9 accuracy considerations – Fluke Biomedical 06-526 User Manual

Operation

Accuracy Considerations

2

2-7

2.9 Accuracy Considerations

2.9.1 Electrometer Drift

Each instrument has a constant drift which can be measured in a zero radiation field. Drift is expressed
as mR/min and has a typical value of 1 mR/min or less. By recording the drift rate, this error can be
corrected. Refer to Table 2-2. Drift of the internal chamber can only be measured in the manual mode.

2.9.2 Air Density Corrections

Temperature and pressure have a definite effect on the response from the ion chamber; they determine
the number and density of molecules present for ionization. Figure 2-2 shows the correction factors used
for changes in temperature and altitude (from 22°C and sea level). To achieve maximum accuracy, use
the following equation:

Corrected Exposure =

(Measured Exposure - Drift x Exposure Time) (CF

T

) (CF

P

)

Where CTT and CFP are the correction factors for temperature and pressure respectively. Note that no
more than 2% errors result over the temperature range of 60° to 82°F (16° to 28°C), so that the
temperature correction can normally be disregarded.

In the above equation, CF

T

and CF

P

can be calculated (rather than approximating using Figure 2-2).

CF

T

=

T(°C) + 273

295

CF

P

=

760

P(mm

Hg)

Where:

T(°C) = temperature measured in degrees C, and

P (mm Hg) = pressure measured in mm Hg