Fluke Biomedical 10100AT User Manual

Appendix

Energy Correction Factors

B

B-7

B.6.2 Unattenuated Beam (In front of the phantom)

The energy correction factors for the 96020C are determined for the unattenuated diagnostic beam using
the PTB defined DV series of beam qualities given in Table B-2.

Table B-2. Specifications for PTB Defined Unattenuated Beam Qualities

PTB Denomination

kVp

Added Filtration

in mm Al

First HVL

in mm Al

First HVL

in mm Cu

DV30 30

2.5 1.05

0.031

DV40 40

2.5 1.42

0.045

DV50 50

2.5 1.82

0.059

DV70 70

2.5 2.45

0.081

DV90 90

2.5 3.10

0.112

DV100 100

2.5 3.60

0.126

DV120 120

2.5 4.30

0.165

DV150 150

2.5 5.40

0.231

Typical energy correction factor curves are obtained by dividing the calibration factor at each beam
quality by the calibration factor at a reference point and plotting the result versus first HVL.

The typical correction factor curves for the unattenuated beam are shown below normalized to L100 in
Figure 5 and DV70 in Figure 6. All 96020C ion chambers must have an actual correction factor within ±
1.5% of the value shown in the curves at any point. Users receiving the standard calibration must request
a calibration factor at either L100 or DV70 to use the correction factors in these curves.

The numerical value shown beside each point is the kVp value of that point in the DV series of beam
qualities. Users making measurements in an unattenuated beam may use these values to easily obtain
the appropriate correction factor. For a more precise correction factor value, the user may calculate the
actual first HVL and locate the proper correction value on the curve.

Figure B-5.Energy Correction Factors for Model 96020C in Unattenuated Beam Normalized to L100