HPWT-RD00-F4000 [LUMILEDS]
Visible LED;型号: | HPWT-RD00-F4000 |
厂家: | LUMILEDS LIGHTING COMPANY |
描述: | Visible LED |
文件: | 总9页 (文件大小:787K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
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
highꢀcurrent capabilities.
Key Benefits
The low profile package can be easily coupled with reflectors or
Rugged Lighting Products
Electricity Savings
Maintenance Savings
lenses to efficiently distribute light and provide the desired lit
appearance. This product family employs the world's brightest red,
redꢀorange, amber, blue, cyan, and green LED materials, which
allow designers to match the color of many lighting applications
Features
like vehicle signal lamps, specialty lighting, and electronic signs.
High Luminance
Uniform Color
HPWAꢀMH00
HPWTꢀMH00
HPWAꢀDH00
HPWTꢀDH00
HPWTꢀRD00
HPWTꢀBH00
HPWTꢀMD00
HPWTꢀRL00
HPWTꢀDD00
HPWTꢀML00
HPWTꢀBD00
HPWTꢀDL00
HPWTꢀRH00
HPWTꢀBL00
HPWNꢀMB00
HPWNꢀMC00
HPWNꢀMG00
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
Outline Drawings
Selection Guide
Table 1
Total Flux Φ (LM)
V
@
[1]
70 mA (HPWA,
HPWT)
Total Included
Angle θ
(Degrees)
90V
[2]
50 mA (HPWN)
Typ.
Device Type
LED Color
Typ.
HPWAꢀMH00
HPWAꢀDH00
AS AlInGaP RedꢀOrange
2.0
3.8
95
75
HPWTꢀRD00
HPWTꢀMD00
HPWTꢀDD00
HPWTꢀBD00
44 X 88
100
70
TS AlInGaP Red
TS AlInGaP RedꢀOrange
TS AlInGaP Amber
50
HPWTꢀRH00
HPWTꢀMH00
HPWTꢀDH00
HPWTꢀBH00
44 X 88
100
70
5.0
2.5
50
HPWTꢀRL00
HPWTꢀML00
HPWTꢀDL00
HPWTꢀBL00
44 X 88
100
70
50
HPWNꢀMB00
HPWNꢀMC00
HPWNꢀMG00
InGaN Blue
InGaN Cyan
InGaN Green
2.0
5.0
4.5
110
110
110
Notes:
1.Φv is the total luminous flux output as measured with
an integrating sphere after the device has stabilized.
(R JꢀA = 200°C/W, TA = 25ºC)
θ
2.θ0.90 V is the included angle at which 90% of the total
luminous flux is captured.
Absolute Maximum Ratings at
TA = 25ºC
Table 2
Parameter
HPWA
70
HPWT
70
HPWN
50
Units
mA
mW
V
[1]
DC Forward Current
Power Dissipation
187
10
221
233
Reverse Voltage (I = 100 μA)
10
0.55
R
Operating Temperature Range
Storage Temperature Range
High Temperature Chamber
LED Junction Temperature
ꢀ40 to +100
ꢀ55 to +100
ºC
ºC
125ºC, 2 Hours
125ºC
[2]
Solder Conditions
Preheat Temperature
Solder Temperature
85 +/ꢀ 15°C, 20 sec (Max 30 sec)
235 +/ꢀ 5°C, 2.5 +/ꢀ 0.5 sec
[1.5mm (0.06 in) below seating plane
SuperFlux LEDs Technical Datasheet DS05 (10/06)
2
Optical Characteristics at
TA = 25°C, IF = 70 mA (HPWA, HPWT),
IF = 50 mA (HPWN), RθJꢀA = 200°C/W
Electrical Characteristics at TA=25°C
Table 4
Forward Voltage
VF (Volts)
@
Reverse
Table 3
Breakdown Capacitance
Thermal
Resistance
RθJꢀPIN
[1]
Total
Luminous
Intensity/
Total Flux
Iv(cd)/Φv(lm)
Typ.
IF = 70mA (HPWA,
HPWT)
VR (Volts)
@ IR = 100
μA
C (pF)
VF = 0,
Speed of
Peak
Wavelength
λpeak (nm)
Typ.
Dominant
Included
Viewing
Response
1/2
[2]
Wavelength
Angleθ0.90 V
Angle 2θ
(Degrees)
Typ.
IF = 50 mA (HPWN)
F = 1MHz.
(°C/W)
τ
s (ns)
[1]
[2]
Device
Type
λdom(nm)
(Degrees)
Device
Type
Typ.
Typ.
Min Typ
Max
2.67
3.03
3.03
3.15
4.60
4.60
4.60
Min Typ.
Typ.
40
Typ.
155
125
125
125
130
130
130
Typ.
20
HPWAꢀMH00
HPWAꢀDH00
624
618
95
75
0.6
0.9
90
60
HPWAꢀxH00 1.83
HPWTꢀxD00 2.19
HPWTꢀxH00 2.19
HPWTꢀxL00 2.19
HPWNꢀxB00 3.00
HPWNꢀxC00 3.00
HPWNꢀxG00 3.00
2.2
2.6
2.6
2.6
3.8
3.8
3.9
10
10
10
10
20
20
20
20
40
20
HPWTꢀRD00
HPWTꢀMD00
HPWTꢀDD00
HPWTꢀBD00
44 X 88
100
70
1.25
0.6
25 x 68
70
40
20
640
630
620
594
1.5
2.0
40
40
20
50
30
0.55 0.65
0.55 0.65
0.55 0.65
1900
1900
1900
20
HPWTꢀRH00
HPWTꢀMH00
HPWTꢀDH00
HPWTꢀBH00
44 X 88
100
70
1.25
0.6
25 x 68
70
20
626
596
1.5
2.0
40
20
50
30
HPWTꢀRL00
HPWTꢀML00
HPWTꢀDL00
HPWTꢀBL00
44 X 88
100
70
1.25
0.6
25 x 68
70
Notes:
1.Operation in reverse bias is not recommended.
2.τs is the time constant, eꢀt/τs
1.5
2.0
40
50
30
.
HPWNꢀMB00
HPWNꢀMC00
HPWNꢀMG00
460
503
520
470
505
525
110
110
110
0.9
0.9
0.9
90
90
90
Notes:
1.The dominant wavelength is derived from the CIE
Chromaticity Diagram and represents the perceived color
of the device.
2.θ0.90 V is the included angle at which 90% of the total lumiꢀ
nous flux is captured.
SuperFlux LEDs Technical Datasheet DS05 (10/06)
3
Part Number Selection
Red
[1]
Part Number
Viewing Angle
Min. Flux
Max Flux
Minimum
Maximum
1/2
2θ (Degrees)
Φv (lm)
Φv (lm)
Intensity (cd)
Intensity (cd)
HPWTꢀRD00ꢀ00000
HPWTꢀRD00ꢀD4000
HPWTꢀRD00ꢀE4000
HPWTꢀRD00ꢀF4000
HPWTꢀBD00ꢀ00000
HPWTꢀBD00ꢀD4000
HPWTꢀBD00ꢀE4000
HPWTꢀBD00ꢀF4000
HPWTꢀDD00ꢀ00000
HPWTꢀDD00ꢀD4000
HPWTꢀDD00ꢀE4000
HPWTꢀDD00ꢀF4000
HPWTꢀMD00ꢀ00000
HPWTꢀMD00ꢀD4000
HPWTꢀMD00ꢀE4000
HPWTꢀMD00ꢀF4000
25 X 68
25 X 68
25 X 68
25 X 68
30
1.5
2.0
2.5
3.0
1.5
2.0
2.5
3.0
1.5
2.0
2.5
3.0
1.5
2.0
2.5
3.0
1.9
2.5
3.1
3.8
3.0
4.0
5.0
6.0
2.3
3.0
3.8
4.5
0.9
1.2
1.5
1.8
4.8
6.1
7.3
6.0
7.6
9.1
30
4.8
6.1
7.3
9.6
30
12.2
14.6
30
40
40
4.8
6.1
7.3
7.2
9.2
40
40
11.0
70
70
4.8
6.1
7.3
2.9
3.7
4.4
70
70
Note:
1. Φv is the total luminous flux output as measured with an integrating sphere after the device has stabilized.
SuperFlux LEDs Technical Datasheet DS05 (10/06)
4
RedꢀOrange
Part Number
Viewing Angle
Min. Flux
Max Flux
Minimum
Maximum
1/2
2θ (Degrees)
Φv (lm)
Φv (lm)
Intensity (cd)
Intensity (cd)
HPWTꢀRH00ꢀ00000
HPWTꢀRH00ꢀD4000
HPWTꢀRH00ꢀE4000
HPWTꢀRH00ꢀF4000
HPWTꢀRH00ꢀG4000
HPWTꢀRH00ꢀH4000
HPWTꢀBH00ꢀ00000
HPWTꢀBH00ꢀD4000
HPWTꢀBH00ꢀE4000
HPWTꢀBH00ꢀF4000
HPWTꢀBH00ꢀG4000
HPWTꢀBH00ꢀH4000
HPWTꢀDH00ꢀ00000
HPWTꢀDH00ꢀD4000
HPWTꢀDH00ꢀE4000
HPWTꢀDH00ꢀF4000
HPWTꢀDH00ꢀG4000
HPWTꢀDH00ꢀH4000
HPWTꢀMH00ꢀ00000
HPWTꢀMH00ꢀD4000
HPWTꢀMH00ꢀE4000
HPWTꢀMH00ꢀF4000
HPWTꢀMH00ꢀG4000
HPWTꢀMH00ꢀH4000
HPWAꢀMH00ꢀB4000
HPWAꢀDH00ꢀB4000
HPWAꢀMH00ꢀC4000
HPWAꢀDH00ꢀC4000
25 X 68
25 X 68
25 X 68
25 X 68
25 X 68
25 X 68
30
1.5
2.0
2.5
3.0
3.5
4.0
1.5
2.0
2.5
3.0
3.5
4.0
1.5
2.0
2.5
3.0
3.5
4.0
1.5
2.0
2.5
3.0
3.5
4.0
1.0
1.0
1.5
1.5
1.9
2.5
3.1
3.8
4.4
5.0
3.0
4.0
5.0
6.0
7.0
8.0
2.3
3.0
3.8
4.5
5.3
6.0
0.9
1.2
1.5
1.8
2.1
2.4
0.6
1.5
0.9
2.3
4.8
6.1
6.0
7.6
7.3
9.1
9.7
12.1
15.0
12.0
30
4.8
6.1
9.6
30
12.2
14.6
19.4
24.0
30
7.3
30
9.7
30
12.0
40
40
4.8
6.1
7.2
9.2
40
40
7.3
11.0
14.6
18.0
40
9.7
40
12.0
70
70
4.8
6.1
7.3
9.7
12.0
3.6
3.6
4.2
4.2
2.9
3.7
4.4
5.8
7.2
2.2
5.4
2.5
6.3
70
70
70
70
90
40
90
40
Amber
Part Number
Viewing Angle
Min. Flux
Max Flux
Minimum
Maximum
1/2
2θ (Degrees)
Φv (lm)
Φv (lm)
Intensity (cd)
Intensity (cd)
HPWTꢀRL00ꢀ00000
HPWTꢀRL00ꢀC4000
HPWTꢀRL00ꢀD4000
HPWTꢀBL00ꢀ00000
HPWTꢀBL00ꢀC4000
HPWTꢀBL00ꢀD4000
HPWTꢀDL00ꢀ00000
HPWTꢀDL00ꢀC4000
HPWTꢀDL00ꢀD4000
HPWTꢀML00ꢀ00000
HPWTꢀML00ꢀC4000
HPWTꢀML00ꢀD4000
25 X 68
25 X 68
25 X 68
30
1.0
1.5
2.0
1.0
1.5
2.0
1.0
1.5
2.0
1.0
1.5
2.0
1.3
1.9
2.5
2.0
3.0
4.0
1.5
2.3
3.0
0.6
0.9
1.2
4.2
4.8
5.3
6.0
30
4.2
4.8
8.4
9.6
30
40
40
4.2
4.8
6.3
7.2
40
70
70
4.2
4.8
2.5
2.9
70
SuperFlux LEDs Technical Datasheet DS05 (10/06)
5
Green
Part Number
HPWNꢀMG00ꢀ00000
Viewing Angle
Min. Flux
Max Flux
Minimum
Maximum
1/2
2θ (Degrees)
Φv (lm)
Φv (lm)
Intensity (cd)
Intensity (cd)
90
3.0
2.7
Cyan
Part Number
HPWNꢀMC00ꢀ00000
Viewing Angle
Min. Flux
Max Flux
Minimum
Maximum
1/2
2θ (Degrees)
Φv (lm)
Φv (lm)
Intensity (cd)
Intensity (cd)
90
3.0
2.7
Blue
Part Number
HPWNꢀMB00ꢀ00000
Viewing Angle
Min. Flux
Max Flux
Minimum
Maximum
1/2
2θ (Degrees)
Φv (lm)
Φv (lm)
Intensity (cd)
Intensity (cd)
90
1.0
0.9
SuperFlux LEDs Technical Datasheet DS05 (10/06)
6
1
Figures
Figure 3. HPWA/HPWTꢀxx00 Relative Luminous Flux
vs. Forward Current.
Figure 1a. Relative Intensity vs. Wavelength
1.0
0.5
0.0
70
60
HPWN-MC00
50
Rth(j-a) = 300 C/W
HPWN-MG00
HPWN-MB00
Rth(j-a) = 400 C/W
40
Rth(j-a) = 500 C/W
Rth(j-a) = 600 C/W
30
20
10
0
0
20
40
60
80
100
AMBIENT TEMPERATURE (C)
350
400
450
500
550
600
650
Figure 4a. HPWAꢀxx00 Maximum DC Forward Current
vs. Ambient Temperature.
WAVELENGTH (nm)
Figure 1b. Relative Intensity vs. Wavelength (HPWN)
70
60
50
70
60
HPWA
50
HPWT
40
Rth(j-a) = 300 C/W
40
30
20
10
Rth(j-a) = 400 C/W
Rth(j-a) = 500 C/W
Rth(j-a) = 600 C/W
30
20
10
0
0
20
40
60
80
100
0
AMBIENT TEMPERATURE (C)
1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2
FORWARD VOLTAGE (V)
Figure 4b. HPWTꢀxx00 Maximum DC Forward Current
vs. Ambient Temperature.
Figure 2a. Forward Current vs. Forward Voltage
50
40
Rth(j-a) = 300
30
Rth(j-a) = 400
Rth(j-a) = 500
20
Rth(j-a) = 600
10
0
0
20
40
60
80
100
120
140
AMBIENT TEMPERATURE - (C)
Figure 4c. HPWNꢀxx00 Maximum DC Forward Current
vs. Ambient Temperature.
Figure 2b. Forward Current vs. Forward Voltage
Note:
1.24mm2 of Cu pad per emitter at cathode lead is recomꢀ
mended for lowest thermal resistance.
1. All Figures Typical unless indicated as Maximum.
SuperFlux LEDs Technical Datasheet DS05 (10/06)
7
Figure 5d. HPWA(T)ꢀDx00 Relative Luminous Intensity
vs. Off Axis Angle.
Figure 5a. HPWTꢀRx00 Relative Luminous Intensity vs.
Off Axis Angle.
Figure 5b. HPWAꢀMx00 Relative Luminous Intensity
vs. Off Axis Angle.
Figure 5e. HPWTꢀBx00 Relative Luminous Intensity
vs. Off Axis Angle.
1.4
1.3
1.2
1.1
1
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0
Typical Upper Bound
Typical Lower Bound
-100
-80
-60
-40
-20
0
20
40
60
80
100
OFF AXIS ANGLE (DEGREES)
Figure 5c. HPWTꢀMx00 Relative Luminous Intensity
vs. Off Axis Angle.
Figure 5f. HPWNꢀMx00 Relative Luminous Intensity
vs. Off Axis Angle
1. All Figures Typical unless indicated as Maximum.
SuperFlux LEDs Technical Datasheet DS05 (10/06)
8
Company Information
LUXEON®, SuperFlux and SnapLED are developed, manufactured and
marketed by Philips Lumileds Lighting Company. Philips Lumileds is a
worldꢀclass 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
highꢀflux LED technology leader and is dedicated to bridging the gap
between solidꢀstate LED technology and the lighting world. Philips
Lumileds technology, LEDs and systems are enabling new applicaꢀ
tions and markets in the lighting world.
Philips Lumileds may make process or
materials changes affecting the performꢀ
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.
www.luxeon.com
www.lumiledsfuture.com
For technical assistance or the
location of your nearest sales
office contact any of the
following:
North America:
+1 888 589 3662 or
askluxeon@futureelectronics.com
Europe:
00 800 443 88 873 or
luxeon.europe@futureelectronics.com
Asia:
©2006 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.
800 5864 5337 or
lumileds.asia@futureelectronics.com
相关型号:
©2020 ICPDF网 联系我们和版权申明