TLWW9900
VISHAY
Vishay Semiconductors
TELUX™ LED
The TELUX™ series is a clear, non diffused LED for high end applications where supreme luminous flux is required.
It is designed in an industry standard 7.62 mm square package utilizing highly developed InGaN technology. The supreme heat dissipation of TELUX™ allows applications at high ambient temperatures.
All packing units are binned for luminous flux and color to achieve best homogenous light appearance in application.
•Utilizing InGaN technology
•High luminous flux
•Supreme heat dissipation: RthJP is 90 K/W
•High operating temperature: Tj + 100 °C
•Packed in tubes for automatic insertion
•Luminous flux and color categorized for each tube
•Small mechanical tolerances allow precise usage of external reflectors or lightguides
•ESD-withstand voltage:
> 1 kV acc. to MIL STD 883 D, Method 3015.7
Parts Table
19232 |
e3 Pb |
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Pb-free
• Lead-free device
Exterior lighting
Interior lighting
Dashboard illumination
Replaces incandescent lamps
Part |
Color, Luminous Intensity |
Angle of Half Intensity (±ϕ) |
Technology |
TLWW9900 |
White, φV > 1500 mlm |
45 ° |
InGaN / TAG on SiC |
Absolute Maximum Ratings
Tamb = 25 °C, unless otherwise specified
TLWW9900
Parameter |
Test condition |
Symbol |
Value |
Unit |
Reverse voltage |
IR = 10 µA |
VR |
5 |
V |
DC Forward current |
Tamb ≤ 50 °C |
IF |
50 |
mA |
Surge forward current |
tp ≤ 10 µs |
IFSM |
0.1 |
A |
Power dissipation |
Tamb ≤ 50 °C |
PV |
255 |
mW |
Junction temperature |
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Tj |
100 |
°C |
Operating temperature range |
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Tamb |
- 40 to + 100 |
°C |
Storage temperature range |
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Tstg |
- 55 to + 100 |
°C |
Document Number 83216 |
www.vishay.com |
Rev. 1.5, 31-Aug-04 |
1 |
TLWW9900 |
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VISHAY |
Vishay Semiconductors |
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Parameter |
Test condition |
Symbol |
Value |
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Unit |
Soldering temperature |
t ≤ 5 s, 1.5 mm from body |
Tsd |
260 |
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°C |
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preheat temperature |
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100 °C/ 30 sec. |
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Thermal resistance junction/ |
with cathode heatsink |
RthJA |
200 |
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K/W |
ambient |
of 70 mm2 |
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Thermal resistance junction/pin |
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RthJP |
90 |
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K/W |
Optical and Electrical Characteristics
Tamb = 25 °C, unless otherwise specified
White
TLWW9900
Parameter |
Test condition |
Symbol |
Min |
Typ. |
Max |
Unit |
Total flux |
IF = 50 mA, |
φV |
1500 |
2200 |
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mlm |
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RthJA = 200 °K/W |
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Luminous intensity/Total flux |
IF = 50 mA, |
IV/φV |
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0.7 |
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mcd/mlm |
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RthJA = 200 °K/W |
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Color temperature |
IF = 50 mA, |
TK |
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5500 |
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K |
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RthJA = 200 °K/W |
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Angle of half intensity |
IF = 50 mA, |
ϕ |
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± 45 |
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deg |
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RthJA = 200 °K/W |
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Total included angle |
90 % of Total Flux Captured |
ϕ |
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75 |
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deg |
Forward voltage |
IF = 50 mA, |
VF |
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4.3 |
5.2 |
V |
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RthJA = 200 °K/W |
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Reverse voltage |
IR = 10 µA |
VR |
5 |
10 |
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V |
Junction capacitance |
VR = 0, f = 1 MHz |
Cj |
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50 |
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pF |
Chromaticity Coordinate Classification
Group |
X |
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Y |
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min |
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max |
min |
max |
3a |
0.2900 |
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0.3025 |
Y = 1.4x - 0.121 |
Y = 1.4x - 0.071 |
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3b |
0.3025 |
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0.3150 |
Y = 1.4x - 0.121 |
Y = 1.4x - 0.071 |
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3c |
0.2900 |
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0.3025 |
Y = 1.4x - 0.171 |
Y = 1.4x - 0.121 |
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3d |
0.3025 |
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0.3150 |
Y = 1.4x - 0.171 |
Y = 1.4x - 0.121 |
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4a |
0.3150 |
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0.3275 |
Y = 1.4x - 0.121 |
Y = 1.4x - 0.071 |
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4b |
0.3275 |
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0.3400 |
Y = 1.4x - 0.121 |
Y = 1.4x - 0.071 |
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4c |
0.3150 |
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0.3275 |
Y = 1.4x - 0.171 |
Y = 1.4x - 0.121 |
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4d |
0.3275 |
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0.3400 |
Y = 1.4x - 0.171 |
Y = 1.4x - 0.121 |
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5a |
0.3400 |
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0.3525 |
Y = 1.4x - 0.121 |
Y = 1.4x - 0.071 |
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5b |
0.3525 |
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0.3650 |
Y = 1.4x - 0.121 |
Y = 1.4x - 0.071 |
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5c |
0.3400 |
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0.3525 |
Y = 1.4x - 0.171 |
Y = 1.4x - 0.121 |
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5d |
0.3525 |
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0.3650 |
Y = 1.4x - 0.171 |
Y = 1.4x - 0.121 |
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tolerance ± 0.005
www.vishay.com |
Document Number 83216 |
2 |
Rev. 1.5, 31-Aug-04 |
VISHAY |
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TLWW9900 |
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Vishay Semiconductors |
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Luminous Flux Classification |
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Group |
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Luminous Intensity (mcd) |
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min |
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max |
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C |
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1500 |
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2400 |
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D |
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2000 |
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3000 |
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E |
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2500 |
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3600 |
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F |
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3000 |
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4200 |
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250 |
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) |
225 |
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( mW |
200 |
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175 |
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Dissipation |
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150 |
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125 |
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100 |
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Power |
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75 |
RthJA = 200 K/W |
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50 |
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V |
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P |
25 |
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0 |
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0 |
20 |
40 |
60 |
80 |
100 |
120 |
16066 |
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Tamb |
- Ambient Temperature |
( ° C ) |
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Figure 1. Power Dissipation vs. Ambient Temperature for InGaN
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60 |
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50 |
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( mA |
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Current |
40 |
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30 |
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- Forward |
20 |
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F |
10 |
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I |
RthJA = 200 K/W |
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0 |
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0 |
20 |
40 |
60 |
80 |
100 |
120 |
16067 |
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Tamb - Ambient Temperature |
( ° C ) |
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Figure 2. Forward Current vs. Ambient Temperature for InGaN
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0° |
10° |
20° |
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Intensity |
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30° |
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Luminous |
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40° |
1.0 |
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0.9 |
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50° |
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- Relative |
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0.8 |
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60° |
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70° |
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0.7 |
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rel |
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80° |
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V |
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I |
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0.6 |
0.4 |
0.2 |
0 |
0.2 |
0.4 |
0.6 |
16200 |
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Angular Displacement |
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Figure 3. Rel. Luminous Intensity vs. Angular Displacement
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100 |
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90 |
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Flux |
80 |
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70 |
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Luminous |
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60 |
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50 |
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40 |
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Total |
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30 |
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% |
20 |
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10 |
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0 |
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0 |
25 |
50 |
75 |
100 |
125 |
16201 |
Total Included Angle (Degrees) |
Figure 4. Percentage Total Luminous Flux vs. Total Included Angle for 90 ° emission angle
Document Number 83216 |
www.vishay.com |
Rev. 1.5, 31-Aug-04 |
3 |