SU1617576A1 - High-frequency rectifier - Google Patents

Abstract

The invention relates to a converter technique and can be used in power sources with a high current output. The purpose of the invention is to reduce the overall power. By additionally introducing a capacitor 10 connected between the anode of diode 3 and cathode of diode 4, as well as connecting the beginning and end of the secondary winding 9 of transformer 2 to the positive and negative output terminals for connecting load 5, an increase in output power is achieved by reducing switching pauses. 2 Il.

Description

The invention relates to converter technology and can be used in power sources with a high current output.

The purpose of the invention is to reduce the overall power.

FIG. Figure 1 shows the principle electrical circuit of the rectifier; in fig. 2 - dependence of the load current on the capacitor capacitance.

The high-frequency rectifier contains the first 1 and second 2 transformers, the first 3 and second 4 diodes, the output terminals for connecting the load 5, the primary winding 6 of the first transformer 1 and the primary winding 7 of the second transformer 2 being connected in antiphase to the input terminals for connecting a variable voltage source wives The beginning of the secondary winding 8 of the first transformer 1 is connected to the anode of the first diode 3, whose cathode forms a positive output terminal for connecting the load 5, and the negative output terminal is formed by the end of the secondary winding 8 of the first transformer 1. The end of the secondary winding 9 of the second transformer 2 is connected to the cathode of the second diode 4, the anode of which is connected to the end of the secondary winding 8 of the first transformer 1, the beginning of the secondary winding 9 of the second transformer 2 is connected to the cathode of the first diode 3, and between the anode of the first diode 3 and the cathode of the second diode 4 switched capacitor 10.

High-frequency rectifier works as follows.

When windings of transformers 1 and 2, such as the polarity shown in Fig. 1, appear, the first diode 3 opens up, the second diode closes, the capacitor 10 charges to the reverse voltage amplitude of the secondary winding 9 of the second transformer 2, the seed current flows through the circuit. ; secondary winding 9, capacitor 10, first diode 3. When the voltage on the windings of transformers 1 and 2 starts to change sign, the current in the secondary winding 8 decreases, in the secondary winding 9 increases, both diodes are open. Because of the presence of inductances in the scattering of the windings, the EMF of the secondary windings is applied to these inductances, and the voltage on the terminals of the windings is zero. To the output terminals for connecting the load 5, the voltage of the capacitor 10 is applied across the circuit: capacitor 10, secondary winding 9, output terminals for connection

load 5, the secondary winding 8. The capacitor is discharged along the specified circuit. At the end of the switching, when the current in the secondary winding 8 decreases to zero, and the current in

secondary winding 9 is increased to the maximum value, voltage appears on secondary windings 8, 9, the first diode 3 is closed, the second diode 4 remains open. The capacitor charges to the value

return voltage of secondary winding 8 along the circuit: winding 8, capacitor 10, second diode 4. When the voltage on the windings starts to change sign, the current in the secondary winding 9 decreases, in the winding 8 increases, the voltage of the capacitor is applied to the circuit load, as with the previous commutation. At the end of the switching current in the secondary winding 9 drops to zero, the current in the secondary winding 8

increases to a maximum value, the second diode 4 is closed. The capacitor 10 is charged along the circuit: the capacitor 10, the second winding 9, the first diode 3. Next, the process is repeated,

Thus, the invention compared to the prototype allows additional power to be transferred to the load by reducing switching pauses, and in idle mode, switching on the capacitor 10 does not affect the operation of the proposed rectifier and does not increase the idling losses.

Claims (1)

Claims of the invention A high-frequency rectifier containing input and output terminals for connecting, respectively, a source of alternating voltage and a load circuit, the first and second transformers, the first and second diodes, and the primary windings transformers are connected in counter phase to the input terminals, the beginning of the secondary winding of the first transformer of the atom is connected to the anode of the first diode, whose cathode forms a positive output terminal, and a negative output terminal is formed the end of the secondary winding of the first transformer, characterized in that, in order to reduce the overall power, the end of the secondary winding of the second transformer is connected to the cathode of the second diode, the anode which is connected to the negative output voltage, the beginning of the secondary winding of the second transformer is connected to the positive output terminal, and an additionally inserted capacitor is connected between the anode of the first diode and the cathode of the second cathode. Jh (/.) W. 120 no. t JO 20 50 JOO C (nkf} FIG. 2