SU1019417A2 - Dc voltage pulse stabilizer - Google Patents

Abstract

PULSE STABILIZER OF PERMANENT DETAILS OAENA on author. St. 717737, characterized in that, in order to reduce mass and volume by reducing the range of the control frequency, the emitter of the transistor with the common bus is connected through the auxiliary transistor, and a current sensor is inserted into the common bus between the input and output terminals. The auxiliary transistor is connected to the common bus input terminal, and its base is connected to the common bus output terminal through the first tokadakaddy resistor and to the connection point of the resistor and zener diode of the voltage source via the second current-supply resistor. t co 4

Description

The invention relates to electrical engineering and can be used in circuits of various electronic equipment.

On the main author. St. No. 717737 known pulsed DC voltage regulator containing a key transistor connected to the input by an input, an output through the throttle of the LCD filter with an output, and a control input with the output of an operational amplifier, the first input of which is connected to the output of the voltage divider, and the second input a transistor is connected to the output of the reference voltage source, the base of which is connected to the output of the operational amplifier, the emitter is connected to the common bus, and the collector is connected through the input resistor to the output of the support source voltage £ 1].

A disadvantage of the known device is a significant range of changes in the frequency of regulation of the stabilizer when changing the value of the load resistance, which is inherent in all stabilizers with on-off regulation. This drawback does not allow to optimize the output filter, which increases its weight and dimensions.

The aim of the invention is to reduce the mass and volume by reducing the range of variation of the frequency of regulation of the stabilizer.

This goal is achieved by the fact that in the device the indicated • connection of the emitter of the transistor with the common one is made through an auxiliary transistor, and a current sensor is inserted into the common bus between the input and output terminals, and the emitter of the auxiliary transistor is connected to the input terminal of the common bus and its base is connected through the first lead-in resistor to the output terminal of the common bus and through the second lead-in resistor to the junction point of the resistor and the zener diode of the reference voltage source.

The drawing shows an electrical diagram of the device.

The pulsed DC voltage regulator contains a key transistor 1, connected to the output terminals through an LCD filter 2, an operational amplifier 3, the first input of which is connected to the output voltage divider 4, the second input to the divider 5 of the reference voltage source 6, an amplifier stage on the transistor 7, whose collector is connected through a resistor 8 to a reference voltage divider, the base to the output of the operational amplifier, and the emitter to the collector of auxiliary transistor 9, the emitter transition of which through a resistor 10 p dklyuchen to the current sensor 11, and through resistor 12 - to the reference voltage source 6.

Switching DC voltage stabilizer operates as follows.

When the key transistor 1 is closed, the voltage across the filter capacitor 2 slowly decreases. The operational amplifier 2 generates at the time of the output a high voltage potential, which opens the transistor 7, providing a low reference voltage level to the 2Q input of the operational amplifier. When the output voltage reaches the level of the reference voltage, the operational amplifier switches, forming 25 at the output a low potential that locks the transistor 7, and the value of the reference voltage increases. The key transistor 1 opens and the voltage across the filter capacitor 2 starts to rise. When the output voltage reaches a new level of the reference voltage, the transistor 7 opens, and the key transistor 1 is locked and the above process is repeated.

The value of the hysteresis of the reference voltage is determined by the resistor 8 and the equivalent resistance of the transistor 9 connected in series with the transistor 7, which 40 is set by the value of the stabilizer output current flowing through the sensor 11. With a small value of the load current, the equivalent resistance of the transistor 9 is large, the value of 45 hysteresis is small, which increases the relative frequency of regulation. With a large value of the load current, the equivalent resistance of the transistor 9 is small, the hysteresis value 5Q is set by the resistor 8, and the relative regulation frequency decreases.

Resistors 10 and 12 are used to select the operating point of the transistor 9.

Using the proposed technical solution makes it possible to reduce the dependence of the control frequency on the output current of the stabilizer, which makes it possible to optimize the output filter and facilitate the mode of the key transistor, which increases the efficiency and reduces the mass and volume of the device.

ВНИИПИ Order 3703/42 Circulation 874 Subscription

Branch of PPP Patent, Uzhgorod, Project 4,

Claims (2)

PULSE STABILIZER OF DC VOLTAGE by ed. St. No. 717737, characterized in that, in order to reduce the mass and volume by reducing the control frequency range, the indicated connection of the emitter of the transistor with the common bus is made through an auxiliary transistor, and a current sensor is inserted into the common bus between the input and output terminals. Moreover, the emitter · . The auxiliary transistor is connected to the input terminal of the common bus, and its base is connected through the first current-sensing resistor to the output terminal of the common bus and, through the second, second current-sensing resistor, to the connection point of the resistor and the zener diode of the reference voltage source. <2 "30,1019417