SU1062669A1 - D.c. stabilizer - Google Patents

Abstract

A DC VOLTAGE STABILIZER containing two regulating transistors of different conductivity types, two resistors, each of which is connected by one output to a corresponding power supply bus, and two zener diodes, each of which is connected to the corresponding junction point of the base of one and emitter of another transistor, different the fact that, in order to increase the accuracy of current stabilization, it introduced an additional two transistors of different conduction types and two Zener diodes, each of The solder transistors are connected by a collector to the emitter of the main transistor of the same type of conductivity, emitter to a different output of the corresponding resistor, and the base to the connection point of the different electrodes of the main and additional zener diodes, while the other electrode of each of the additional zener diodes is connected to the corresponding power supply Shia stabilizer.

Description

The invention relates to electrical engineering and can be used to stabilize the current in low-current circuits when they are powered from sources with unstable voltage, for example, in telemechanical intensity systems in which the transmitted signal is coded by direct current levels.

Known current stabilizers, containing a regulating transistor, in the circuit of the base of which is included the Zener diode 1.

The disadvantages of such current stabilizers are the low accuracy of current stabilization and the relative complexity of their connection to the circuit, the current of which must be kept constant.

The closest to the technical essence of the invention is a DC regulator containing two regulating transistors nrp and rpn of the type of producibility with resistors in the circuits of emitters 1 two zener diodes, each of which is connected between resistors and a regulator base ; 1 transistors. To compensate for the stability of the current in this device, interconnecting and switching resistors and junction diodes 2J are included in the mitters of the transistors.

However, in this way, it is possible to increase the accuracy of current stabilization only in relatively narrow limits of variation of the feeding voltage with small values of the current being stabilized. With a wide range of variations in the supply voltage and increased values of the current to be stabilized, the stabilization accuracy is low. This is due to the fact that the magnitude of the current to be stabilized and the magnitude of the current to be stabilized (stabilization accuracy) when the supply voltage is changed is determined by the same resistance value of the linear resistors included in the emitter circuits of the control transistors, and the compensating circuit of the parallel-connected resistors ji the diode provides compensation for the change of the stabilized current only in the narrow limits of its change, since the reverse current of the diode with a change in the practically used limits of the applied The voltage applied to it is completely negligible.

The aim of the invention is to increase the accuracy of current stabilization.

The goal is achieved by the fact that the DC stabilizer contains two regulating transistors of different conductivity type, two resistors, each of which is connected to the corresponding power supply with a single terminal, and two zener diodes, each of which is connected to the corresponding base point one and the other emitter transistors, introduced

additional two transistors of different conductivity type and two zener diodes, each of the additional transistors being connected by a collector to the emitter of the main transistor, by an emitter to another output of the corresponding resistor, and the base to the point of connection of different-pole electrodes of the main and additional zener diodes, while the other electrode of each Additional zener diodes connected to the appropriate power supply bus stabilizer.

The drawing shows a circuit diagram of a DC stabilizer.

Resistors 3 and 4 are included in the emitters of control transistors 1 and 2 of different types of reducibility, and between these resistors and bases of transistors 1 and 2 are zener diodes 5 and 6. The collector of each of the additional transistors 7 and 8 is connected to the base of the other transistor, the emitter of each of they are connected to the collector of the regulating transistor of the same type of conductivity. Additional zener diodes 9 and 10 are connected between the bases of the regulating and auxiliary transistors of the same conductivity type.

As the supply voltage fluctuates, the zener diodes 5, 6.9, and 10 maintain the voltage across the bases of transistors 1,2, 7, and 8.

The emitter circuit of transistor 7 is connected in series with the resistor 3 and the nonlinear resistance of the emitter-collector of transistor 1. The emitter circuit of transistor 8 also includes a series of resistor 4 and the non-linear resistance of the emitter-collector of transistor 2. Nonlinear resistance of the emitter-collector of transistors 7 and 8 in the unchanged modes base voltages are characterized by a relatively low static resistance (with: dc resistance) and a very high differential resistance (resistance changes in current). This leads to the fact that when the supply voltage varies over a wide range, the change in the current to be stabilized is quite insignificant. As a result, the current stabilization accuracy is improved.

The differential resistance of modern transistors in this mode of operation is no less than the order of their static resistance. Therefore, the use of this device instead of the known one provides an increase in the Accuracy of current stabilization by at least an order of magnitude. In this case, there is no need to use an additional Compensating circuit consisting of parallel-connected resistors and a diode. Output res

The current stabilizer impulse, determined by the current of the current, also increases dramatically, and as a ratio of the voltage increment it approaches in its power supply characteristics to the stability gain of the current source.

1062669

Claims (1)

A DC stabilizer containing two control transistors of different types of conductivity, two resistors, each of which is connected to the corresponding power supply bus with one terminal, and two zener diodes, each of which is connected to the corresponding connection point of the base of one and the emitter of the other transistors, characterized in that, in order to improve the accuracy of stabilization of the current, it introduced two additional transistors of different types of conductivity and two zener diodes, each of which is supplemented The transistors are connected by a collector to the emitter of the main transistor of the same type of conductivity, the emitter to the other terminal of the corresponding resistor, and the base to the junction point of the opposite-polarity electrodes of the main and additional zener diodes, while the other _{with the} electrode of each of the additional st <g bilitrons is connected to the corresponding stabilizer power supply bus. + t ^- SU „1062669