two common points between which the load is included. Sources of information taken into account in the examination: . G.S. Veksler and Ya. I. Tetelbaum “Power Supply of Radio Devices, ed. “Technique, p. 56-67, 181. 2. “Semiconductor rectifiers ed. F. I. Kovalev and G. P. Mostkova, ed. “Energy, with. 120-124. 0f .. ; " I / -5 .0 . 74