SU1755265A1 - Electric power supply system with protection circuit - Google Patents

Abstract

Use: to power electronic equipment. SUMMARY OF THE INVENTION: The device contains at least two series-connected DC voltage regulators. Each stabilizer consists of a regulating transis-torch and a resistive current sensor included in the power bus, as well as a semiconductor diode connected between the output terminals and. water, a protective transistor, a LED, three resistors and a zener diode. . The device does not have a thyristor optocoupler, which greatly simplifies its circuit without degrading the technical parameters. 1 els

Description

The invention relates to electrical engineering and can be used in the power sources of various electronic devices.

A power supply system with protection is known.

A disadvantage of the known system is the necessity to use a capacitor of a large capacity shunting Zener diode in the protection unit, which degrades the weight and dimensions.

The closest technical solution is a power supply system with protection containing at least two series-connected voltage stabilizers, each of which consists of a control transistor connected in series to the power bus,

a semiconductor diode connected in parallel to the output pins in the opposite direction, a resistive current sensor connected between the emitter of the regulating transistor and the output terminal, a protective transistor whose collector is connected to the base of the regulating transistor and one of the terminals of the capacitor, the emitter with output terminal, and the base with another terminal of the capacitor and through the first resistor - with the emitter of the regulating transistor, the second and third resistors, the zener diode, the anode of which is connected to the common bus, and the cathode through t ety resistor - to the input terminal, a fourth resistor and a photocoupler, the anode of the LED of the optocoupler via a fourth resistor connected to the output vysl

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water, the cathode - to the common bus; the cathode of the photothyristor of the optocoupler through the second resistor is connected to the base of the protective transistor, the anode - to the cathode of the zener diode.

However, the use of a thyristor optocoupler in a protection node increases the cost of system design.

The purpose of the invention is to simplify and increase reliability by removing the thyristor optocoupler from the protection unit without degrading the technical characteristics.

The goal is achieved by the fact that in a power supply system with protection containing at least two series-connected voltage stabilizers, each of which consists of a control transistor connected in series to the power bus, a semiconductor diode connected in parallel to the output terminals in the opposite direction, a resistive current sensor connected between the emitter of the regulating transistor and the output terminal of the protective transistor whose collector is connected to the base of the regulating transistor emitter - with output output, and the base through the first resistor is connected to the emitter of the regulating transistor and through the second resistor to the cathode of the LED, the third resistor and the Zener diode, the anode of the LED through the third resistor is connected to the common bus, and through the junction the anode-cathode of the Zener diode to the input pin.

The drawing shows a diagram of power supply systems with protection

The system contains two series-connected stabilizers 1 and 2, each of which consists of a control transistor 3 connected in series to a power bus, a semiconductor diode b connected in parallel to the output terminals in the opposite direction, a resistive current sensor 5 connected between the emitter of the control transistor 3 and the output terminal , the protective transistor b, whose collector is connected to the base of the regulating transistor 3, the emitter is connected to the output terminal, and the base through the first resistor 7 is connected to the emitter conductive transistor 3 and through a second resistor 3rd LED cathode 9, an anode

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which is connected through the third resistor 10 to the common bus and through the transition-cathode of the Zener diode 11 to the input terminal.

The power supply system with protection works as follows.

Under the influence of the output voltage, for example, VBblX stabilizer 2, which turns on first, a current equal to half the load current starts to flow through the diode and the total load, which opens diode 4 and creates an artificial short circuit at the output of stabilizer 1. If we now apply the voltage V6X1 to the input of the stabilizer 1, then already with a voltage of the order of VBX, x. 3B, a current appears in the load, which, having reached a value equal to half the nominal, closes the diode. In this case, the diode E - resistors 8 do not flow through the circuit, because the zener diode 11 is closed, because its penetrating voltage is greater than VBX JB, at which the regulating transistor 3 opens. Under these conditions, the stabilizer 1 normally turns on.

The resistance of the resistor 10 is chosen such that at a nominal input voltage Vftx, it is supplied with a voltage close to the output nominal

When the load current is higher than the allowable, the sensor 5 generates a voltage sufficient to unlock the transistor 6. The latter starts to shunt the base-emitter junction of the transistor 3, which leads to the transition of the stabilizer 1 to the current stabilization mode, limiting it to a given level.

A further decrease in load resistance causes a decrease in the output voltage.

When the output voltage Veblx decreases below the voltage removed from the resistor 10, a current begins to flow through the LEDs 9, 0, resistors 8 and 7, creating an additional unlocking transistor 6 on the resistor 7, which leads to an avalanche-like locking of the stabilizer 1.

Thus, the simplification of the protection node (removal from the thyristor optocoupler) in the proposed device does not lead to the deterioration of any technical characteristics inherent in

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known power systems

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Claims (1)

Invention Formula A power supply system with protection containing at least two series-connected DC voltage regulators, each of which consists of a control transistor connected to the power bus, a semiconductor diode connected in parallel to the output terminals in the opposite direction, a resistive current sensor connected between the emitter of the regulator of the transistor and the output terminal, the protective transistor whose collector is connected to the base regulating transistor, an emitter with an output terminal, and the base through the first resistor is connected to the emitter of the regulating transistor and through the second resistor to the cathode 0 of the LED of the third resistor and the zener diode, characterized in that, in order to increase reliability by simplifying the circuit, the anode of the LED through the T 5th resistor 5 is connected to the “common bus, and through the junction the anode-cathode of the Zener diode is connected to the output terminal