rev.2.0 07.05.15
DUV-HL46N
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Deep Ultraviolet Light Emission Source
265, 280, 310, 325, 340 nm
TO18 metal can
Hemispherical SiO
2
lens
Beam angle 6 deg.
Description
DUV-HL46N
is a series of
AlGaN
based single emitter DEEP-UV LEDs in a hermetically sealed TO18 package, utilizing a
hemispherical quartz glass lens with narrow beam angle of 6 degree.
DUV-HL46N
is available from 265 nm up to 340 nm peak
wavelength with an optical output power of typically 0.5 mW.
Maximum Rating
(T
Parameter
Forward Current
(T
A
=25°C)
Operating Temperature
Storage Temperature
CASE
= 25°C)
Symbol
I
F
T
OPR
T
STG
T
SOL
- 20
- 40
Values
Min.
Max.
40
+ 80
+ 100
+ 300
Unit
mA
°C
°C
°C
Soldering Temperature (max. 5s)
Electro-Optical Characteristics
(T
Parameter
Peak Wavelength
Radiated Power
Spectral Width (FWHM)
Forward Voltage
Reverse Voltage
(I
R
=10µA)
Reverse Current
(V
R
=5V)
Viewing Angle
Thermal resistance
Rise time*
Fall time*
Symbol
λ
P
P
O
∆λ
V
F
V
R
I
R
2Ө
1/2
RӨ
J-REF
t
R
t
F
CASE
=
25°C, I
F
=20 mA)
Unit
nm
mW
nm
V
V
µA
deg.
°C/W
20
9
12
9
ns
ns
DUV265 DUV280 DUV310 DUV325 DUV340
-HL46N -HL46N -HL46N -HL46N -HL46N
265 ±5
0.3
9
10
>4
<50
280 ±5
0.9
11
7
>2
<200
310 ±5
0.4
9
6.5
>10
<1
6
190
/
/
/
/
16
8
325 ±5
0.5
8
5
>10
<1
340 ±5
0.6
9
4
>10
<1
* frequency=100kHz, duty cycle=1%, I
FP
=200mA
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Performance Characteristics
Forward Current vs. Forward Voltage
Spectrum
Forward Voltage vs. Ambient Temp.
Wavelength Shift vs. Ambient Temp.
Radiant Flux vs. Ambient Temp.
Forward Current vs. Relative Radiant Flux [%]
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Precautions
Soldering:
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Do avoid overheating of the LED
Do avoid electrostatic discharge (ESD)
Do avoid mechanical stress, shock, and vibration
Do only use non-corrosive flux.
Do only solder the leads. Soldering of header or cap will damage the LED
Do only cut the leads at room temperature with an ESD protected tool
Do not solder closer than 3 mm from base of the header
Do form leads prior to soldering
Do not impose mechanical stress on the header when forming the leads
Do not apply current to the LED until it has cooled down to room temperature after soldering
Static Electricity:
LEDs are sensitive to electrostatic discharge (ESD).
Precautions against ESD must be taken when handling or
operating these LEDs. Surge voltage or electrostatic discharge can result in complete failure of the device.
UV-Radiation:
During operation these LEDs do emit
high intensity ultraviolet light,
which is hazardous to skin and eyes, and may
cause cancer. Do avoid exposure to the emitted UV light.
Protective glasses are recommended.
It is further advised
to attach a warning label on products/systems that do utilize UV-LEDs:
Class 1
Operation:
Do
only
operate LEDs with a current source.
Running these LEDs from a voltage source
will
result in complete failure of the device.
Current of a LED is an exponential function of the voltage across it. Usage of current regulated drive circuits is
mandatory
© All Rights Reserved
The above specifications are for reference purpose only and subjected to change without prior notice
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