SU1157468A1 - Device for measuring resistances - Google Patents

Abstract

1, A DEVICE FOR MEASURING THE RESISTANCE, containing a thermometric bridge, a power source included in the power diagonal, and an indicator included in the measuring diagonal of the thermometric bridge, a transitional measure that in order to improve the resistance measurement accuracy into it a resistance box is introduced, the four-pole switch is not two positions, each pole of it being connected to the input terminals of the thermometric bridge, the first of which is connected to one of the terminals of the first-shoulder resistor, second with one of the indicator leads, one third with a common terminal connecting the terminals of the third and fourth resistors of the respective arms, one quarter with one of the terminals of the fifth arm, the contacts of the first position of the switch are connected respectively to the terminals for connecting the measurement object, the contact of the second position of the first pole the switch is connected to the first output of the resistance box, the contact of the second position of the second pole of the switch is connected to the first step of the transitional measure, the contacts of the second polo tim third and fourth poles of the switch 9 are connected to second and third terminals respectively store resistances, second, third and fourth terminals are connected to a transitional measure to the fourth, fifth and fifth pin shee- store resistances respectively. 2, The device according to claim 1, of which is that the resistance shop consists of three mechanically connected decades,:; baths with identical sets of sections cx of resistors connected in three successive circuits, in which the value of the resistance of each subsequent section is greater than the value of the resistance of the previous section, the input terminal of the first decade of the resistance store is connected to the first output of the resistance box, the input terminal of the input decade is connected to the second output, the input terminal of the third decade is connected to the third output The store resistors, switches the contacts of the first, second and third

Description

decades, they are connected with the sixth, fifth, fourth conclusions of the store of resilience, respectively.

i

3. The device according to claim 1, 1 and 2, in that the sets of sections of resistors of the transitional measure are connected in two decades, successively interconnected, and the first decade is fulfilled as a double decade, each of which sections has

7468

 f, Ka output, and the second in the form of a single decade, the output of the second decade is connected to the first output of the transitional measure, and the switch contact of the second decade is connected to the second output of the transitional measure, the switch contact of the first decade is connected to the third output of the transitional measure, an additional contact of the switch the first decade is connected with the fourth conclusion of the transitional measure.

The invention relates to the measurement of electrical resistances by a thermometric bridge and can be used in particular for measuring the metrological characteristics of resistance thermal converters. A device for measuring a potential installation and a resistance store is known, consisting of a set of resistance sections of electrical resistances connected in a series circuit and provided with leads that allow to divide any number of sections to form a resistance of the required value of l. However, the transient resistance box of this device cannot be used to work with a thermometric bridge. The closest in technical superiority to the invention is a device for measuring the resistance containing a thermometric bridge, a transitional measure consisting of sets of sections of electrical resistances connected in a series circuit and provided with leads allowing to isolate any number of sections to form the desired C2 value. . However, the known device makes it possible to measure resistances with low accuracy, which does not satisfy the requirements of thermometry, since the conclusions of the transitional measure are not equal to each other in terms of resistance and it cannot be used for highly accurate measurement of resistance. The purpose of the invention is to improve the accuracy of resistance measurement. The goal is achieved by the fact that a device for measuring resistance, containing a thermometric bridge, a power source included in the diagonal of the power supply, and an indicator included in the measuring diagonal of the thermometric bridge, a transitional measure, a resistance box is inserted, a four-pole switch for two positions, each of its poles is connected to the input terminals of the thermometric bridge, the first of which is connected to one of the terminals of the first shoulder resistor, the second to one of the indicator pins, a third to The main terminal for connecting the terminals of the third and fourth resistors of the respective arms, the fourth with one of the terminals of the fifth arm, the contacts of the first position of the switch are connected respectively to the terminals for connecting the measurement object, the second position of the first pole of the switch is connected to the first terminal of the resistance box, the terminal ; the second position stroke of the second pole of the switch is connected to; The first output of the transitional measure, the contacts of the second position of the third and fourth poles of the switch are connected to the second and third outputs of the resistance store respectively, the second, third and fourth conclusions of the transitional measure are connected to MeTBepTbiM the fifth and sixth terminals of the resistance store, respectively. A resistance store consists of three mechanically connected decades formed by identical sets of sections of resistors connected in three successive circuits, in which the resistance values of each downstream section are greater than the resistance value of the previous section, the input terminal of the first decade of the resistance magazine is connected to the first output of the resistance box, input terminal the input decade - with the second output, the input terminal of the third decade - with the third output of the resistance box, the contacts of the first, second and the third decade is connected to the sixth, fifth, and fourth terminals of the resistance store, respectively. The sets of sections of resistors of the transient measure are connected in two decades connected in series, the first decade being made as a double decade, each of which sections has additionally two outputs, and the second one as a single decade, and the output of the second decade is connected to the first the output of the transitional measure, and the contact of the switch of the second decade is connected to the second output of the transitional measure, the contact of the switch of the first decade is connected to the third you: transitional measure, an additional contact ne (Switch of the first decade Coupled with the fourth, the output of the transitional measure. When measuring the resistance of an example of a sensitive element of a low-resistance temperature transducer, there is a feature that it has four terminals, the resistances of which can vary during the measurement of wide-range temperatures by tens and hundreds of percent. When using a single or double bridge, the resistances of the thermal resistance transducer outputs are summed with the resistances of the bridge arms and distort the measurement result. When using a thermometric bridge (such as Smith's bridge, model ill) for this purpose, the thermoconverter's outputs have practically no effect on the result of measuring 684 its resistance, provided that the resistances of the terminals are equal. The drawing shows a schematic diagram of a device for measuring resistance. A device for measuring resistance contains a thermometer. bridge 1 consisting of resistors 2C Re), 3 (RAJ,), 5 () ,. b (Pb-Cd), 7 (Pd), 8 and 9, power supply 10, indicator 11, transitional measure 12, consisting of sets of sections of electrical resistances, resistance box 13, consisting of three mechanically connected decades 14-16, which are identical sets of sections of resistors, switch 17 four-pole for two positions, clamps for connecting the object 18 of measurement (resistive temperature transducer). The device for measuring the resistance works as follows. A resistance thermocouple 18 is connected to the output terminals of the thermometric bridge. The bridge is balanced by varying the values of the resistor 5 of the reference arm. Then, to the input terminals of the thermometric bridge I, instead of the thermal converter 18, the transistor measure resistance RO is as close as possible to the measured value, and the bridge is balanced by varying the resistance values of resistor 5. The desired result, i.e. the resistance of the sensing element of the thermocouple, determined by the replacement method according to the formula,. t about ij. where RCP and JSR are the values of the resistances of the resistor 5 at the equilibrium of the bridge with RO and R turned on, respectively, then the values of the resistance values of the terminals ne are increased: a similar measure several dozen times. In this case, the equilibrium of the bridge can be broken. The imbalance will be the greater, the more the error in adjusting the shoulders remains. The accuracy of the ad measurement from the fit of fitting the shoulders of the bridge is determined by the formula

Claims (3)

1, DEVICE FOR MEASURING RESISTANCE, comprising a thermometric bridge, a power source included in the diagonal of the power supply, and an indicator included in the measuring diagonal of the thermometric bridge, a transitional measure, which differs in that, in order to increase. singing the accuracy of measuring resistance, a resistance store is introduced into it, the four-pole switch is not in two positions, each pole of which is connected to the input terminals of the thermometric bridge, the first of which is connected to one of the terminals of the resistor of the first shoulder, the second to one of the terminals of the indicator, the third to a common clamp connecting the terminals of the third and fourth resistors of the corresponding arms, the fourth with one of the terminals of the resistor of the fifth arm, the contacts of the first switch position are connected respectively to zhimami for connecting a measurement object, a second contact position of the first pole switch is connected to a first terminal of resistors store, the contact position of the second pole of the second switch is connected to a first terminal of a transitional measure the positions of the second contacts. The third and fourth poles of the g switch are connected to the second and third conclusions of the resistance store, respectively, the second, third, and fourth conclusions of the transitional measure are connected to the fourth, fifth, and neck terminals of the resistance store, respectively. 2. The device according to claim 1, from μη in that the resistance store consists of three mechanically connected decades formed by identical sets of resistor sections connected in three consecutive circuits, in which the resistance values of each subsequent section greater than the resistance value of the previous section, the input terminal of the first decade of the resistance store is connected to the first output of the resistance store, the input terminal of the input decade to the second output, the input terminal of the third decade to the third output of the resistance store lazy, switch contacts of the first, second and third 1,157,468 decades are connected to the sixth, fifth, fourth conclusions of the singing resistance store, respectively. 3. The device according to claim 1, wherein the sets of sections of the transitional resistors are connected in two decades connected in series with each other, the first decade being made in the form of a double decade, each of the sections of which has an additional two leads, and the second - in the form of a single decade, and the output of the second decade is connected to the first output of the transitional measure, and the contact switch of the second decade is connected to the second output of the transitional measure, the contact of the switch of the first decade is connected to the third output of the transitional measure, additional the contact switch of the first decade is connected to the fourth output of the transitional measure.