SU1198705A1 - A.c. voltage-to-d.c.voltage converter - Google Patents

Description

The invention relates to electrical engineering and can be used in the development of power sources.

The purpose of the invention is to increase reliability by eliminating the failure of the electrolytic filter capacitors.

The drawing shows a schematic diagram of the converter.

The device contains a bridge rectifier 1, connected by alternating current leads to input terminals 2,3. The DC terminals of the rectifier 1 are connected to the terminals of the electrolytic capacitors 4.5 of the filter. The combined terminals of these capacitors are connected to the grounding terminal (grounded according to the circuit). In two chains of counter-connected diodes, diodes 6.7 are connected by anodes, forming the first output pin 8, and diodes 9, 10 are connected by cathodes, forming the second output pin 11. The cathode of diode 7 and the anode of diode 8. are combined and grounded. The cathode of diode 6 is connected to the negative terminal of the bridge rectifier 1, the anode of the diode 9 is connected to the positive terminal of the bridge rectifier!. Load 12 is connected to pin 8.11 ..

The Converter operates as follows.

When the input terminals 2.3 are connected to the mains, the load current flows through the following circuit: pin 2 - rectifier diode 3, diode 9 - pin 11 - load 12, pin 8 - diode 6 - pin 3. Diodes 7.10 are locked.

When the device is disconnected from the mains, a transient discharge of capacitors 4.5 to load resistance 12 occurs. In the case where the charges of capacitors 4.5 at the beginning of the transition process are equal to each other, the diodes 7.10 remain in the locked state during the entire transition process and the initial sign of the potentials at the DC outputs of the rectifier 1 is unchanged. At the end of the transition process on capacitors

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4.5, there remains a residual voltage equal to the direct voltage drop across the diodes 6.9, at which these diodes go into a non-conducting state5.

When the rectifier is disconnected from the mains, when at the beginning of the transient discharge of the capacitors their charges are not equal, at the end of the 10th transient one of the diodes 7 or 10, depending on which capacitor charge is more than the other, from the locked state goes into open than 15 is limited to a further change in potential at the DC outputs of the rectifier 1 in the direction of polarity reversal of the capacitor, which had a relatively smaller initial charge. 20 For example, if the initial charge of capacitor 4 was greater than the charge of capacitor 5, then at the end of the transition process, diode 7 goes into an open state and at the same time, the positive residual potential of output 8, equal to the direct voltage drop on diode 7, does not go to negative output of rectifier 1 due to the presence of diode 6, on which a direct voltage drop of the same order as that of diode 7 is formed.

In the case of the use of the same type of diodes 6, 7, 9, 10, in this case, the polarity reversal of the capacitor 5 still occurs by a voltage of about 0.05-0.1 V, which is acceptable for all known types of polar capacitors. If it is necessary for reasons of further improving the reliability of the rectifier to completely eliminate the reversal, then in the circuit diodes 6, 9 with respect to diodes 7, 10, you can choose 45 with a large direct voltage drop, in which the non-conducting state of diodes 6 corresponds to the open state of diodes 7 or 10 ,9. For this, for example, diodes 6.9 can be ~

50 out of two series-connected diodes or choose diodes 6.9 and 7.10 of various types respectively.

Claims (1)

VARIABLE CONVERTER CONSTANT VOLTAGE, containing. a bridge rectifier connected by alternating current to the input terminals, and each of the direct current terminals to one output of the corresponding electrolytic filter capacitor, the other terminals of which are combined and connected to the output for grounding, which additionally Two chains of counter-connected diodes are introduced, while in the first of them the diodes are connected by anodes, forming the first output pin, and in the second cathodes, forming the second output pin, one leads, two chains are combined and connected to the grounding terminal, and others connected to the DC terminals of the bridge rectifier in the conducting direction. about / 1198705 one