SU565291A1 - Direct current stabilizer - Google Patents

Description

the voltage across the resistor 7 and the reference resistor 8, and the emitter - with a voltage source on the limiting resistor 9, the zener diodes 10 and the commutating diodes 11. The base resistors 12, 13 are connected to the base circuit of the main transistor 1 and the matching transistor 2.

The stabilizer works as follows.

The load current is gn from the L / i source through the load resistor 4 and the main control transistor 1 is supplied to the voltage divider across resistors 7, 8. A small part of the current is through the circuits of transistor 2 with resistors 13, 8 of transistor 1 with resistors 12, 8, transistors 3 4, zener diodes 10, and compensating diodes 11, as well as the current supplying a chain of zener diodes and compensating diodes through a resistor 9, are not supplied to divider 7, 8. However, the currents of the base circuits of the transistors 1, 2 pass through the reference resistor 8 and their changes along the feedback circuit in the load are eliminated, and the collector current of the transistor 5 and the base circuit of transistor 3 by the current stabilizer 6 is stabilized. Regarding the current flowing through the resistor 9 and a chip of zener diodes, then, considering this chain stable in time and the resistance of the resistors 7, 8, 9 also stable, we have the current flowing through the resistor 9 also stable.

The current passing through the resistor 8 causes a voltage across it (voltage drop equal to the reference voltage removed from the Zener diode JO and II.

If the current through the load resistor increases, the current through the reference resistor 8 will also increase, and the voltage across the terminals of this resistor will increase. This increase in negative voltage will cause a decrease in negative potential at the base of transistor 3, and therefore at the bases of tanzistors 2 and 1, and currents through their bases. The control transistor 1 is sub-standard and will restore the original

(specified) current through the resistor 8 and through the load resistor 4.

If the current through resistor 4 decreases, the current through resistor 8 decreases. As a result, control transistor 1 will open more and restore the original (specified) current through resistors 8, 4.

Thus, the maintenance of the load current of a predetermined magnitude is carried out.

Since, by reference to f / i, the base of transistor 2 is under a greater negative potential than that of transistor 1, it is possible to connect resistor 13 in series with resistor 12.

Then the base resistor of transistor 2 will consist of resistors 12, 13.

Claims (2)

1. A DC stabilizer containing an integral control transistor, consisting of a main and / at least one matching transistor and connected in series with output and supply terminals, and a base resistor, connected to the base of the main trampistor, the base of the matching transistor is connected to the output of the DC amplifier, one of the inputs of which is connected to the reference resistor, and the other to a reference voltage source, characterized in that, in order to increase the accuracy of current stabilization, the base resistor is connected to the amplifier input connected to the reference resistor with its second end. 2. The stabilizer according to claim 1, characterized in that it includes at least one additional matching transistor connected between the first matching and main transistors, and the base of the additional matching transistor is connected via an additional base resistor to the input of the amplifier resistor. y y- yg j / j I