SU693354A1 - Dc voltage stabilizer - Google Patents

Description

(54) CONSTANT VOLTAGE STABILIZER

Claims (1)

The invention relates to electrical radio engineering, namely to power sources, and can be used in power supply systems for automation devices and computing equipment. DC voltage regulators are known, comprising a transformer with input rectifiers, a regulating transistor, and a comparison unit. The closest technical solution to this invention is a DC voltage regulator, containing 1Y connected to the inputs of a power transformer, the conclusions of the first secondary winding of which are connected to the collectors of N + 1 regulating transistors through the corresponding power output are connected in series, and the emitter of the first control transistor is connected to the output terminal, the control unit connected between the output terminals. The aim of the invention is with increased stability and reliability of the stabilizer. The goal is achieved by the fact that a second secondary winding of a power transformer is additionally introduced in a DC voltage regulator, the output of which is connected to a terminal, one of the output terminals of which is connected to one output of a newly introduced source of stable voltage, the other one of which is connected to the output voltage stabilizer, and the other output terminal of the additional rectifier is connected to the common point N of the zener diodes, the other cables of which are connected to the collectors N additionally Transistors, the base-emitter transitions of which are connected in series. The emipera of the first additional transistor is connected to the base of the last control transistor, and the base of the last additional transistor is connected to the OUTPUT of the control unit, the common output of the power rectifier and the community being combined, and between. The output pins of the additional rectifier include a resistor. The drawing shows a circuit diagram of a constant voltage stabilizer. The stabilizer contains a power transformer 1, a power rectifier 2, regulating transistors 3, 4, 5, a control unit 6, an additional rectifier 7, a source 8 of stable voltage, zener diodes 9 and 10, transistors 11 and 12, a resistor 13. The stabilizer works as follows in a way. At the maximum voltage at the input of the stabilizer, the collector of transistor 3 has a voltage with a working polarity. This transistor conducts a power current. Transistors 4 and 5 have a slightly higher voltage on the collector and operate at this time as matching. The output voltage of the high voltage 7 in this mode is also maximum, while this voltage on the Zener diodes 9, 10 is less than their voltage stabilization. Transistors 11 and 12V in this mode pass the output current of the control unit b to the base of transistor 5 their emitter junctions without amplification. When the voltage at the stabilizer input decreases, the voltage across the collector of transistor 3 decreases, after which the function of adjusting the power current goes to transistor 4. The power current flows through the emitter junction of transistor 3. At the same time, the output voltage of the rectifier 7, the voltage at the zener diode 9 it reaches the value of the stabilization voltage, the voltage appears on the collector of the transistor 11 and it starts to operate in the amplification mode. Simultaneity of turning off the active operation of transistor 3 and turning on transistor 11 is achieved by selecting the values of the voltage of the SRI of the source of the rectifier 7 and the zener diode 9. With a further decrease in the input voltage of the stabilizer, the regulator becomes the transistor 5 and at the same time the voltage on the collector of the transistor 12 appears. The load current varies simultaneously. The switchings in the groups of transistors 3, 4, 5, and I, 12 will be maintained under the condition of a good inductive connection of the windings that feed the voltages 2 and 7. The Zener diode 9 is selected with a lower stabilization voltage than the Zener diode 10, and the source voltage 8 is selected greater than that of the chip 7. Thus, out of five available transistors in any mode of operation of the stabilizer. Three transistors operate in the amplification mode of the current, which causes a constant gain of the controller and the entire control loop as a whole. This coefficient can be chosen large enough to produce a small instability, but not so large that unstable operation (self-oscillation) occurs, which would reduce reliability. In the prototype, the gain factor depending on the operation mode (on which of the transistors regulates), even with three control transistors, varies by several orders of magnitude. The proposed stabilizer has good efficiency, since. There are only a third of the input voltage variation range in the conductive control transistor. The efficiency of the proposed device is higher than that of the prototype, since AsHeo Shaw, without prejudice to use a larger number of control transistors. The stabilizer has good characteristics especially at output voltages of 50-220 V. DETAILED DESCRIPTION A dc voltage regulator containing a power transformer connected to the input terminals, the first secondary winding of which is connected to the N + 1 collectors through the corresponding output winding (where , 2, 3 ...) regulating transistors, base-zmitter transitions. which are connected in series, and the emitter of the first regulating transistor is connected to the output video circuit, a control unit connected between the output pins, characterized in that, in order to evaluate the voltage stability in the entire input voltage variation range and reliability, a second secondary winding is additionally introduced a transformer, to the output of which a rectifier is connected, one of the VSD terminals of which is connected to one output of a newly introduced source of stable voltage, the other the output of which is connected to the output of the stabilizer, while the other one is connected to the common point N of the zener diodes, the other terminals of which are connected to the collectors N of additionally inserted transistors, the basesmitter transitions of which are connected in series, the emitter of the first additional transistor is connected to the base of the last control transistor, and the base of the last additional transistor is connected to the output of the control unit, with the total output of the power rectifier and the common bus are connected, and a resistor is switched on between the outputs of the additional terminal. 04o -