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FX-4400 Datasheet, PDF (2/4 Pages) PerkinElmer Optoelectronics – High Output Xenon Flashlamp
FX-4400 High Output Xenon Flashlamp
Electrical Specifications (all lamps)
Lamp Type
Spectral
Distribution
FX-4400
275 - 2000+
FX-4401
190 - 2000+
FX-4402
160 - 4000
FX-4403
600 - 20,000
Window
Material
Borosilicate
UV Glass
Sapphire
ZnSe
Notes:
1) Input Energy or E = ½CV2 where E = Discharge Energy (Joules)
C = Discharge Capacitor Value
V = Discharge Voltage
The lamp is capable of an input energy higher than 1.0 J/Flash but
long life can not be guaranteed.
2) Maximum Average Power or PAVE = EF where
PAVE = Average Power (Watts)
E = Discharge Energy
F = Rate of flashes in pulses per second
Additional cooling required when operating above 40 Watts.
3) Flash rate must be set so as not to exceed 60-Watts Average
Power. (See Note 2) To operate the lamp at greater than 1000Hz
consult with a PerkinElmer Product Specialist.
4) Life is primarily a function of input energy per flash (E = ½CV2 )
but is also influenced by average power and peak current. See
curves on this page for typical lamp performance.
5) Typical for most operating conditions. Lamp output stability is
dependent on a number of variables including input energy, flash rate,
optics design, Lite Pac and Power Supply.
Electrical Specifications (all lamps)
Energy per flash (joules)1
Average Power (Watts)2
Voltage (Volts)
Flash Rate (Hz)3
Life (flashes)4
Output Stability5
Lite Pac
Power Supply
1.0 Max
60
400 - 1000
1000
> 1 x 109
< 3%
FYD-4400
PS4400
Physical Dimensions
Arc Gap
Reflector Geometry
Weight
Window Diameter
0.060 inch (1.5mm)
Parabolic Y2 = 0.5X inches
125 Grams
1.0 Inch (25.4mm)
Outline Drawing
Ø0.13
1 PL
Ø0.08
3 PL.
0.40
0.11
1.05
1.21
Output Beam Angle
FX-4400 Beam Angle
Photometric
Radiometric
Distance (Lux per flash) (mJ/cm^2 per flash)
1
12"
7.8E2
5.5E-4
24"
2.2E2
1.5E-4
0.9
36"
1.0E2
6.9E-5
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0
-12
-10
-8
-6
-4
-2
0
2
Angle (degrees)
Input Energy = 1 Joule
Distance = 23"
4
6
8
10
12