SU407295A1 - DC STABILIZER - Google Patents

Description

one

The known DC stabilizer, containing a series regulating element consisting of two transistors of different conductivity types connected in series with each other by emitters, a measuring resistor, a comparison circuit, a reference voltage source and a DC amplifier with an output parallel-balanced stage, is not sufficiently high reliability

This is due to the fact that when the supply voltage changes, the first transistor of the regulating element is subjected to overloading and voltage, and when the load resistance changes, the second transistor of the regulating element, i.e., redistribution of voltage and power between them does not occur.

In order to eliminate this drawback, the base of each of the transistors of the regulating element is connected through a resistor to the output electrode of this element.

The scheme of the proposed device shown in the drawing.

DC stabilizer contains: load 1, measuring resistor 2, regulating element 3, first transistor of regulating element 4, second transistor of regulating element 5, output parallel-balanced stage of amplifier 6, additional resistors 7, 8, Zener diode 9, comparison circuit 10, reference voltage source, DC amplifier 12.

The stabilizer works as follows.

When the load resistance changes, for example, when it decreases, the feedback signal, amplified by the DC amplifier, locks the transistors 4 and 5 of the regulating element 3, while the load current remains unchanged. As the voltage drop across the transistor 5 increases, the voltage drop across the resistors 7 and 8 increases and, consequently, the currents through the transistors of the output stage 6 of the DC amplifier increase. This process leads to an increase in the voltage drop across the collector resistances of the transistors of the output stage 6 and, consequently, the voltage drops across the resistors 7 and 8 and on the transistor 5 of the regulating element 3. As a result, a part of the voltage and power will be allocated to transistor 4 regulating element. Thus, as the load resistance changes, the voltage and power are redistributed between the transistors 4 and 5 of the control element. Depending on the type of transistors used and their permissible parameters, by changing the values of resistors 7 and 8, one can obtain a redistribution of voltage and power between the transistors in the required ratio, which will prevent them from failing and, as a result, increase the reliability of the device as a whole.

By introducing Zener diode 9 into the circuit, it can be achieved that until the voltage on it reaches the breakdown voltage, the current through the resistors 7 and 8 will not flow. This makes it possible to reduce the voltage value of the power supply of the DC amplifier, reduce the losses in this amplifier and, consequently, increase the reliability of the device as a whole. During the breakdown of the Zener 9, which can only happen with an increase in the voltage across the regulating element, current will flow through the resistors 7 and 8, and the voltage drop between the transistors will regulate and its element will be redistributed.

Subject invention

A dc stabilizer, a current containing a series regulating element consisting of two transistors of different types of conductivity interconnected by emitters, a measuring resistor, a comparison circuit, a voltage source, a DC amplifier with an output parallel-balanced stage, characterized in that In order to increase reliability, the base of each of the transistors of the regulating element is connected through a resistor to the output electrode of this element.