SU1577022A1 - Ac voltage-to-dc voltage converter - Google Patents

Abstract

The invention relates to secondary power sources of radio equipment. The aim of the invention is to reduce network interference and increase efficiency. The goal is achieved by the fact that the key element of the converter is made on a field-effect transistor. In this case, the control unit is designed so that the key element opens at the leading edge of the rectified voltage when it slightly exceeds the output. At the same time, the power loss on the key is small. The key element is closed by a coercive circuit as the output capacitor charges, which causes a low level of interference. 1 il.

Description

The invention relates to electrical engineering, in particular to the field of converting alternating voltage to constant voltage, and can be used in the construction of voltage stabilizing devices.

The purpose of the invention is to reduce network interference and increase efficiency.

The drawing shows the block diagram of the Converter.

The AC voltage to DC converter consists of a rectifier 3 connected to input pins 1 and 2, one output connected to a common bus and output output 4, and another output to a drain of a field-effect transistor 5 with a control p the source of which is connected to the output terminal 6 of the converter} of the charging capacitor 7 connected in parallel with the output terminals 4 and 6, and the control unit containing the voltage divider 8, the source 9

the reference voltage, the comparator 10 and the trigger element 11 acting as an actuator; the voltage divider 8 and the reference voltage source 9 are connected parallel to the output of the converter; one input of the comparator 10 is connected to the midpoint of the divider 8, and the other point to the source 9 the reference voltage, the output of the comparator 10 is connected to the first input of the trigger 11, the second input of which is connected to the drain of the transistor 5, and the output to the gate of the transistor 5. The comparator 10 and the trigger 11 from the output voltage are energized.

The Converter operates as follows.

The alternating voltage is supplied to the output terminals 1 and 2 of the converter and is rectified by rectifier 1. At the beginning of each period (half period - depending on the type of rectifier used), low potentiation

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at the output, the rectifier 3 transfers the trigger 11 to a high potential state equal to the output voltage at its output. The gate potential of the transistor 5 becomes equal to the potential of its source and the transistor opens. When the input voltage exceeds the output voltage of the converter, capacitor 7 begins to charge.

The process of charging the capacitor 7 through a voltage divider 8 controls the comparator 10, comparing the output voltage with the reference voltage supplied to its second input from the source 9 of the reference voltage. As soon as the output voltage exceeds the value: UorЈK, where K y is the division factor of divider 8, the comparator 10 will issue a switching signal for the trigger 11, tilting the latter into a low potential state that is applied to the gate of the transistor 5, thereby closing the charge and stopping the charge d capacitor / For the remainder of the period (half-period), capacitor 7 is discharged through the lagruzka. Thus, at the output of the converter, a constant

The voltage is stabilized with the upper value and the ripple value determined by the degree of discharge of the capacitor to the load.

It should be noted that to launch the scheme of additional power supply is not required, since at the initial moment of operation, when the output voltage is

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0

five

the voltage is zero, the potentials of the gate and the source of the transistor are equal, it is open and a capacitor is charged through it.

Claims (1)

Invention Formula AC-DC converter containing a rectifier connected to the input terminals, a charge capacitor connected to the output terminals, a key element connected between the output of the rectifier and the corresponding output terminal, the control unit consisting of a voltage divider the input connected to the charging capacitor, and the actuator output connected to the control input of the key element, characterized in that, in order to reduce network interference and increase efficiency, the key The element is made on a field transistor with a control p-n-junction - the drain of which is connected to the output of the rectifier, and the source is connected to the output terminal, the reference voltage source and comparator are entered into the control node, and the actuating element is triggered, the corresponding inputs of the comparator are connected to the output of the voltage divider and the output of the source of the reference voltage, and the output of the comparator is connected to one of the trigger inputs, the other input of which is connected to the source of the field-effect transistor,