SU645144A1 - Dc voltage stabilizer - Google Patents

Description

resistor 7, and in another - tokostabiliziruyuschy cascade 8 on the transistor 9 and zener diodes 10.

The voltage stabilizer operates as follows.

If the stabilized voltage is incremented by a change in the load or the input voltage, this increment is transmitted through the zener diode 5 to the input of the amplifier 2 (the base of transistor 4). In this case, a constant voltage is applied to the second input of the amplifier 2, which is determined only by the constant current of the current-stabilizing stage 8, i.e. the second input (unlike the prototype) is not incremented.

The increment amplified by amplifier 2 changes the resistance of transistor 1 to the appropriate side. Since the differential resistance of Zener diode 5 is insignificant (much less than the resistance of resistor 6), the increment is fed to the input of amplifier 2 almost unaffected. Thus, the stabilization factor of the described stabilizer is proportional only to the gain of the amplifier 2.

Since the current stabilizing stage 8 is connected to the input of the stabilizer, this makes it possible to reduce the current through the transistor 1 and thereby unload it and increase the efficiency of the device as a whole. This is especially noticeable with low-current load.

As the temperature changes, the current of the base of transistor 4 and amplifier 2 will change due to the TKN of the Zener diode 5.

Since Zener diodes 10 have a TKP that is opposite in sign to the TKN of Zener diode 5, the current of the cascade 8 and, consequently, the base current of transistor 3 of amplifier 2 change in the same direction as the base current of transistor 4.

Thus, the stabilized voltage remains unchanged. Typically, in this type of schemes, for temperature stabilization, counter-switching of the zener diodes in the source of the reference voltage is used, which increases its differential resistance and reduces the overall stability. Inclusion of zener diodes 10

in this scheme allows to eliminate this drawback.

The current stabilizing stage 8 can also be connected to the output terminal of the control transistor 1, the stabilization factor will still be determined only by the gain of the amplifier, but the efficiency of the stabilizer will be lower.

Claims (3)

1. A constant-voltage stabilizer containing a control transistor and a reverse link circuit included in one of the power lines, consisting of a DC amplifier, the output of which is connected to the base of the control transistor, and one of the inputs is connected to a voltage divider. , and a reference voltage source on a Zener diode connected between another input of a DC amplifier and a high-voltage power clamp of a control transistor, characterized in that, in order to increase the stabilization factor, a current stabilizer is inserted into it A cascade included in one of the arms of said voltage divider between the first input of the DC amplifier and one of the power terminals of the control transistor. 2. Stabilizer of clause 1, characterized in that the current-stabilizing stage is connected to the input power terminal of the regulating tracer. 3. The stabilizer according to claim 1, distinguished by the fact that, in order to increase efficiency, the current stabilizing cascade is connected between the first input of the DC amplifier to the output power terminal of the control transistor. Sources of information taken into account in the examination 1. Power supplies on semiconductor devices. Ed. Dodika S. D. and Halperin E. I., M., “Soviet Radio, 1969, p. 102, fig. P1, 56. 2. Stepanenko I.P. Fundamentals of the theory of transistors and transistor circuits. M., “Energie, 1967, p. 590, fig. 23-17. Ubx