SU1561174A1 - Single-cycle stabilizing dc-to-dc voltage converter - Google Patents

Abstract

The invention relates to electrical engineering and is intended for use in secondary power sources of digital computing and electrical automation devices. The purpose of the invention is to reduce overall dimensions, increase efficiency and increase output power of a converter with a wide range of input voltage changes. The converter contains a regulating transistor 2, a transformer 4 from a primary 3 and a secondary 6 winding, a rectifier 7, a DLC filter 8, a source 10 of the reference voltage, amplifiers 11.17, matching elements 12.18, modulator 13, pulse duration 13, capacitor 14, current-stabilizing two-pole 15, sensor 16 input voltage. Introduction of a parallel circuit from a capacitor 14 and a current-stabilizing two-pole 15 connected in series with a power diode allows the amplitude of the demagnetizing voltage of the transformer to be increased to a value determined by the equality of the volt-second areas of the magnetizing and demagnetizing half-periods and thereby ensure the normal operation conditions of the transformers, and the transformers are used to create the transformers with magnetizing and demagnetizing half-periods, thereby ensuring normal operating conditions more than 0.5 filling. 4 il.

Description

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Claims (1)

SUMMARY OF THE INVENTION A single-cycle stabilizing DC-DC to DC converter containing 25 connected to the input terminals of a series capacitor in the demagnetization interval. Since the discharge current of the capacitor 14, determined by the parameters of the two-terminal 15, remains constant, the bias current of the transformer 4 is also limited and practically does not depend on the duty ratio. A decrease in voltage can lead to such an increase in the duty ratio that the demagnetizing voltage becomes unacceptably large, since the reverse voltage proportionally increases in the rectifier diode 7 and the regulating transistor 2. dd The limitation of the fill factor (as well as the increase in the limit values of the voltages on the diode 7 and the control transistors) caused by a possible emergency decrease in the input voltage of the converter is ensured by limiting the duration of the on state of the control transistor 2 by acting on the input of the modulator 13 through the circuit! sensor 16, amplifier 17, matching element 18. The operation of this circuit is as follows. If the input voltage is greater than or equal to the minimum acceptable value, then the voltage at the output of the amplifier 17 is maximum in magnitude and positive. The diode 18 is closed and the circuit but connected by the control transistor and the primary winding of the transformer, as well as the demagnetization circuit, the secondary winding of the transformer, is connected to the output terminals through a rectifier and a DLC filter connected to the input of the feedback node consisting of a reference voltage source and a first amplifier, the output of which through the first matching element is connected to the control input of the pulse width modulator, the output of which is connected to the control input of a control transistor, characterized in that, with In order to reduce dimensions, increase efficiency, increase output power with a wide range of input voltage changes, an input voltage sensor, a capacitor, a current-stabilizing bipolar, a second amplifier and a second matching element are introduced into the converter, and a parallel circuit of a capacitor and a current-stabilizing bipolar is connected in series with the demagnetization circuit, parallel to the input you and the input of the second amplifier, the output of which through the second matching element is connected to the input of the pulse duration modulator.