SU1121661A1 - Voltage stabilezer of compensation type - Google Patents

Abstract

A COMPENSATION TYPE VOLTAGE STABILIZER containing a control element included in one of the power buses, a feedback measuring and amplifying unit made on the basis of an integrated operational amplifier, connected to the output terminal with respect to the common width, and starting a diode, characterized by In order to improve the stability of the output voltage while ensuring a reliable start-up, a source of starting voltage is introduced into it, made on a resistor and a zener diode and connected relatively a common bus to the input terminal, a cut-off diode connected in opposite with the triggering diode, and this circuit is connected between the outputs of the specified starting voltage source and the integrated operational amplifier, while the common connection point of these diodes is connected to the control input i of the regulating element, and the power supply circuit of the integrated operational amplifier is connected to an inputted additional power source connected with respect to the output output.

Description

The invention relates to electrical engineering, in particular to voltage compensating type stabilizers. A compensating type voltage regulator is known, which contains a series-connected regulating element, a divider connected in parallel to the output terminals, and a reference voltage source, the midpoints of which are respectively connected to the signal inputs of the amplifier and the starting voltage source l} A disadvantage of the known stabilizer is that in it, due to the constant connection of the base of the regulating element with the input, the instability of the output voltage of the stabilizer increases. ts when the input voltage. In addition, the power supply needs abrupt switching on of the power in order to transfer the necessary pulse current to the base of the regulating element or to the amplifier input, and the stabilizer is started only during the existence of a voltage pulse during power supply, while the starting process, amplitude and steepness of the front The impulses can vary widely, depending on the inductance of the conductors, the resistance and the nature of the load. This leads to the appearance of failures during the start-up of the stabilizer and reduces the reliability of its operation. . Also known is a compensating type voltage regulator, containing a serial regulating element, a measuring and amplifying feedback unit made on the basis of an integrated operational amplifier, connected by an input relative to the common bus to the output terminal and triggering the f2J diode. The known stabilizer does not provide the necessary stability of the output voltage, since it has a starting diode, a disconnecting starting voltage after the stabilizer goes to normal operation, has a reverse current, which, given the high gain of the amplifier and the connection of the indicated diode to its input This leads to an increase in the instability of the output voltage of the stabilizer. In addition, in this stabilizer it is undesirable if the amplifier (microcircuit) is powered from the output of the main stabilizer. In this variant of the stabilizer start-up, the input signal to the microcircuit comes before the voltage of its power supply, as a result of which it operates in a dangerous mode, which can lead to a malfunction, and the stabilizer start-up is also not ensured. The purpose of the invention is to increase the stability of the output voltage to ensure a reliable start. .. The goal is achieved by the fact that a compensating type of voltage regulator containing a regulating element included in one of the power busses is a measuring feedback amplifier, produced on the basis of an integrated operational amplifier, connected by an input relatively common to the output terminal, and a triggering diode, A start-up voltage source, made on a resistor and a zener diode and connected to a common pin to the input terminal, a cut-off diode, connected in turn with the triggering switch iodine, and this circuit is connected between the outputs of the specified starting voltage source and the integrated operational amplifier, while the common connection point of these diodes is connected to the control input of the regulating element, and the power supply circuit of the integrated operational amplifier is connected to the input of an additional power source connected relatively high output. The drawing shows the principal electrical circuit of the proposed compensating type voltage regulator. The device contains a regulating element 1, measuring and amplifying node 2 feedback, made on the basis of the integrated operational amplifier 3, the supply terminals of which are connected to an additional source 4, the source 5 of the starting voltage, made on the resistor 6 and the Zener diode 7, the starting diode 8 and cut off diode 9. The device operates as follows. In the stabilization mode, the stabilizer works like a normal compensator-type stabilizer, while the diode 8 is locked and destabilizing

3

the effect of its reverse current is negligible.

When starting the stabilizer, the starting circuit including the starting voltage source 5 and the diode 8 locks the diode 9 and unlocks the regulating element 1, excluding the locking effect on it from the feedback side, which is a consequence of the absence of the reference voltage in node 2 as a result of the absence output voltage stabilizer.

When power is applied to the input terminals 1, the zener diode 7 of the starting voltage source 5 is set to a voltage whose value is determined by the type of the zener diode. Under the action of this voltage, the regulating eleleite 1 is unlocked, and the output voltage increases. This process is picked up by the feedback loops, the output voltage is increased to the nominal value. In this case, the source of the starting voltages is disconnected from the stabilizing circuits. The shipping process continues until the beginning of the sample of the reference Zener diode 2 | then pro6614

The process of increasing the output voltage of the stabilizer slows down, and if the voltages are equal on the signal inputs of the amplifier 3, the stabilization mode begins.

Due to the fact that in the device the starting effect on the stabilizer is fed into a circuit not connected directly

with a stabilizer load, and there is always when there is an input voltage in the absence of an output voltage of the stabilizer, the reliability of the start does not depend on the duration of the start-up mode, nor on the amperage and the steepness of the rise voltage of the input voltage when the stabilizer is turned on load.

This causes the reliability of the start-up and is better, in comparison with it, 11 1LBM devices, reliability. Robust. In start stabilizer: the circuit is not connected to sensitive

; by the inputs of the stabilizer circuits, then, being in the disconnected state in the stabilization mode, it is equal to the stability of the output voltage.

Claims (1)

COMPENSATION VOLTAGE STABILIZER, comprising a control element included in one of the power buses, a feedback measuring amplifier, based on an integrated operational amplifier, connected by an input relative to the common bus to the output terminal, and a starting diode, which In order to increase the stability of the output voltage while ensuring trouble-free starting, a starting voltage source is introduced into it, made on a resistor and a zener diode and connected to a common bus to the input terminal, a cut-off diode connected in opposite to the starting diode, and this circuit is connected between the outputs of the specified starting voltage source and the integrated operational amplifier, while the common connection point of these diodes is connected to the control input of the regulating element, and the integrated circuit the operational amplifier is connected to the introduced additional power source, included relative to the output terminal. > 1 1121661