SU1180821A1 - Device for measuring instrumental error of voltmeter - Google Patents

Abstract

A DEVICE FOR DETERMINING THE MEASUREMENT ERROR BY A VOLTMETR containing an auxiliary generator connected in series, an attenuator, a tee, the first output of which is connected to the input terminal of a calibrated voltmeter, is an exemplary voltmeter introduced in trigger unit, OR element, trigger, actuator, pulse generator, digital divider, three switches, indicator, reference voltage source, while the outputs are first the switch is connected to the attenuator control inputs, the inputs to the reference voltage source outputs, and the control input to the pulse generator output and to the control inputs of the second and third switches, the second switch outputs are connected to the indicator inputs, and the input is from the digital divider, the first input of which is through the third switch (the L tor is connected to the outputs of the reference voltage source, and the second input is connected to the output of the subtractor, the first input of which is connected to the output terminal of a turnable voltmeter, and the second Through a model voltmeter connected to the second output of the tee. 00 about 00 1ЧЭ

Description

The invention relates to a radio metering technique and can be used to verify voltmeters.

The purpose of the invention is the increase in speed achieved by the introduction of 5 automation verification of voltmeters.

The drawing shows a block diagram of a device for determining the error of voltage measurement with a voltmeter.

The device contains a serially connected auxiliary generator 1, attenuator 2, tee 3, the first output of which is connected to the input of the voltmeter 4 being verified, the outputs of switch 5 are connected to the control inputs of the attenuator 2, the inputs to the output sources 6 of the reference voltage, and the control input to the output of the generator 7 and the control 20 inputs of the switches 8 and 9, the outputs of the switch 8 are connected to the inputs of the indicator 10, and the input is connected to the output of the divider 11, the first input of which is connected through the switch 9 to the outputs of the source 12 of the reference voltage and the second with the output of the subtractor 13, the inputs connected to the outputs of the voltmeters 4 and 14, the input of the generator 7 is connected through the actuator 15 to the output of the trigger 16, the input connected to the output of the element OR 17, the first input of which is connected to the output of the start unit 18, and the second with the signal output of the switch 5.

The device operates as follows.

The output of the auxiliary generator 1 sets the signal level corresponding to the working section of the maximum scale of the verified voltmeter 4.

At the initial time, the trigger 16 is in the initial state. In this case, a voltage U = 0 is generated at its output, which is supplied to element 15. By a signal from block 18 through trigger OR 17, trigger 16 is brought into a single state. At the output of the flip-flop 16 produces the voltage U ψ 0, _h is ⁵⁰ enters the member 15, comprising a generator 7 which generates a sequence of pulses, the repetition period of which is selected from the calculating time required for ³³ cheniya exclude transients Proposition Guy device. The first pulse of the generator 7, the switches 5, 8 and 9 are set to position 1. At the same time, from the first output of the reference voltage source 6, a control voltage is supplied through the switch 5 to the first input of the attenuator 2, which changes the signal level of the auxiliary generator 1 to a value corresponding to the maximum the scale of the verifiable voltmeter 4, which through the tee 3 is fed to the inputs of the verifiable 4 and the reference 14 voltmeters. From the outputs of voltmeters 4 and 14, the converted voltages Ts and _g are fed to a subtractor 13, where their difference -and _{g is formed} , which is fed to the first input of the divider 11. At the second input of the divider 11, this is fed to the second input of the switch 9. voltage source 12, a voltage value corresponding to the verified result ^{and the} voltmeter 4. 1 - ² relationships jj-> which is produced in a digital divider 11, via the first output of the switch 8 is supplied to a first input of the indicator 10 on which is displayed measurable error value .chislennoe voltage rhenium with a verified voltmeter 4.

The second pulse of the generator 7, the switches 5, 8 and 9 are set to position 2, the attenuator attenuation changes, another reference voltage is connected, which corresponds to the end of the next scale of the calibrated voltmeter 4, etc. After determining the error of voltage measurement with a verified voltmeter, on its last scale, the ring switch of the switch 5 is activated, the output voltage of which through the second input of the OR element 17 transfers the binary trigger 16 to its original position. A voltage is generated again at its output, and the 7 pulse generator is turned off.

Thus, automatic determination of the error of voltage measurement by a voltmeter is carried out.

The proposed device, in comparison with the known one, will automatically determine the error of voltage measurements with a voltmeter while increasing speed.

Claims (1)

A DEVICE FOR DETERMINING THE MEASUREMENT ERROR BY A VOLTOMETER, containing a serially connected auxiliary generator, an attenuator, a tee, the first output of which is connected to the input terminal of a verified voltmeter, and a standard voltmeter, characterized in that, in order to automate and increase the reliability of determining the error, a block is introduced into it trigger, OR element, trigger, actuator, pulse generator, digital divider, three switches, indicator, reference voltage source, while the outputs of the first comm the utilities are connected to the control inputs of the attenuator, the inputs to the outputs of the reference voltage source, and the control input to the output of the pulse generator and to the control inputs of the second and third switches, the outputs of the second switch are connected to the indicator inputs, and the input to the output of the digital divider, the first g whose input through the third switch is connected to the outputs of the reference voltage source, and the second input is connected to the output of the subtractor, the first input of which is connected to the output terminal of the voltmeter being verified, and the second through the exemplary ltmetr connected to the second output of the tee. 1,280,811 p ^