SU467337A1 - Voltage stabilizer - Google Patents

Description

one

The invention relates to the field of electrical engineering and can be used to power various electronic circuits that are voltage stabilized.

Voltage regulators are known, the regulating element on the composite transistor, the feedback voltage amplifier, the reference source, the output voltage divider, the resistor load current sensor, and the element of positive current feedback are known. The disadvantage of such stabilizers is a big you: the impedance, which is reduced by using a complex multi-stage feedback amplifier or introducing positive feedback, which is associated with additional energy losses, complicates and increases the cost of the stabilizer, and also makes it difficult adjustment and adjustment.

To reduce the output resistance in the proposed stabilizer, the current feedback element is made on a transistor, the emitter of which is connected to the collector of the output transistor regulating its element and one end of the resistor load current sensor, the base is connected to the collector matching its transistor regulating its element and the other end resistor sensor, and the collector is regulated with the base of the output transistor, its element and resistor, the second end of which is connected to the busbar, to it by the stabilizer bus.

In the drawing, a basic scheme of the described stabilizer is given. The stabilizer consists of a matching 1 and 2 output transistors, a current feedback transistor 3, a load current resistor sensor 4, a negative feedback resistor 5, a feedback amplifier load resistor 6, a feedback transistor load 7, a feedback amplifier 8 zi and divider 9 output voltage.

The base current of the output transistor 2 of the regulating element consists of the emitter current of the matching transistor 1 and part of the collector current of the current feedback transistor 3. As the load current increases, the voltage drop across the resistor sensor 4 increases, which leads to an increase in the collector current of transistor 3 and, therefore, of the base current of output transistor 2. Transistor 2 opens.

In the known stabilizer circuits, the value of the resistor 6 is chosen based on the condition of providing the required base current of the regulating transistor and the collector current of the output stage. At the same time, to ensure a high stabilization factor and a low output resistance, the base current of the control transistor must be 5-10 times less than the collector current of the output stage of the feedback amplifier. Thus, in known circuits, the value of the resistor 6 is determined by the expression L / RX C / OUT (5-10) / b where f / Bx is the input voltage stabilization output is the output voltage of the stabilizer; (b) is the base current of the output transistor 2. This leads to the fact that in practice it is necessary to choose a resistor with a small resistance value (several hundred ohms). In the proposed stabilizer circuit, a portion of the base current of the output transistor 2 is provided by the flow of the collector current of the transistor 3 current feedback. Therefore, the base current of the output transistor is substantially less than in the known circuits. This makes it possible to choose a resistor 6 of greater resistance, which significantly increases the gain of the feedback amplifier, and therefore improves all the parameters of the stabilizer. The presence in the stabilizer circuit of a negative feedback resistor 5 and a current feedback transistor load resistor 7 makes it possible to easily adjust the depth of the current positive feedback. This facilitates the adjustment of the stabilizer and provides the desired value of the output impedance. The subject of the invention is a voltage stabilizer containing a regulating element on a composite transistor, a feedback voltage amplifier, a voltage source, an output voltage divider, a resistor load current sensor, and a positive current feedback element characterized in that In order to reduce the output resistance of the stabilizer, the current feedback element is made on a transistor, the emitter of which is connected to the collector of the output transistor of the regulating element and one end of the resistor About the load current sensor, the base is connected to the collector of the coordinating transistor of the regulating element and the other end of the resistor sensor, and the collector is connected to the base of the output transistor of the regulating element and a resistor, the second end of which is connected to the common stabilizer bar.

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