SU775843A1 - Ac-to-dc voltage converter - Google Patents

Description

one

The invention relates to electrical engineering and can be used in power sources for electrical and electronic equipment Pii. five .

Converters of alternating voltage into constant voltage are known, made, for example, by a single-phase, two-half-time circuit with a midpoint and a three-phase circuit with a mid-10 point.

The drawbacks of such converters are the high ripple coefficient due to the rather low constant voltage component of the voltage across the circuit and the forced magnetization of the transformer's power supply line, which requires an increase in the cross section of the magnetic conductor.

The prototype of the proposed device 0 is an AC-to-DC converter containing a transformer, each output of the secondary winding of which through a diode is connected to one plate of a capacitor .25 and connected to its other plate through a choke, and the ends of the drussels associated with the specified plate , connected to a common point. The disadvantage of such a converter is 30

The value of the constant component of the rectified voltage, which leads to an increase in the pulsation coefficient of the rectifier and an increase in the weight and dimensions of the filter chokes, and, consequently, low. Efficiency

The aim of the invention is to increase the efficiency of the converter. This goal is achieved by the fact that in a variable-voltage-to-constant voltage converter containing a transformer, each output of the secondary winding through a diode connected to one plate of a capacitor and connected to another plate through a choke, and the ends of the chokes connected to said plate are connected to common point, each output of the secondary plate of the transformer through an additional diode is connected to the specified other capacitor plate, which is connected through auxiliary diode to a common point of chokes.

Claims (1)

FIG. Figure 1 shows a single-phase AC-to-DC converter; in fig. 2 is a diagram of a three-phase AC-DC converter. The converter contains a transformer 1, the secondary winding of which through the corresponding diodes 2 and 3 are connected to one plate of the capacitor 4, and through the corresponding inductors 5 and b, the ends of which are connected to the common point and connected to the auxiliary diode 7, and additional diodes 8 and 9 - c Another capacitor plate 4, the load 10 is connected in parallel to the circuit consisting of capacitor 4 and auxiliary diode 7. A three-phase converter version (figure 2) contains a transformer 11, in which secondary water is: 5) without Odes 12,13 and 14. connected to one plate of the capacitor 15. and through: the corresponding inductors 16,17 and 18 whose ends are connected to a common point: to which an auxiliary diode 19 is connected, and an additional diode) s1 20,; 21 and 22 - with another plate of the iB capacitor. The load 23 is connected in parallel with a circuit consisting of condensation. torus 15 and auxiliary diode 19 The device of FIG. 1 works as follows. With a positive voltage half-wave at the upper output of the secondary winding of the transformer 1, diode 2 is open, and diode 3 is locked. When the voltage at the input of the filter (elements 5, 8, 7, 4) increases, the capacitor 4 will be almost equal to the amplitude value; chain chain: plus feed; voltage - diode 7 - choke 5: -Minus of the supply voltage, When the voltage at the input of this filter is lowered, the capacitor 4 is discharged. along the circuit: load 10-choke 5-diode 8. With a negative half-wave voltage at the upper output the secondary winding of the transformer 1, the diode 3 o-coded and the diode 2 is locked. When the voltage at the filter input (elements 6, 9, 7 and 4) is increased, the capacitor 4 will be charged almost to the amplitude value of the supply voltage diode 7 - choke 6 voltage. When the voltage at the input of this voltage decreases, the capacitor 4 starts to discharge press on the load circuit 10 - choke b - diode 9 When each filter is operated, the constant time of the discharge circuit is more charged, which leads to an increase in the constant component of the rectified voltage, and the pulsation coefficient decreases. This reduces the weight and size of the filter chokes. When replacing the diodes with a thyristor, a single-phase rectifier can be made-controlled, the converter according to FIG. 2 is open at any time, and the current is conducted by that diode, the anode potential of which is higher than the potentials of the other anodes yto relative to the zero point of the secondary windings of the transformer 11. Each of the diodes 12-14 carries a current for one third of the period. The rectified current flowing through the load 23 is hidden from the alternating anode currents of the diodes 12-14. Each third of the period due to the pulsation of the rectified voltage at the input of the corresponding smoothing filter, the voltage will increase and decrease periodically. Thus, in the third period, when the voltage at the input of the filter rises (elements 16,20,19,15), the capacitor 15 will charge almost to the amplitude value along the circuit; plus supply voltage — diode 19 — choke 16 — minus the supply voltage. When the voltage at the input of this filter decreases, capacitor 15 begins to discharge in a circuit: load 23 - choke 16, diode 20. The rest of the filters work similarly in the corresponding third period. The constant time of the discharge circuit of each filter is more charged, and the constant component of the rectified voltage on the load increases. When replacing the diodes with thyristors, the three-phase rectifier can be made controlled. Claims of an alternating voltage converter into a constant containing a transformer, each output of the secondary winding of which is connected via a diode to one plate of a capacitor and connected to another of its plate through a choke, the ends of chokes connected to the specified plate are connected to a common point that differs the fact that, in order to increase efficiency., each output of the secondary winding of the transformer is connected via an additional diode to the specified other capacitor plate, which is connected via an auxiliary diode to her point .drosseley. five -four -w} P , w iH4 one J8 & P. / Zf