SU1167511A1 - Device for measuring high voltage - Google Patents

Abstract

A HIGH VOLTAGE MEASURING DEVICE, containing an amplifier with a feedback circuit formed by a resistive divider of the measured voltage and an impedance converter, one of the outputs of which is connected to the middle output of a voltage divider, a comparator unit, the output of which is through a series-connected low-pass filter and the actuator is connected to the control input of the impedance converter, a control generator whose outputs are connected to the control input of the amplifier and compared to one of the block inputs and a recording device, characterized in that, in order to increase the accuracy of the device and expand functional capabilities by measuring the resistance of the high voltage arm of the voltage divider, an additional resistive divider of the measured voltage and an equilibrium indicator are introduced into it, and the low voltage arm the main voltage divider is made in the form of two series-connected resistors, with the equilibrium indicator being connected between the average output of the additional voltage divider to the common pins of the resistors (L of the low voltage arm of the main voltage divider, the other output of the impedance converter is connected to the common bus of the device, and the output of the amplifier, the other input of the comparison unit and the input of the recording device are connected to the resistor of the low voltage shoulder of the main voltage divider common bus. SP

Description

The invention relates to electrical measuring equipment and is intended for use in high-voltage electrical installations. The aim of the invention is to improve the accuracy and enhance the functionality of the device by allowing the measurement of the resistance of the high voltage arm of the voltage divider during its operation. The drawing shows the functional diagram of the proposed device for measuring high voltage. The device comprises an amplifier 1, a main voltage divider consisting of a resistor 2 (high voltage arm) and resistors 3 and 4 (low voltage arm), an additional voltage divider of the source 5 (high-voltage shoulder) and resistor 6 (low-voltage shoulder), equilibrium indicator 7, comparison block 8 (synchronous detector), low-pass filter 9, actuator 10, control generator 11, impedance converter 12, negative impedance converter with amplifier 13 and resistors 14-16. Position 17 in the diagram denotes the total on the device. The feedback circuit of amplifier 1 is formed by voltage divider 23-4 and impedance converter 12 connected between the average output of the 2-3-4 voltage divider and the common bus 17. The equilibrium indicator 7 is connected between the average output of the voltage divider 5-6 and the combined pins of resistors 3 and 4 of the low-voltage arm of the divider; 2-3-4 voltages. The output of the comparator unit 8 through the serially connected low-pass filter 9 and the executive unit 10 is connected to the control input of the impedance converter 12 (to the control input of the adjustable resistor 16). The output of the control generator 11 is connected to the control input of amplifier 1 and one of the inputs of the comparison unit 8. The output of the amplifier is 1, the other input of the comparator unit 8 and the input of the recording device (not shown) are connected to the voltages of the low-voltage voltage divider 2-3-4. The device works as follows. 1 112 When an input measured voltage is applied, a measuring bridge synthesized by splitters 2-3-4 and 5-6, on the resistor 4, an output voltage Upj ,, is formed. The influence of the control generator I1 signal on the control input of amplifier 1 causes a change in the gain of amplifier 1 and, as a result, the output voltage tJgj. The last in comparison block 8 is evaluated out of phase relative to the control signal, smoothed in low-pass 9 and through Executive 10 It acts on the adjustable resistor 16 of the impedance converter 12 before the onset of circuit invariance. The measurement process is associated with the fulfillment of the condition of 11 p cdG-K e) where the resistance of the resistor 2J 3 is the resistance of the resistor 3; RJ is the equivalent impedance formed by the parallel connection of the input impedances of amplifier 1 and impedance converter 12. From the above condition (1), the resistance Rj is determined. the high-voltage arm of the divider is 2-3-4 voltages, and the desired input voltage Ug is found from the registered value of the output voltage Upbfx, taking into account the dependence of Bx (2) 3 If necessary, the measuring bridge can be balanced by acting on the divider resistors 5-6 wives In this case, it is possible to simultaneously evaluate two high-voltage arms of the bridge. In general, a linear measuring circuit can be characterized by a matrix equation of the form / 1X-F 0, (3) where A is the matrix of n-th order parameters, X, F-, respectively, the matrix a column of coordinates (signals in the circuit) and a matrix column of perturbations (including input signals).

The implementation of zero sensitivity to variations of at least one of the parameters that are bilinear in solving the equation f 3) results

to convert the vector of parameters into square, which determines the decrease of the chain order to the first.

Claims (1)

. DEVICE FOR MEASURING A HIGH VOLTAGE, comprising an amplifier with a feedback circuit formed by a resistive divider of the measured voltage and an impedance converter, one of the terminals of which is connected to the middle terminal of the voltage divider, a comparison unit, the output of which is connected through a low-pass filter and an actuator to the input control the impedance converter, a control generator whose outputs are connected to the control input of the amplifier and one of the inputs of the comparison unit, registering device, characterized in that, in order to increase the accuracy of the device and expand the functionality by providing resistance measurement of the high voltage arm of the voltage divider, an additional resistive divider of the measured voltage and an equilibrium indicator are introduced into it, and the low voltage arm of the main voltage divider is made in the form of two in series connected resistors, and the equilibrium indicator is connected between the middle output of the additional voltage divider 5 and combined and outputs the low voltage leg resistors main voltage divider, the other terminal of the impedance converter is connected to the common bus device, and output of the amplifier, the other input of the comparator and the input of the recording device connected to the low voltage leg resistors pin main voltage divider associated with the common bus.