SU1453343A1 - Device for testing inductive voltage dividers - Google Patents

Abstract

This invention relates to electrical measuring technology. The purpose of the invention is to expand the frequency and dynamic ranges of the inductive voltage dividers being tested. The signal from the output of the AC voltage source 1 is applied to turntable 2 and exemplary 3 voltage dividers. According to the equilibrium indicator 8, using the matching unit 4, set the output signal of the step attenuator 5 to the output signal of the inductive voltage divider 2 being tested. The error of the latter is fixed by the indicators of the differential pointer 6. The purpose of the invention is achieved by using an exemplary inductive voltage divider 3 in the dynamic range where it has the smallest error. 1 il. (/)

Description

The invention relates to electrical engineering and can be used to verify the frequency errors of inductive voltage dividers $ in a wide dynamic range.

The purpose of the invention is the expansion of the frequency and dynamic ranges of verified inductive voltage dividers.

The drawing shows a functional diagram of a device for checking inductive voltage dividers.

The device consists of an AC voltage source 15 1, verified 2 and 3 inductive voltage dividers (IDN), matching unit 4, step attenuator 5, differential pointer 6, switching unit 7, balance indicator 8.

In the initial state, the AC voltage source 1 is connected to the verifiable 2, model 3 IDN and 25 matching unit 4, the output of which is connected to the step attenuator 5 and to the first input of the differential pointer 6. The balance indicator 8 is connected via the switching unit 7 to 30 the outputs of the verified IDN 2 and the step attenuator 5. The input of the exemplary IDN 3 is connected to the second input of the differential pointer 6. 35

The source of AC voltage 1 is designed to issue an AC voltage of 10 V (effective value) in the frequency range of 20 Hz - 200 kHz. Using up to the equilibrium indicator 8, the equality of signals resulting from the verified IDN 2 and the step attenuator 5 is recorded.

The step attenuator 5 serves 45 to set an exemplary attenuation of 0-90 dB through 10 qB. Matching unit 4 is a smooth attenuator for attenuation (20 qB and 30 qB) with the ability to adjust 5Q + 10%. Together with discrete attenuators 5, they are designed to provide attenuation up to 120 qB.

The operation of the IDN verification device can be divided into two stages: measuring the level of the attenuated (in AqB) signal from the output of the calibrator being calibrated using the equilibrium indicator ¹ , measuring the error of the set

The equilibrium indicator 8 using the switching unit 7 is again connected to the output of the step attenuator 5 and using the matching unit 4, the reading of the equilibrium indicator 8 is set equal to that recorded in the previous measurement step.

In this case, the reading of the digital display of the differential indicator 6 10 - $ £ ₀ Hz is recorded, · The unevenness of the frequency response with respect to the frequency of 1 kHz is calculated by the formula o о ° DCH ' ⁰ 200 kHz ~ ^o 4 kHz ·

Compared with the known device for checking the errors of the division coefficients of the IDN using an exemplary IDN, which is designed to operate in the range of 45 Hz to 100 kHz and has an error of about 1% with gear ratios of 0.001 1.0, the proposed method has an advantage in metrological characteristics: the operating frequency range is expanded up to 200 kHz; measurement of transmission coefficient (attenuation) error 0.01 (40 qB) ~ 1.0 no more than 0.02% 0.001 (60 qB) - 1.0 no more than 0.2%.

A known device can verify transmission coefficients (attenuation) of only 10 ‘? (60 qB) to 1.

Claims (1)

_ Claims A device for calibrating inductive voltage dividers containing an equilibrium indicator, a model 10 inductive voltage divider, an AC voltage source connected to a socket for connecting a calibrated inductive voltage divider and a yoke image of a ¹⁵ inductive voltage divider, characterized in that, in order to expand the frequency and dynamic range, a matching block, a stepwise attenuator, a differential pointer, a switching block are introduced into it, while the input of the matching block is connected is not an AC voltage source, and the output is connected to the input of the step attenuator and the first input of the differential pointer, the second input of which is connected. the output of the model inductive voltage divider, while the equilibrium indicator 30 is connected through the switching unit to the second socket for connecting the calibrated inductive voltage divider and with step attenuator output.