SBM-160 Product Datasheet
SBM-160 LEDs
Features:
Table of Contents
Technology Overview . . . . . .2
Test Specifications . . . . . . . . .2
White Binning Structure . . . .3
Product Shipping &
Labeling Information . . . . . . .4
Electrical Characteristics . . .5
Lifetime & Lumen
Maintenance. . . . . . . . . . . . . . .8
Spectral Characteristics. . . . .8
Radiation Patterns . . . . . . . . .9
Thermal Resistance . . . . . . . .9
Mechanical Dimensions . . 10
Solder Profile . . . . . . . . . . . . 12
Ordering Information . . . . 13
•
Extremely high optical output: up to 350 Red lumens
up to 860 Green lumens
up to 180 Blue lumens
up to 760 White lumens
•
High thermal conductivity package - junction to case thermal resistance as low as
1.46ºC/W
•
Photonic lattice technology for very high surface brightness and uniform emission
•
Four big chips with emitting area of 4 mm
2
each
•
Environmentally friendly: RoHS compliant
•
Variable drive currents:1 A to 4 A
•
Available in RGBW combination
Applications
•
Fiber-coupled Illumination
•
Architectural and Entertainment
Lighting
•
Medical Lighting
•
Machine Vision
•
Spot Lighting
•
Displays and Signage
1
PDS-001432Rev 05
© 2012 Luminus Devices, Inc. - All Rights Reserved
Luminus Devices, Inc.
•
T
978.528.8000 • www.luminus.com
1100 Technology Park Drive • Billerica, MA 01821
SBM-160 Product Datasheet
Technology Overview
Luminus Big Chip LEDs™ benefit from a suite of innovations in the fields of chip technology, packaging and thermal management. These
breakthroughs allow illumination engineers and designers to achieve solutions that are high brightness and high efficiency.
Photonic Lattice Technology
Luminus’ photonic lattice technology enables large area LED
chips with uniform brightness over the entire LED chip surface.
The optical power and brightness produced by these large
monolithic chips enable solutions which replace arc and
halogen lamps where arrays of traditional high power LEDs
cannot.
stress tests, including mechanical shock, vibration, temperature
cycling and humidity, and have been fully qualified for use in
extreme high power and high current applications. With very
low failure rates and median lifetimes that typically exceed
60,000 hours, Luminus Big Chip LEDs are ready for even the
most demanding applications.
Environmental Benefits
Packaging Technology
Thermal management is critical in high power LED applications.
With a thermal resistance from junction to case of 1.46º C/W.
Luminus SBM-160 LEDs have the lowest thermal resistance of
any LED on the market. This allows the LED to be driven at
higher current while maintaining a low junction temperature,
thereby resulting in brighter solutions and longer lifetimes.
Luminus LEDs help reduce power consumption and the amount
of hazardous waste entering the environment. All Big Chip LED
products manufactured by Luminus are RoHS compliant and
free of hazardous materials, including lead and mercury.
Reliability
Designed from the ground up, Luminus Big Chip LEDs are one of
the most reliable light sources in the world today. Big Chip LEDs
have passed a rigorous suite of environmental and mechanical
Understanding Big Chip LED Test Specifications
Every Luminus LED is fully tested to ensure that it meets the high quality standards expected from Luminus’ products.
Testing Temperature
Luminus surface mount LEDs are typically tested with a 20 ms
input pulse and a junction temperature of 25ºC. Expected flux
values in real world operation can be extrapolated based on the
information contained within this product data sheet.
This method of measurement ensures that Luminus Big Chip
LEDs perform in the field just as they are specified.
Multiple Operating Points
The tables on the following pages provide typical optical and
electrical characteristics. Since the LEDs can be operated over a
wide range of drive conditions (currents from less than 1A to 4A,
and duty cycle from <1% to 100%), multiple drive conditions are
listed.
2
PDS-001432Rev 05
© 2012 Luminus Devices, Inc. - All Rights Reserved
Luminus Devices, Inc.
•
T
978.528.8000 • www.luminus.com
1100 Technology Park Drive • Billerica, MA 01821
SBM-160 Product Datasheet
SBM-160 White Binning Structure
White die of SBM-160 LEDs is tested for luminous flux and chromaticity at a drive current of 4.0 A (1.0 A/mm
2
) and placed into one of the
following luminous flux (FF) and chromaticity (WW) bins:
Flux Bins
Flux Bin Code (FF)
Minimum Flux (lm)
@ 4.0 A
590
680
Maximum Flux (lm)
@ 4.0 A
680
780
F
G
*Note: Luminus maintains a +/- 6% tolerance on flux measurements.
Chromaticity Bins
1A
Chromaticity Bins
Bin Code (WW)
1A
CIEx
0.302
0.290
CIEy
0.296
0.308
CIEx
0.310
0.322
CIEy
0.345
0.333
3
PDS-001432Rev 05
© 2012 Luminus Devices, Inc. - All Rights Reserved
Luminus Devices, Inc.
•
T
978.528.8000 • www.luminus.com
1100 Technology Park Drive • Billerica, MA 01821
SBM-160 Product Datasheet
Product Shipping & Labeling Information
All SBM-160 products are packaged and labeled with their respective bin as outlined in the tables on pages 3 & 4. When shipped, each
package will only contain one bin. The part number designation is as follows:
SBM
Product Family
160
Chip Area
RGBW
Color
H41
Package Configuration
FF
Bin Kit Identifier
GX: RF100
G4: RG101
G5: RG101
G6: RG102
G7: RG102
Surface Mount
(window)
16.0 mm
2
R:
Red
G:
Green
B:
Blue
W:
White
Internal Code
Note :
Some flux and chromaticity bins may have limited availability. Application specific bin kits, consisting of multiple bins, may be available.
For ordering information, please refer to page 14 and reference PDS-001792: SBM-160 Binning & Labeling document.
Example:
The part number SBM-160-RGBW-H41-GX refers to bin kit SBM-160-RGBW-H41-RF100 which consists of a RGBW, SBM-160 emitter, with a
white flux greater than 590 lumens and a chromaticity value within the box defined by the four points (0.302, 0.296), (0.290, 0.308),
(0.310, 0.345), (0.322, 0.333).
4
PDS-001432Rev 05
© 2012 Luminus Devices, Inc. - All Rights Reserved
Luminus Devices, Inc.
•
T
978.528.8000 • www.luminus.com
1100 Technology Park Drive • Billerica, MA 01821
SBM-160 Product Datasheet
Optical & Electrical Characteristics
1,2
Parameter
Drive Condition
3
Current Density
Forward Voltage
Typical Luminous Flux
4
Minimum Luminous Flux
Wavelength min-max
FWHM
Chromaticity Coordinates
5
Radiometric Efficiency
Emitting Area
Emitting Area Dimensions
Dynamic Resistance
Thermal Coefficient of Photometric Flux
Thermal Coefficient of Radiometric Flux
Temp. Coefficient of Forward Voltage
Maximum Current
6
Maximum Junction Temperature
7
Storage Temperature Range
Note 1:
Note 2:
Note 3:
Symbol
I
j
V
F min
V
F typ
V
F max
Φ
v typ
Φ
V min
λ
d
Δλ
1/2
x
y
η
rad
-
-
Ω
dyn
Red
4.0
1.0
2.3
2.6
3.0
320
260
619-626
18
0.695
0.304
21
4.0
2.09
x
1.87
0.05
-1.14
-0.69
-2.1
4
110
-40/+100
Green
4.0
1.0
4.0
4.6
5.0
820
740
520-540
38
0.165
0.708
6
4.0
2.09
x
1.87
0.07
-0.17
-0.18
-3.9
4
150
-40/+100
Blue
4.0
1.0
3.2
3.8
4.0
150
110
450-465
24
0.142
0.043
15
4.0
2.09
x
1.87
0.08
-0.008
-0.13
-5.1
4
150
-40/+100
White
4.0
1.0
3.2
3.8
4.2
730
590
N/A
N/A
0.300
0.310
13
4.0
2.09 x 1.87
0.08
-0.20
-0.18
-4.5
4
150
-40/+100
Unit
A
A/mm
2
V
V
V
lm
lm
nm
nm
-
-
%
mm
2
V
Ω
%/ºC
%/ºC
mV/ºC
A
ºC
ºC
-
-
-
-
T
jmax
-
All ratings are based on test conditions of T
j
=25
ºC
, 20 millisecond pulse. See Thermal Resistance section for T
hs
definition.
Unless otherwise noted, values listed are typical. Devices are production tested and specified at 1.0A/mm
2
for red, green, blue and white.
Listed drive conditions are typical for common applications. SBM-160 RGBW devices can be driven at currents ranging from <1 A to 4 A
depending on color and at duty cycles ranging from 1% to 100%. Drive current and duty cycle should be adjusted as necessary to maintain
the junction temperature desired to meet application lifetime requirements.
Total flux from emitting area at listed dominant wavelength. Reported performance is included to show trends for a selected power level. For
specific minimum and maximum values, use bin tables. For product roadmap and future performance of devices, contact Luminus.
In CIE 1931 chromaticity diagram coordinates, normalized to X+Y+Z=1.
SBM-160 RGBW devices are designed for operation to an absolute maximum current as specified above. Product lifetime data is specified at
recommended forward drive currents. Sustained operation at or beyond absolute maximum currents will result in a reduction of device
lifetime compared to recommended forward drive currents. Actual device lifetimes will also depend on junction temperature. Refer to the
lifetime derating curves for further information. In pulsed operation, rise time from 10-90% of forward current should be larger than 0.5
microseconds.
Lifetime dependent on LED junction temperature. Input power and thermal system must be properly managed to ensure lifetime. See charts
on pg 8 for further information.
Note 4:
Note 5:
Note 6:
Note 7:
5
PDS-001432Rev 05
© 2012 Luminus Devices, Inc. - All Rights Reserved
Luminus Devices, Inc.
•
T
978.528.8000 • www.luminus.com
1100 Technology Park Drive • Billerica, MA 01821
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