SU1575163A1 - Dc power supply system - Google Patents

Abstract

This invention relates to DC power supply devices. The aim of the invention is to increase the reliability of starting each of the stabilizers for any supply sequence, rise rate and short-term loss of input supply voltages and improvement in mass-dimensional parameters. The goal is achieved by the fact that the additional protection transistor 12 monitors the output voltage level and, during start-up, opens the voltage of diode 6 biased by the artificial short circuit current of another stabilizer previously triggered. This leads to the opening of the thyristor 13 at the time of input voltage supply and the formation of a locking bias of the protection transistor 9 on the resistor 10 with current through the Zener diode 11 and the thyristor 13. Desensitization of the protection at the start ensures a reliable start of the stabilizers regardless of the voltage supply sequence and the rate of its rise . 1 il.

Description

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

The purpose of the invention is the provision of Improving the reliability of the launch of each of the stabilizers at any feed sequence, "slew rate and short-term loss of 10 input supply voltages and improve overall dimensions.

The drawing shows a DC voltage power system with protection against overcurrents. > 5 The system contains stabilizers and 2 connected in series and supplying a common load 3. Each of the stabilizers contains a regulating element connected in series in the power bus 20, consisting of power 4 and matching 5 transistors, a semiconductor diode 6 connected in parallel to the output terminals in the opposite direction, 25 resistive current sensor 7 connected between the emitter of the power transistor 4 and the output terminal, resistive (voltage divider 8, connected between the base of the power transistor 4 3θ and the common bus, the first a protective transistor 9, the base of which is connected to the midpoint of the divider 8, the collector is connected to the base of the matching transistor 5, the emitter through the first bias resistor 10 · bias voltage Zener diode 11, the second protective transistor 12, thyristor 13, the second bias resistor 14, introduced resistor 15, and the emitter of transistor 12 is connected to the output terminal, the base is connected to the common bus, and the collector is connected to the input terminal through series resistors 14 and 15, to the common point of connection of which the thyristor control electrode is connected ora 13, the cathode of the transistor 9 connected to the emitter, the anode - with the anode of the zener diode 11, the cathode of which is connected to the output terminal, as well as the control unit ⁵ θ of control 16.

The DC voltage stabilizer with protection against overcurrents in series connection works as follows.

If the input voltage of the first stabilizer is turned on before the input voltage of the second stabilizer, then the voltage of the output of the stabilizer 1 due to the current through the diode 6 and the total load 3 of the diode 6 opens and creates an artificial short circuit at the output of the stabilizer 2.

In this case, the voltage drop across the forward biased diode 6 opens the transistor 12. '

When the power supply voltage of the second stabilizer is turned on, the input terminal, resistors 15 and 14, the collector-emitter junction of the transistor 12 and the output terminal begin to flow, which, by dropping the voltage across the resistor 14, applied to the control electrode of the thyristor 13, opens the thyristor 13, then breaks through Zener diode 11 and * through the circuit input output - zener diode 11 - thyristor 13 - resistor 10 current flows, creating an additional voltage blocking transistor 9 on resistor 10, which leads to roughening of protection, limiting short-circuit current a short circuit at half the load current, sufficient to close the diode 6 and increase the output voltage. Since the diode 6 closes, the transistor 12 is closed, but the thyristor is kept open due to the current of the zener diode 11. When the output voltage of the second stabilizer reaches its nominal value, the zener diode 11 closes, the thyristor 13 is de-energized, which also closes, an additional voltage blocking the transistor 9 10 disappears, while the current through the current sensor 7 is due only to the load resistance 3, so the transistor 9 remains closed and in steady state.

Thus, since · in the stabilizer protection blocks there are no time-dependent elements (delay capacitors), each stabilizer is successfully started when they are connected in series automatically at any feed sequence, slew rate and short-term loss of supply voltage, and the means used for this purpose the introduced thyristor and resistors can be performed by integrated technology, which ensures the improvement of overall dimensions.

Claims (1)

Claim A DC voltage power supply system containing two DC stabilizer connected in series with the output terminals, each of which consists of a composite control element connected to the power bus on the power and matching transistors of one type of conductivity, a control unit, an input connected to the output of the stabilizer, and the output · to the base of the matching transistor, a semiconductor diode connected in the opposite direction parallel to the output terminals of the stabilizer, and a block of protection against ne current overloads, including a resistive current sensor connected between the emitter of the power transistor and the output terminal of the stabilizer, a resistive voltage divider connected between the base of the power transistor and the common bus, the first protective transistor, the base of which is connected to the midpoint of the said divider, the collector is connected to the base of the matching transistor, and the emitter through the first bias resistor - with the output of the stabilizer, a zener diode, characterized in that, C; to ensure start .Each improve reliability of the stabilizer at any supply sequence, slew rate and time kratko10 failure pytayu- ¹ input voltages and improved boiling massaga- 'barite indicators in protection unit overcurrent each stabilizer introduced second protective 15 transistor, thyristor, a second bias resistor, a limiting resistor, and the emitter of the second protective transistor connected to the output terminal, the base connected? with a common bus, 20 a collector connected to the input terminal through-in series, connected to a second bias resistor and a limiting resistor, the common point of which is connected to the control 25 to the thyristor electrode, the cathode of which is connected to the emitter of the first protective transistor, the anode is connected to the anode of the zener diode, the cathode of which is connected to the input power terminal.