Calibration formulae, O_463, O_604 – BUCHI DuMaster D-480 User Manual

Operation Manual D-480

©BÜCH Labortechnik AG

4 - Understanding the instrument and planning its use

55

Polynomial calculation over the whole range

The following picture shows an example in which a polynomial calculation over the whole range
achieves acceptable calibration curve quality.

Achievable calibration curve quality

Process standard deviation "Proc-SD" and quality factor "r" serve as a measure of achievable
calibration curve quality.

Use the following values for process standard deviation "Proc-SD" as guidelines:

Acceptable value:

Proc-SD = ±3 µg in the lower range

Proc-SD = ±15 µg in the upper range

Very good value:

Proc-SD = ±1 µg

Use the following values for quality factor "r" as guidelines:

Good value for linear calibration function:

r = 0.99 (r should tend to 1)

Good value for polynomial as calibration function

r = < 2-4 (r should tend to 0)

If you do not approximately achieve the listed values you can assume that you have chosen the
wrong calibration curve calculation method.

Calibration formulae

Calculation of absolute element content

Calibration is performed by analyzing samples with known concentrations (standard samples) in
which the measured peak areas are correlated with the corresponding absolute element content.

For a standard sample, the following parameters are known:



element concentration



Weight

Absolute element content is computed according to this formula:

where:

a = absolute element content in [mg]
w = sample weight in [mg]
c = element concentration in [%]