SU1138794A1 - Reference voltage source - Google Patents

Abstract

SOURCE OF SUPPORT VOLTAGE, containing two operational amplifiers, the outputs of which are connected to the supply terminals of the measuring bridge, consisting of two Zener diodes and two resistors, characterized in that, in order to increase the stabilization factor of the output voltage, a third resistor and a third Zener diode are introduced into it, moreover, the anode of the third Zener diode is connected to the inverting input of the second amplifier and the second output of the first resistor, and the cathode to the inverting input of the first amplifier and the second output of the second resis ora, the first terminal of the third resistor is connected to the non-inverting input of the second amplifier and the cathode pervogo.stabilitrona and the second output - with an input neinvertir5poschim pers Vågå amplifier and the anode of the second hundred bilitrona and output terminals SOURCE (A nick connected to one of the Zener diodes.

Description

f The invention relates to electrical engineering, measurement technology, electronics, and can be used as exemplary and operating measures of DC voltage. The reference voltage source is known, which contains a preliminary voltage regulator with a serial control element, a differential amplifier and a voltage divider, and a terminal parametric voltage regulator consisting of stabilizers, ballast and summing resistors 1J. This source has a low coefficient of stabilization of the output voltage due to the fact that the feedback applied to it does not ensure the stability of the current through the terminal parametric stabilizer. The closest technical solution to the invention is a reference voltage source containing a bridge with zener diodes in two opposite arms and resistors in two other arms, two operational amplifiers, inverting the inputs of which are connected to the diagonal bridge, and a control voltage is connected to the combined non-inverting input. ., the disadvantage of this scheme should be attributed to the low stability of the output voltage and its stabilization coefficients, which is due to the lack of interconnection between the currents and through zener voltage, neither E on them. The purpose of the invention is to increase the output voltage stabilization factor. This goal is achieved by the fact that a third resistor and a third zener diode are connected to a voltage source, containing two operational amplifiers, outputs that are connected to the supply terminals of a measuring bridge, which consists of two Zener diodes and two resistors, and the anode of the third Zener diode is connected to the inverting input of the second the amplifier and the second output of the first resistor, and the cathode - with the synchronizing input of the first amplifier and the second output of the first amplifier and the second output of the second resistor, the first 94 output of the third resis torus is connected to the non-inverting input of the second ycnf detector and the cathode of the first Zener diode, and the second output to the non-inverting input of the first amplifier and the anode of the second Zener diode, and the output terminals of the source are connected to one of the zener diodes. The drawing shows a schematic diagram of a voltage source. The source contains operational amplifiers 1 and 2, zener diodes 3-5, resistors 6-8. The output of amplifier 1 is connected to the anode of the Zener diode 3 and the first output of the resistor 7, the output of the amplifier 2 with the cathode of the Zener diode 5 and the second output of the resistor 8, the inverting input of the amplifier 1 is connected to the cathode of the Zener diode A and the first output of the resistor 8, the winding input of the amplifier 2 is connected to the anode of the Zener diode 4 and the second output of the resistor 7 non-inverting input of amplifier 1 is connected to the anode of Zener diode 5 and the second output of resistor 6, the non-inverting input of amplifier 2 is connected to the cathode of Zener diode 3 and the first output of resistor 6, the slave device It is as follows. In view of the practical equality of the potentials of the inverting and non-inverting inputs, the operating amplifiers of the voltage on the resistors 7 and 8 are equal respectively to the voltages of Zener diodes 3 and 5 and are stable. As a result, the currents flowing through the resistors 7 and 8, which are equal to each other due to the effect of cross-coupling, are also stable. Thus, Zener diode 4 is supplied with a stable current of resistors 7 and 8. The stable voltage of Zener diode 4 determines the stable current of resistor 6 flowing through Zener diodes 3 and 5.. Each of the zener diodes 3-5 with the stability of its voltage determines the stability of the currents over the same, i.e. The circuit turns out to be a system of ring stabilization of currents and voltages. The coefficient of stabilization of voltages falling on zener diodes is determined in such a scheme by the product of its own coefficients.

amplification of the operational amplifiers and the average dynamic conductivity of the zener diodes and several orders of magnitude higher than the stabilization factor of the known device, determining the gain factor of an extra single operational amplifier operating in this (positive or negative) conversion channel.

The correctness of the polarity of the installation of the output voltages of the amplifiers at the time of switching on the source is also ensured by the action of cross-links. If the output voltage of the amplifiers 1 becomes positive, and the amplifier 2 becomes negative, then a small (0.5-0.7 V) voltage drops on Zener diodes 3-5, as a result of which the potential difference of the inverting inputs of the amplifiers leads to a circuit transition to the correct state, namely, at the output of the amplifier 1 - a negative voltage relative to zero potential, at the output of the amplifier 2 - positive. By zero potential is meant the potential of the midpoint of a two-pole power source of operational amplifiers (not shown).

Thus, the device is a highly stable source of direct current voltage, the stabilization coefficient of which is significantly higher than that of the known similar sources.

In comparison with the known similar device, the proposed reference voltage source has a high stabilization factor and output voltage stability (more than three orders of magnitude) and can be used not only as a source of highly stable reference voltage in stabilizers, but also as a highly stable power supply for measuring circuits. For example, for powering strain gauge bridges, thermoresistive bridges, which have found wide application in converters of physical quantities into an electrical signal.

Claims (1)

A reference voltage source, containing two operational amplifiers, the outputs of which are connected to the supply terminals of a measuring bridge, consisting of two zener diodes and two resistors, characterized in that, in order to increase the stabilization coefficient of the output voltage, a third resistor and a third zener diode are introduced into it, moreover, the anode of the third zener diode is connected to the inverting input of the second amplifier and the second output of the first resistor, and the cathode with the inverting input of the first amplifier and the second output of the second resistor, p rvy terminal of the third resistor is connected to _# non-inverting input of the second amplifier and the cathode pervogo.stabilitrona, and a second terminal - a non-inverting input of the first amplifier and the anode of the second sta- £ bilitrona, and output terminals of the source connected to one of the Zener diodes. SU,. „1138794