SU47748A1 - Auto potentiometer - Google Patents

Description

Nowadays, potentiometers with automatic compensation of the measured voltage are increasingly used in measurement technology. In some of them, an electron lamp is used, which is used as a variable resistance. A change in the resistance of a lamp is achieved by including a photocell in its grid, illuminated from a galvanometer's mirror, and a voltage drop on some constant resistance included in the anode circuit is used to compensate for the measured voltage.

However, it would be more accurate to call such devices semi-potentiometers, as it can be seen from FIG. 1, some current is still consumed in the measured circuit MjV. To reduce this uncompensated current, it usually tends to make the angle of rotation of the galvanometer’s mirror as small as possible, for example, 0.5-1 °. The latter is again inconvenient because, when the potentiometer is working, even slight oscillations of the movable part of the galvanometer Gr due to device damage cause large deviations of the instrument tA. These flaws would be

eliminated if it was possible to destroy the uncompensated moment of the galvanometer, to obtain a completely momentless galvanometer and at the same time to allow a significant deflection angle of its moving part. Mechanically, this task is unsolvable, since the use of a galvanometer on cores with momentless current leads due to friction in cores is unacceptable, galvanometers on stretch constructions always have a significant opposing moment (about 2 MzlcM 90 °), and suspended galvanometers possessing the small opposing moment is not applied due to operational inconveniences.

The purpose of this proposal is to implement a potentiometer without the consumption of current from the measured voltage. The proposed device makes it possible to compensate for the counterpoint moment of the galvanometer that occurs when it deviates from zero. For this, the device is supplied with a galvanometer with an additional current, which is either a part of the current passing through the photocell or a part of the anode current

lamps. Since these currents, as well as the counterpoint moment of the galvanometer, are approximately proportional to the angle of deflection of the latter, compensation of the counterpoint moment takes place in all areas of the scale.

Various embodiments of the device are shown in FIG. 2, 3 and 4.

In the first of them (Fig. 2), the movable part of the galvanometer is equipped with two windings L and the winding is connected to the circuit of the measured voltage, and the winding is the circuit of the photocell parallel to the resistance R. When the galvanometer deflects, the light beam reflected from the galvanometer mirror will fall on the photocell. At the same time, the resistance of the photocell will fall and a current will flow through it, a part of which will branch off into the winding / S., And will cause a torque that is opposite to the stretching moment. Selection of resistances R and it is possible to achieve that in magnitude these moments were equal and, therefore, compensated each other.

In the second variant (Fig. 3), the winding together with its shunting resistance is included in the anode circuit of the electron tube. The advantage of such an inclusion is the ability to obtain a significantly larger compensating current.

Finally, the device of FIG. 4 allows the use of conventional galvanometers.

with one winding. It compensates the opposing momentum current caused by the voltage drop across the resistance K, is passed through the same winding through which the current controlling the photocell illumination passes. - ..; Subject and item of bp; en and

Claims (3)

1. An automatic potentiometer in which the auxiliary current is adjusted using a photocell illuminated from the mirror of a zero galvanometer, characterized in that, in order to improve measurement accuracy, a galvanometer is used, the countercurrent moment of which is compensated by an additional current passed through the main or additional one for this purpose. goals provided frame. 2. The form of the potentiometer according to claim 1, wherein the shunting galvanometer resistance R is included in the photocell circuit, whereby the current compensating the countercurrent moment is part of the current in the photocell circuit (Fig. 2). 3. The form of the potentiometer according to claim 1, wherein the shunting galvanometer resistance R is included in the anode target of the electron tube, as a result of which the compensating current is part of the auxiliary current of the potentiometer (Fig. 3 and 4).