SU1288611A1 - Resistance meter - Google Patents

Abstract

The invention relates to a measurement technique and can be used to encode information represented by the resistance of resistive or quasi-resistive sensors. The purpose of the invention is to increase the speed, accuracy and reliability of measurements by obtaining a simpler and more convenient relationship between the resistance and the coordinate scale and the reduction of the composition of the measuring circuit. To do this, a dependent source 5 of the current change is introduced into the meter, and resistor-measure 4 is included in the circuit, as shown in the drawing. The device also contains a power supply 1, a voltage divider 2, a zero-organ 3, a resistor-sensor 6, terminals 7-13. The measuring circuit of this device can be used in. combination with a microcomputer for entering corrections, to take into account the nonlinearity of the current-voltage characteristic of large-scale resistors. 1 il. I SO YO YOU 00 SUE O

Description

The invention relates to electrical measuring equipment and can be used to encode information represented by the resistance of resistor or quasi resistor objects (sensors).

The purpose of the invention is to increase the speed, accuracy and reliability of measurements by obtaining a simpler and more convenient, directly proportional relationship between the resistance and the scale coordinate and minimization of the composition of the measuring circuit.

The drawing shows a block diagram of the proposed device.

The resistance meter contains a power source 1, a voltage divider 2, a zero-organ 3, a resistor-measure 4, a dependent source 5, a resistor-sensor 6, terminals 7-13, while a voltage divider is connected to terminals 11-13. Terminal 7 is connected to the first terminals of the input and output dependent

source 5 and the first pin of the resistor of measure 4, the terminal 8 is connected to the third pin of the resistor-measure, the first pin of the source 1 of the power supply and the first pin of the voltage divider 2, to terminal 9

the second terminals of the power source and the voltage divider are connected; the second terminal of the input of the dependent source is connected to terminal 10; the second terminal of the output of the dependent source is connected, the first terminal of the null organ 3, the second terminal of which is connected to terminal 13 of the voltage divider. A sensor resistor is connected between terminals 9 and 10.

The device works as follows.

After connecting the resistor-sensor 6 with the resistance R, the dependent source 5 by changing the current I of its output creates a voltage drop across the resistor-meter 4

IR E, (1)

where R is the resistance of the resistor 4,

as a result, a current of ul O is established at the input of the dependent source. (2)

Almost simultaneously, the zero-body 3, which controls the voltage divider 2, sets a zero current at its input and realizes the equality

ЦЕ 1К, (3)

where jU is the scale coordinate.

After substitution of expression (1) into expression (3), namely

t p- 5

12886112

|., IR IR. (4) and reducing the multiplier I in expression (4), we find that the numerical value of the resistor-sensor resistance

RX luRlOfrt

(five)

With sufficient sensitivity of the zero-organ 3 and the input of the dependent source 5, the error 6 of the measurement result of the resistance R is equal to the sum of the errors of the division factor of divider 2 (.1,) and the error of the resistor-measure (o), namely

.S,. (6)

Since, in practice, the error of the voltage divider can be performed by one or more orders of magnitude less, in reality, the error of this device is minimized to the level of error of the resistor-measure used in its composition

. (7)

which is at least (n-1) times less than in any n-shoulder bridge.

Reducing the number of components not only increases the accuracy of the device, but also increases its reliability.

The measuring circuit of the proposed device can be used in combination with a microcomputer for entering corrections to take into account the nonlinearity of the current-voltage characteristic of large-scale resistors.

Claims (1)

Invention Formula A resistance meter containing a power source connected in parallel with a voltage divider, an adjustable output of which is connected to the first zero-organ output, a resistor-gauge and terminals for connecting a resistor-sensor of the measured resistance, characterized in that in order to increase speed, accuracy and reliability of measurements due to obtaining a simpler and more convenient direct proportional relationship between the resistance and the scale coordinate and minimization of the composition of the measuring circuit, it is supplied with a dependent source ohms, while resistor measure included between the first input terminal of the compound and the output terminals n dependent source terminal Cpd 1288611 the first output of the power-dependent source, the power source and the additional output of the divider and the main output of the voltage divider, the terminals for connecting the voltage and the terminal for connecting the second resistor-sensor are connected between the output terminals of the dependent source for connecting the second terminals input 5 ka. Compiled by V.Semenchuk Editor O. BugirTehred V.Kadar Proofreader A.SJIMOKOCOB Order 7803/43 Circulation 752 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., d. A / 5 Production and printing company, Uzhgorod, Projecto st., 4