Technical Datasheet DS05
SuperFlux LEDs
Introduction
This revolutionary package design allows the lighting designer to reduce the number of LEDs required and provide a more uniform and unique illuminated appearance than with other LED solutions. This is possible through the efficient optical package design and high current capabilities. The low profile package can be easily coupled with reflectors or lenses to efficiently distribute light and provide the desired lit appearance. This product family employs the world's brightest red, red orange, amber, blue, cyan, and green LED materials, which allow designers to match the color of many lighting applications like vehicle signal lamps, specialty lighting, and electronic signs.
HPWA MH00 XXXX HPWT MH00 XXXX HPWA DH00 XXXX HPWT DH00 XXXX HPWT RD00 XXXX HPWT BH00 XXXX HPWT MD00 XXXX HPWT RL00 XXXX HPWT DD00 XXXX HPWT ML00 XXXX HPWT BD00 XXXX HPWT DL00 XXXX HPWT RH00 XXXX HPWT BL00 XXXX HPWN MB00 XXXX HPWN MC00 XXXX HPWN MG00 XXXX
Key Benefits
Rugged Lighting Products Electricity Savings Maintenance Savings
Features
High Luminance Uniform Color Low Power Consumption Low Thermal Resistance Low Profile Meets SAE/ECE/JIS Automotive Color Requirements Packaged in tubes for use with automatic insertion equipment
Typical Applications
Automotive Exterior Lighting Electronic Signs and Signals Specialty Lighting
Selection Guide
Table 1.
Device Type HPWA MH00 HPWA DH00 HPWT RD00 HPWT MD00 HPWT DD00 HPWT BD00 HPWT RH00 HPWT MH00 HPWT DH00 HPWT BH00 HPWT RL00 HPWT ML00 HPWT DL00 HPWT BL00 HPWN MB00 HPWN MC00 HPWN MG00
LED Color AS AlInGaP Red Orange TS AlInGaP Red
Total Flux ΦV (LM) @ 70 mA[1](HPWA, HPWT) 50 mA (HPWN) Typ. 2.0
Total Included Angle θ0.90 V (Degrees) [2] Typ. 95 60 44 X 88 100 60 50 44 X 88 100 60 50 44 X 88 100 60 50 110 110 110
View Angle 2θ1/2 (Degrees) Typ. 90 55 25x68 70 50 30 25x68 70 50 30 25x68 70 50 30 90 90 90
3.8
TS AlInGaP Red Orange
5.0
TS AlInGaP Amber InGaN Blue InGaN Cyan InGaN Green
2.5
2.0 5.0 4.5
Notes: 1. Φv is the total luminous flux output as measured with an integrating sphere after the device has stabilized. (RθJ A = 200°C/W, TA = 25ºC) 2. θ0.90 V is the included angle at which 90% of the total luminous flux is captured.
SuperFlux LEDs Technical Datasheet DS05 (11/07)
2
Outline Drawings
Notes: 1.Dimensions are in millimeters (inches). 2.Dimensions without tolerances are nominal.
SuperFlux LEDs Technical Datasheet DS05 (11/07) 3
Absolute Maximum Ratings at TA = 25ºC
Table 2.
Parameter DC Forward Current Power Dissipation Reverse Voltage (IR = 100 μA) Operating Temperature Range Storage Temperature Range High Temperature Chamber LED Junction Temperature Solder Conditions [2] Preheat Temperature Solder Temperature
[1]
HPWA 70 187 10
HPWT 70 221 10 40 to +100 55 to +100 125ºC, 2 Hours 125ºC
HPWN 50 233 0.55
Units mA mW V ºC ºC
85 +/ 15°C, 20 sec (Max 30 sec) 235 +/ 5°C, 2.5 +/ 0.5 sec [1.5mm (0.06 in) below seating plane
Notes: 1.De rate as shown in Figures 4a, 4b and 4c. 2.Detail wave soldering instructions found in Application Brief AB13.
Optical Characteristics at TA = 25°C, IF = 70 mA (HPWA, HPWT), IF = 50 mA (HPWN), RθJ A = 200°C/W
Table 3.
Device Type HPWA MH00 HPWA DH00 HPWT HPWT HPWT HPWT HPWT HPWT HPWT HPWT HPWT HPWT HPWT HPWT RD00 MD00 DD00 BD00 RH00 MH00 DH00 BH00 RL00 ML00 DL00 BL00
Total Stabilized Flux Φv (lm) [1] Typ. 2.0
Total Instantaneous Flux Φv (lm) [2] Typ. 2.4
Luminous Intensity to Total Flux Iv(cd)/Φv(lm) Typ. 0.6 0.8 1.3 0.6 1.1 2.0 1.3 0.6 1.1 2.0 1.3 0.6 1.1 2.0 0.9 0.9 0.9
Color, Dominant Wavelength λd (nm)[3] Typ. 618
Total Included Angle θ0.90 V (Degrees)[4] Typ. 95 60 44x88 100 60 50 44x88 100 60 50 44x88 100 60 50 110 110 110
Peak Wavelength λpeak (nm) [3] Typ. 624
Viewing Angle 2θ1/2 v (Degrees) Typ. 90 55 25x68 70 50 30 25x68 70 50 30 25x68 70 50 30 90 90 90
3.8
4.6
630
640
5.0
6.2
620
626
2.5
4.0
594
596
HPWN MB00 HPWN MC00 HPWN MG00
2.0 5 4.5
2.0 5.2 4.7
470 505 525
460 503 520
Notes: 1.Total Stabilized Flux Φv is the total luminous flux output as measured with an integrating sphere after the device has stabilized to Tj ~ 60°C. 2.Total Instantaneous Flux Φv is the total luminous flux output as measured with an integrating sphere at 20ms duration. 3.The dominant wavelength is derived from the CIE Chromaticity Diagram and represents the perceived color of the device at Tj ~ 60 °C. 4. θ0.90 V is the included angle at which 90% of the total luminous flux is captured.
SuperFlux LEDs Technical Datasheet DS05 (11/07) 4
Electrical Characteristics at TA=25°C
Table 4.
Forward Voltage VF (Volts) @ IF = 70mA (HPWA, HPWT) IF = 50 mA (HPWN) Device Type HPWA xH00 HPWT xD00 HPWT xH00 HPWT xL00 HPWN xB00 HPWN xC00 HPWN xG00 Min 1.83 2.19 2.19 2.19 3.00 3.00 3.00 Typ 2.2 2.6 2.6 2.6 3.8 3.8 3.9 Max 2.67 3.03 3.03 3.15 4.60 4.60 4.60
Reverse Breakdown VR (Volts)[1] @ IR = 100 μA Min 10 10 10 10 0.55 0.55 0.55 Typ. 20 20 20 20 0.65 0.65 0.65
Capacitance C (pF) VF = 0, F = 1MHz. Typ. 40 40 40 40 1900 1900 1900
Thermal Resistance RθJ PIN (°C/W) Typ. 155 125 125 125 130 130 130
Speed of Response τs (ns) [2] Typ. 20 20 20 20 20 20 20
Notes: 1.Operation in reverse bias is not recommended. 2. τs is the time constant, e t/τs.
SuperFlux LEDs Technical Datasheet DS05 (11/07)
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Figures1
Figure 3. HPWA/HPWT xx00 Relative Luminous Flux Figure 1a. Relative Intensity vs. Wavelength
1.0
vs. Forward Current.
70
HPWN-MC00 HPWN-MG00 RELATIVE INTESITY HPWN-MB00
0.5
MAXIMUM DC CURRENT (mA)
60 50 40 30 20 10 0 0 20 40 60 80 100
Rth(j-a) = 300 C/W Rth(j-a) = 400 C/W Rth(j-a) = 500 C/W Rth(j-a) = 600 C/W
AMBIENT TEMPERATURE (C)
0.0
350
400
450
500 WAVELENGTH (nm)
550
600
650
Figure 4a. HPWA xx00 Maximum DC Forward Current vs. Ambient Temperature.
70
Figure 1b. Relative Intensity vs. Wavelength (HPWN)
70
FORWARD CURRENT (mA)
60
HPWA HPWT
MAXIMUM DC CURRENT (mA)
60 50 40 30 20 10 0 0 20 40 60 80 100
50
40
Rth(j-a) = 300 C/W Rth(j-a) = 400 C/W Rth(j-a) = 500 C/W Rth(j-a) = 600 C/W
30
20
10
0 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2
AMBIENT TEMPERATURE (C)
FORWARD VOLTAGE (V)
Figure 4b. HPWT xx00 Maximum DC Forward Current vs. Ambient Temperature.
50
Figure 2a. Forward Current vs. Forward Voltage
MAXIMUM DC CURRENT (mA)
40
30
Rth(j-a) = 300 Rth(j-a) = 400 Rth(j-a) = 500 Rth(j-a) = 600
20
10
0 0 20 40 60 80 100 120 140
AMBIENT TEMPERATURE - (C)
Figure 4c. HPWN xx00 Maximum DC Forward Current Figure 2b. Forward Current vs. Forward Voltage vs. Ambient Temperature.
1. All Figures Typical unless indicated as Maximum. Note: 1.24mm2 of Cu pad per emitter at cathode lead is recommended for lowest thermal resistance.
SuperFlux LEDs Technical Datasheet DS05 (11/07) 6
1.0
RELATIVE LUMINOUS INTENSITY
0.9 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0.0 -90 -80 -70 -60 -50 -40 -30 -20 -10 0 10 20 30 40 50 60 70 80 90
OFF AXIS ANGLE (DEGREES)
Figure 5e. HPWA(T) Dx00 Relative Luminous Intensity Figure 5a. HPWT Rx00 Relative Luminous Intensity vs. Off Axis Angle. vs. Off Axis Angle.
Figure 5b. HPWA Mx00 Relative Luminous Intensity vs. Off Axis Angle.
Figure 5f. HPWT Bx00 Relative Luminous Intensity vs. Off Axis Angle.
1.4 1.3 1.2 RELATIVE LUMINOUS INT 1.1 1 0.9 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0 -100 -80 -60 -40 -20 0 20 40 60 80 100
Typical Upper Bound Typical Lower Bound
OFF AXIS ANGLE (DEGREES)
Figure 5c. HPWT Mx00 Relative Luminous Intensity vs. Off Axis Angle.
1.0 0.9
Figure 5g. HPWN Mx00 Relative Luminous Intensity vs. Off Axis Angle
RELATIVE LUMINOUS INTENSITY
0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0.0 -90 -80 -70 -60 -50 -40 -30 -20 -10 0 10 20 30 40 50 60 70 80 90
OFF AXIS ANGLE (DEGREES)
Figure 5d. HPWT Dx00 Relative Luminous Intensity vs. Off Axis Angle.
1. All Figures Typical unless indicated as Maximum.
SuperFlux LEDs Technical Datasheet DS05 (11/07) 7
SuperFlux Product Binning
This section provides bin selection assistance for SuperFlux LEDs. Additional category and label details for SuperFlux product can be found in AB20 7. Product availability varies by color and other factors, and not all bin selection combinations are avail able. Contact your Philips Lumileds representative for further assistance.
Luminous Flux Bins
Part Number Bin Code Minimum Luminous Flux @ 70 mA (HPWA, HPWT) @ 50 mA (HPWN) [1] Maximum Luminous Flux @ 70 mA (HPWA, HPWT) @ 50 mA (HPWN) [1]
HPWA MH00 HPWA DH00 HPWT RD00 HPWT MD00 HPWT DD00 HPWT BD00 HPWT RH00 HPWT MH00 HPWT DH00 HPWT BH00 HPWT RL00 HPWT ML00 HPWT DL00 HPWT BL00 HPWN MB00 HPWN MC00 HPWN MG00
B C D E F G E F G H J C D E E
1 1.5 2 2.5 3 3.5 2.5 3 3.5 4 5 1.5 2 2.5 2.5 1 3 3
1.8 2.4 3 3.6 4.2 4.8 3.6 4.2 4.8 6.1 7.3 2.4 3 3.6 3.6
Note: 1.Total Luminous Flux as measured with an integrating sphere after the device has stabilized. Tj ~ 60°C
Dominant Wavelength Bins, Red Orange
Bin Code
1 2 3
Minimum Dominant Wavelength (nm)
611 615 619
Maximum Dominant Wavelength (nm)
617 621 629
Dominant Wavelength Bins, Red
Bin Code
0
Minimum Dominant Wavelength (nm)
622
Maximum Dominant Wavelength (nm)
645
Dominant Wavelength Bins, Amber
Bin Code
1 2 9 3
SuperFlux LEDs Technical Datasheet DS05 (11/07)
Minimum Dominant Wavelength (nm)
587 589 592 592
8
Maximum Dominant Wavelength (nm)
591 594 595 597
Forward Voltage Bins, Red, Red Orange, and Amber @ 70 mA
Bin Code
1 2 3 4 5 6 7
Minimum Voltage
2.19 2.31 2.43 2.55 2.67 2.79 2.91
Maximum Voltage
2.43 2.55 2.67 2.79 2.91 3.03 3.15
SuperFlux LEDs Technical Datasheet DS05 (11/07)
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Company Information
LUXEON® is developed, manufactured and marketed by Philips Lumileds Lighting Company. Philips Lumileds is a world class supplier of Light Emitting Diodes (LEDs) producing billions of LEDs annually. Philips Lumileds is a fully integrated supplier, producing core LED material in all three base colors (Red, Green, Blue) and White. Philips Lumileds has R&D centers in San Jose, California and in The Netherlands and production capabilities in San Jose and Penang, Malaysia. Founded in 1999, Philips Lumileds is the high flux LED technology leader and is dedicated to bridging the gap between solid state LED technology and the lighting world. Philips Lumileds technology, LEDs and systems are enabling new applications and markets in the lighting world.
www.luxeon.com www.lumiledsfuture.com
Philips Lumileds may make process or materials changes affecting the perform ance or other characteristics of our products. These products supplied after such changes will continue to meet published specifications, but may not be identical to products supplied as samples or under prior orders.
For technical assistance or the location of your nearest sales office contact any of the following: North America:
1 888 589 3662 americas@futurelightingsolutions.com
Europe:
00 800 443 88 873
europe@futurelightingsolutions.com
Asia Pacific:
800 5864 5337 asia@futurelightingsolutions.com
©2007 Philips Lumileds Lighting Company. All rights reserved. Product specifications are subject to change without notice. Luxeon is a registered trademark of the Philips Lumileds Lighting Company in the United States and other countries.
Japan:
800 5864 5337 japan@futurelightingsolutions.com
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