SU1403292A1 - A.c. to d.c. voltage converter with voltage multiplication - Google Patents

Abstract

The invention relates to electrical equipment and is intended for high-voltage power sources with predominantly medium and low power. The purpose of the invention is to simplify, improve efficiency and enhance functionality. The voltage multiplier contains two chains of series-connected capacitors 1.1 - in and 2.1-2.P and two chains in series according to the connected diodes 3.1 - Z.p and 4.1-4.p. Input terminals 5, 6 are formed by the junction points of capacitor 1.1 and cathode of diode 3., capacitor 2.1 and anode of diode 4.1. Consistently with the connecting points of the capacitors of each of the chains, the connection points of the diodes of these two chains are alternately connected. In the zero-voltages supplying this alternating single-phase voltage, the capacitors charge through the corresponding diodes. In (n + 1) half cycle, the capacitor 7 is charged to the algebraic sum of the voltages on all the capacitors and the input source, namely, to the value (2n- | -l) L ,. The connection points of the capacitors with respect to the adjacent input terminal of the voltage voltage of alternating polarity may be useful for different polarity power sources. I il. (Q

Description

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The invention relates to electrical engineering and is intended for high-voltage power sources, especially for medium and low power.

The purpose of the invention is to simplify, increase efficiency and expand functionality.

The drawing shows a schematic diagram of the device.

The voltage multiplier contains two chains of series-connected capacitors: 1.1 - 1.p and 2.1-2.p and two chains; kidneys consistently according to the United: diodes 3.1-Z.p and 4.1-4.l. Input terminals: 5, 6 are formed by the junction points of a con-: capacitor 1.1 and the cathode of diode 3.1, capacitor 2.1, and anode of diode 4.1. The connection point of capacitors 1.1 and 1.2 is connected to point I; the connection point of diodes 4.1 and 4.2 is connected. iK junction point of capacitors 1.2 and 1.3: the junction point of diodes 3.2 I and 3.3 is connected. Output pins can be formed by | connecting a capacitor l.n k with a diode 4.P and a capacitor 2.p with a diode 13.p.

The device works as follows.

When a single-phase alternating voltage is fed to the input in the first half-period, when (+) is applied to pin 6, and (-) to pin 5, all capacitors are charged to the amplitude value (1 Ua) in the specified polarity, namely: 1.1 - through diode 4.1, capacitor 2.1 - through diode 3.1, capacitor 1.2 - through diodes 4.1, 3.2, 3.1, capacitor 1.3 - through diodes 4.1, 4.2, 4.3, 3.2,

3.1, capacitor 2.3 - through diodes 4.1,

4.2,3.3, 3.2, 3.1 and so on and, finally, capacitor 7 - through diodes 4.1-4.p, diode 8 and diodes 3.1-Z.p. Losses in the elements for simplicity do not take into account.

In the second half period, when (+) is applied to pin 5, and (-) to pin 6, capacitors 1.1, 2.1 and the input source are connected in series and all other capacitors are charged to triple amplitude (3 Ua) in

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specified polarity in a similar way.

In the third half-period, the capacitors 1.1, 1.2, 2.1, 2.2 and the input source are connected in series, therefore all other capacitors are charged to their algebraic sum, i.e. to five times the value (5Ua).

In the nth half period, the capacitors l.n, 2.P, and 7 are charged to the value (2n - I) Ua.

In the () -th half-period, the capacitor 7 is charged to the algebraic sum of the voltages on all the capacitors and the input source, namely, to the value (2n- | --1) Ua, which is where the full cycle ends. Note that the junction points of the capacitor chains with respect to the adjacent input terminal have alternating voltage voltages. This can be useful for different polarity power sources, i.e. the invention allows to expand the functionality of the device.

Claims (1)

Invention Formula AC voltage to constant voltage converter with voltage multiplication, containing two sequence chains. capacitors and two chains are connected in series according to connected diodes, while the two input terminals are formed by the connection point of the first diode and the first capacitor of one of the specified chains and the first diode and the first capacitor of the other specified chains, in series with the connection points of the capacitors of each of the chains these two chains, characterized in that, in order to simplify, increase efficiency and expand functionality, the input terminals are yucheny the unlike electrodes diodes both chains, and the output terminals are formed last connecting point of diode and capacitor of the last one of said chains and the last diode and said last capacitor the other chains.