SU744513A1 - Dc voltage stabilizer - Google Patents

Description

744513

In addition, at least one diode connected to the forward transistor between the emitter of this transistor and the common output of the stabilizer is inserted into the third-transistor equivalent circuit of the third transistor.

The drawing shows a schematic diagram of the device.

The device contains a power source 1 regulating the transistor 2 connected in series between the input and output pins, the equivalent of Zener diode 3, consisting of four resistors 4, 5, b and 7, three transistors 8, 9, 10 and diodes 11, a differential amplifier 12 and divider 13 of voltage T, the middle point of which is connected to one input of differential amplifier 12, the other input of which is connected to the collector of transistor 10 and resistor 7, the second terminal of which is connected to the output of voltage regulator, the base of transistor 10 is connected to by the collector of transistor 9 and through a resistor 5 to the output of the stabilizer, the base and collector of transistor 8 and the base of transistor 9 are also connected to the output through a resistor 4, the emitter of transistor 9 is connected to the common output of the stabilizer through a resistor 6, and through Diodes II series-connected - the emitter of the transistor 10. The inverting output of the differential amplifier 12 is connected to the base of the regulating transistor 2, the emitter of which is connected to the power source 1, and the collector to the output of the stabilizer April voltage.

The device works as follows. When the power supply source I is connected, the control transistor 2 opens slightly: a stabilization voltage is set on the transistor equivalent of Zener diode 3, equal to the sum of the voltage drops on diodes 11, the emitter voltage of the transistor 10 and resistor 5, and the resistance of the latter is chosen so as to ensure zero temperature coefficient of the output voltage of the stabilizer (for a different number of diodes II, this voltage is 1.2 V; 3 V; 4.5 V, etc.). One output of the differential amplifier 12 is supplied with a stable reference voltage from the output of the divider 13. With the indicated connection of the output of the differential amplifier 12 and its second input, it together with the control transistor 2 supports the voltage allocated to the resistor 7, constant MI and equal to the voltage drop on the upper resistor of the divider 13, i.e., the current is maintained through the transistor 10 and diodes 11 and, therefore, the voltage is fixed at yih, which in this case depends only on the temperature and does not block the input voltage voltage and load current of the stabilizer.

In this voltage regulator, Shpstvlv indirectly stabilizes the output voltage, as it processes the current through the transistor 19 and the diodes 11. In this case, the voltage on the transistor equivalent of the Zener diode 3 and the output voltage is stable. .

An increase in the stabilization factor is achieved due to the fact that the current through the transistor 10 and the diodes 11 does not need to be maintained with high accuracy, since high voltage stability on the transistor equivalent of Zener diode 3 is provided while maintaining this current with an inaccuracy of about ± 10%. Consequently, the accuracy requirements of the differential amplifier 12 and the control transistor, CR, are predetermined.

stabilization.

An increase in temperature stability is achieved by fixing the operation mode of the transistor 10 and 1L diodes.

Expansion of functionality (that concludes that

The stabilizer can be used not only as a reference, but also as a linear power stabilizer), due to the fact that all changes in the current through the transistor 10 and diodes 11 caused by changes in the input voltage or output current are processed by the control transistor 2 .

This invention allows for the construction of precision voltage regulators on the basis of a simple scheme.

Claims (2)

1. DC voltage regulator containing regulating transistor connected in series between the output and output pins of the stabilizer, DC amplifier, the output of which is connected to the base of the regulating transistor, and the equivalent of the Zener diode on three transistors, the emitter circuit of the first and third transistors equivalent zener diode connected to a common conclusion 0 stabilizer, the base and the collector of the first transistor are connected to the base of the second transistor, the emitter of which is connected via a resistor to the common output of the stabilizer, and the collector directly to the base of the third transistor, and the collectors of all  Zener equivalent transistors through their own collector resistors are connected to the output of the stabilizer, characterized in that, in order to increase the temperature stability of the output voltage, the input voltage, a divider is inserted into it, the output voltage is made according to a differential circuit, the first the input of which is connected to the output of the output voltage divider, and the second to the collector of the third transistor Zener equivalent. 2. A stabilizer according to claim 1, characterized in that at least one diode included in the emitter circuit of the third transistor is equivalent to the forward direction between the emitter of the M6 transistor and the common voltage of the stabilizer. Sources of information taken into account in the examination . A. Greben. Designing analogue integrated circuits. Per. from English M .. "Energy, 1976, p. 80-82. 2. Express information. “Instruments and elements of automation), 971, J4B 17, p. 17-12