SU1109654A1 - Method of measuring resistance - Google Patents

Abstract

METHOD OF MEASURING RESISTANCE, predominantly high voltage, based on a change in the resistance of the shoulders of the voltage divider and measurement of the corresponding changes in the output voltage of the divider, characterized in that, in order to measure the accuracy of the measurement, the output voltage is measured at different variations flax where the restions of the divider resistors and changes in the controlled resistivity of the low-voltage impedance of the voltage divider, calculate the unknown resistance V formulas measured with the resistance of the high-voltage arm and its change, respectively; controlled absolute and relative changes in the resistance of the low-voltage arm; relative sensitivity function.

Description

The invention relates to a measurement technique, in particular to methods for measuring resistance, preferably high voltage. Methods are known for measuring the high voltage resistance included in the voltage divider circuit, based on determining the measurement object pairs based on the controlled variations of the resistance of the divider arms) Q and the corresponding variations in the output voltage and / or current being measured. The disadvantage of such methods is low measurement accuracy. The closest to the invention according to the technical essence is the method of measuring high DC voltage, which consists in measuring with synchronous modulation of current and demodulation of the output voltage of the divider by periodically shunting the C2J divider of the basic divider of the sample divider. The disadvantages of this method are the impossibility of determining uncontrolled variations of the variable measured resistance, for example, when measuring high-resistance and high-voltage resistances, as well as the need for a significant change in the current divider when measuring in the order of 1-10%), which necessitates ensuring the stationarity of thermal or other destabilizing mode associated with current changes. The disadvantages significantly increase the attainable measurement error and reduce the speed of the measuring means implementing the known method. The aim of the invention is to improve the measurement accuracy due to the possibility of controlling variations in the resistance of the shoulders of the divider and reducing the variation of the current of the divider during measurements. The goal is achieved by the method of measuring the resistance, mainly high voltage, based on the change in the resistance of the voltage divider shoulders and measuring the corresponding changes in the output voltage of the divider, measuring the output voltage at 55 different ways of switching the voltage divider resistors and changing the monitored resistance where resistors are 4Ru n according to rel nap sfu nsgstko to eg Rc JL Nivi v y y pro and (6 low voltage divider arms, then calculate There are unknown resistances according to the formulas 1 + RB RH LK RY "---- 5-- - -, R, ARg - the measured resistance of the high-voltage arm and its change accordingly; That" controlled absolutes KU R. p J low-voltage arm; 5 function of relative sensitivity. the resistivity measurement tool is as follows: the dramatic change in the output voltage of the divider with variations in the opening of its arms is T R R / sq, (RH) JS C (RB) 25 2 ″ in 5 Ktsii relative sensitivity; (5) the ratio of the transmission of the divider by the resolution; Rg - respectively, the resistance of low voltage 0 p and high voltage arms; iTp p-relative changes in shoulder resistance with variations of resistance. When compatibility of variations in shoulder dividers is caused, for example, by the ratio, (61st extremity increments of the limb with variations from (1), (. 2) we get where V-RHderD, DV ”is the measured resistance of the high-voltage shoulder and its variation j respectively; LK, f - - controlled absolute P Y R N N Noe and relative changes in the resistance of the low-voltage arm, realizing the lean conditions: (b | i17).) {% "; (G. (RB) UZ-TS (VS .) /. (5 - 2 l, -bR 44R, H 8 ARJ (R, RB). (13) Thus, it is possible to measure uncontrolled absolute changes in the measured variable The resistance of the catcher (the 3v variation of the current of the voltage divider is substantially less, commensurate with variations due to the natural drift of the resistance of the voltage divider in the case of its implementation of highly stable elements.: - Fig. 1 shows the scheme of the proposed method; 2 another circuit variant. The circuit (Fig. 1) contains a high-voltage arm 1 of a voltage divider with resistance Rg (measurement object), a low-voltage arm 2 of a voltage divider with resistance, an additional resistor 3 (/ aRg high-voltage arm; adjustable additional resistor RcUvoltage shoulder, keys 5 and 6; voltage meter 7 The circuit operates as follows. In the open state for-5 and 6, the output voltage of the voltage divider is measured with the aid of meter 7. Then the output voltage is measured while the switch 5 is closed, then the key bis is closed the voltage divider included in the low-voltage arm, which changes the controlled value jcc, sets the value of the output voltage corresponding to the open state of the keys. The value of the measured resistance and its variations are determined from the above ratios. Another variant of the implementation of the proposed method (figure 2) - a four-shouldered bridge contains high-voltage shoulders 1 and 2 of the bridge with measured resistance Rg and KdF-aR, low-voltage shoulders 3 and 4 of the bridge with resistance ft | h Cz, voltage meter 5, switching key 6. The resistance measurement in the bridge is carried out similarly to the measurements in the circuit of FIG. 1 given that variations in the resistance of the high voltage arm are produced in space. By contacting the switching key 6, which is in the left position, the output voltage of the voltage divider formed by the resistors of the high voltage arm 1 and low voltage arm 3 is measured, then the switch is switched to another position and the output voltage of the voltage divider formed by the high voltage resistors is measured an arm 2 and a low-voltage arm 4, and subsequently using an adjustable additional resistor of the low-voltage arm 4 sets an output voltage equal to the output voltage of the first case tel. Further, the measured values are determined similarly. Thus, in the proposed method, the accuracy of measuring the output voltage is increased with different switching options of the voltage divider resistors and the variation of the monitored resistance of the low-voltage shoulder of the voltage divider.

Claims (1)

METHOD FOR MEASURING RESISTANCE, mainly high-voltage, based on changing the resistance of the arms of the voltage divider and measuring the corresponding changes in the output voltage of the divider, characterized in that, in order to improve the accuracy of the measurement, the output voltage is measured with various options for switching resistors of the voltage divider and changes in the controlled resistance of low-voltage resistors the shoulder of the voltage divider, then unknown resistance is calculated by the formulas ⁵ ,,, - H; ⁶ H (* N I measured resistance of the high voltage arm and its change, respectively; controlled absolute and relative change in the resistance of the low voltage arm; relative sensitivity function. ABOUT ZhbLTT'PZ