H2A1-H490

H2A1-H490
High Power single chip LED
H2A1-H490 is a InGaN based, high power 490 nm single chip LED in standard hexagonal Aluminum package for
general application. Slots in the Aluminum-core PCB allow for easy mounting of standard collimating optics and are
also suitable for M3 or M4 mounting screws. Large electrical interconnection pads on the PCB allow for convenient
installation.
Specifications
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Structure: InGaN
Peak Wavelength: 490 nm
Optical Output Power: typ. 130 mW
Life Time: > 10.000 hours
Lead free product - RoHS compliant
Absolute Maximum Ratings (Ta=25°C)
Parameter
Power Dissipation, DC
Forward Current, DC
Pulsed Current (1% duty cycle, 1kHz)
Reverse Voltage
Operating Temperature
Storage Temperature
Soldering Temperature (max. 1,5 s)
Symbol
PD
IF
IFP
UR
Topr
Tstg
Tsol
Value
1000
500
1000
-5
-30 … +70
-30 … +85
330
Unit
mW
mA
mA
V
°C
°C
°C
Electro-Optical Characteristics (Ta=25°C)
Parameter
Forward Current
Viewing Angle
CW Output Power
Peak Wavelenght
Forward Voltage
Half Width (FWHM)
Symbol
IF
φ
PO
λP
UF
Δλ
Condition
IF = 350 mA
IF = 350 mA
IF = 350 mA
IF = 350 mA
IF = 350 mA
Min.
-
-
Typ.
350
± 75
130
490
3.3
35
Max.
-
-
Unit
mA
deg.
mW
nm
V
nm
Wavelenght mearurements tolerance is +/- 2%
Output power measurement tolerance is +/- 10%
Voltage measurement tolerance is +/- 2%
Device Materials
Item
foundation
Lens
Electrodes
PCB
13.08.2012
Material
Plastic
Silicone resin
AgCu
Al
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Outline Dimensions
Emitter:
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Radiation Pattern (lambertian lens without optics)
Relative Intensity vs. Angular Displacement
Accessories
Collimating optics, holders, reflectors
10158 + 10146, 2° half angle spot optic + optic holder
10048 + 10076, 4° half angle spot optic + optic holder
10003 + 10043, 6° half angle spot optic + optic holder
10003/15 + 10043, 15° half angle spot optic + optic holder
10003/25 + 10043, 25° half angle spot optic + optic holder
CLP17CR, 6° metalized polycarbonate reflector
CLP23CR, 20° metalized polycarbonate reflector
Static Electricity
LEDs are very sensitive to static Electricity and surge voltage. It is recommended to wear a wristband or
an anti-electrostatic glove whenever handling the LEDs
All devices, equipment, and machinery that is used when handling the LEDs must be grounded
properly.
Heat Generation
It is advised to operate these LEDs at a reasonable low temperature for long lifetime and stability. High
operating temperature will result in premature degradation and shortened lifetime.
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Soldering Conditions
Reflow Soldering:
APG2C1 LEDs have a maximum storage temperature of 85°. Therefor it is not possible to use
a reflow soldering process for array assembly!
Hot Bar Soldering:
A Hot Bar Soldering process is recommended when soldering APG2C1 emitters. This process
will only transfer heat to the leads and avoids overheating the emitter which will damage the
device. In order to transfer sufficient heat from the hot bar to the device, following parameters
must be carefully considered:
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Amount of flux
Pressing force of solder tip
Hot bar temperature
For the standard assembly process, following parameters should be maintained:
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Hot Bar temperature: 330 °C
Force of Hot Bar. 40 N
Soldering time: 1.5 s
It is recommended to use a copper nickel-plated hot bar mounted to standard temperature
controlled soldering equipment.
Manual Hand Soldering:
For prototype build or small series production runs, it is possible to place and solder the
emitters by hand. It is therefore recommended to maintain the following parameters:
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Solder Tip Temperature 330 °C
Soldering time. < 1.5 s
Junction temperature must be kept below 70 °C
A visual inspection may be used to check the quality of the solder joint
General Soldering Precautions:
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Mechanical stress, shock and vibration must be avoided during soldering
Only use non corrosive flux.
Do not apply current to the device until it has cooled down to room temperature after
soldering.
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