SU1483436A1 - Stabilized source of dc voltage - Google Patents

Abstract

The invention relates to a converter technique. The aim of the invention is to improve the accuracy of stabilization of the output voltage. The goal is achieved by adjusting the loop gain as a function of load current. The output signal PI = controller 1 is fed to the pulse voltage divider 2, which is converted into a sequence of high-frequency pulses. The amplitude of these pulses is determined by the current value of the output signal PI = controller 1, and the duration by the output signal is latitude = pulse modulator 15. Changing the pulse duration causes a change in the transmission coefficient of voltage pulse divider 2. The first input is pulse-width = pulse modulator 15 connected to the output master oscillator 16, and the second input through the second amplifier 14 is connected to the output of the first current sensor 9. 1 Il.

Description

The invention relates to electrical engineering and can be used in power sources of radio equipment.

The purpose of the invention is to improve the accuracy of voltage stabilization at the load.

The drawing shows a block diagram of a device.

The stabilized constant voltage source contains a PI controller 1, a pulse voltage divider 2, a signal summing unit 3 with low-pass filtering, a pulse-phase control unit 4, a thyristor rectifier 5, a smoothing AC filter 6, consisting of a inductor 7 and a capacitor 8, the first '' current sensor 9, load 10, measuring element 11, second current sensor 12, first amplifier 13, second amplifier 14, pulse-width modulator 15, and master oscillator 16.

At the second input of the PI controller 1 serves the reference signal. The output of the PI controller 1 through a pulse voltage divider 2 is connected to the first input of the low-pass filter 3, the output of which through a series-connected pulse-phase control system 4 and a thyristor rectifier 5 is connected to the input of the smoothing AC filter 6. The output of the AC filter 6, consisting of a choke 7 and a capacitor 8, is connected to the first current sensor 9 and the load 10 connected in series, and also through the measuring element 11 to the first input of the PI controller 1. The output of the second current sensor 12, connected between the bottom plates second capacitor 8 and the common bus through the first amplifier 13 is connected to the second input of the low pass filter 3. The output of the first current sensor 9 through the second amplifier 14 is connected to the second input of the pulse width modulator 15, the first input of which is connected to the output of the master oscillator 16. The output of the pulse width modulator 15 is connected to the control input of the pulse voltage divider 2.

A stabilized constant voltage source operates as follows.

The inputs of the PI controller 1 are supplied with a reference signal (7 ₃ determining the value of the stabilized voltage at the load, and the output signal of the measuring organ 11 proportional to the voltage at the load 10. The output signal of the PI controller 1 is supplied to the pulse voltage divider 2, which is converted into a sequence of high-frequency pulses, the amplitude of which is determined by the current value of the output signal of the PI controller 1, and the duration by the output signal of the pulse-width modulator 15. The output signal of the pulse the voltage divider 2 is averaged by the low-pass filter 3. The passband of the low-pass filter 3 is selected so as to obtain, on the one hand, a sufficient degree of suppression of the fundamental harmonic of the output signal of the pulse-width modulator 15, and, on the other hand, not to distort the signals, carrying information about the deviated adjustable parameters of the source. At the second input of the low-pass filter 3 through the first amplifier 13 receives the output signal of the second current sensor 12, proportional to the variable component of the output the signal of the thyristor rectifier 5 flowing through the capacitor 8. The output signal of the low-pass filter 3, which is the sum of the signals supplied to the first and second inputs, acts through the pulse-phase control system 4 on the thyristor rectifier 5. The output signal of the first current sensor 9, proportional to the load current 10, through the amplifier 14 it enters the second input of the pulse-width modulator 15, the first input of which receives a sawtooth output signal of the master oscillator 16. The output signal frequency guide generator 16 is set significantly greater frequency of the fundamental wave thyristor rectifier 5. The output of the pulse width modulator, a pulse whose duration is proportional to the load current 10, is supplied to the control input of the pulse voltage 2 divider. Changing the duration of the control pulses causes a change in the transmission coefficient of the pulse voltage divider 2, defined as the ratio of the average value of its output signal to the input.

The increase in the load current causes a proportional change in the output signal of the second amplifier 14, the output signal of the second amplifier 14, comparing with the output signal of the master oscillator 16, increases the duration of the output pulses of the pulse-width modulator 15. An increase in the duration of the pulses of the pulse-width modulator 15 causes an increase in the transfer coefficient of the pulse divider voltage.

Thus, when changing the load parameters 10, the control system automatically supports tuning parameters that ensure processes of finite duration, which allows to increase the accuracy of voltage stabilization at the load.

Claims (1)

Claim A stabilized DC voltage source containing a thyristor rectifier, the input of which is connected to the output of the pulse-phase control unit, and the output through the inductor is connected to the first output of the capacitor, the input of the measuring organ and the first output of the first current sensor, the second output of which is connected to the output for connecting the load , the output of the measuring body is connected to the first input of the PI controller, the second output of which is connected to the source of the reference signal, characterized in that, in order to improve accuracy stabilization of the output voltage, a second current sensor, two amplifiers, a signal summing and low-pass filtering unit, a pulse voltage divider, a pulse-width modulator and a master oscillator are introduced into it, and the information input of the pulse voltage divider is connected to the output of the PI controller, and the output to the first input of the signal summing and low-pass filtering unit, the second input of which through the first amplifier is connected to the output of the second current sensor connected between the second output of the capacitor and the common and the output of the signal summing and low-pass filtering unit is connected to the input of the pulse-phase control unit, the control input of the pulse voltage divider is connected to the output of the pulse-width modulator, the first input of which is connected to the output of the master oscillator, and the second input through the second amplifier to the output of the first current sensor.