SU721886A1 - Method of converting dc voltage into ac voltage - Google Patents

Description

The invention relates to the field of electrical engineering and can be used in particular I, in secondary power sources.

There is a method of converting direct voltage to alternating voltage, according to which ⁵ direct voltage is converted to alternating voltage of a given frequency with an intermediate conversion of the amplitude of the alternating voltage using a transformer (.1]. The disadvantage ^{10 of} this method is to increase the overall dimensions with decreasing conversion frequency by increasing the mass and dimensions of the power transformer ¹⁵

The purpose of the invention is the reduction of overall dimensions, regardless of the required frequency of the alternating voltage at the output.

This is achieved by the fact that according to the proposed method, before converting the amplitudes, the direct voltage is converted into an alternating voltage of increased frequency, and after that into an alternating voltage of a given frequency.

The intermediate conversion of the amplitude of the alternating voltage at an increased frequency can significantly reduce the mass and dimensions of the power transformer equipment of the converter.

In FIG. 1 shows a diagram of a device that implements the described method; in FIG. 2 is a timing diagram explaining the operation of the device.

The device contains a master oscillator 1, a DC-to-DC converter 2 to an increased frequency, an increased frequency transformer 3, controlled valves 4-7 for converting the increased frequency to a given one, a smoothing filter 8, a load 9, a frequency divider 10, and a coincidence circuit 11.

The device operates as follows.

The master oscillator 1 generates pulses of high frequency and control3 721886. 4 is the operation of the DC-to-AC converter 2, which is supplied to the transformer 3. The controlled valves (HC) 4-7 are connected to the transformer output, by means of which $ high-frequency voltage is converted to a voltage of a given, lower frequency. The resulting voltage is smoothed out by the filter 8 and supplied to the load 9. The valves are controlled by the master oscillator 1 and the frequency divider 10 through the coincidence circuit 11.

In FIG. 2 the following notation is accepted: 15

U1 - voltage on the converter and transformer 3.

- currents of controlled valves 4-7;

- load voltage 9.

An example of the implementation of the method and diagram 20 of the device operation is given for a rectangular shape of voltages, a purely active load, and without taking into account the shutoff time of the valves.

The control of the output voltage 25 can be carried out in the case of an unregulated converter 2 by changing the release time of the controlled valves 4-7 relative to the curve of the anode voltage of an increased frequency using an average value filter 8. By choosing the control law for valves 4-7, any given shape of the load voltage curve can also be obtained.

Claims (1)

The operation of converter 2 of direct voltage to alternating voltage, which is supplied to transformer 3, is connected to the output of the transformer, control valves (SW) 4–7 are connected, by means of which the increased frequency voltage is transformed into a voltage of a lower frequency. The resulting voltage is smoothed by the filter 8 and is applied to the load 9. The control of the valves is from the master oscillator 1 and the frequency divider 10 through the coincidence circuit 11. FIG. 2 the following notation is accepted: Uj is the voltage on converter 2 and transformer 3. toKK controlled gates 4-7; Uij is the load voltage 9. An example of the implementation of the method and the diagram of the device operation are given for rectangular voltage, purely active load and without taking into account the time of locking the valves. The adjustment of the output to the voltage can be carried out in the case of an unregulated converter 2 by changing the time of unlocking the controlled legs 4-7 relative to the anodic voltage curve of increased frequency using an average value filter as filter 8. The choice of the valve control law 4-7 can also be obtained any given form of the voltage curve at the load. Claims A method of converting a constant voltage to an alternating voltage, according to which a constant voltage is converted into a variable of a given frequency with an intermediate conversion of the amplitude of the alternating voltage, so that, in order to reduce the mass-dimensional parameters, the amplitude conversions convert the DC voltage to an alternating high frequency, and the fast AC voltage to a variable voltage of a given frequency. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 138999, cl. H 02 M 7/537, i960. fPar 1 P l1 h h P ra & .2