SU1597870A1 - D.c.stabilizer - Google Patents

Abstract

The invention relates to electrical engineering and can be used in secondary sources of electrical power for electronic equipment. The goal is to increase the temperature stability of the output current. The stabilizer comprises a control transistor 1, a main operational amplifier 2, a measuring resistor 3, a source 5 of the reference voltage. To eliminate the effect of the voltage change of the base-emitter of transistor 1 on the output current associated with the temperature change of transistor 1, a compensating node 6 consisting of an operational amplifier 7 and four resistors 8,11 is inserted into the device. Node 6 converts the base-emitter voltage of transistor 1 to the auxiliary control current of transistor 1. 1 sludge.

Description

The invention relates to electrical engineering and can be used in secondary sources of electrical power for electronic equipment.

The aim of the invention is to increase the temperature stability of the output current.

The drawing shows a circuit diagram of a DC stabilizer.

A stabilizer Sotaramt regulating transistor 1, connected by a collector to the output terminal for connecting the load, an emitter to the inverting input of the main operational amplifier 2, with the first output of the measuring resistor 3, with a common output of the auxiliary two-pole power source 4 of the operational amplifiers. The non-inverting input of amplifier 2 is connected via a voltage source 5 to a second terminal of a resistor 3 and to an input terminal for connecting a main power source. Node 6 compensation consists of an auxiliary operational amplifier 7, the first 8, the second 9, the third 10 and the fourth 11 resistors. Moreover, the inverting input of the amplifier 7 is connected to the base of transistor 1 through a resistor 8, to the output of amplifier 7 through a resistor 9, the non-inverting input of amplifier 7 is connected to the output of amplifier 2 through a resistor 10, to the output of amplifier 7 through a resistor 11 . The power pins of amplifier 7 are connected to source 4 (not shown).

The stabilizer works as follows.

The voltage difference between the voltage source 5 and the voltage taken from the measuring resistor 3, due to the flow of load current through it, is extracted by the amplifier 2, amplified by it and supplied through the resistor 10 on the input current of the transistor 1, which is set to this mode, which ensures the maintenance of the load current at a given level with a given accuracy. When the base-emitter voltage of the transistor 1 changes, mainly due to the change in the temperature of the transistor 1, the voltage at the output of the amplifier 7 changes

to the input of transistor 1 through resistor 11. As a result, the mode of amplifier 2 remains almost unchanged, and

the output current of the device remains unchanged. With a pairwise equality of the resistances of the resistors 8-11, i.e. The output current is insensitive to variations in the base-emitter voltage of the control transistor.

Thus, the proposed DC regulator has a higher temperature stability of the output current compared to limestone by eliminating the effect of changes in the base-emitter voltage of the control transistor.

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A DC stabilizer containing a control transistor connected by a collector to an output terminal for connecting the load, an emitter to the inverting input of the main operational amplifier, to the middle output of the auxiliary two-pole power supply of the operational amplifier, and to the first output of the measuring resistor, the second output of which connected to an input terminal for connecting the main power source and to the first terminal of a voltage source, the second terminal of which is connected to a non-inverter a primary input of the main operational amplifier, characterized in that, in order to increase the temperature stability of the output current, a compensating node consisting of an auxiliary operational amplifier and four resistors is inserted into it, the inverting input of the auxiliary operational amplifier being connected to the emitter of the control transistor through the first resistor | with the output of its amplifier through the second resistor, the non-inverting input of the auxiliary operational amplifier is connected to the base of the regulating transistor the resistor directly, with the output of the main operational amplifier through the third resistor, with the output of its amplifier through the fourth resistor, and the power supply of the auxiliary and main operational amplifiers are combined.

Claims (1)

Claim A dc stabilizer containing a regulating transistor connected by a collector to an output terminal for connecting a load, by an emitter to an inverting input of a main operational amplifier, to an average output of an auxiliary bipolar power source of an operational amplifier, and to a first output of a measuring resistor, the second output of which is connected to an input terminal to connect the main power source and the first output of the reference voltage source, the second output of which is connected to non-inverting the input of the main operational amplifier, characterized in that, in order to increase the temperature stability of the output current, a compensating node is inserted into it consisting of an auxiliary operational amplifier and four resistors, the inverting input of the auxiliary operational amplifier being connected to the emitter of the control transistor through the first resistor | , with the output of its amplifier through the second resistor, the non-inverting input of the auxiliary operational amplifier is connected to the base of the control transistor not mediocrely, with the output of the main operational amplifier through the third resistor, with the output of its amplifier through the fourth resistor, and the power supply terminals of the auxiliary and main operational amplifiers are combined.