SU729811A1 - Converter control device - Google Patents

Description

The invention relates to electrical engineering, in particular to a technique for designing secondary power sources of electronic equipment.

A device for controlling a voltage Converter, providing the protection functions of the Converter during overloads and short circuits at the input [1].

The closest in technical essence to the invention is a voltage converter containing directly the voltage converter and the protection unit, consisting of a sensor in the form of a bridge on tunnel diodes and resistors, and an integrating circuit, the actuator is a trigger, the output of which is connected to a disconnecting device and power amplifiers , and input with sensors [2].

A disadvantage of the known devices is inertia, i.e. low dynamic characteristics.

The purpose of the invention is the improvement of dynamic characteristics.

This is achieved by the fact that the device for controlling the voltage converter, containing the master oscillator, the output of which is connected to the input of the counting trigger, the measuring organ connected to the input of the pulse-width modulator, the protection trigger, two power amplifiers, is equipped with two two-input AND-NOT elements and a threshold element, and the outputs of the elements AND are NOT connected to the inputs of the power amplifiers, the first inputs respectively to the direct and inverse outputs of the trigger with a counting input, the second inputs to the output of the pulse-width lsnogo modulator and the output of the protection flip-flop, one input of 'which is connected to the oscillator output and the other input via a threshold element is connected with terminals for connecting the converter.

The drawing shows a structural diagram of the proposed device.

It contains a voltage rectifier 1, an inverter 2, an output rectifier 3, a rectifier for a current transformer 4, a threshold element 5, a trigger 6, defining a generator 3 72 generator 7, a trigger with a counting input 8, power amplifiers 9 and 10, elements AND NOT 11 and 12 , measuring body 13 and pulse-width modulator 14.

The device operates as follows.

The input voltage of the network U _{c is} supplied to the rectifier 1, then it is converted by a high-frequency inverter 2 into an alternating one, rectified by the output rectifier 3 and supplied to the load. The output voltage and _{B1X are measured} using a measuring body 13. The output voltage is stabilized by a pulse-width modulator 14. The frequency of the inverter is determined by the master oscillator 7, the output of which is connected via a trigger to the counting input 8 and the I-NOT 11 and 12 elements with power amplifiers 9 and 10, by which the transistors of the inverter 2 are switched.

In the event of short circuits at the output or overloads, the signal from the current transformer included in the power circuit of the inverter 2 is fed to the input of the threshold element 5. In this case, the signal amplitude exceeds the level of the threshold element 5, which leads to a flip of the trigger 6 to the position at which the cut-off occurs on the trailing edge ^ of the working voltage pulse opening the transistors of the inverter 2. The latter leads to the instantaneous closing of the transistors of the inverter 2. The leading edge of the working voltage pulse coming from the input authorizing generator 7, the trigger 6 is thrown into a state of allowing passage of the working pulses of the channel.

Thus, the power supply is protected in this case only for a time equal to the period of the operating voltage pulses. At the same time, the duration of the working pulses is reduced, the power consumed by the output of the voltage converter decreases, the output current increases to the maximum at the output, and the voltage decreases. In this mode, the device can remain in place until the malfunction is resolved.

The threshold element can be implemented as input-input, which will protect the device during overloads, short circuits, overvoltages, etc.

Thanks to the construction of protection according to the inertia-free principle, the dynamic characteristics are increased by one clock cycle of the working pulses, the probability of failures is significantly reduced, and the device’s overall availability time is reduced.

Claims (2)

3 paiop 7, Tptiirep with counting input 8, power amplifiers 9 and 10, elements 11 and 11, measuring element 13 and pulse-pulse modulator 14. The device operates as follows. The input mains voltage U is fed to rectifier 1, then converted by ICOKO with frequency inverter 2 to alternating current, rectified by output rectifier 3, and absorbed into load. The output voltage Ugjjix is measured using the measuring unit 13. The output voltage is stabilized by a pulse width modulator 14. The frequency of the inverter is determined by the generator 7, the output of which is connected via a trigger with a counting input 8 and AND-11 and 12 sec elements power amplifiers 9 and 10, during which the switching of the transistors of the inverter 2 is performed. In the event of short circuits at the output or overloads, the signal from the current transformer included in the power circuit of the inverter 2, comes in one of the threshold element 5. At the same time, the amplitude of the signal exceeds the level of the threshold element 5, which causes the trigger 6 to be thrown to the position at which the cut-off on the falling front of the operating voltage pulse opens the inverter 2 transistors. The latter leads to an instantaneous closing of the inverter 2 transistors The leading edge of the operating voltage pulse coming from the input of the master oscillator 7, trigger 6, is transferred to a state that permits the passage of the operating pulses through the channel. Thus, the protection of the power source in this case is carried out only for a time equal to the period of the working voltage pulses. In this case, the duration of the working impedances is shortened, the power consumed by the conversion of the voltage-voltage gel is reduced, the output current of the load increases to the maximum, and the voltage decreases. In this mode, the device can be charged until the malfunction is resolved. The threshold element can be made with an override, which will allow the device to be protected in case of overloads, short circuits, overvoltages, etc. Blatodar building protection for a non-inertial printer for one measure of time; Single working pulses increase dynamic performance, significantly reduce the likelihood of failures, and reduce the overall device uptime. Claim device A device for controlling a voltage converter, comprising a master oscillator, the output of which is connected to the input of a counting trigger, a measuring element, which is connected to the input of a pulse-width modulator, a protection trigger, two MOQIHOTH amplifiers, which are different in order to improve. characteristic, it is equipped with two two-input elements AND-NOT and a threshold element, with the outputs of the elements AND-NOT connected to the inputs of power amplifiers, the first inputs - respectively to the direct and inverse outputs trigger ladders with a counting input, the second inputs - to the output of the pulse-width modulator and the output of the protection trigger, one input of which is connected to the output of the master oscillator, and the other input through a threshold element connected to the input to connect the converter. Sources of information taken into account in the examination of 1. Electronic technology in automation. Ed. Koneva Yu. I. Vol. 7, 1975, M .. Soviet Radio, p. 56, fig. 3 2. Devices of secondary power supplies of REA. Sat seminar materials. M .. Society Knowledge RSFSR, Moscow House of Scientific and Technical nponaiattubi them. F.E. Zer- Zhinsky, p. 104, fig. one.