SU871111A1 - Method of high-frequency voltmeter checking and graduation - Google Patents

Description

This invention relates to electrical measuring equipment and can be used in the calibration and calibration of voltmeters. A known method of calibrating selective microvoltmeters, requiring for its implementation an exemplary voltmeter and an exemplary attenuator, consists in measuring the signal level at the input of an exemplary attenuator, calculating the voltage at its output and comparing the value of the signal at the output of the exemplary attenuator 1 The disadvantage of this method is the introduction of additional errors in the result of calibration due to the frequency dependence of the attenuation of the sample, attenuator and inaccuracy of Ani of its output with the input of the instrument to be tested. A known method of checking and grinding high-frequency voltmeters requires, for its implementation, a reference voltmeter, a voltage divider and an exemplary voltage ratio meter, which involves measuring the voltage at the input of the divider with an exemplary voltmeter, measuring the voltage ratios at the input and output of the divider at a given frequency and for a given amplitude of the input voltage, calculating the voltage at the output of the divider and comparing the reading of the device being tested with the calculated value of the voltage at the output of the divider edostatkom known method are limitations imposed parametrg№1i ratio meter stresses. The aim of the invention is to expand the range of measurement limits. The goal is achieved by the fact that within the limits of the possibility of checking and graduating high-frequency 1x voltmeters by measuring the voltage at the attenuator input, determining the voltage at the attenuator output and comparing the measured instrument with the determined value of the voltage at the attenuator output, the attenuation is measured by a reference voltmeter. an attenuator by an amount corresponding to a voltage change, then compensate for this change in attenuation by changing the source voltage by an appropriate amount and after This does not change the source voltage.

according to an exemplary voltmeter for a given amount of change in voltage.

The drawing shows the structural electrical circuit of the device for implementing this method.

The device contains a voltage source 1, an attenuator 2, a terminal: e11 "th to a test instrument 3, a comparator 4, a control unit 5, a sample voltmeter 6, and a memory device of the calculator 7.

The device works as follows.

From the control unit 5, the Comparator 4 receives a voltage or a digital code corresponding to the first verified reading of the instrument 3. The unit 5 switches the output of the comparator 4 to the control input of the voltage source 1. The voltage of source 1 is changed until the indication of the scanned device 3 at one input of comparator 4 and information received from block 5 at the other input of comparator 4 is equal. The voltage of source 1 at the command of the control unit is measured exemplary

. a voltmeter b, and the indication of an exemplary voltmeter is recorded in the memory of calculator 7. Next, control unit 5 keeps the voltage at the output of source 1 unchanged, sends a voltage or a digital code corresponding to the next expected display to the input of comparator 4, and switches the output of comparator 4 to control attenuator 2 input.

The attenuation of attenuator 2 is changed until the information at the inputs of the comparator 4 is equal. Next, block 5 keeps the attenuation of the attenuator unchanged. The voltage measurement of source 1 can be repeated with the target; taking into account when calculating the possible change in voltage due to a change in attenuation value of attenuator 2. Next, block 5 again supplies the former voltage (digital code) to the input of coparator 4, and the input of comparator 4 switches to control the value of source voltage 1. Voltage The source changes until the device 3 is set to the previous reading. The voltage of the source at the command of block 5 is measured by an exemplary voltmeter 6 and is fed to the memory of the calculator 7. in the calculator 7 according to the indications of the exemplary voltmeter b.

calculating the change in the magnitude of the error in the transition from one reading instrument to another.

The cycle is repeated for the next reading of the Target instrument using the results of the previous reading.

In the automatic mode of operation of the device, in order to reduce the random error, the verification is repeated many times and statistical information processing is performed.

The present method allows the non-sample attenuator to be used to calibrate measuring instruments, provided that at least one reading of the instrument being tested is determined without the use of an attenuator (by directly connecting the inputs of the reference and test instruments to the generator output), or using the reference attenuator.

The use of this method of calibration allows refusing the use of high-precision equipment and provides an economic effect that determines the cost of this equipment and the organization of the workplace for calibration.

Claims (2)

1. Checking radio measuring devices. Collection of instructions and guidelines. Standards Publishing, 1965. 2. The author's certificate of the USSR 290247, cl. G01R 35/00, 1970 (prototype.