SU1337886A1 - D.c.voltage gate stabilizer - Google Patents

Abstract

The invention relates to sources of secondary power supply and can be used to power the equipment of communication devices, automation and computer technology. The purpose of the invention is to increase the reliability of a key constant voltage regulator by providing overcurrent protection. The goal is achieved by introducing into the stabilizer, which contains in series between the input and output terminals, the key element 1 and the LC filter, whose input is backed up by chains of consecutively connected additional throttle 7 and the first discharge diode 6, and also the second discharge diode 5 and the capacitor 8, and the control unit 4, the input connected to the output terminals, and the output connected to the control output of the key element 1, the inverting amplifier 10, the input connected to the condensation the torus 8, and the output to the additional input of the control unit 4. 1 sludge. ate w оо О2 00 СХ) 05

Description

The invention relates to electrical engineering and can be used to power the equipment of communication devices, automation and computing.

The purpose of the invention is to increase the reliability of the key stabilizer by limiting the maximum current through the key element and the discharge diode.

In the drawing, a diagram of a key constant voltage regulator is illustrated.

The stabilizer contains a serial key element 1 connected to an LC filter with a choke 2 and a capacitor 3 and a control input connected to the output of control unit 4, the input of which is connected in parallel with the output terminals. The control unit 4 contains the source 1 April 15, the error amplifier 14, the resistors 12 and 13 of the feedback circuit divider, the pulse width modulator 16. The stabilizer also contains the first discharge diode 5 connected by one output to the common point of the key element I and I Drossel 2 LC-filter, and another pin connected through a capacitor 8 to the second supply bus.

The second bit of the DN1 1Y diode 6 is connected by one output through an additional choke 7 to the common point of the key element 1 n the throttle of the LC filter, and the other output to the second supply 1 npne. An inverting amplifier 10 is connected to the common point of the first discharge diode 5, the capacitor 8 and the discharge resistor 9, and the output is connected to the control unit 4. Moreover, another output bit of the | -o resistor 9 is connected to the output terminal connected to the LC filter.

The voltage regulator operates as follows.

When the key element 1 is switched on, the current of the throttle 2 flows through the connected capacitor 3 and the load, connected 11aral, 1 output terminals of the stable; 1izator. When the key element 1 is turned off, the current of the droplets 2 is discharged through a capacitor 3 and a load connected in series, a capacitor 8 connected in series, and the first discharge diode 5. This current charges the capacitor 8 to a certain voltage with polarity indicated in FIG. 2 in brackets. The voltage up to which the capacitor 8 is charged is applied to the full voltage choke 7. Through the open diodes 5 and 6 and through the choke 7, the current begins to increase. Since the sum of the currents through the capacitor 8 and the bottom choke 7 of nocTOHiiiia is equal to the current of the throttles 2, at the moment when the current of the throttles 7 becomes equal to the current of the throttles 2, the diode 5 closes and the capacitor 8 discharges through the discharge resistor 9.

The voltage,;, about which the capacitor 8 is charged, is applied through the inverted amplifier 10 and the unpowered

a diode to the input of the error amplifier 14 of the control unit 4. At the next closure of the key element 1 to the diode 5, the reverse voltage is applied. However, diode 5 is already completely closed.

A supply voltage is applied to choke 7 and its current begins to decrease to zero. Diode 6 closes. The magnitude of the voltage on the capacitor 8 depends on the magnitude of the current of the drossel 2, which can be considered equal to the load current with sufficient inductance of the drossel 2. Therefore, any change in the current through the key element 1 and the discharge diode 6, under the action of varying load current, leads to a change in voltage across a capacitor 8.

When the load current, so the current through the key element 1 and the discharge diode 6 is less than the permissible threshold value, the voltage on the capacitor 8 applied 0 through the inverting amplifier 10 to the diode 11 is less than the feedback voltage applied to the error amplifier 14 and another conclusion of diode 11. Therefore, diode 11 is closed.

When the current through key element 1 and

The 5th discharge diode 6 exceeds the threshold value. The diode 11 opens and the output voltage of the inverting amplifier 10 is fed to the input of the error amplifier 14, where it is compared with the voltage of the voltage source 15. The error signal from the error amplifier 14 is fed to the input of the pulse-width modulator 16 and acts on it in such a way that the duration of the pulses at the output of the pulse-width modulator and, therefore, the open state of the key element 1 decreases so that the voltage on the capacitor 8, the current through the key element 1 and the switching diode 6, does not exceed the threshold level.

0

Claims (1)

Invention Formula A key constant voltage stabilizer containing serially connected between the input and output 0 five terminals key element and choke LC filter, LC filter capacitor, connected between the output terminal and the common bus, in parallel with which the connection of the voltage divider, output ko, is. the second is connected to the input of the control unit, the output is connected to the control unit, it has the input of the key element, the first discharge diode connected to the common point of the key element by one output and the LC filter’s throttles, and the second output connected  through a capacitor with a common length, a chain of series-connected second discharge diode and an additional throttle connected in parallel with the input of the LC filter, 1337886 34 and a discharge resistor, one output is a sub diode, and the inverter input is connected to a common capacitor and the capacitor is parallel to the capacitor, the first discharge diode, a different output through the diode is connected to the input of the unit By the fact that, in order to increase reliability, control, another output of the discharge resistor was inserted into an inverting amplifier connected to the output terminal.