SU497569A1 - Voltage regulator with overload protection and short circuit - Google Patents

Description

the control transistor 1 circuit and the target value of the output voltage is restored. As the load current increases, the voltage drop across resistors 12, 13 increases. This voltage is transmitted through resistors 14, 15, 10 to the base circuits of transistors 6 and 3, closing them and reducing their shunting effect and opening transistors 5, 4, 2, 1 . With a further increase in the load current, the output voltage becomes constant until the voltage on the collector of transistor 2 becomes close to the output voltage of the stabilizer, after which the voltage at the output of the stabilizer begins to decrease, since transistors 2 and 4 are close to condition on yscheni.

Decreasing the output voltage causes a sharp drop in current through Zener diode 7, transistor 5 opens, but due to the presence of resistor 9 opens transistor 6, shunt the base value of transistor 2 and closes transistor 5, preventing the load current from increasing. With a further decrease in the load resistance, the stabilizer goes to the second stable closed state, since the output (incident) voltage is transferred to the base circuit of transistor 5, transistor 6 opens and diode 11 is blocked by negative voltage on the anode supplied through resistors 12-15 . In the short circuit mode, transistor 5 is locked with a positive voltage at the base and negative at the emitter, and transistor 4 is with a voltage drop across resistor 12, transistors 2 and 1 are also locked, and transistors 6 and 3 are open. In addition, when the stabilizer operates in normal mode, the output voltage fluctuation transmitted through resistors 12, 13, 14, 15, 10 to the base of transistor 3 and to the input of the comparison stage is transmitted to the base of the control transistor in opposite phase, contributing to an increase in the stabilization factor.

Thus, connecting collectors of transistors 5 and 6 of the comparison cascade to the base and collector of transistor 4 (and the base of transistor 2) of the feedback amplifier provides a large control range of load currents and a high gain factor, and the applied method of supplying voltage to the comparison circuit input proportional to the input voltage, output voltage, and load current, allows to obtain the required stabilization factor and a very small (zero) output resistance, as well as to protect the stabilizer from short circuits. A good temperature stability of the stabilizer is achieved by the use of a differential comparison stage,

and also by means of a diode 11, which compensates for the temperature drift of the source of the reference voltage with a positive TKN. If it is necessary to adjust the output voltage, the resistor 8 may be replaced by a pn-type transistor. In this case, the collector of the transistor is connected to the source of the reference voltage, the base is connected to the anode, and the emitter is connected to the cathode of the output voltage divider diode. When using a temperature-compensated reference voltage source, diode 11 can be excluded. In both cases, the form of the stabilizer load characteristic varies slightly.

The subject invented and

Claims (2)

1. Voltage regulator with overload and short circuit protection, containing a main regulating transistor connected by a base to the midpoint of two series-connected auxiliary transistors of the same type of conductivity as the regulating transistor, a resistive divider connected to the input bus of the stabilizer with the collector of the first auxiliary transistor and the emitter of the third auxiliary transistor of the opposite conductivity type, and the differential amplifier stage, one input cat connected to a voltage source, and the other to an output voltage divider, a reference voltage source, characterized in that, in order to increase temperature stability and stabilization factor, decrease output resistance and implement self-protection against overloads and short-circuits, a resistive divider connected to the base of the second auxiliary transistor and to one of the electrodes of the diode connected between the resistors of the output voltage divider in the conductive direction, this other electrical One diode is connected through resistors to the output of a stabilizer, a voltage source and the base of the transistor of the differential amplifier cascade, the collector of one arm of which is connected to the base, and the collector of the other to the collector of the auxiliary transistor of the opposite conductivity type. 2. The stabilizer in accordance with claim 1, wherein, in order to reduce the effect of the internal resistance of the rectifier on the output resistance of the stabilizer, the collector of the first auxiliary transistor is connected to the emitter of the third auxiliary transistor of the opposite type of conductivity adjustable resistor.