Lumileds LXHL-NM96 Power light source luxeon ring Datasheet

power light source
Luxeon Ring
®
Technical Data DS22
Luxeon® is a revolutionary, energy efficient and ultra compact new light
source, combining the lifetime and reliability advantages of Light Emitting
Diodes with the brightness of conventional lighting.
Features
• Highest Flux per LED in the world
• Very long operating life
(up to100k hours)
• Available in white, green, cyan, blue,
Luxeon features one or more power light sources mounted onto an
aluminumcore printed circuit board, allowing for ease of assembly,
optimum cooling and accurate light center positioning.
red and amber
• Highly efficient collimating optics provide
tight beams
• More energy efficient than incandescent
and most halogen lamps
For high volume applications, custom Luxeon power light source designs
are available upon request, to meet your specific needs.
• Low voltage DC operated
• Cool beam, safe to the touch
• Instant light (less than 100 ns)
• Fully dimmable
Luxeon Power Light Sources give you total design freedom and
• No UV
• Superior ESD protection
unmatched brightness, creating a new world of light.
in reels for high volume assembly. Sample kits are also available for prototyping and
design evaluation. A sample kits contains a strip of 50 taped emitters. To order a sample
Typical Applications
• Decorative lighting
kit, add a “K” to the end
• Architectural detail lighting
• Uplighters/Downlighters/Orientation lighting
• Entertainment lighting
• Bollards
Luxeon Ring is available in white, green, cyan,
blue, red, and amber.
Mechanical Dimensions
Ring with 6 LEDs
Notes:
1.
2.
3.
4.
Ring with 12 LEDs
Notes:
1.
2.
3.
4.
Luxeon Ring
Connector on board AMP type, code
2-179123-2; Mating connector – AMP
receptacle housing assembly, code
173977-2
Slots in aluminum-core PCB for M3 or
#4 mounting screw.
Drawing not to scale.
All dimensions are in millimeters.
2
Document #: DS22 (10/05)
Connector on board AMP type, code
2-179123-2; Mating connector – AMP
receptacle housing assembly, code
173977-2
Slots in aluminum-core PCB for M3 or
#4 mounting screw.
Drawing not to scale.
All dimensions are in millimeters.
Circuit Diagram
Ring with 12 LEDs
1
2
Ring with 6 LEDs
1
2
Flux Characteristics at 700mA,
Junction Temperature, TJ = 25oC
Configuration
Ring 12-up
Ring 6-up
Luxeon Ring
Color
Part Number
Minimum
Luminous Flux
(lm)
ΦV [1,2]
White
Green
Cyan
Blue[3]
Red
Amber
LXHL-NWE6
LXHL- NM96
LXHL- NE96
LXHL- NB96
LXHL- ND92
LXHL- NL92
140
140
140
40
310
240
250
300
300
100
450
425
White
Green
Cyan
Blue[3]
Red
Amber
LXHL- NWE7
LXHL- NM97
LXHL- NE97
LXHL- NB97
LXHL- ND93
LXHL- NL93
70
70
70
20
155
120
125
150
150
50
225
215
3
Typical
Luminous Flux
(lm)
ΦV [2]
Document #: DS22 (10/05)
Notes:
1.
2.
3.
Minimum luminous flux performance
guaranteed within published operating
conditions. Lumileds maintains a
tolerance of +/-10%
for luminous flux measurements.
Flux values for Luxeon Ring with
optics. Luxeon types with even higher
luminous flux levels will become
available in the future. Please consult
your Lumileds Authorized Distributor or
Lumileds sales representative for more
information.
Minimum flux value for 470 nm
devices. Due to the CIE eye response
curve in the short blue wavelength
range, the minimum luminous flux will
vary over the Lumileds’ blue color
range. Luminous flux will range from
minimums of 30 lm for 12-Up and 15
lm for 6-Up Rings at 460nm to
typicals of 150 lm for 12-Up and 75
lm for 6-Up Rings at 480nm due to
this effect. Although the luminous
power efficiency is lower in the short
blue wavelength range, radiometric
power efficiency increases as
wavelength decreases. For more
information, consult the Luxeon Design
Guide, available upon request.
Notes:
Optical Characteristics at 700mA,
Junction Temperature, TJ = 25oC
1.
2.
Dominant
Wavelength[1]
λD
or Color
Temperature[2]
CCT
Min.
Typ.
Max.
Color
White
Green
Cyan
Blue
Red
Amber
4500 K
520 nm
490 nm
460 nm
620.5 nm
584.5 nm
5500 K 10,000 K
530 nm 550 nm
505 nm 520 nm
470 nm 490 nm
627 nm 645 nm
590 nm 597 nm
Spectral
Halfwidth[3]
(nm)
∆λ1/2
temperature
coefficient
of dominant
wavelength
(nm/oC)
∆λD/ ∆ΤJ
Viewing
Angle
per LED[4]
(Degrees)
2θ 1/2
--0.04
0.04
0.04
0.05
0.09
10
10
10
10
10
10
--35
30
25
20
14
Typical
Candela
on Axis
per
LED[8]
(Cd)
250
600
600
200[5]
660
540
3.
4.
5.
6.
7.
Electrical Characteristics at 700mA,
Junction Temperature, TJ = 25oC
8.
Ring 12-Up
Color
Part Number
Forward Voltage[1] (V) VF
Min.
Typ.
Max.
White
Green
Cyan
Blue
Red
Amber
LXHL-NWE6
LXHL-NM96
LXHL-NE96
LXHL-NB96
LXHL-ND92
LXHL-NL92
16
16
16
16
14
14
21
21
21
21
18
18
24
24
24
24
21
21
Dynamic
resistance[2]
(Ω) RD
3
3
3
3
7.2
7.2
Temp
coefficient
of forward
voltage[3]
(mV/oC)
∆VF/ ∆TJ
Thermal
resistance,
junction
to board[4]
o
( C/W) RθJ-B
-12
-12
-12
-12
-12
-12
1.7
1.7
1.7
1.7
1.9
1.9
Ring 6-Up
Color
Part Number
White
Green
Cyan
Blue
Red
Amber
LXHL-NWE7
LXHL-NM97
LXHL-NE97
LXHL-NB97
LXHL-ND93
LXHL-NL93
Forward Voltage (V) VF
Min.
Typ.
Max.
8
8
8
8
7
7
10
10
10
10
9
9
12
12
12
12
11
11
Dynamic
resistance[1]
(Ω) RD
1.5
1.5
1.5
1.5
3.6
3.6
Temp
coefficient
of forward
voltage[2]
(mV/oC)
∆VF/ ∆TJ
Dominant wavelength is derived from
the CIE 1931 Chromaticity diagram
and represents the perceived color.
CRI (Color Rendering Index) for White
product is 70.
Spectral width at ½ of the peak
intensity.
θ½ is the off axis angle from lamp
centerline where the luminous intensity
is ½ of the peak value.
Typical candela on axis per LED for
470 nm devices. Due to the CIE eye
response curve in the short blue
wavelength range, candela values will
vary over the LumiLeds blue color
range.
All red and amber products built with
Aluminum Indium Gallium Phosphide
(AlInGaP).
All white, green, cyan and blue
products built with Indium Gallium
Nitride (InGaN).
All power light sources represented
here are IEC825 Class 2 for eye
safety.
Notes:
1.
2.
3.
Thermal
resistance,
junction
to board[3]
(oC/W) RθJ-B
-6
-6
-6
-6
-6
-6
4.
3.3
3.3
3.3
3.3
3.8
3.8
Lumileds maintains a tolerance of
+/-0.06 Volts per LED for voltage
measurements.
Dynamic resistance is the inverse of the
slope in linear forward voltage model
for LEDs. See Figures 3a and 3b.
Measured between 25oC ≤ TJ ≤ 110oC
at IF = 700mA.
To determine the junction temperature,
multiply by total array power. For best
optical and lifetime performance,
additional heat sinking is required.
Absolute Maximum Ratings
Parameter
White/Green/Cyan/Blue
DC Forward Current (mA) [1]
Peak Pulsed Forward Current (mA)
Average Forward Current (mA)
ESD Sensitivity [2]
LED Junction Temperature (oC)
Aluminum-Core PCB Temperature (oC)
Storage & Operating Temperature (oC)
Luxeon Ring
Red/Amber
700
1000
700
135
105
-40 to +75
4
770
1100
700
Notes:
1.
± 16,000V HBM
120
105
-40 to +75
Document #: DS22 (10/05)
2.
Proper current derating must be
observed to maintain junction
temperature below the maximum.
For more information, consult Luxeon
Design Guide, available upon request.
LEDs are not designed to be driven in
reverse bias. Please consult Lumileds’
Application Brief AB11 for further
information.
Wavelength Characteristics
Relative Spectral Power
Distribution
1.0
C YA N
Figure 1a.
Relative Intensity vs. Wavelength.
A M B ER
GR EEN
0.8
B LUE
R ED
0.6
0.4
0.2
0.0
400
450
500
550
600
650
700
Wavelength (nm)
Relative Specrtal Power
Distribution
1.0
Figure 1b.
White Color Spectrum of Typical CCT
Part, Integrated Measurement.
0.8
0.6
0.4
0.2
0.0
350
400
450
500
550
600
650
700
750
800
Wavelength (nm)
Relative Light Output (%)
Light Output Characteristics
150
140
130
120
110
Figure 2a.
Relative Light Output vs. Junction
Temperature for White, Green, Cyan
and Blue.
Green
B lue
White
Cyan
100
90
80
70
60
50
-20
0
20
40
60
80
100
120
o
Relative Light Output (%)
Junction Temperature, TJ ( C)
200
180
160
140
120
Figure 2b.
Relative Light Output vs. Junction
Temperature for Red and Amber.
100
80
60
40
20
0
Red
A mber
-20
0
20
40
60
80
100
120
Junction Temperature, TJ ( oC)
Luxeon Ring
5
Document #: DS22 (10/05)
400
800
700
350
300
600
250
500
200
400
150
300
200
100
100
50
0
0 0.5
1.5 1.0
3 1.5
4.5 2.0
6 7.5
9 10.5
12 6-Up
0.0
2.5 3.0
3.5 4.0
0 3 6 9 12 15 18 21 24 12-Up
V F - Forw ard Voltage (Volts)
300
600
200
400
150
300
100
200
50
100
0
0.8
0.6
0.4
0.2
0
200
400
300
600
1.0
0.8
0.6
0.4
0.2
0.0
0
400
800
800
700
600
500
R θ J-A=10oC/W
R θ J-A=8oC/W
R θ J-A=6oC/W
R θ J-A=4oC/W
100
0
25
50
75
100
125
400
300
200
R θ J-A=10oC/W
R θ J-A=8oC/W
R θ J-A=6oC/W
R θ J-A=4oC/W
100
0
150
0
IF - Forward Current (mA)
IF - Forward Current (mA)
R θ J-A=6oC/W
R θ J-A=5oC/W
R θ J-A=4oC/W
R θ J-A=3oC/W
100
0
75
100
125
150
75
100
125
800
700
600
500
R θ J-A=6oC/W
R θ J-A=5oC/W
R θ J-A=4oC/W
R θ J-A=3oC/W
400
300
200
100
0
0
TA - Ambient Temperature ( oC)
25
50
75
100
125
TA - Ambient Temperature (oC)
Figure 6a. Maximum Forward Current vs.
Ambient Temperature. Derating based on
TJMAX = 135 oC for White, Green, Cyan and Blue
12-Up Ring.
Luxeon Ring
50
Figure 5b. Maximum Forward Current vs.
Ambient Temperature. Derating based
on TJMAX = 120 oC for Red and Amber
6-Up Ring.
600
500
50
25
TA - Ambient Temperature ( oC)
800
700
25
800
400
600
500
Figure 5a. Maximum Forward Current vs.
Ambient Temperature. Derating based on
TJMAX = 135 oC for White, Green, Cyan and Blue
6-Up Ring.
0
600
300
800
700
TA - Ambient Temperature ( oC)
400
300
200
400
200
Figure 4b. Relative Luminous Flux vs. Forward
Current for Red and Amber at TJ = 25oC
maintained.
IF - Forward Current (mA)
IF - Forward Current (mA)
Figure 4a. Relative Luminous Flux vs. Forward
Current for White, Green, Cyan and Blue at
TJ = 25oC maintained.
0
200
100
IF - Average Forw ard Current (mA)
IF - Average Forw ard Current (mA)
400
300
200
6-Up
12-Up
1.2
Normalized Relative Luminous Flux
1
100
200
Driving these high power devices at
currents less than the test conditions
may produce unpredictable results
and may be subject to variation in
performance. Pulse width modulation
is recommended for dimming effects.
250
500
Figure 3b. Forward Current vs. Forward Voltage
for Red and Amber.
1.2
0
Note:
350
700
0 0.5
1.5 1.0
3 1.5
4.5 2.0
6 2.5
7.5 3.0
9 3.5
10.5
0.0
0
3
6 9 12 15 18 21
V F - Forw ard Voltage (Volts)
Figure 3a. Forward Current vs. Forward Voltage
for White, Green, Cyan and Blue.
Normalized Relative Luminous Flux
400
800
IF - Average Forward Current (mA)
IF - Average Forward Current (mA)
Forward Current Characteristics, TJ = 25oC
Figure 6b. Maximum Forward Current vs.
Ambient Temperature. Derating based
on TJMAX = 120 oC for Red and Amber
12-Up Ring.
6
Document #: DS22 (10/05)
Representative Spatial Radiation Pattern
Relative Intensity (%)
100
Figure 7.
Representative Spatial Radiation Pattern
for one Luxeon LED with optics, all
colors.
80
60
40
20
Note:
0
-40 -30 -20 -10
0
10
20
30
40
Angular Displacement - Degrees
Average Lumen Maintenance Characteristics
Lifetime for solidstate lighting devices (LEDs) is typically defined in terms of
lumen maintenance—the percentage of initial light output remaining after a
specified period of time. Lumileds projects that Luxeon products will deliver on
average 70% lumen maintenance at 50,000 hours of operation. This
performance is based on independent test data, Lumileds historical data from
tests run on similar material systems, and internal Luxeon reliability testing. This
projection is based on constant current 350 mA operation per LED (700 mA for
Ring) with junction temperature maintained at or below 90°C. Observation of
design limits included in this data sheet is required in order to achieve this
projected lumen maintenance.
Luxeon Ring
7
Document #: DS22 (10/05)
For more detailed technical information
regarding Luxeon radiation patterns,
please consult your Lumileds Authorized
Distributor or Lumileds sales representative.
About Luxeon
Luxeon is the new world of solidstate lighting (LED) technology. Luxeon
Power Light Source Solutions offer huge advantages over conventional
lighting and huge advantages over other LED solutions. Luxeon enables
partners to create and market products that, until now, were impossible to
create. This means the opportunity to create products with a clear
competitive advantage in the market. Products that are smaller, lighter,
sleeker, cooler, and brighter. Products that are more fun to use, more
efficient, and more environmentally conscious than ever before possible!
Company Information
Luxeon is developed, manufactured and marketed by Lumileds Lighting,
LLC. Lumileds is a worldclass supplier of Light Emitting Diodes (LEDs)
producing billions of LEDs annually. Lumileds is a fully integrated
supplier, producing core LED material in all three base colors (Red,
Green, Blue) and White. Lumileds has R&D development centers in San
Jose, California and Best, The Netherlands. Production capabilities in
Lumileds may make process
or materials changes affecting
the performance or other
characteristics of Luxeon.
These products supplied after
such change will continue to
meet published specifications,
but may not be identical to
products supplied as samples
or under prior orders.
San Jose, California and Malaysia.
Lumileds is pioneering the highflux LED technology and bridging the gap
between solid state LED technology and the lighting world. Lumileds is
absolutely dedicated to bringing the best and brightest LED technology
to enable new applications and markets in the Lighting world.
Lumileds
www.luxeon.com
www.lumileds.com
For technical assistance or the
location of your nearest Lumileds
sales office, call:
Worldwide:
+1 408-435-6111
US Toll free: 1-888-589-3662
Asia: 800-5864-5337
Europe: 00 800 443 88 873
Fax: +1 408-435-6855
Email us at [email protected]
2005 Lumileds Lighting. All rights reserved. Luxeon is a trademark of Lumileds Lighting, U.S., LLC.
Product specifications are subject to change without notice.
Luxeon Ring
8
Document #: DS22 (10/05)
Lumileds Lighting, U.S., LLC
370 West Trimble Road
San Jose, CA 95131
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