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PDF L6311-50 Data sheet ( Hoja de datos )

Número de pieza L6311-50
Descripción The best light source is supported by the best electrode technology
Fabricantes Hamamatsu Corporation 
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PATENTS
LAMPS
DEUTERIUM LAMPS
The best light source is supported by the best electrode technology.

1 page




L6311-50 pdf
L2D2 Lamps (Deuterium Lamps )
POWER SUPPLY
Extremely high stability of intensity is required for deuterium lamps because of their applications.
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operation is recommended.
circuit in the main power supply
section
and
a constant-voltage circuit in the filament power supply section to assure a reliable operation.
Hamamatsu offers not only OEM power supplies specially designed for your applications, as well as the following
types according to the operation mode of various lamps.
SPECIFICATIONS
Parameter
C1518
C7860
Control Methode
Dropper Type
Switching Type
Input
Input Voltage
(AC) 100/118/230 ±10 % (AC) 90 to 115/180 to 250
(Automatic)
Input Wattage
100 60
With Load
Output Voltage
Without Load
(DC) 80
(DC) 160
(DC) 80
(DC) 160
Output Current
Anode
Trigger Voltage
300
600 ± 50
300
600 ± 50
Output
Fluctuation (p-p)
Drift
0.1 0.5
±0.1 ±0.1
Output Voltage
See below
See below
Heater Output Current
See below
See below
Warm-up Time
20 25
Ambient Temperature
0 to +40
0 to +40
Cooling
Dimensions (W × H × D)
Not required
200 × 107 × 240
Not required
113 × 122 × 220
Weight
6.7 2.7
Certification
——
M7628
Switching Type
(DC) 24 ± 2.4
48
(DC) 80
(DC) 160
300
600 ± 50
0.5
±0.1
See below
See below
25
0 to +40
20 CMF of forced air
100 × 118 × 36.2
0.17
UL/CE
Unit
V
VA Max.
V Typ.
V Typ.
mA
V peak
% Max.
%/h Max.
s Typ.
°C
mm
kg
HEATER VOLTAGE AND CURRENT
Type No.
Warm-up
Voltage (V dc) Current (A dc typ.)
C1518 (2.5 V)
2.5 ± 0.2
4
C1518 (10 V)
C1518 (SQ2.5 V)
C1518 (SQ10 V)
10 ± 1
2.5 ± 0.2
10 ± 1
0.8
4
1.2
C7860/M7628-2510
2.5 ± 0.15
4
C7860/M7628-2517 A
C7860/M7628-3000 A
C7860/M7628-1035 A
C7860/M7628-1070
C7860/M7628-1555 A
2.5 ± 0.15
3 ± 0.15
10 ± 0.5
10 ± 0.5
15 ± 0.75
4
5
0.8
1.2
0.5
NOTE A C7860 series are manufactured only when the order is placed.
* Characteristics are measured at 23±1 °C after 30 min of warming up.
Operation
Voltage (V dc) Current (A dc typ.)
Applicable Lamps
1.0 ± 0.1
1.8 L6565, L7293, L6999, L6999-50
L7307, L7174, L6301, L6302
3.5 ± 0.5
0.3 L6307, L6308, L7292
1.7 ± 0.2
3.3 L7298, L6303, L6304, L7306
7.0 ± 0.5
1 L7296, L7295, L6309, L6310, L7296-50
1 ± 0.05
L6565, L7293, L6999, L6999-50
1.8
L7307, L7174, L6301, L6302
1.7 ± 0.1
3.3 L7298, L6303, L6304, L7306
0 0 L6566, L6305, L6306
3.5 ± 0.2
0.3 L6307, L6308, L7292
7 ± 0.35
1 L7296, L7295, L6309, L6310, L7296-50
5.5 ± 0.3
0.3 L6311, L6311-50, L6312, L6312-50
TLSOF0068
C1518
7
C7860
TLSOF0150
M7628
TLSOF0150
TECHNICAL INFORMATION
Spectral Distribution
Deuterium lamps emit high intensity light in the UV range at wavelengths
shorter than 400 nm. Light intensity on the short wavelength side is deter-
mined by the window material used.
Figure 1: Spectral Distribution
TLSOB0024ED
0.5
SYNTHETIC SILICA
(PROJECTING TYPE, 1 mm THICK)
0.1
0.05
UV GLASS
Light Distribution
The non-projecting type uses the side of the cylindrical glass bulb as the
emission window, whilst the projecting type uses a plane glass attached
to a projection on the bulb.
The projecting type has a uniformed transmittance due to the plane glass.
Since the window is located far from the discharge position, the amount
of dirt produced by spattering from the electrodes is reduced resulting in
low deterioration of light output. The non-projecting type requires less
space and has a wider directivity since there is no projection, enabling
effective use of emitted light. The long-nose projecting type uses an
MgF2 window and is suitable for vacuum ultraviolet applications. This
type is used with the tip of the nose inserted into the vacuum equipment.
Figure 3: External View
Non-projecting type
Projecting type
Long-nose projecting type
0.01
160 200 240 280 320 360 400
WAVELENGTH (nm)
Window Material
The following 4 types of window material are available for deuterium lamps.
(1) UV glass
(2) Synthetic silica
(3) MgF2
Figure 2 shows the transmittance of various window materials.
UV light at wavelengths shorter than 190 nm attenuates greatly due to its
absorption by oxygen. To obtain the fullest performance in window trans-
mittance, it is recommended that the inside of the equipment be filled with
nitrogen or vacuum-evacuated to eliminate this absorption effect.
Figure 2: Typical Transmittance of Various Window Materials
TLSOB0038EC
100
80
60
MgF2
SYNTHETIC SILICA
40
UV GLASS
20
100 150 200 250 300 350
WAVELENGTH (nm)
GUV glass
UV glass has a higher ultraviolet transmittance than normal optical glass
(borosilicate glass). It has the longest cut off wavelength of 185 nm among
the four types. However the generation of ozone is lower than other wind-
ow material types, it is not necessary to have special anti-ozone treat-
ments.
GSynthetic silica
Synthetic silica is obtained by fusing a silica crystal that is artificially
grown. Although its cut off wavelength is 160 nm, it contains less impuri-
ties than fused silica, and transmittance at 200 nm has been improved by
approx. 50 %.
GMgF2
MgF2 is a crystallized form of alkali metal halide that has an excellent
ultraviolet transmittance, a low deliquescence and is used as window
material for vacuum ultraviolet applications. Its cut off wavelength is 115
nm.
Figure 4: Directivity (Light Distribution)
TLSOF0139
Non-projecting type
30°
15°
0
15°
30°
Projecting type
30°
15°
0
15°
30°
Long-nose
Projecting type
30°
20°
10°
0
10°
20°
30°
TLSOB0021EA
TLSOB0020EA
TLSOB0077EA
Arc Distribution
Arc intensity is determined by the aperture (light exit) size. Figure 5
shows typical spectral distributions for lamps with different aperture sizes.
At the same input current and voltage, lamps with an aperture of 0.5 mm
diameter (high brightness type) provide 1.6 times higher brightness than
lamps with an aperture of 1.0 mm diameter (standard type). The half
width of spectral distribution also becomes narrower with a reduced aper-
ture size. When higher intensity is required or the object to be irradiated
is very small, the high brightness type is recommended.
Figure 5: Arc Distribution
APERTURE: 0.5 mm
(High Brightness Version)
0.5 mm
APERTURE
YX
APERTURE: 1.0 mm
(Standard Version)
1.0 mm
APERTURE
YX
TLSOB0049EB
8

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