SU767736A1 - D-c voltage pulse stabilizer - Google Patents

Description

(54) PULSE DC VOLTAGE STABILIZER

The invention relates to electrical engineering and can be used to power equipment for various purposes. DC 1 and 2 pulsed voltage regulators are known. The closest to the proposed by lex; the essence is a pulsed regulator, a DC voltage with a booster device containing an integral regulating transistor, the output stage of which is connected by a junction collector - emitter between positive the input terminal and the LCD input of the smoothing filter, the output of which is connected to the output terminals, the control circuit of the composite control transistor through the duration modulator on the output of the amplifier and measuring unit, the input of which is connected to the output terminals, the booster device 2 The disadvantage of this stabilizer is that the input stage of the composite regulating transistor is closed in a closed state under the total potential of the input voltage and the booster device. which reduces the reliability of the scheme. In addition, the booster device in this case must be made autonomous or electrically isolated with respect to the power elements of the source circuit, which complicates the circuit. The purpose of the invention is to increase reliability and simplify the circuit. This goal is achieved by connecting the booster device with a common pole to the filter input, the output pole through a diode in the forward direction to the collector-emitter circuit of the input stage of the regulating element connected to the stabilizer input through the diode in the transmission direction relative to the input voltage. In this case, the simplification of the circuit is achieved when a capacitor is turned on as a booster, the output pole of which A is connected to the output of the stabilizer through a diode in the forward direction with respect to the output voltage. Voltage stabilizer circuits are shown in FIG. 1 and 2.

Each of the circuits contains an integral control transistor 1 with an output stage 2 and an input stage 3-4, a smoothing filter 5 from the output capacitor 6, a switching diode 7, a drossel 8 of a booster device 9, a modulator of durability 10 of the amplifier-measuring node 11, and additionally of the entered diodes 12 and 13. At the same time, the output stage 2 is connected between the plus input terminal of the stabilizer and the LCD input of the smoothing filter 5, the input stage 3-4 is connected by a collector-emitter circuit to the output pole of the booster va 9 and control through tsepyb duration modulator 10 - to the output of amplifying and izmeritepnogo unit 11 whose input is connected to the output of the stabilizer. The booster unit 9 is connected by a minus lead to the input of the filter, and a positive lead through the first diode 12 in the forward direction to the collector-emitter circuit of the input stage 3-4, the latter being connected to the input of the stabilizer through the second diode 13 in the direction of the input voltage .

In the stabilizer (Fig. 2), the booster device is formed by a capacitor 14, one output of which is connected via the third diode 15 to the positive output terminal.

The stabilizer (Fig. 1) works as follows.

When the control transistor 1 is open, the diode 7 is locked and the input cascade of the control transistor 3-4 is powered by a diode 12 from the booster device 9, and the voltage at its output relative to the common point of the stabilizer UQ is determined by the sum of the input. Ugx and booster

 voltages minus the saturation voltage and the output stage 2. The closed state of the control transistor diode 7 is open and the voltage UQ decreases dramatically and exceeds the boost voltage of the ultrasonic USE by the voltage of the output voltage of the output voltage of the diode of 7 Beats, usually no more than 1 V. This voltage to the input stage 3-4 is supplied from the input voltage through the diode 13. The intermittently connected diodes 12 and 13 serve, therefore, to decouple the power supply terminals of the cascade 3-4. - -, -.

Thus, in the proposed stabilizer, the input cascade is in a closed state under a potential that is not connected to the input voltage, while in the known stabilizer, as mentioned above, the potential is equal to the sum of the input and voltage added voltages.

The stabilizer in FIG. 2 functions similarly to the stabilizer in FIG. 1, however, the boost voltage in this case is formed directly from the main circuit, and without the use of transformer connections. The latter is impaired by the inclusion of a capacitor 14 and a diode 15 in a series depot, bypassing the choke 8, the diode 15 being connected in a direct direction with respect to the output voltage. The capacitor 14 is charged through the diode 15 at the moment of the closed state of the regulating transistor.

Claims (2)

1. An impulse voltage regulator; a direct current voltage containing a composite control transistor whose output stage is connected by a collector-emitter junction between the positive input terminal and the LCD input of a smoothing filter whose output is connected to the output terminals, controlling the circuit of the component control transistor through the module a duration torus is connected to the output of an amplifier - measuring unit, the input of which is connected to the output terminals, a booster device, characterized in that, in order to increase In addition, the booster unit is connected by a negative lead to the input of a smoothing filter, the positive lead is connected to the anode of the first diode, the cathode of which through a resistor is connected to the collector – emitter circuit of the input stage of the composite control transistor, and the positive input terminal is connected to the anode of the second diode whose cathode is connected with the cathode of the first diode. 2. An impulse stabilizer in accordance with claim 1, which is characterized in that, in order to simplify the circuit, the booster device consists of a capacitor and a third diode, and One pin of the capacitor is connected to the input of a smoothing filter, and the second pin is connected to the connection point of the anode of the first diode and the cathode of the third diode, the anode of which is connected to the positive output terminal. Sources of information taken into account in the examination 1. Power sources on semiconductor devices, Ed. S.D. Dodika and E.I. Halperin, M., Sov. Radio, 1969, p. 405-441. 2. Goopovatsky V. A. Transistor pulse impulse and voltage stabilizers. M., Sov.radio, 1974, p. 144