Fiche technique pour LUXEON CoB de Lumileds

Erreurs/commentaires sur la fiche technique

LUXEON CoB Co ing v13“ W

ILLUMINATION

No. E352519

LUXEON CoB Core Range consists of high uniformity LEDs that represent

a new breakthrough in efficacy for chip-on-board. Due to its industry-

leading small Light Emitting Surfaces (LES), LUXEON CoB arrays are

easy to work with, enabling less expensive designs. All emitters within

the LUXEON CoB Core Range are available in 3-step MacAdam ellipse,

ensuring uniform optical performance in general lighting applications.

In addition, LUXEON CoB Core Range LEDs are hot-tested at 85°C—real

world operating conditions—which means luminaire design is simplified

and testing can be minimized.

LUXEON CoB Core Range

High-efficacy LED with a small light emitting

surface and greater uniformity of light

FEATURES AND BENEFITS PRIMARY APPLICATIONS

Highest flux densities with industry’s smallest LES Architectural

R9 between 80 and 90 for vibrant reds Downlights

3-step MacAdam ellipse color definition: Freedom from Binning for color

consistency from luminaire to luminaire High Bay & Low Bay

Up to 4x lower thermal resistance than competition, enabling smaller heat

sinks and higher lumens Lamps

Supported by a comprehensive optical, mechanical and electrical ecosystem Outdoor

Specialty Lighting

Spotlights

NO LONGER

ORDERABLE

For NEW designs consider

this replacement product:

• LUXEON CoB Core Range

Table of Contents

General Product Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2

Product Test Conditions ..............................................................................2

Part Number Nomenclature ..........................................................................2

Lumen Maintenance .................................................................................2

Environmental Compliance ...........................................................................2

Performance Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3

Product Selection Guide..............................................................................3

Optical Characteristics ...............................................................................6

Electrical and Thermal Characteristics..................................................................6

Absolute Maximum Ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6

Characteristic Curves . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7

Spectral Power Distribution Characteristics .............................................................7

Light Output Characteristics ..........................................................................8

Forward Current Characteristics......................................................................12

Radiation Pattern Characteristics .....................................................................15

Color Bin Definition .................................................................................16

Mechanical Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17

Packaging Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20

Unit Totals per Box .................................................................................20

Tube Dimensions...................................................................................20

NO LONGER

ORDERABLE

General Product Information

Product Test Conditions

LUXEON CoB Core Range LEDs are tested and binned with a drive current of 200mA for LUXEON CoB 1202s and LUXEON CoB

1202, 300mA for LUXEON CoB 1203, 450mA for LUXEON CoB 1204, 600mA for LUXEON CoB 1205, 900mA for LUXEON CoB 1208

and 1200mA for LUXEON 1211 at a junction temperature, Tj, of 85ºC.

Part Number Nomenclature

Part numbers for LUXEON CoB Core Range follow the convention below:

L H C 1 – A A B B – C C C C (Traditional Part Number Scheme)

L 2 C 1 – A A B B 1 2 0 2 0 6 A 0 0 (New Part Number Scheme)

Where:

A A – designates nominal CCT (22=2200K, 27=2700K, 30=3000K, 35=3500K, 40=4000K, 50=5000K, 57=5700K)

B B – designates minimum CRI (70=70CRI, 80=80CRI, 90=90CRI)

C C C C – designates product configuration (1202=1202, 1203=1203, 1204=1204, 1205=1205,

1208=1208, 1211=1211)

Therefore, the following part numbers are used for LUXEON CoB Core Range 1203 3000K CCT 80CRI:

L H C 1 – 3 0 8 0 – 1 2 0 3

Lumen Maintenance

Please contact your local Sales Representative or Lumileds Technical Solutions Manager for more information about the long-

term performance of this product.

Environmental Compliance

Lumileds LLC is committed to providing environmentally friendly products to the solid-state lighting market. LUXEON CoB

Core Range is compliant to the European Union directives on the restriction of hazardous substances in electronic equipment,

namely the RoHS Directive 2011/65/EU and REACH Regulation (EC) 1907/2006. Lumileds LLC will not intentionally add the

following restricted materials to its products: lead, mercury, cadmium, hexavalent chromium, polybrominated biphenyls (PBB) or

polybrominated diphenyl ethers (PBDE).

NO LONGER

ORDERABLE

Performance Characteristics

Product Selection Guide

Table 1 . Product performance of LUXEON CoB Core Range at test current, Tj=85ºC .

PRODUCT NOMINAL

CCT

MINIMUM

CRI [1, 2]

LUMINOUS FLUX [1] (lm)TYPICAL

LUMINOUS

EFFICACY (lm/W)

TEST

CURRENT

(mA)

PART NUMBER

MINIMUM TYPICAL

LUXEON CoB

1202s

2200K 80 550 625 88 200 L2C1-2280120206A00

2700K 80 645 725 101 200 L2C1-2780120206A00

3000K 80 700 775 109 200 L2C1-3080120206A00

3500K 80 700 775 109 200 L2C1-3580120206A00

4000K 80 700 800 113 200 L2C1-4080120206A00

5000K 80 725 825 116 200 L2C1-5080120206A00

2200K 90 450 525 75 200 L2C1-2290120206A00

2700K 90 525 600 85 200 L2C1-2790120206A00

3000K 90 550 625 88 200 L2C1-3090120206A00

3500K 90 575 650 92 200 L2C1-3590120206A00

4000K 90 600 700 100 200 L2C1-4090120206A00

LUXEON CoB

1202

2200K 80 575 650 92 200 LHC1-2280-1202

2700K 80 675 750 106 200 LHC1-2780-1202

3000K 80 725 800 115 200 LHC1-3080-1202

3500K 80 750 825 119 200 LHC1-3580-1202

4000K 80 750 850 122 200 LHC1-4080-1202

5000K 80 775 875 124 200 LHC1-5080-1202

2200K 90 475 550 44 200 LHC1-2290-1202

2700K 90 550 625 90 200 LHC1-2790-1202

3000K 90 575 650 93 200 LHC1-3090-1202

3500K 90 600 675 96 200 LHC1-3590-1202

4000K 90 650 725 100 200 LHC1-4090-1202

LUXEON CoB

1203

3000K 70 1172 1300 122 300 LHC1-3070-1203

3500K 70 1172 1300 122 300 LHC1-3570-1203

4000K 70 1225 1375 130 300 LHC1-4070-1203

5000K 70 1225 1375 130 300 LHC1-5070-1203

5700K 70 1225 1375 130 300 LHC1-5770-1203

2200K 80 825 950 92 300 LHC1-2280-1203

2700K 80 1025 1125 106 300 LHC1-2780-1203

3000K 80 1100 1225 115 300 LHC1-3080-1203

3500K 80 1150 1275 119 300 LHC1-3580-1203

4000K 80 1175 1300 122 300 LHC1-4080-1203

5000K 80 1175 1325 124 300 LHC1-5080-1203

2200K 90 700 825 80 300 LHC1-2290-1203

2700K 90 850 950 90 300 LHC1-2790-1203

3000K 90 900 1000 93 300 LHC1-3090-1203

3500K 90 925 1025 96 300 LHC1-3590-1203

4000K 90 1000 1100 100 300 LHC1-4090-1203

Notes for Table 1 (continued on next page):

1. Lumileds maintains a tolerance of ±2 on CRI and ±6.5% on luminous flux measurements.

2. Typical CRI is approximately 2 points higher than the minimum CRI specified, but this is not guaranteed.

NO LONGER

ORDERABLE

Table 1 Continued . Product performance of LUXEON CoB Core Range at test current, Tj=85ºC .

PRODUCT NOMINAL

CCT

MINIMUM

CRI [1, 2]

LUMINOUS FLUX [1] (lm)TYPICAL

LUMINOUS

EFFICACY (lm/W)

TEST

CURRENT

(mA)

PART NUMBER

MINIMUM TYPICAL

LUXEON CoB

1204

3000K 70 1725 1950 122 450 LHC1-3070-1204

3500K 70 1725 1950 122 450 LHC1-3570-1204

4000K 70 1825 2050 130 450 LHC1-4070-1204

5000K 70 1825 2050 130 450 LHC1-5070-1204

5700K 70 1825 2050 130 450 LHC1-5770-1204

2200K 80 1325 1475 92 450 LHC1-2280-1204

2700K 80 1550 1700 106 450 LHC1-2780-1204

3000K 80 1625 1825 115 450 LHC1-3080-1204

3500K 80 1725 1900 119 450 LHC1-3580-1204

4000K 80 1725 1950 122 450 LHC1-4080-1204

5000K 80 1750 1975 124 450 LHC1-5080-1204

2200K 90 1075 1250 78 450 LHC1-2290-1204

2700K 90 1275 1425 90 450 LHC1-2790-1204

3000K 90 1325 1475 93 450 LHC1-3090-1204

3500K 90 1400 1525 96 450 LHC1-3590-1204

4000K 90 1450 1600 100 450 LHC1-4090-1204

LUXEON CoB

1205

3000K 70 2325 2600 122 600 LHC1-3070-1205

3500K 70 2325 2600 122 600 LHC1-3570-1205

4000K 70 2450 2750 130 600 LHC1-4070-1205

5000K 70 2450 2750 130 600 LHC1-5070-1205

5700K 70 2450 2750 130 600 LHC1-5770-1205

2200K 80 1700 1950 92 600 LHC1-2280-1205

2700K 80 2000 2250 106 600 LHC1-2780-1205

3000K 80 2200 2450 115 600 LHC1-3080-1205

3500K 80 2250 2550 119 600 LHC1-3580-1205

4000K 80 2325 2600 122 600 LHC1-4080-1205

5000K 80 2350 2650 124 600 LHC1-5080-1205

2200K 90 1400 1600 79 600 LHC1-2290-1205

2700K 90 1700 1900 90 600 LHC1-2790-1205

3000K 90 1800 2000 93 600 LHC1-3090-1205

3500K 90 1850 2075 96 600 LHC1-3590-1205

4000K 90 1925 2150 100 600 LHC1-4090-1205

Notes for Table 1 (continued on next page):

1. Lumileds maintains a tolerance of ±2 on CRI and ±6.5% on luminous flux measurements.

2. Typical CRI is approximately 2 points higher than the minimum CRI specified, but this is not guaranteed.

NO LONGER

ORDERABLE

Table 1 Continued . Product performance of LUXEON CoB Core Range at test current, Tj=85ºC .

PRODUCT NOMINAL

CCT

MINIMUM

CRI [1, 2]

LUMINOUS FLUX [1] (lm)TYPICAL

LUMINOUS

EFFICACY (lm/W)

TEST

CURRENT

(mA)

PART NUMBER

MINIMUM TYPICAL

LUXEON CoB

1208

3000K 70 3500 3900 122 900 LHC1-3070-1208

3500K 70 3500 3900 122 900 LHC1-3570-1208

4000K 70 3650 4100 130 900 LHC1-4070-1208

5000K 70 3700 4100 130 900 LHC1-5070-1208

5700K 70 3700 4100 130 900 LHC1-5770-1208

2200K 80 2600 2925 92 900 LHC1-2280-1208

2700K 80 3050 3400 106 900 LHC1-2780-1208

3000K 80 3275 3650 115 900 LHC1-3080-1208

3500K 80 3400 3800 119 900 LHC1-3580-1208

4000K 80 3500 3900 122 900 LHC1-4080-1208

5000K 80 3500 3950 124 900 LHC1-5080-1208

2200K 90 2125 2450 79 900 LHC1-2290-1208

2700K 90 2550 2850 90 900 LHC1-2790-1208

3000K 90 2650 2950 93 900 LHC1-3090-1208

3500K 90 2775 3075 96 900 LHC1-3590-1208

4000K 90 2900 3200 100 900 LHC1-4090-1208

LUXEON CoB

1211

3000K 70 4775 5200 122 1200 LHC1-3070-1211

3500K 70 4775 5200 122 1200 LHC1-3570-1211

4000K 70 5050 5600 130 1200 LHC1-4070-1211

5000K 70 5050 5600 130 1200 LHC1-5070-1211

5700K 70 5050 5600 130 1200 LHC1-5770-1211

2200K 80 3550 3975 92 1200 LHC1-2280-1211

2700K 80 4150 4600 106 1200 LHC1-2780-1211

3000K 80 4500 5000 115 1200 LHC1-3080-1211

3500K 80 4675 5200 119 1200 LHC1-3580-1211

4000K 80 4775 5200 122 1200 LHC1-4080-1211

5000K 80 4850 5300 124 1200 LHC1-5080-1211

2200K 90 2925 3425 80 1200 LHC1-2290-1211

2700K 90 3500 3875 90 1200 LHC1-2790-1211

3000K 90 3650 4000 93 1200 LHC1-3090-1211

3500K 90 3775 4200 96 1200 LHC1-3590-1211

4000K 90 4050 4400 100 1200 LHC1-4090-1211

Notes for Table 1:

1. Lumileds maintains a tolerance of ±2 on CRI and ±6.5% on luminous flux measurements.

2. Typical CRI is approximately 2 points higher than the minimum CRI specified, but this is not guaranteed.

NO LONGER

ORDERABLE

Optical Characteristics

Table 2 . Optical characteristics for LUXEON CoB Core Range at test current, Tj=85°C .

PART NUMBER TYPICAL TOTAL INCLUDED ANGLE [1] TYPICAL VIEWING ANGLE [2]

L2C1–xxxx120206xxx 135° 115°

LHC1-xxxx-xxxx 135° 115°

Notes for Table 2:

1. Total angle at which 90% of total luminous flux is captured.

2. Viewing angle is the off axis angle from the LED centerline where the luminous intensity is ½ of the peak value.

Electrical and Thermal Characteristics

Table 3 . Electrical and thermal characteristics for LUXEON CoB Core Range at test current, Tj=85ºC .

PART NUMBER

FORWARD VOLTAGE (Vf) [1] TYPICAL TEMPERATURE

COEFFICIENT OF FORWARD

VOLTAGE [2] (mV/°C)

TYPICAL THERMAL

RESISTANCE—JUNCTION

TO SOLDER PAD (°C/W)

MINIMUM TYPICAL MAXIMUM

L2CI-xxxx120206xxx 33 35.5 38 -16 0.98

LHC1-xxxx-1202 33 35.5 38 -16 0.98

LHC1-xxxx-1203 33 35.5 38 -16 0.70

LHC1-xxxx-1204 33 35.5 38 -16 0.55

LHC1-xxxx-1205 33 35.5 38 -16 0.51

LHC1-xxxx-1208 33 35.5 38 -16 0.29

LHC1-xxxx-1211 33 35.5 38 -16 0.23

Notes for Table 3:

1. Lumileds maintains a tolerance of ±2% on forward voltage measurements.

2. Measured between 25°C and 85°C.

Absolute Maximum Ratings

Table 4 . Absolute maximum ratings for LUXEON CoB Core Range .

PARAMETER MAXIMUM PERFORMANCE

DC Forward Current [1,2] 2x test current [2]

LED Junction Temperature [1] (DC & Pulse) 125°C [3]

ESD Sensitivity (ANSI/ESDA/JEDEC JS-001-2012) Class 3B

Operating Case Temperature [1] -40°C to 105°C

LED Storage Temperature -40°C to 120°C

Allowable Reflow Cycles 3

Reverse Voltage (Vreverse) LUXEON LEDs are not designed to be driven in reverse bias

Notes for Table 4:

1. Proper current derating must be observed to maintain the junction temperature below the maximum allowable junction temperature.

2. Residual periodic variations due to power conversion from alternating current (AC) to direct current (DC), also called “ripple,” are acceptable if the following conditions are met:

– The frequency of the ripple current is 100Hz or higher

– The average current for each cycle does not exceed the maximum allowable DC forward current

– The maximum amplitude of the ripple does not exceed 15% of the maximum allowable DC forward current

NO LONGER

ORDERABLE

1.0 Relatwe Spectral Power Distnbution o en a m a a an 1.0 450 500 550 500 550 700 a a c: a m m Relatwe Spectral Power Distnbutinn o an A00 750 EGO Wavelength [nm] 2200K 2700K 3000K 4000K 5000K 400 450 500 550 500 650 700 750 800 Wavelength [nrn]

Characteristic Curves

Spectral Power Distribution Characteristics

Figure 1a . Typical normalized power vs . wavelength for LHC1-xx70-1203 at test current, Tj=85ºC .

Figure 1b . Typical normalized power vs . wavelength for L2C1–xx80120206xxx and LHC1-xx80-1202at test current, Tj=85ºC .

NO LONGER

ORDERABLE

Relative Spectrai Power Distribution 10 0.3 06 0.4 02 00 115 1.10 Normalized Light Output [.1 105 1.00 0.95 0.90 0.05 000 500 400 450 500 550 500 650 700 750 Wavelength [nm] 40 50 BO 100 120 Junttion Temperature [=c]

Light Output Characteristics

Figure 1c . Typical normalized power vs . wavelength for L2C1–xx90120206xxx and LHC1-xx90-1202 at test current, Tj=85ºC .

Figure 2 . Typical normalized light output vs . junction temperature for L2C1–xxxx120206xxx and LHC1-xxxx-xxxx at test current .

NO LONGER

ORDERABLE

Relatwe Light Output [A] Relative Light Output [4] 20 15 as 0.0 o 2.0 50 100 150 200 250 Forward Cu rrent [mA] 300 350 Am) 15» 107 0.5 on 100 zoo :00 400 Forward Current [mA] 500 600

Figure 3a . Typical normalized light output vs . forward current for L2C1–xxxx120206xxx and LHC1-XXXX-1202, Tj=85ºC

Figure 3b . Typical normalized light output vs . forward current for LHC1–xxxx–1203, Tj=85ºC .

NO LONGER

ORDERABLE

Relatwe Light Output [.1 Relative Light Output [.1 20 w m 0.0 2.0 15 1.0 0.5 0.0 0 100 200 300 400 500 Forward Current [mA] 600 700 000 900 200 400 500 800 Forward Current [mA] 1000 1200

Figure 3c . Typical normalized light output vs . forward current for LHC1–xxxx–1204, Tj=85ºC .

Figure 3d . Typical normalized light output vs . forward current for LHC1–xxxx–1205, Tj=85ºC .

NO LONGER

ORDERABLE

2.0 Relative Light Output [-1 Z 5 .o 0.0 200 600 Ban 1000 1200 1400 1500 o 400 1500 Forward Current [mA] 2 u 1.5 7 ‘5 B 2 o g 1 u 7 j m .2 E m z u 5 7 Mo sou man 1500 2000 Forward Current [mA]

Figure 3e . Typical normalized light output vs . forward current for LHC1–xxxx–1208, Tj=85ºC .

Figure 3f . Typical normalized light output vs . forward current for LHC1–xxxx–1211, Tj=85ºC .

NO LONGER

ORDERABLE

400 350 7 300 7 o, w m a m u _

Forward Current Characteristics

Figure 4b . Typical forward current vs . forward voltage for LHC1–xxxx–1203, Tj=85ºC .

Figure 4a . Typical forward current vs . forward voltage for L2C1–xxxx120206xxx and LHC1-xxxx-1202, Tj=85ºC .

NO LONGER

ORDERABLE

34 35 3s 40 Forward Vo‘tage [V] 32 900 am) 7 7m) 7 a o o c u o u o a s 4 3 2E. Ewtzu ENEE 2007 100 7 1200 1000 7 w a 2:: $.th Emzzou m 5 o u 4 2007 40 3a 36 34 32 Forward Vo‘tage [V]

Figure 4c . Typical forward current vs . forward voltage for LHC1–xxxx–1204, Tj=85ºC .

Figure 4d . Typical forward current vs . forward voltage for LHC1–xxxx–1205, Tj=85ºC .

NO LONGER

ORDERABLE

Forward Current [mA] Forward Current [mA] 1800 1500 1400 1200 mom son sac A00 200 32 34 35 3s 40 Forward Vo‘tage [V] 2006 1500 1000 500 32 34 36 323 40 Forward Vo‘tage [V]

Figure 4e . Typical forward current vs . forward voltage for LHC1–xxxx–1208, Tj=85ºC .

Figure 4f . Typical forward current vs . forward voltage for LHC1–xxxx–1211, Tj=85ºC .

NO LONGER

ORDERABLE

Relative Intensity l%] 100 so» so» so» so» 20- lo» —9n —75 —sn —45 —3o —15 o 15 30 Angular Displacement [degrees] 0. en- 0% 20% 40% 60% 80% 10051

Radiation Pattern Characteristics

Figure 5 . Typical radiation pattern for L2C1–xxxx120206xxx and LHC1-xxxx-xxxx at test current, Tj=85ºC .

Figure 6 . Typical polar radiation pattern for L2C1–xxxx120206xxx and LHC1-xxxx-xxxx at test current, Tj=85ºC .

NO LONGER

ORDERABLE

CIE 1931 y 044 042 040 035 —Blad< body="" lucus="" —svs|ep="" n="" as="" 034="" 4="" b="" a="" r="" 032="" 030="" 030="" 032="" 034="" 035="" 038="" 040="" 0a2="" 044="" 046="" 048="" 050="" 052="" 05:="" 055="" 050="" 060="" cie="" 1931="" x="">

Color Bin Definition

Table 5. 3-step MacAdam ellipse color bin definitions for LUXEON CoB Core Range.

NOMINAL CCT COLOR SPACE CENTER POINT [1]

(cx, cy)

MAJOR AXIS,

MINOR AXIS,

ELLIPSE ROTATION

ANGLE, θ

2200K Single 3-step MacAdam ellipse (0.5020, 0.4155) 0.00862 0.00397 49.30°

2700K Single 3-step MacAdam ellipse (0.4578, 0.4101) 0.00810 0.00420 53.70°

3000K Single 3-step MacAdam ellipse (0.4338, 0.4030) 0.00834 0.00408 53.20°

3500K Single 3-step MacAdam ellipse (0.4073, 0.3917) 0.00927 0.00414 54.00°

4000K Single 3-step MacAdam ellipse (0.3818, 0.3797) 0.00939 0.00402 53.70°

5000K Single 3-step MacAdam ellipse (0.3447, 0.3553) 0.00822 0.00354 59.60°

5700K Single 3-step MacAdam ellipse (0.3287, 0.3417) 0.00745 0.00320 59.09°

Notes for Table 5:

1. Lumileds maintains a tolerance of ±0.005 on x and y coordinates in the CIE 1931 color space.

Figure 7 . 3-step MacAdam ellipse illustration for Table 5 .

NO LONGER

ORDERABLE

2XRI.6 T (’9 LUMILI: 110.1

Mechanical Dimensions

Notes for Figures 8a and 8b:

1. Drawings not to scale.

2. All dimensions are in millimeters.

Figure 8a . Mechanical dimensions for L2C1–xxxx120206xxx .

Figure 8b . Mechanical dimensions for LHC1–xxxx–1202 and LHC1–xxxx–1203 .

0.1

1±0.1

0.5±0.2

3.5

6.5

3.5

2x 16±0.2

19±0.2

R1.6

11.3±0.3

0.5

0.1

° DIMENSIONS ARE IN MILLIMETERS

DRAW IN G

DO NOT SCALE THIS

METRIC

° THIRD ANGLE PROJECTION

COB DATASHEET

DRAWING

XX.X ±0.1 mm XX.X ±0°30'

YYYY-MM-DD

PER

GD&T SYMBOLOGY

ASME Y14.5M-1994

SIZE

2013-01-24

5:111

16x19 LES9

2013-01-24T. VU

DRAWN BYDATE

ENGINEER/CHECKER

TITLE

SCALESHEET

XX.XX ±0.05 mm XX.XX ±0°00'30"

T. VU / R. HELBING

FRAME DATE: 2011- 04-1 8

UNLESS OTHERW ISE SPECIFIED

DATE

LINEAR: ANGULAR:

XX. ±0.2 mm XX ±1°

TOLERANCES

(UNLESS OTHERWISE SPECIFIED)

L2C2-xxxx1203E0900

xxxx 1203

NO LONGER

ORDERABLE

Notes for Figures 8c and 8d:

1. Drawings not to scale.

2. All dimensions are in millimeters.

Figure 8c . Mechanical dimensions for LHC1–xxxx–1204 .

Figure 8d . Mechanical dimensions for LHC1–xxxx–1205 .

4.5

24±0.2

3.5

4.5

R1.6

15.5±0.3

3.5

20±0.2

8.5

7.5

13+

0.5

0.1

1±0.1

0.5±0.2

L2C2-xxxx1204E1300 L2C2-xxxx1205E1300

0.1

1±0.1

0.5±0.2

4.5

24±0.2

3.5 4.5

R1.6

15.5±0.3

3.5

20±0.2

8.5

7.5

13+

0.5

0.1

° THIRD ANGLE PROJECTION

COB DATASHEET

DRAWING

XX.X ±0.1 mm XX.X ±0°30'

YYYY-MM-DD

PER

GD&T SYMBOLOGY

ASME Y14.5M-1994

SIZE

2013-01-24

5:111

20x24 LES13

2013-01-24T. VU

T. VU / R. HELBING

DATE

FRAME DATE: 2011- 04-18

DRAWN BY

SCALESHEET

XX.XX ±0.05 mm XX.XX ±0°00'30"

UNLESS OTHERW ISE SPECIFIED

° DIMENSIONS ARE IN MILLIMETERS

DRAW IN G

DATE

TITLE

METRIC

ENGINEER/CHECKER

DO NOT SCALE THIS

LINEAR: ANGULAR:

XX. ±0.2 mm XX ±1°

TOLERANCES

(UNLESS OTHERWISE SPECIFIED)

xxxx 1205

xxxx 1204

4.5

24±0.2

3.5

4.5

R1.6

15.5±0.3

3.5

20±0.2

8.5

7.5

13+

0.5

0.1

1±0.1

0.5±0.2

L2C2-xxxx1204E1300 L2C2-xxxx1205E1300

0.1

1±0.1

0.5±0.2

4.5

24±0.2

3.5 4.5

R1.6

15.5±0.3

3.5

20±0.2

8.5

7.5

13+

0.5

0.1

° THIRD ANGLE PROJECTION

COB DATASHEET

DRAWING

XX.X ±0.1 mm XX.X ±0°30'

YYYY-MM-DD

PER

GD&T SYMBOLOGY

ASME Y14.5M-1994

SIZE

2013-01-24

5:111

20x24 LES13

2013-01-24T. VU

T. VU / R. HELBING

DATE

FRAME DATE: 2011- 04-18

DRAWN BY

SCALESHEET

XX.XX ±0.05 mm XX.XX ±0°00'30"

UNLESS OTHERW ISE SPECIFIED

° DIMENSIONS ARE IN MILLIMETERS

DRAW IN G

DATE

TITLE

METRIC

ENGINEER/CHECKER

DO NOT SCALE THIS

LINEAR: ANGULAR:

XX. ±0.2 mm XX ±1°

TOLERANCES

(UNLESS OTHERWISE SPECIFIED)

xxxx 1205

xxxx 1204

NO LONGER

ORDERABLE

(’3 LUMILED w ¢ K $3.2 H 4 9 A 3 2 7 a ‘__L Jr _ 3V2 (Emmaj +03 _ $13.50} a —r H “ . 7 + 7‘- I’QL 4 3.2 UMILEDS 4 7V 28:0,2

Notes for Figures 8e and 8f:

1. Drawings not to scale.

2. All dimensions are in millimeters.

Figure 8e . Mechanical dimensions for LHC1–xxxx–1208 .

Figure 8f . Mechanical dimensions for LHC1–xxxx–1211 .

17.5±0.3

4.5

3.5 4.5

24±0.2

7.5

8.5

20±0.2

R1.6

3.5

15+

0.5

0.1

1±0.1

0.5±0.2

DRAWING

XX.X ±0.1 mm XX.X ±0°30'

YYYY-MM-DD

PER

GD&T SYMBOLOGY

ASME Y14.5M-1994

SIZE

2013-01-24

5:111

20x24 LES15

2013-01-24T. VU

T. VU / R. HELBING

DATE

FRAME DATE: 2011- 04-18

DRAWN BYDATE

ENGINEER/CHECKER

TITLE

XX.XX ±0.05 mm XX.XX ±0°00'30"

UNLESS OTHERW ISE SPECIFIED

° DIMENSIONS ARE IN MILLIMETERS

DRAW IN G

DO NOT SCALE THIS

METRIC

SCALE

COB DATASHEET

SHEET

° THIRD ANGLE PROJECTION

LINEAR: ANGULAR:

XX. ±0.2 mm XX ±1°

TOLERANCES

(UNLESS OTHERWISE SPECIFIED)

L2C2-xxxx1208E1500

xxxx 1208

YYYY-MM-DD

PER

GD&T SYMBOLOGY

ASME Y14.5M-1994

SIZE

1/20/14

4:1

28X28 LES19

1/20/14

MMW

RENE/THUY

DATE

FRAME DATE: 2013-05-10

DRAWN BY

DATE

ENGINEER/CHECKER

TITLE

SCALESHEET

UNLESS OTHERWISE SPECIFIED

° DIMENSIONS ARE IN MILLIMETERS

DRAWING

DO NOT SCALE THIS

METRIC

° THIRD ANGLE PROJECTION

COB DATA SHEET

DRAWING

TOLERANCES

MATERIAL FINISH

- -

xxxx 1211

L2C2-xxxx1211E1900

NO LONGER

ORDERABLE

741—} 7,, 7,47,,,,,,,,,,,,,,,,,,,,,,,, 77,,,ALHF,7,7,77,77,77777777777 744?,7,, ”774}777777777777 ,,, iiiiiiia ,W4}"WW,Wﬁﬁﬁﬁﬁﬁﬁd ‘

Notes for Figure 9a and 9b:

1. Drawings are not to scale.

2. All dimensions are in millimeters.

Figure 9a . Tube dimensions for LUXEON CoB Core Range L2C1–xxxx120206xxx .

Packaging Information

Unit Totals per Box

Table 6 . Unit totals per box for LUXEON CoB with CrispWhite Technology .

TOTAL L2CI-

xxxx120206xxx

LHC1-

xxxx-1202

LHC1-

xxxx-1203

LHC1-

xxxx-1204

LHC1-

xxxx-1205

LHC1-

xxxx-1208

LHC1-

xxxx-1211

Units per Tube 20 20 20 20 20 20 10

Tubes per Box 5 5 5 5 5 5 5

Units per Box 100 100 100 100 100 100 50

Tube Dimensions

Figure 9b . Tube dimensions for LUXEON CoB LHC1–xxxx-1202 and LHC1–xxxx-1203 .

NO LONGER

ORDERABLE

Notes for Figures 9c and 9d:

1. Drawings are not to scale.

2. All dimensions are in millimeters.

Figure 9c . Tube dimensions for LUXEON CoB LHC1–xxxx–1204, LHC1–xxxx–1205 and LHC1–xxxx–1208 .

Figure 9d . Tube dimensions for LUXEON CoB LHC1–xxxx–1211 .

NO LONGER

ORDERABLE

OLUMILEDS

DS115 LUXEON CoB Core Range

Product Datasheet 20180427

LUXEON is a registered trademark of the Lumileds

Holding B.V. in the United States and other countries.

lumileds.com

Neither Lumileds Holding B.V. nor its affiliates shall be liable for any kind of loss of data or any other damages,

direct, indirect or consequential, resulting from the use of the provided information and data. Although Lumileds

Holding B.V. and/or its affiliates have attempted to provide the most accurate information and data, the materials

and services information and data are provided “as is,” and neither Lumileds Holding B.V. nor its affiliates

warrants or guarantees the contents and correctness of the provided information and data. Lumileds Holding

B.V. and its affiliates reserve the right to make changes without notice. You as user agree to this disclaimer and

user agreement with the download or use of the provided materials, information and data. A listing of Lumileds

product/patent coverage may be accessed at lumileds.com/patents.

About Lumileds

Companies developing automotive, mobile, IoT and illumination lighting applications need a partner who can collaborate with

them to push the boundaries of light. With over 100 years of inventions and industry firsts, Lumileds is a global lighting solutions

company that helps customers around the world deliver differentiated solutions to gain and maintain a competitive edge. As the

inventor of Xenon technology, a pioneer in halogen lighting and the leader in high performance LEDs, Lumileds builds innovation,

quality and reliability into its technology, products and every customer engagement. Together with its customers, Lumileds is

making the world safer, better and more beautiful—with light.

To learn more about our lighting solutions, visit lumileds.com.

NO LONGER

ORDERABLE

Fiche technique pour LUXEON CoB de Lumileds

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