SU577619A1 - Dc converter - Google Patents

Description

one

The invention relates to the field of electrical engineering and can be used in jziicTeMax measurement, automation or radio control as a secondary source of electrical power, increasing the direct voltage.

DC-based step-up converters are known with switching the connection of capacitors from parallel at a charge to a series at a discharge of ll, 2.

The converter, adopted as a prototype, contains an active multivibrator, which controls the switching transistors that connect the capacitors to the serial connection 3.

In this converter, the magnitude of the voltage boost depends on the number of capacitors connected: in parallel connection to the power source and charge of a voltage up to a voltage equal to the voltage of the power source and then in a series unloaded voltage to the load. The voltage rise factor of such a converter is one more than the number of capacitors.

Therefore, in order to obtain a large voltage boosting factor, it is necessary to have a large number of capacitors and switches on transistors for their switching.

The purpose of the invention is to reduce the number of capacitors at the Scaling factor of the voltage of the converter.

This is achieved by the fact that in a voltage converter containing two master multivibrators, commuting transistors and diodes, as well as capacitors, the charge of these capacitors from the power source is performed using one of two master multivibrators controlling the operation of two pairs of key transistors . The capacitors are divided into two groups, with each group being connected by one pole through separation diodes to its pair of key transistors, the second poles of the capacitors of both groups are connected to each other and to one of the two pairs of key transistors through separation diodes.

The drawing shows a schematic diagram of the proposed Converter.

The constant voltage converter contains the driving multivibrator of capacitor charge on transistors, 1 and 2, the Communicating multivibrator discharge of capacitors on transistors 3 and 4, key transistors 514, capacitors 15-19, used for voltage conversion, and labor diodes.

The oscillation period of the multivibrator of a capacitor discharge is several times longer than the period of oscillation of the capacitor charge multivibrator. When transistor 3 is open and transistor 4 is closed, the key on the 5 ohm transistor and the keys on transistors 10-14 are closed, the capacitor charge multivibrator, controlling 1; 5, the keys on transistors 6-9, begins to work, and transistor 2 opens, the keys on transistors 6 and 7 close the keys on transistors 8 and 9 open, the capacitor 17 is charged to a voltage equal to the voltage of the power source along the circuit: plus the power source, the transistor 9, the diode 20, the capacitor 17, diode 21, diode 22, transistor 7, min mustache power source. When transistor 1 opens and transistor 2 closes, the keys on transistors 6 and 7 open, the keys on transistors 8 and 9 close, the capacitor 19 is charged from the power supply and the capacitor 17 connected in series to a voltage equal to twice the voltage circuit power supply; plus power supply, transistor 6, diode 23, capacitor. 19, diode 24, capacitor 17, diode 25, transistor 7, minus the power supply. In the following periods of oscillation of the capacitor charge multivibrator, capacitor 16 is charged from a series-connected power source and capacitor 19, capacitor 18 is charged from a series-connected power source and a capacitor 16, capacitor 15 is charged from a series-connected power source and capacitor 18, the master multivibrator capacitor discharge opens, and the transistor 3 is closed; the transistors of the master multivibrator capacitor charge on the transistor are closed 1 and 2, as well as the keys on transistors 5 - 9 are opened and the keys on the transistors 10 - 14, condensers 15 - 19 are incorporated in series and are discharged to the capacitor 26 included in the output transducer,

The ratio of the increase in the voltage in the proposed converter is one more than the actual value of numbers of the natural range from one to the number equal to the number of capacitors.

For example, if the number of capacitors is five (see drawing), then in the prototype circuit the voltage increase factor is 6, and in the proposed circuit - 16,

The advantage of the proposed converter also lies in the fact that, if it is necessary to obtain a large voltage coefficient, fewer capacitors are required, as well as all the elements from which the converter is assembled.

Claims (3)

1. Author's certificate of the USSR 455433, class, H 02 M 3/28, 1973, 2. US patent 3470443 class, 321-2, 3. USSR author's certificate W 391706, cl, H 03 K 1/14, 1971,