SU1334320A1 - A.c.-to-d.c.voltage converter - Google Patents

Abstract

The invention relates to electrical engineering and can be used as a constant voltage power source by combustion in devices powered by a low frequency network with limited voltage amplitude fluctuations. The purpose of the invention is to increase the reliability and improvement of mass and dimensional parameters. The positive effect is due to the fact that at the moment of switching on the device, a short-circuit mode does not occur, and the response rate in the growth of the load current increases. The current through the reactor 12 can close not only in the form of a counter current through one of the open diodes 7, 8, but also through the capacitor 13, does not couple to the load resistance 16. As a result, during the transient process, smaller load current fluctuations are due to for changes in the EMF arising in the reactor 12. 1 Il. a 15 SO oo 4i 00 GS 12

Description

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The invention relates to electrical engineering and can be used as a source of litany by direct voltage in devices powered by a low frequency network with limited voltage amplitude fluctuations,

The purpose of the invention is to increase the reliability and improve the mass of o-dimensional indicators.

The drawing shows a schematic diagram of the converter.

The device contains a single-phase transformer 1 with primary winding

2 and the secondary winding 3, made 15 ki, provides during the entire re-time the middle terminal 4, forming the first output terminal. Two symmetrically made tap-offs 5 and 6 are connected to the anodes of diodes 7 and 8, the combined cathodes of which form the second output 20 arise only if pin 9. The extreme leads of winding 3 under- occurred in the third branch of the control cable. valves 10 and 11, the combined cathodes of which are connected to the first output of the smoothing reactor 12, the second output

the process is less fluctuating in the load current due to changes in the EMF that occurs in the reactor 12.

The need to lock key 15 can

yes 14, and in such conditions, device-. It works worse because

switching-on occurs a short-term 25 short circuit through the condensate 13 connected to the output, the anode of the third diode 14 and the output of the key 15. The cathode of the diode 14 is connected to the output of the switch 15 and the output output 9, the free output of the capacitor 13 is connected to output 4. The load 16 is connected between the output terminals 4 and 9.

The device works as follows.

When the key 15 is closed, the condensate-top 13 is connected in parallel with the load 6, since the nature of the load is active-capacitive when regulating, for example, with the angle oi 79, smoothing is improved which requires a relatively small capacitor capacitance already at | X (. |, where | Xj, is the modulus of the capacitor resistance at the frequency of the supplying alternating voltage i g is the resistance of the load 16.

With the open key 15 at the first moment of time, the current through the reactor 12 is zero. The voltage on the capacitor 13 is also equal to zero. However, a short circuit does not occur, because a capacitor 13 is connected to the uncontrolled rectifier on diodes 7 and 8 through a closed diode 14 In addition, a current equal to the input voltage is generated through the rectifier input impedance

circuits and load resistance. Thus, at the moment of switching on, the device is not in the short-circuit mode, the speed in the growth of the load current increases. The current through the reactor 12 can close not only in the form of a counter current through one of the open diodes 7 and 8, but also through the capacitor 13, did not branch off to the load resistance 16. There are two ways in which the current through the reactor 12 in the device has the ability to close ,, mine resistance to load only if there is a break in the branch of the third diode

the process is less fluctuating in the load current due to changes in the EMF that occurs in the reactor 12.

The need to lock key 15 can

0 occur only if there is a break in the branch of the third diode.

yes 14, and in such conditions, device-. It works worse because

switching on occurs a short-term 25 short circuit through the capacitor 13.

I

Thus, the reliability and speed of the proposed

devices by eliminating inrush current through the capacitor, and also smoothing during the regulation process by creating a second path for the current through the reactor, min loading resistance.

P-rmula of the invention

AC to DC converter containing a single-phase transformer, the secondary winding of which is made with an average output, forming the first output output, two symmetrically made tapes connected to the corresponding anodes of two diodes, the combined cathodes of which form the second output output, extreme leads the secondary windings are connected to the corresponding anodes of two controlled valves, the combined cathodes of which are connected to the first output of the smoothing reactor, characterized in that To increase the reliability and improve the mass and size parameters, a third diode, a capacitor and a switch are added to it, and one of the terminals of all these elements are combined and connected to the second

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The free terminal of the capacitor is connected to the free terminal of the key and the second to the middle terminal of the secondary outlet terminal.

Claims (1)

The formula of the invention is alternating-to-DC converter containing a phase transformer, the secondary winding of which is made with a middle terminal forming the first output terminal, two symmetrically made taps connected to the corresponding anodes of the two diodes, the combined cathodes of which form the second output terminal, the extreme terminals of the secondary winding connected to the corresponding anodes of two controlled valves, the combined cathodes of which are connected to the first output of the smoothing reactor, distinguishing In order to increase reliability and improve overall dimensions, a third diode, a capacitor and a key are additionally introduced into it, and some conclusions of all the indicated elements are combined and connected to the second output of the smoothing reactor, the free output of the capacitor is connected to the middle output secondary winding, the cathode of the third diode is connected to a free terminal of the key and the second output terminal. Compiled by E. Melnikova Editor L. Pcholinskaya Tehred M. Khodanich Proofreader V. Girnyak