SU726427A1 - Measurement integration method - Google Patents

Description

one

The invention relates to a measuring technique and may find application in information measuring systems.

Known methods for the integration of measurements by repeated measurements of the input quantity with temporal and spatial averaging.

However, temporal averaging does not provide reliable operation in case of converter failure, and spatial averaging requires a large amount of hardware.

There is also known a method of complexing measurements, which includes multiple measurements of input values, using information transducers, the number of which is greater than the number of input sensors, determining the average value of measurement results and excluding values from the results of calculations that differ from the average by more than 2.

The disadvantage of this method is the Use of at least three converters on one input sensor. Thus, when measuring several input quantities, the number of channels increases significantly.

. The purpose of the invention is to improve the measurement accuracy and reduce the number of required equipment.

The goal is achieved by alternately connecting each transducer to transducers that are not currently connected to the transducers to the input sensors, sending a reference OR zero signal, and when a resultant transducer appears on the output different from the average value permissible, this converter is excluded from the process of connecting to the input sensors.

The drawing shows the block diagram of the device, JKOTOpoe contains sensors 1 input, values, source 2 reference signal, switching in 3, information converters 4, information storage device 5, computing device b and switch logic device 7.

The proposed method is as follows.

Connect information converters 4 to INPUT sensors 1, standard 2 (in general, there can be many standards) and zero bus. At the same time, at least one information converter is connected to each input sensor. Measurement of input values, standards and zero signal is carried out. The obtained information on the input values is transmitted n out and simultaneously stored in the device 5 accumulation of information. Information transducers connected to input sensors, reference and zero bus in a different sequence Repeated measurements of input values, standards and zero signal while connecting the sensors, store the received information in the storage device. Repeat the specified operations until all the transducers are connected to each input transducer. Using the results of the conversion of the reference and zero signal, determine the measurement results of each converter with allowance for corrections.

The average of the corrected measurement results of the input values is calculated and the deviations from the average of the measurement results of each converter are determined. If the channel readings differ from the average more than the permissible value, then the result of measurement of this Channel is excluded and the average of the remaining results is found. This average is taken as a result of the conversion. These operations are performed by device 6.

In the case of exclusion from the results, one of the channels is changed. The cyclogram of connecting the transducers to the input sensors, standards and zero bus is changed, as a result of which the faulty channel is excluded from the connection process to the input sensors.

When a fault is detected, the channel is connected only to the reference or zero bus for monitoring and, if restored, it can be returned to the normal connection process to the input sensors. .

The use of this invention improves the measurement accuracy due to double averaging of information, over time and when measuring with several devices, increases the reliability of operation while reducing the equipment due to the use of the same converters for all input sensors, and the greater the number of input sensors and reliability sensors, provides information failure, as a result of that. That at any time at least one converter is connected to each sensor.

Claims (2)

1.Ornatsky P.P. Theoretical foundations of information and measuring equipment. Kiev, 1976, p. 272-273. 2. Braslavsky DA, Petrov V.V. Accuracy of measuring devices. M., 1976, p. 181-182 (prototype).