SU1386978A1 - Multiphase pulsed d.c. voltage regulator - Google Patents

Abstract

The invention relates to electrical engineering and can be applied in the creation of stabilized pulsed power sources. The aim of the invention is to improve the quality of output voltage stabilization. When power is applied, the multiphase master oscillator 10 starts working, synchronizing the operation of pulse-width modulators (PWM) 5 converter cells 1. The output signals of PWM 5 provide switching of power switches 2 and energy input through diode 3 and throttle 4 to the output terminals 12. Signal c the output of current sensor 6 is fed to the feedback amplifier 7 of the current of cell 1, and through a resistor 9 to the inputs of similar amplifiers 7 of the remaining cells 1. Thanks to the filtering effect of the capacitor 15 to the input of amplifier 7 of this cell 1 are treated as constant, and the variable component of the signal from the current sensor 6 of the cell and a constant component of the signal from the current sensor 6 other cell 1. 2 yl. / 2 о (Л со 00 05 со оо Ф / у / 7

Description

The invention relates to electrical engineering and can be applied to the creation of stabilized pulsed sources of power supply of a constant voltage.

the capacitor 15 to the input of the amplifier 7 feedback of this cell 1 receives both a constant and a variable component of the signal from the current sensor 6 of this cell; the purpose of the invention is an increase in the quality and a constant component of the signal

Stabilization of the output voltage.

FIG. 1 shows a block diagram of a multiphase pulse stabilizer; constant voltage; in fig. 2 are diagrams of the variation of the output voltage and current.

The stabilizer contains N identical converter cells 1, each of which contains a power switch 2, a diode 3, a choke 4 connected to the power switch 2 and a diode 3, a pulse-width modulator (PWM) 5, the output of which is connected to the control input power switch 2, resistive current sensor 6, connected in series with choke 4 into the output circuit of cell 1, current feedback amplifier 7, adder 8, output of current sensors 6 of the remaining cells 1. Signal proportional to the output voltage difference and reference voltage from an ist outlet of the reference voltage source 14, is fed from the output of the feedback amplifier 13 to the input of the adder 8, where, added to the signal from the output of the feedback amplifier 7, is then fed to the PWM control input 5, controlling the duration of the generated impulses and thereby maintaining a constant output voltage.

FIG. Figure 2 shows the diagrams of the change in the output voltage Unanp and the current of the first throttle Lp, the most loaded at the moment

It is connected to the control input of the PWM 20 trigger, the cells 1 when the stabilizer is started 6, and the first input is connected to the output of the amplifier 7p. For comparison, the dotted lines show those

the same diagrams for known devices.

Technical and economic efficiency

from the implementation of the proposed current stabilization communication, the resistor 9 connected between the inputs of the current feedback amplifier 7 and connected to the connection point of the current sensor 6 and 5 P in one output is to increase the quality of the cross-link 4 and the other output voltage: with resistor 9 other converter cells 1.

The scientific research institute of amplitude and duration of transient processes, as well as increase of reliability due to elimination of overloads at launch. This is achieved by performing. In addition, the stabilizer contains

The scientific research institute of amplitude and duration of transient processes, as well as increase of reliability due to elimination of overloads at launch. This is achieved by an executable phase oscillator 10, the output of the load balancing function

The ports of which are connected to the clock inputs of PWM 5, a filter capacitor 11 connected to the combined outputs of cells 1, output pins 12 and the load, feedback amplifier 13 between cells and the formation of given dynamic properties by the same elements.

The proposed stabilizer is simpler because of the feedback amplifiers for

to the voltage, one input of which is connected to the current of each converter cell by the source 14 of the reference voltage, and the other is excluded low-pass filters,

with the output terminals 12, the output of the feedback amplifier 13 is connected to the combined second inputs of adders 8, a capacitor 15 connected to the combined outputs of cells 1, and the second to the combined terminals of the resistors 9 of the conversion cells 1.

The multiphase pulse voltage stabilizer operates as follows.

When the supply voltage is applied, the multi-phase master oscillator 10 starts working, synchronizes the operation of the PWM 5 converter cells 1, output sig40

45

used in a known stabilizer to isolate the average value of the throttle current of each cell. In addition, additional elements are eliminated to ensure a "soft start."

Claims (1)

Invention Formula A multiphase DC voltage pulse stabilizer containing connected between the same input and output pins of N identical converter cells, each of which contains a power switch, a diode, a choke connected to the connection point of the power switch. PWM 5 switches switch 50 key and diode, pulse-width modulation keys 2 and energy flow through diode 3, choke 4 and resistive current sensor 6 to filter capacitor 11 and output terminals 12, the output signal from current sensor 6 goes to amplifier 7 region a torus whose output is connected to the control input of the power switch, a resistive current sensor connected in series with the choke to the output circuit of the converter cell, a feedback feedback amplifier of the current of this cell 1, and 55 zi for the current, an adder About resistor 9 is connected to the inputs of feedback amplifiers 7 for the remaining cells 1. Moreover, due to the filtering action The first input is connected to the control input of the pulse-width modulator, and the first input is connected to the output of the current feedback amplifier. the capacitor 15 to the input of the amplifier 7 feedback of this cell 1 receives both a constant and a variable component of the signal from the sensor 6 of the current of this cell and a constant component of the signal from the current sensors 6 of the remaining cells 1. A signal proportional to the difference in the output voltage and the reference voltage from the output of the source 14 of the reference voltage comes from the output of the feedback amplifier 13 to the input of the adder 8, where, adding the signal the output of the current feedback amplifier 7 is then fed to the control input of PWM 5, controlling the duration of the pulses generated by it and thus maintaining a constant output voltage. from the introduction of the proposed stabilizer P consists in increasing the quality of output voltage stabilization: decreasing the amplitude and duration of transients, as well as increasing reliability by eliminating overloads at start-up. This is achieved by performing a load balancing function. between cells and the formation of given dynamic properties by the same elements. The proposed stabilizer is simpler because of the feedback amplifiers for 0 five used in a known stabilizer to isolate the average value of the throttle current of each cell. In addition, additional elements are eliminated to ensure a "soft start." Invention Formula A multiphase DC voltage pulse stabilizer containing connected between the same input and output pins of N identical converter cells, each of which contains a power switch, a diode, a choke connected to the connection point of the power switch. a torus, the output of which is connected to the control input of the power switch, a resistive current sensor connected in series with the choke to the output circuit of the converter cell, a current feedback amplifier, an adder, the output of which is connected to the control input of the pulmonary impulse modulator and the first input is with the output of the current feedback amplifier. a resistor connected between the inputs of the current feedback amplifier and connected by one output to the connection point of the resistive current sensor and throttles, and the other to similar resistors of other converter cells, in addition, the stabilizer contains a multiphase driving oscillator, the outputs of which are connected to the synchronizing inputs of pulse-width modulators, a filter capacitor connected to the combined output circuits of the converter cells and output terminals, a feedback amplifier on voltage, one input of which is connected to a source of voltage, and the other with output terminals, the output of the feedback amplifier is connected to the combined second inputs of adders, characterized in that, in order to increase the quality of the stabilization of the output voltage , a capacitor is inserted into it, the first output connected to the combined output circuits of the converter cells, and the second to the combined terminals of the stabilizer converter's resistors. FIG. 2