SU1497613A1 - Protected power supply system - Google Patents

Abstract

The invention relates to electrical engineering and can be used in the power sources of various electronic devices. The purpose of the invention is to increase the reliability of the launch. The goal is achieved by introducing a resistor 14, an optocoupler 12, while the anode of the LED 13 of the optocoupler is connected via an additional resistor 14 to the output terminal, the second resistor 9 is connected to the base of the protective transistor 6, and the anode to the cathode of the Zener diode 10. in the load, the protection transistor 6 begins to open, locking the control transistor 3. The output voltage drops. The current of the photo thyristor 15 - resistors 9.8 switches the transistor 6 to the saturation mode, which completely closes the control transistor 3. In the absence of voltage at the output of the stabilizer 1 in the LED 13 of the optocoupler 12, the current stops, but the photo thyristor 15 remains open and works as a diode. The system goes to the nominal mode of operation. 1 il.

Description

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WITH

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And Jubretenne from) gossi to electrical engineering and can be used in power supplies of radio electronic equipment.

The purpose of the invention is to increase the reliability of the launch.

The drawing is a schematic of a power supply system with protection for the case of a serial connection,

The system contains at least two stabilizers 1 and 2 connected in series. Each of the stabilizers consists of a control transistor 3, connected in series to the power bus, a semiconductor diode 4 connected in parallel to the output outputs in the opposite direction, a resistive current sensor 5 connected between the emitter of the control transistor 3 and the upstream terminal, a protective transistor 6, the collector of which is connected to the base of the regulating transistor 3, the emitter is connected to the output terminal, and the base is connected to the capacitor 7 and through the first resistor 8 of the resistive divider with the regulating emitter 3, the second resistor 9, the zener diode 10 and the resistor 11, the anode of the Zener diode 10 is connected to the common bus and the cathode through the resistor 11 is connected to the input terminal, while another terminal of the capacitor 7 is connected to the collector of the protective transistor 6, the optocoupler 12, the anode an LED 13 of which is connected via a resistor 14 to the output terminal, and the cathode to a common bus, the cathode of the photo thyristor 15 through a resistor 9 is connected to the base of the protective transistor 6, and the anode to the cathode of the zener diode 10.

The power supply system with protection for the case of a serial connection works as follows.

Under the influence of the output voltage, for example, V of the stabilizer 2, connected first, through diode 4 and the total load begins to flow a current equal to half the load current, which opens diode 4 and creates an artificial short circuit at the output of the stabilizer. In this case, no current flows through the LED 13 of the optocoupler 12, therefore the phototransistor 15 is locked.

If we now apply voltage to ".1 input of stabilizer 1, a voltage appears at its output and

current in the pad, ss): vd, chg1p iiriju HHe iapre1 and i) t 3HCTOpe 5. runzi (: 1or 6 protection opens and shunt the base circuit peryjiupVHjmero TpafiiMCTO p.3, puts it into current stabilization mode with the Amount exceeding 1.5-2 times the rated load current depending on the choice of the resistor 5 and sufficient to close the diode 4, which closes it, eliminates a short circuit at the output of the stabilizer 1, closes the protective transistor 6 and increases the output voltage VB to its nominal meaning09 LT

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from the moment the voltage Vd is applied to the stabilizer 1 and until the voltage Vg reaches a value close to the nominal value, the photo thyristor 15 of the optocoupler 12 remains closed, the current through the circuit: the photo thyristor 15 - resistors 9 and 8 do not leak, there is no additional resistor 8 unlocking protective transistor 6 voltage, which creates the conditions for successful output to the nominal mode of operation of the stabilizer 1.

The resistance of the resistor 14 is chosen such that the current through the LED 13 of the optocoupler 12 is equal to the operation current only at a voltage close to the output voltage V of the stabilizer 1.

When the output voltage reaches its nominal value, the photo-thyristor 15 opens, but the current through the circuit: photo-thyristor 15 - resistors 9 and 8 are still absent, since the stabilization voltage of Zener diode 10 is chosen to be approximately equal to V ".

When an overload or short circuit occurs in the load, the protection transistor 6 starts to open the control transistor 3, the output voltage drops, a current appears along the circuit: photo thyristor 15 - resistors 9 and 8, transistor 6 goes into saturation mode and fully closes the control tran:) story 3.

In the absence of voltage at the output of the stabilizer 1 in the circuit of the LED 13 of the optocoupler 12, the current stops, but the photo thyristor 15 of the optocoupler 12 remains open and operates as a diode.

Thus, the stabilizer, i voltage with protection, is connected by inotix. one

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SL1 (Ill, go to the nominal mode of the HLH), regardless of the sequence of switching on the input voltages and at any rate of their rise.

Claims (1)

Claims of the Invention A power supply system with protection comprising at least two successively connected voltage regulators, each of which consists of a control transistor, a semiconductor diode connected in parallel to the output terminals in the opposite direction, and a resistive sensor in the power bus a current connected between the emitter of the regulating transistor and the output terminal of the protective transistor whose collector 36 connected to the base of the regulating transistor and one of the capacitor leads, the emitter to the output pin, and the base to another capacitor lead and through the first resistor to the regulator transistor, the second and third resistors, the zener diode of which is connected to the common core, and the cathode through The third resistor is with an input terminal, characterized in that, in order to increase the reliability of the start, a fourth resistor and an optocoupler are inserted into each stabilizer, and the anode of the optical diode is connected through the fourth resistor to the output dy cathode - to the common bus, a cathode fototiristory optro- on via a second resistor connected to the base of the protective transistor, the anode - the cathode of the zener diode.