GE ISOVOLT Titan E Brochura
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GE Inspection Technologies
Xray
©2004 General Electric Company. All rights reserved.
GEIT-30029GB (2/05)
GEInspectionTechnologies.com
The generation of radiation in an X-ray
tube solely depends on the operation
values, not on the make.
tube solely depends on the operation
values, not on the make.
The dose rate relevant in practice and
suitable for calculations of radiation pro-
suitable for calculations of radiation pro-
tection values is defined by national stan-
dards; thus the dose rate of the tubehous-
ing ISOVOLT 160 M2/0.4-1.5, measured
at a distance of 1 m from the focal spot,
amounts to 4.04 Sv/h at maximum tube
voltage and maximum anode dissipation.
dards; thus the dose rate of the tubehous-
ing ISOVOLT 160 M2/0.4-1.5, measured
at a distance of 1 m from the focal spot,
amounts to 4.04 Sv/h at maximum tube
voltage and maximum anode dissipation.
This value must not be used to assess
biological effects.
biological effects.
The dose rate of the leakage radiation is
< 2.5 mSv/h (250 mrem/h).
< 2.5 mSv/h (250 mrem/h).
Dose Rate within the Central Beam
Technical Data
53.5 (2.1")
40˚
∅
110 (4.4")
∅
100 (4")
304 (12")
506 (20")
0
20
40
60
80
100
120
140
160
1
4
2
3
5
6
Tubenhousings
Wire IQI [%]
Material thickness Al [mm]
: 160 MM2 (
geometr. magnification 6:1)
: 160 M2
(with image enhancement)
: 160 M2
10
20
30
40
50
100
150
0
0
kV
mA
640 W
1600 W
Maximum tube voltage
160 kV
Large focal spot
Small focal spot
Maximum anode dissipation
1600 W
640 W
Tube current at max. tube voltage
10 mA
4 mA
Focal spot size (EN 12 543)
3.0 mm (~ 1.5 IEC 336)
1.00 mm (~ 0.4 IEC 336)
Emergent beam angle
40°
Inherent filtration
1 mm Be
High voltage connection
Plug socket for rubber cone plug R24 with optional quick-lock cable flange
Cooling water flow rate
min. 4 l/min
Cooling water temperature
max. 40° C
Cooling water pressure
max. 6 bar
Weight (with optional cable quick-lock)
8.5 kg (18.7 lbs)
Dimensions
see drawing