SU494700A1 - Digital Voltmeter Drift Meter - Google Patents

Description

(54) DRIFT MEASURING DIGITAL VOLTMETERS

converters are connected via a frequency divider to the generator -3, and the outputs are connected to .pages, elements 7 and S. The output. 9/1 output of which is connected to the inverter 10. Occasion 10. Input "nyiCK" (which is connected to generator 3, and digital IBexit - to the “equalization of codes 2” circuit. To another input of the summing circuit 13 (a source of reference voltage is connected /.

The output of the regulated reference source is set to voltage.

U.N + 0.5,

where .V is an integer corresponding to the value of the monitored point of the measurement range of the digital 1 voltmeter being checked.

The voltage UQ corresponds to the boundary of the transition from L to the number N + 1 1 at the output of the voltmeter being tested. However, IB real digital voltmeters, this limit may not coincide with the specified level, and the difference between them determines the instrumental error of the instrument. With the connection of the generator 3 to the voltmeter 14, the latter with the frequency of the generator 3 will give the measurement result in the form of a code to the code comparison circuit, to the second input of which a code corresponding to the number L is supplied. The code 2 comparison circuit has two outputs. At the first output, a single 1-pulse appears in the form of a pulse, if the code value coming from the voltmeter is greater than N, and the second is if Ni N.

The uncertainty of the voltmeter is random (a process with a wide spectrum that CAN be arbitrarily divided (relatively) (BbicoKoqaiCTOTHbie and on-frequency (drift).

The task of the meter is (selection of low frequency | component (drift). For this purpose, (averaging elements are assigned - converters of the number of pulses to voltage 4 and 5 and threshold elements 7 and 5.

(The averaging time is determined by the expression:

Y / Y - - -,

where n is the division factor of the divider 6; f is the frequency of the pulse generator 3.

During this time, the output of transducers 4 and 5 accumulates a voltage that is proportional to the number of outcomes.

compare and. At the end of the time interval T, the impulse from frequency divider 6 resets (converters 4 and 5, and threshold elements 7 and S, the threshold value of which is equal to half of the maximum false 1) (jumpers at 1 output of converters (drivers 4 and 5) are evaluated (voltage At the same time (at the same time, only one (the threshold element,

and to the input “addition or“ subtraction of the reversible ACCET ”(ka 9 a pulse arrives that causes a change by a certain value (voltage across the output of both the converter (code-voltage 10 and voltage divider 12).

The division factor of divider 12 is chosen so that the voltage level at its output 1, corresponding to the low-order unit of the reversing counter 9 and

a code-on converter (strap 10, was, for example (one-tenth of a Juvante checkable (voltmeter).

The voltage from the divider 12 represents (is a (Feedback feedback in the servo system, which is the device in question, and when it is monitored for AND) (the error component, i.e., the drift Voltage form (at the output of the converter is coded (device 10 and its value taking into account the division factor of the divider (voltage 12 corresponds to the form (me and 3 | Voltage of the checked voltmeter). This voltage is recorded using a self-writing 1 voltmeter 11.

Subject invention

A digital voltmeter drift gauge containing a source of reference voltage (Code Comparison Scheme, a generator named it (pulsator connected to the inlet) (empty (To a calibrated voltmeter, and a self-recording volt meter characterized in that

printing (continuous (automatic recording of measurement results in time), pulse number converters IB voltage, frequency divider, threshold elements, reversible counter, code-voltage converter, voltage divider and summing circuit are supplied to it, and the “more and “Fewer or 10p1Applications of the codes are connected to the inputs of the converters of the number of pulses to voltage, the fault inputs of which are connected via a frequency divider to the pulse generator, and 1 OUTPUTS of the converters of the number of pulses in (across the threshold elements are connected to the “addition

and "subtracting a reversible counter connected (To a code-voltage converter, the output of which is connected to a recording voltmeter and through a voltage divider and summing circuit, to another

input voltmeter to be checked.