Appendix f. calibration and zeroing, F.1 calibration essentials, F.1.1 definition of calibration – Campbell Scientific LoggerNet Datalogger Support Software User Manual

Appendix F. Calibration and Zeroing

F.1 Calibration Essentials

F.1.1 Definition of Calibration

Calibration, in general, refers to actions taken on a measurement system to

increase its accuracy. This is usually done by matching the system’s outputs to

known “control” values in order to increase confidence in the measurement of

future unknowns.

Campbell Scientific’s approach to calibration uses a datalogger’s measurement

and computational capability to calculate the multipliers and/or offsets to be

used by a measurement instruction to provide more accurate readings. The

process of calibration uses the datalogger to assist the operator in intelligently

and automatically setting the multiplier and offset to be used in a measurement

instruction in order to obtain more accurate output data.

Calibration is periodically necessary when there has been sensor drift or other

variation in sensor outputs. When a calibration instruction is part of the

datalogger program, it is quick and easy to use a software Wizard to change the

measurement configuration at run-time. This saves time over previously used

methods, such as re-writing the CRBasic program or interfering with

measurements to obtain calibration constants manually. With this method,

changes to multipliers and offsets can be made quickly and automatically

without rewriting datalogger programs or interfering with sensor

measurements.

F.1.2 Basic Calibration Process

When calibrating with a Campbell Scientific datalogger, known and measured

values are given as inputs. The outputs of the calibration then become the new

values for the multiplier and offset variables in the CRBasic program. If

needed, these calculated multipliers and offsets can be permanently stored and

automatically reloaded upon program restart (such as when a power-cycle

occurs on the datalogger). The datalogger makes use of a calibration file

(*.cal) to store these calibration values and load them as desired. This can be

done at datalogger power-up or at other times designated within the datalogger

program.

To evaluate calibration histories, a final storage output table can be configured

to store the results of calibrations that have been performed, and the date and

time at which those calibrations were performed. This data is separate from the

calibration file and forms a permanent history of calibration constants used

within the program.

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