SU859956A1 - Device for measuring resistance(conductivity) - Google Patents

Description

The invention relates to electrical measuring equipment, namely to resistance meters (conductivity).

A device for measuring resistance (conductivity), made on inverting amplifiers, one of which is equipped with an additional non-inverting output, between which and an inverting output of the second amplifier includes an indicator; and exemplary and measured resistance (conductivity _{| (J} reachability) are included between the inverting output and the input of each of the amplifiers [1],

The disadvantage of this device is that it does not exclude the influence of the connecting conductors on the measurement result. ₍ $

It is also known a device for measuring electrical resistance (conductivity), containing a current source, in series with which is included a resistor with measured resistance (conductivity) and a measure of resistance. The voltage drop across them is measured alternately [2].

The disadvantage of this device is that the measurement of the voltage drop occurs at once2 | At the same time, which requires high stability of the current source.

The purpose of the invention is to improve the accuracy of measurement. ‘.

This goal is achieved by the fact that in the device for measuring resistance (conductivity), containing a multi-valued measure of resistance (conductivity), an indicator and a measuring circuit, formed in series with a constant current source and a measured resistor (conductivity) included in the circuit current clamps, an amplifier and a current transducer are introduced in the current, the input terminals of which are included in the measuring circuit, and the output is connected to the indicator, while the first input terminal of the amplifier is connected to the first potential device, the first output terminal of the amplifier is connected to the first output terminal of the current-to-current converter, the second input and output terminals of the amplifier are connected respectively to the potential current clamps of a multi-valued resistance (conductivity) measure ί, which is connected to the second potential clamp by a second potential clamp devices, and a second current clamp with a second output terminal of the current-to-current converter.

The current-to-current converter is designed as a DC transformer.

Pa drawing shows a schematic diagram of a device for measuring resistance.

The device contains a measuring current source 1, a resistor 2 with a measured resistance R _x (conductivity) and current and potential outputs, a current-to-current converter 3 with galvanically isolated input ι and an output and conversion coefficient K, a multi-valued measure of resistance 4 μ R _o (pro , and conductivity) with current and potential outputs, amplifier 5 with input and output poles, zero indicator 6.

The device operates as follows.

At the moment of passage of current I of source 1, a voltage drop IR _k occurs on resistor 2.

Amplifier 5 repeats this voltage on a negative feedback circuit with a multi-valued measure of resistance.

IR _χ = Ro

By changing the coefficient K of the converter 3 l of resistance μ Ro of measure 4, it is always possible to set the indicator pointer b to the position “0”, which means that, in modulus jg, the oppositely directed output currents of amplifier 5 and current-to-current converter 3 are equal.

J = K I

The measured resistance can be determined by the formula ³⁵

R _x = K / IR χ, where K is the conversion coefficient of the Converter 3;

μ R is the value of the measure 4 resistance at the moment of indicator 6 zero reading.

The technical and economic efficiency of the proposed device is to increase the accuracy of measuring resistance (conductivity) by eliminating the influence of the resistance of ⁴⁵ connecting conductors and current instability in the measuring circuit, as well as providing the ability to measure low resistances (large conductivities) at large and medium operating currents without powerful reference measures that in the known and proposed devices are included in the common current circuit with the current circuit of the object with resistance.

Claims (2)

(54) MEASUREMENT FOR MEASUREMENT: RESISTANCE (CONDUCTIVITY) The invention relates to means of electrical measuring equipment, namely, to measuring resistance (conduction) meters. It is known a device for measuring resistance (conductivity) performed on inverting amplifiers, one of which is provided with an additional sherr output between which the inverting output of the second amplifier turns on the indicator; and the reference and measurable resistivity (conductivities) are connected between the inverting output and the input of each of the amplifiers 1. The disadvantage of this device is that it eliminates the influence of connecting conductors and the measurement result. It is also known a device for measuring electrical resistance (conductivity), containing a source of current, in series with which a resistor with a measured resistance (conductivity) and a measure of resistance are connected. The voltage drop across them is measured in front of | 1 ° 2. The drawback of the device is that the measurement of voltage drop takes place on its Ij | Iremesh1o, which requires a high stability of the source of current. The whole {inventive - increase accuracy and measure. This goal is achieved by adding an indicator and a measuring circuit to a device for measuring resistance (conductivity) containing a multi-valued measure of resistance (conductivity), a measuring circuit connected by a DC source and a resistor (conductivity) connected to the circuit with current clamps; and a current-to-current converter, the input terminals of which are included in the measuring circuit, and the output terminals are connected to the indicator, while the first input terminal of the amplifier is connected to the first one the device’s potential terminal, the first output terminal of the amplifier is connected to the first output terminal of the current-to-current converter, the second input and output terminals of the amplifier are connected respectively to the potential current terminals of a multi-measure measure c) opposite (conductivity), which is connected to the second terminal the second potential terminal of the device, and the second current terminal - With the second output terminal of the current-to-current converter. The current-to-current converter is designed as a DC transformer. The drawing shows a diagram of a device for measuring resistance. The device contains a measuring current source 1, a resisor 2 with measurable resistance Rj ((conductivity) and current and potential leads, a current-to-current converter 3 with a galvanically developed input and output and a conversion factor K to a multi-valued measure 4 of resistance cp0 (conductivity) with current and pins, Amplifier 5 with 1 input and output poles, remote indicator and 6. The device works as follows: In MOMCtrr current passing I, fire detector 1 on the resistor 2 there is a drop in voltage IR X Amplifier 5 repeats this 1P J / jRo By measuring the K coefficient of the transducer 3 and the sonrotily and the RQ measures 4), you can always achieve the indicator b in the O position, which means that the modulus of the proprio directed outputs will not be set. amplifier 5 and converter 3 current to current. J k Measured resistance can be determined; pcs by the formula RX К А1Пх. where K is the conversion factor of converter 3; The CPU is significant for measure 4 at the time of zero indication of the indicator 6. The technical and economic efficiency of the proposed device will improve the measurement accuracy of the resistances (conductivity) by eliminating the influence of the resistance of the connecting conductors and the instability of the current in the measuring circuit, as well as ensuring the possibility of measuring low resistances (high conductivities) at high and medium operating currents without powerful exemplary measures, which in known and proposed devices are included in current circuit with a current circuit of an object with resistance to wire. Apparatus of the Invention A device for measuring resistance (conductivity), containing a multi-valued measure of resistance (conductivity), an indicator and a measuring circuit formed in series by a 1 dc source and a resistor (conductivity) that is connected to the circuit by current clamps, characterized by that, in order to increase the measurement performance, an amplifier and a current converter are introduced into the current, the input terminals of which are included in the measuring circuit, and the output terminals are connected to the indicator, and the first input terminal of the amplifier is connected to the first potential terminal of the device, the first output terminal of the amplifier is connected to the first output terminal of the current-to-current converter, the second input terminal to the output terminals of the amplifier is connected to the potential and current terminals of a multiple measure of resistance (conductivity), The second potential terminal is connected to the second potential terminal of the device, and the second current terminal is connected to the second output terminal of the current-to-current converter. 2. Device According to claim 1, that is, so that the current-to-current converter is designed as a DC transformer. Sources of information, take into account when examining 1. The author's certificate. USSR №304522, CL. G 01 R 27/00, 1966. 2. Electrical measurements. Ed. Shramkova E. G., M., 1972, fig. 15.5. r-0 €) -