SU651265A1 - Percentage potentiometer - Google Patents

Description

one

The invention relates to electrical measurements, can be used where it is necessary to determine the relative deviation of the measured voltage from its nominal value, for example, when determining the instability of voltage stabilizers, the instability of the reference voltages, in calibration practice when calibrating potentiometers, shunts.

An exemplary potentiometer for calibrating potentiometers of high accuracy classes is known, which contains an installation resistor and a measuring resistor unit that has been shunted three times by resistors of different nominal values.

However, such a potentiometer does not allow to obtain the numerical value of the deviation of the measured voltage from the nominal.

Also known is a potentiometer containing a sequentially connected setting resistor, measuring

a decade, as well as a decade of grading, graduated in percentage 2.

When using such a potentiometer, it is necessary to provide a full compensation of the measured voltage in order to determine the numerical value of its percentage deviation.

The purpose of the invention is to automatically and directly measure the percentage deviation of the measured voltage from its nominal value. The goal is achieved in that a percentage potentiometer containing a series-connected reference voltage source and an amplifier and a series-connected power source, a resistor unit, an installation resistor in the regulating element, the terminal of the installation resistor connected to the second input of the amplifier, the output of which is connected to the second input regulating resistor, introduced in series connected amplifier, current meter and calibrated resistor, one terminal of which is connected to the second IMD installation eistora D and an additional amplifier - reeistornogo to the second output unit, and the other - to the second output of the reference voltage source.

The structural diagram of the device shown in the drawing.

The potentiometer contains a resistor unit 1, a power source 2 ,. control element 3, amplifier 4, voltage source 5, installation resistor 6, calibrated resistor 7, current meter 8, additional amplifier 9.

The potentiometer works as follows.

Before connecting the measured voltage when the potentiometer's operating current is far from its nominal value, the difference in voltage between the emf of the source of the reference voltage 5 and the voltage drop across the setting resistor 6, having passed through the amplifier 4, changes the conductivity of the regulating element 3 until until the working current of the potentiometer is equal to the nominal value.

Before switching on the measured voltage to the input terminal 1O of the potentiometer on the measuring resistor unit 1, a voltage drop equal to the nominal value of the measured voltage is set.

If, when turning on the measured voltage on the terminals 1O, it is not equal to its nominal value, the voltage difference between the measured voltage and the nominal voltage, previously passed through the amplifier 9, causes current to flow through the current meter 8 and the calibrated resistor 7. The resulting drop the voltage on the calibrated resistor 7 is introduced into the compensation circuit of the current stabilizer 4, 5 and 6, and the amplifier 4 is supplied with the voltage of a noncompass, which then changes the conductivity of the regulating element 3 and, therefore , working current potentiometer. &Amp; ve this difference between falling on the measuring measurement. resistor

the unit and the measured voltage applied to amplifier 9 is reduced. For large gains of each of the amplifiers (4 and 9), this

the process ends with the fact that the voltage drop on the measuring resistor unit with a high degree of accuracy becomes equal to the measured voltage, the reference voltage is equal to

the algebraic sum of the voltage drops across the installation resistor 6 and the calibrated resistor 7, and the non-compensated voltages applied to the inputs of the amplifiers are negligible. With

In this case, the current flowing through the microammeter is proportional to the positive voltage deviation of the measured voltage from the nominal.

Claims (2)

1. Works of KhGNIIM. Ed. Committee of Standards, M., 1969, p.154. 2. Bezikovich, A. Ya., Et al. Automatization of electrical measuring instruments and appliances .. Energie, L., 1976, with. 177.