SU808945A1 - Method of measuring resistance by means of an unbalanced bridge - Google Patents

Description

The invention relates to electrical engineering, and in particular to methods of measurements using unbalanced bridges.

Known methods for measuring resistance using four-arm bridge circuits [1].

Lack of bridges, balanced mode, barking speed of process automation measurements

The closest to the measured resistance, two resistors are switched in a mutually connected branch of the bridge containing the measured resistance, the value of the output voltage after switching the resistors is measured, and the value of the resistance measured by the formula is ± ayy-> o + a ^and output _r ^{1 5} % .x _a ^{3 g} output voltage before switching resistors; output voltage le switching resistors; Bridge shoulder resistance in a branch containing R ^; shoulder resistance ta, the opposite shoulder resistance ta, the opposite with R ^ R ₃ .

The drawing shows a diagram illustrating the proposed method.

The process of measuring the value of active resistance is carried out by an unbalanced bridge with the help of two working in. Matt is the complexity of the measurement, the technical essence of the proposed 'is a way to determine the active resistance using unbalanced MoqTa by measuring the output voltage [2].

However, this method has low accuracy due to the influence on the measurement result of the EMF of the bridge power supply 20 and the load resistance included in the measuring diagonal.

The purpose of the invention is to improve the measurement accuracy by eliminating errors due to slow .25 changes in the EMF power and load resistance.

This goal is achieved by the fact that after measuring the magnitude of the output voltage, functionally connected15 ^{where R} _a ^R 3 mosMos mosR _x , 3 switches 1 and 2 are introduced into his circuit. The measured resistance of resistor 3 (R _x ) is included in one of the bridge arms, in three other shoulders included resistors 4-6 with known resistances, R ^, R ^, and ^R 2_ ^R V

In the first measurement step, the contacts of switches 1 and 2 are in the ¹ '1''position, the voltage о _ s (wv *?' Where E is the EMF of the bridge power supply is removed from the measuring diagonal 7-8 in idle mode).

Taking into account the load resistance 9 (K _and ), the output voltage in the first measurement step is equal when switching the bridge branch, i.e. In this case, the impedance of the bridge protrusions does not depend on the EMF of the bridge power source, as well as on the magnitude of the load resistance.

A similar effect of increasing accuracy takes place in the other resistors 5 and 6. The measured value is calculated according to the formula o _ A 8.¾ R1

AV ⁸ "<

Based on the proposed method, high-precision measuring units for monitoring and measuring various physical quantities using parametric resistance sensors can be developed.

Claims (2)

The invention relates to electrical measuring equipment, and specifically to methods of measurement using unbalanced bridges. There are known methods for measuring resistance using four-shoulder bridge circuits 1. A disadvantage of bridges operating in a balanced mode is the small measurement speed and the complexity of automating the measurement process. The closest in technical essence to the present invention is a method for determining active resistance using unbalanced Moqia by measuring the output voltage 2. T) However, this method has low accuracy due to the effect on the measurement of EMF power supply of the bridge source and the load resistance included in measuring diagonal. The purpose of the invention is to improve the accuracy of measurement by eliminating errors caused by slow changes in the power supply voltage and load resistance. This goal is achieved by the fact that after measuring the output voltage, functionally connected with the measured resistance, two resistors commute to the bridge containing the measured resistance, measure the voltage taken after switching the switches, and calculate the value of the measured resistance by the formula VS output voltage before switching resistors; output voltage pos. le switching resistors; shoulder resistance t4 soc in the branch containing RX; the resistance of the shoulder of the bridge, the opposite of R.; the resistance of the shoulder of the bridge, the opposite being Rj. The drawing shows a diagram, according to the proposed method. The process of measuring the magnitude of the active resistance is carried out by an unweighted bridge with the help of two switches 1 and 2. The measured resistance of the resistor 3 (R;) is included in one of the bridge arms, the other three arms include resistors 4-6 with known resistances R, R, R, and 2- In the first measurement cycle, the contact of the switches 1 and 2 are in position J, the measuring diagonal is 7-8 in idle mode, the voltage O is removed - where E is the emf of the bridge supply. Taking into account the load resistance (R), the output voltage in the first measurement cycle is equal to В-хВзRH ("4 / i ifefeW resistance with a parallel connection. In the second measurement cycle, the keys 1 and 2 are turned to the position Е while resistors 4 and 3 mutually mutually mutate, then the output voltage is equal to RyRg-ft Ra cvScKV j) W ".VS Next, find the ratio of the output voltages in the first and second clock cycle, ft ft-ifti-R gj 6y,. -, “h. and hence the sought value for ftfe a l i Mi ± ii-R H.V,. Bb ", V ab" / s. The magnitude of the measured resistance Ry is calculated from the obtained value, using two values of the measured output voltage, yielded fcfcixi of three known values, k, Nd, R.J. As can be seen from the form for R, the calculated value of the measured resistance depends only on the values of the resistances H, Ra of the shoulders of the bridge and does not depend on the emf of the power source of the bridge, as well as on the magnitude of the resistance of the load. A similar effect of increasing accuracy occurs when switching resistors in another branch of the bridge, i.e. resistors 5 and 6. In this case, the value of the measured resistance is calculated by the formula AR-ji - R, o j a. Based on the proposed method, high-precision measurement units can be developed for monitoring systems and measuring various physical quantities using parametric resistance sensors. The invention The method of measuring the active resistance using an unbalanced bridge by measuring the output voltage. containing {measurable resistance, measure the value of the output voltage after switching resistors and calculate the value of the measured resistance by the formula 4R Ma R .. -. X J output voltage before switching resistors output voltage after switching resistors; bridge arm resistance in a branch containing RX; the resistance of the shoulder of the bridge, the opposite resistance of the shoulder opposite to R and R-f Sources of information. taken for examination during examination I. K. Karandeev Special methods of electrical measurements, Gosenergoizdat, 1963. 2, Electrical measurements of non-lactic quantities. Ed. P.V. Novitsky. L., Energie, 1975, fig. 5-8. (prototype).