SU862130A2 - Pulse dc voltage stabilizer - Google Patents

Description

(54) PULSE STABILIZER OF CONSTANT VOLTAGE

The invention relates to electrical engineering and can be used in secondary power sources.

Basically auth. St. 609111 describes a DC voltage regulator containing a regulating transistor connected by a collector to the input of a smoothing LCD filter, the output of which is connected to the output terminals, a control transistor of which the emitter is connected to positive, the input terminal, and the collector is connected to the base of a regular transistor and through a resistor - with the output positive terminal, comparing the transistor, the base of which is connected to the midpoint of the output voltage resistor divider, the emitter with the source of the reference voltage neither, and the collector through the 1Stor cut - with the transistor cad control base, the capacitor, the first terminal of which is connected to the regulating collector, and the second output of the specified capacitor - with the comparison transistor collector, resistor and diode, the connection point of which is connected to the regulator transistor emitter, the cathode of the diode through the resistor, and the anode

Through the junction, the base emitter of the control transistor is connected to the positive input terminal.

A disadvantage of the known DC voltage regulator is that overload protection is effective only at a certain input voltage. With

With an increase in the input voltage, the response point of the overcurrent protection in the load is shifted to a larger direction, and with an increase in the input voltage, for example, twice, the level of protection in the load will also increase twice. Lubrication of the current protection level can lead to failure of the filter droplet and, as a result, 20 to the output of the stabilizer itself. In addition, the protection circuit does not operate when a voltage regulator enters or enters the input above a permissible value, at which the elements of a pulse stabilizer may fail, and the name regulating transistor, the control transistor.

The purpose of the additional invention

30 is an efficiency overload protection and input overvoltage protection.

The goal is achieved by the fact that in an impulse stabilizer of the applied voltage according to the author. St. 609111 introduced a second comparative runner, a second resistive deligel voltage and a current-limiting resistor, while the base of the second comparing transistor is connected to the midpoint of the second resistor, which is connected at the input, the emitter is connected to the source of the reference voltage, and the collector through the current-limiting resistor - with the base of the control transistor.

The figure shows a schematic diagram of a DC voltage regulator.

The pulse stabilizer contains a control transistor 1, the emitter of which is connected to the positive input terminal through a resistor 2, the collector through the throttle to the 3rd positive output terminal and the base to the collector of the control transistor 4, and through the resistor 5 to the positive output terminal. The emitter of the control transistor 4 is connected to the input terminal, and its base through Diode B is connected to the emitter of the regulating transistor) a 1, and the cathode of diode 6 is connected to the emitter of the transistor 1. The stabilizer contains a reference Zener diode 7, the anode of which is connected to the common bus, the cathode - with the emitter of the first comparing transistor 8, and through the resistor 9 - c. and the transistor 8 is connected to the midpoint of the first resistive voltage divider of resistors 10 and 11 connected between the positive output terminal and the common bus, and the collector is connected via resistor 12 to the base of transistor 4, and through a capacitor 13 to a collector of transistor 1, a diode 14 connected between the collector circuit of transistor 1 and a common bus, a capacitor 15 connected between an output positive bus and a common bus, the second comparing transis ± op 16, the base of which is connected to the middle point a second resistive voltage divider resistors 17 and 18 and whose collector via a current limiting resistor 19 to the base of the control transistor 4. When power is applied to the input of sta-. the transformer 1 opens and the transformer flows through the inductor 3 into the load and into the charge of the capacitor 15. When the current reaches a certain value, the voltage across the resistor 2 opens the diode 6 and the transistor 4 and closes the transistor 1, preventing overload. The voltage across the collector of transistor 1 abruptly decreases to zero. The transistor 4 is maintained in an open state by the charge current of the capacitor 13 through the resistor 12. After the charge of the capacitor 13, the transistor 4 closes And the transistor 1 opens. Next, the process repeats until the output voltage is set at the output. With open transistor 1, capacitor 13 is discharged.

Current droplet when the closed transistor 1 flows through the diode 14.

In the steady state transis-. Torus 1 closes when the output voltage reaches a nominal value. This opens the transistor

5 8, which causes the opening of the transistor 4. In this case, the voltage drop across the resistor 2 does not exceed the threshold of the opening of the transistor 4 and the protection does not affect the operation of the stabilizer. With

0 decreasing the load resistance increases the magnitude of the current through the resistor 2, the protection limits the current to a level determined by the value of the resistor 2.

5 In the event of a short circuit of the load, the stabilizer operates in a pulsed mode and provides the appearance of a high and a low voltage when the short circuit is eliminated. By increasing

Q of the input voltage to such a value that the level of the protection current, defined by the resistance value of the resistor 2, increases above the allowable value, opens the second comparative transistor

16, which opens, through a resistor 19, the control transistor 4 and closes the control transistor 1. The second voltage divider assembled on the resistors 17 and 18 is designed

to select the protection trigger threshold when the input voltage increases and, as a result, to select the allowable level of increase in the current protection. When entering the entrance

the voltage regulator is higher than the permissible protection circuit works in the same way as increasing the input voltage.

The use of the proposed pulse stabilizer will make it possible to increase the effectiveness of overload protection by limiting the increase in the Current level, protection with an increase in the input voltage, and

also allow you to see items

the stabilizer from feeding or entering the input voltage is higher than the allowable one. A dc voltage regulator can be used to power stand-alone devices.

Claims (1)

Invention Formula DC impulse stabilizer, auth. St. I 609111, different In order to increase the overload protection and protection against input overvoltage, a second comparator transistor, a second resistive voltage divider and a current limiting resistor are entered into it, while the base of the second comparative Transistor is connected to the average resistive divider which is connected at the input, the emitter is connected to the source of the reference voltage, and the collector is connected to the base of the control transistor via a current limiting resistor.