SU600722A2 - Meter of drift of digital voltmeters and digital pulse-counting frequency meters - Google Patents

Description

one

The invention relates to electrical measuring equipment and can be used to monitor digital voltmeters and frequency meters.

A drift meter of digital voltmeters and digital pulse-frequency meters is known, which contains threshold elements, reversible counters, a code-voltage converter and a distributor 1. However, such a device has a low speed.

According to the main author. St. No. 517153 is well known for measuring the drift of digital voltmeters and digital pulse-counting frequency meters, which contains an exemplary frequency generator connected via a driver to one of the inputs of a pulse distributor and to the input of a delay chain, whose outputs are connected to the corresponding inputs of a pulse distributor, which is connected to the first input of a monitored digital device, the first output of which is connected to the first input of the device for comparing codes, the first and second outputs of the device Twa for comparing the codes are respectively connected to the first inputs of the first and second converters counts per nanr zhenne, second inputs of which are combined and connected through a frequency divider with the output of the pulse generator, with

the second input of the monitored digital device and the one-shot input, and the outputs through threshold elements are connected to the inputs of the reversible counter, the first output of which is connected to the first valve input and through the converter code — the voltage is connected to the input of the self-recording voltmeter and the input of the voltage divider whose output connected to the first input of the summing device, the second input of which is connected to the output of the source of the reference voltage, and the output connected to the control input of the mode switch, the first and second The second control inputs of the pulse distributor are connected respectively to the valve output and to the first trigger output, the second output of which is connected to the second clan entrance, and the first and second trigger inputs are connected respectively to the single vibrator output and to the second output of the digital device 2 being monitored.

However, the known meter has a narrow measuring range.

Claims (2)

The aim of the invention is to expand the measurement limit. This is achieved in that the drift meter of digital voltmeters and digital pulse-frequency meters, comprising an exemplary frequency generator, delay chains, pulse distributor, mode switch, controlled digital device, code comparison device, pulse-to-voltage converter, frequency divider, impulse generator, odowattles, threshold elements, reversible counter, valve, code-voltage converter, self-recording voltmeter, voltage divider, summing device, switch ents modes and trigger additional vvedep down counter, and outputs "plus overflow and" minus overflow down counter connected respectively to the inputs "Addition and" Subtraction additional down counter whose output is connected to a second input device for comparing the codes. The block diagram of the device shown in the drawing. The device contains 1 exemplary frequency generator, shaper 2, delay circuit 3, 4 pulse distributor, 5 mode switch, monitored digital device 6, device 7 for code comparison, converters 8, 9 number of pulses into voltage, threshold elements 10, And, reversible counters 12, 13, a voltage converter 14, a valve 15, a self-recording voltmeter 16, a frequency divider 17, a trigger 18, a pulse generator 19, a one-shot 20, a voltage divider 21, a summing device 22, and a source voltage 23 of the reference voltage. The operation of the meter is as follows. The generator 1 through the shaper 2 sets to the input of the chain 3 a stable sequence of short pulses with a frequency of fx. 1Plot 3 is a series of connected delay elements with a delay value of each item. The impulse from the generator 19 starts the device 6 and the one-shot 20. On the falling edge of the pulse from the single-shot 20, the trigger 18 is transferred to the one state and opens the valve 15, thereby allowing the code recorded in the counter 12 to pass through the control valve 4. Depending on the code the counter 12, the valve 4 connects to the input of the device 6 one of the outputs of the chain 3, and the zero of the counter 12 corresponds to the connection of the average output of the chain 3. Therefore, until the end of the reference time interval Gd to the input of the controlled digital device At the end of the period Tc, the measurement result will be sent to device 7 as a code and a trigger 18 will be reset by the "End of measurement" signal. The second input of device 7 will be given an N code corresponding to the nominal frequency fx . Device 7 emits a pulse at its first output if the value of the Lg code of device 6 is greater than the value of the N code, and at the second output, if Ni is less than N. The drift is separated by averaging elements, which are the converters 8, 9 together with the threshold elements 10 and I. Provided that the midpoint of the pulse often fx coincides with the end of the nominal reference time interval Hz cf. the number of codes L ;, larger L and smaller, will be equal to each other. During the averaging time Too, the output of the converters 8, 9 accumulates a voltage proportional to the number of comparison results and. At the end of the time interval Tu with pulse 17, converters 8 and 9 are reset, and threshold elements 10 and 11 evaluate the voltage at their inputs, and only one element 10 or 11 can be triggered. If threshold element 10 is triggered, the pulse will go to the input " Addition counter 12, and if the threshold element 11-tsa input “Subtraction. After the counter 12 changes its state, during subsequent frequency measurements with instrument 6 (frequency meter), pulse distributor 4, controlled by the code of reversible counter 12, after opening valve 15 will shift the sequence of pulses coming through chain 3 by one delay element t. Converter 14 outputs a voltage proportional to the value and repeats the shape of the drift of the device 6. This voltage is recorded by a voltmeter 16. If the displacement of the end of the reference interval of measurement If Gu will become greater than the value of the period of the measured frequency, then the counter 12 will be retired. The overflow signal, depending on the direction in which the moment of the end of the reference interval for measuring Hz has gone, will go to one of the inputs of the reversible counter 13. Reversible counter 13 will change its state, thereby changing the control code stored previously in the reversible counter. With the connection of the generator 19 to the device 6 (digital voltmeter), the latter with the pulse frequency of the generator 19 will output to the device 7 the measurement result in the form of a Ni code. A code corresponding to the number L is supplied to the second input of the device 7. The device 7 outputs a single pulse signal at its first output if the value of the Ni code from the monitored digital device 6 is greater than L, and at the second if the value of the Ni code is less than L. Selection Drift is carried out by introducing averaging elements, which are converters 8 and 9 together with threshold elements 10 and I. At the end of the time interval Gu with impulse from divider 17, converters 8 and 9 are reset, and elements 10 and 11, from which m Jette is only one estimate the voltage at its inputs. At the same time, the input “Addition or“ Subtraction of the counter 12 will enter the imiuls, which will cause a change by a certain value of the voltage on the output of the converter code 14 and, therefore, the voltage on the output of the divider 21. The voltage on the output of the divider 21 supplied and the second input of the device 22 is a feedback loop in the device. The voltage shape of the output of converter 14 and its value, taking into account the division factor of divider 21, corresponds to the shape and value of the drift and is recorded using a self-recording voltmeter 16. In case the drift of the instrumental error of the digital voltmeter exceeds the value of the quantum, the reversible counter 12 will overflow. The overflow signal will change the state of the counter 13, thereby changing the control code that is fed from the output of the counter 13 to one of the inputs of the device 7. Changing the control code shifts the monitored point of the scale of the monitored digital device 6 and takes into account the predominant output of the next voltmeter to be checked. codes. The shape of the curve drawn by the voltmeter 16 will contain a discontinuity caused by the overflow of the reversing counter 12. However, the mode of the meter with the meter does not iruikut, and the curve drawn by the ir coi control code repeats the shape of the drift of the instrumental error. Thus, by introducing a reversible counter 13, the measurement of the drift meter of digital voltmeters and digital counter-immersion frequency meters is achieved. The invention The measuring instrument of the drift of digital voltmeters and digital calculating frequency meters according to the authors. St. N ° 517153, characterized in that, in order to expand the measurement limit, an additional reversible counter was inserted into it, with the outputs "Overflow plus and" Overflow minus the reversible counter connected to the inputs "Addition and" Subtracting an additional reversible counter, the output of which is connected to the second input of the device for comparing codes. Sources of information irinty into account in the examination 1.Shlndin VM. Digital electrical measuring instruments. M., “Energie, 1972, p. 253-255. 2. USSR author's certificate №517153, cl. N OZK 13/02, 14.02.75.