CL-DEMOKIT-CAN40 - Intematix Corporation

Features & Beneﬁ ts

Intematix ChromaLit 360

Remote Phosphor Light Source: Ellipse, Candle, Dome

DATASHEET

ChromaLit 360 light sources enable brighter, more energy efﬁ cient LED bulbs and lighting ﬁ xtures by

providing wide angle lighting distribution, improved light quality, and greater design freedom. These

remote phosphor light sources from Intematix provide highly uniform light distribution and are offered in

a variety of lumen levels for applications in indoor and outdoor general lighting, decorative and retroﬁ t

light bulb designs.

• High light quality with choice of CCT & CRI

options

• Uniform, glare-free light that is diffuse and

offers soft shadows

• Reduces costs with a smaller heatsink thereby

lowering supply chain costs

• Streamlined supply and production of LED

lighting systems

• Up to 30% higher system efﬁ cacy compared to

conventional LED lighting designs

Applications & Uses

• LED retroﬁ t light bulbs

• Portable consumer lighting

• Down lights

• Wall sconces

• Pendants

• Chandelier and other decorative applications

• Appliances

Product Nomenclature 3

Minor Product Change Policy 3

Optical Characteristics 4

Color Binning Information 4

Relative Spectral Power Distribution 5

Intensity Distribution Diagrams 6

Performance Characteristics Over Wavelength 8

Relative Conversion Efﬁ cacy Over Temperature 8

Absolute Maximum and Minimum Ratings 10

Mechanical Characteristics 10

Reliability and Environmental Ratings 14

Handling Considerations 14

Company Information 14

TABLE OF CONTENTS

Product Nomenclature

ChromaLit 360 products are identiﬁ ed by the following product nomenclature:

Product order code

CL-ABC-DEFGH-IJ

Where:

A - Designates the ﬁ rst digit of CRI

8 = 80 CRI minimum

BC - Designates the ﬁ rst two digits of CCT

30 = 3000K, 40 = 4000K, etc.

DEF - Designates shape

CAN = candle, ELP = ellipse, DOM = dome

GH - Product identiﬁ cation number

IJ - Designates the standard polycarbonate material used

Example:

CL-830-CAN15-PC represents ChromaLit 80CRI, 3000K CCT, Candle 15, polycarbonate

Minor Product Change Policy

The rigorous qualiﬁ cation testing of ChromaLit products ensures product performance. Slight

cosmetic changes which do not affect the form ﬁ t or function of the product may occur as Intematix

continues product optimization.

Optical and Performance Characteristics1

Color Designation CCT2

(K) Color Consistency3

MacAdam Ellipses Min

CRI4

Minimum Conversion

Efﬁ cacy5

(Lm/Wrad) at 25oC

Typical Conversion

Efﬁ cacy5

(Lm/Wrad) at 25oC

CL-827 2700 3-step 80 170 180

CL-927 2700 3-step 90 155 165

CL-830 3000 3-step 80 185 200

CL-930 3000 3-step 90 160 170

CL-835 3500 3-step 80 195 205

CL-840 4000 3-step 80 200 210

CL-750 5000 4-step 70 215 225

Notes

1. Performance based on reference design. Please refer to application note for details on reference design. Intematix maintains a tolerance of +7% of

luminous ﬂ ux and radiant watt measurements. Intematix maintains a tolerance of 0.5 MacAdam Ellipses on color consistency measurements.

2. Correlated Color Temperature

3. Color Consistency is dependent on the AVERAGE dominant wavelength of blue LED source. ChromaLit maintains color consistency within a

3-step MacAdam Ellipse given a uniform blue LED source with a constant average wavelength. 2.5nm (+1.25nm) of average blue LED wavelength

variation will provide 4-step MacAdam Ellipses of color consistency. 5nm (+2.5nm) of average blue LED wavelength variation will provide 5-step

MacAdam Ellipses of color consistency. Values are approximate, please refer to bin diagram on the following page for exact bin deﬁ nition.

4. Minimum Color Rendering Index rating is based on reference design using blue LEDs with average dominant wavelength of 455nm.

5. Conversion Efﬁ cacy is the luminous ﬂ ux (white light) output per radiant watt of blue light input to ChromaLit. Wrad is the radiometric power measured

in watts. Conversion efﬁ cacy is rated based on reference operation and dominant blue LED wavelength of 455nm (peak wavelength of 450nm).

Color Binning Diagram

CIE y

CIE x

Relative Spectral Power Distribution

Relative Radiant Power (%)

Wavelength (nm)

CCT (K) x y

2700 0.4578 0.4101

3000 0.4338 0.4030

3500 0.4073 0.3917

4000 0.3818 0.3797

5000 0.3447 0.3553

Color Bin Center Points

Intensity Distribution - Ellipse

1 Intensity distribution pattern is characterized using CL-750-ELP60-PC products.

Angle (Deg)

Relative Intensity

Luminous Intensity Distribution Diagram1

Luminous Intensity Polar Diagram

Beam Angle (Full Angle) 280o

Maximum Intensity Angle (Half Angle) 75o

Intensity Distribution - Candle

1 Intensity distribution pattern is characterized using CL-750-CAN40-PC products.

Angle (Deg)

Relative Intensity

Luminous Intensity Distribution Diagram1

Luminous Intensity Polar Diagram

Beam Angle (Full Angle) 255o

Maximum Intensity Angle (Half Angle) 70o

Intensity Distribution - Dome

1 Intensity distribution pattern is characterized using CL-750-DOM60-PC products.

Angle (Deg)

Relative Intensity

Luminous Intensity Distribution Diagram

Luminous Intensity Polar Diagram

Beam Angle (Full Angle) 215o

Maximum Intensity Angle (Half Angle) 0o

Performance Characteristics over Wavelength

Performance Characteristics over Temperature

Relative Conversion Efﬁ cacy over Wavelength1

Relative Conversion Efﬁ cacy

Average Dominant Wavelength (nm)

1 Relative conversion efﬁ cacy does not reﬂ ect performance of blue LED over dominant wavelength.

Relative Conversion Efﬁ cacy

ChromaLit Temperature (oC)

Relative CIE Chromaticity Shift over Wavelength

Average Dominant Wavelength

450nm 452.2nm 455nm 457.5nm 460nm

Δ CIE X Coordinate -0.003 -0.002 0 0.001 0.001

Δ CIE Y Coordinate -0.014 -0.007 0 0.005 0.008

Description Maximum Values

Maximum operating temperature (Tmax1)110

Minimum operating temperature -40oC

Max storage temperature 110oC

Minimum storage temperature -40oC

Response time to full light output <10μs

Absolute Maximum and Minimum Ratings

Mechanical Characteristics for ChromaLit 360

Material Properties

ChromaLit Ellipse

1 Tmax is the maximum temperature measured on the inner surface of ChromaLit. Please consult application guide for additional information on

measurement location.

Description Properties

Substrate Polycarbonate

Coefﬁ cient of Thermal Expansion 70 ppm/oC

Dimension

Designation Example

Application

Typical

Lumen

Output (lm)1

A. Height

(mm/in.2)

B. Maximum

Diameter

(mm/in.2)

C. Inner

Opening

Diameter

(mm/in.2)

D. Outer

Opening

Diameter

(mm/in.2)

Thickness

(mm/in.2)

ELP 30 LED retroﬁ t

lamp/path-

way lighting/

chandelier

200-350 26.4/1.0 14.5/0.6 16.4/0.6 16.4/0.6 1.0/0.04

ELP 40 350-600 32.9/1.3 20.0/0.8 22.0/0.9 22.0/0.9 1.0/0.04

ELP 60 550-850 40.4/1.6 23.5/0.9 25.5/1.0 25.5/1.0 1.0/0.04

1. Typical dimension tolerances for length, width, and diameter are +0.7mm. Phosphor dimension and mechanical dimension are equivalent.

2. Typical lumen output is a recommended range based on typical application for a 3000K CCT, 80 CRI lighting system operating below maximum tem-

perature speciﬁ cation. On a relative basis, lower CCTs/higher CRIs operate at lower lumen output and higher CCTs/lower CRIs may have higher lumen

output.Max temperature and thus system lumens may vary widely depending on thermal management used.

ChromaLit Candle

Dimension

Designation Example

Application

Typical

Lumen

Output (lm)1

A. Height

(mm/in.2)

B. Maximum

Diameter

(mm/in.2)

C. Inner

Opening

Diameter

(mm/in.2)

D. Outer

Opening

Diameter

(mm/in.2)

Thickness

(mm/in.2)

CAN 15 LED retroﬁ t

lamp/lantern/

chandelier

70-150 16.0/0.6 11.9/0.5 9.5/0.4 11.4/0.4 1.0/0.04

CAN 30 150-300 21.2/1.0 16.9/0.7 14.5/0.6 16.4/0.6 1.0/0.04

CAN 40 300-700 35.0/1.4 26.6/1.0 24.0/0.9 26.0/1.0 1.0/0.04

ChromaLit Dome 15

Dimension

Designation Example

Application

Typical

Lumen

Output (lm)1

A. Height

(mm/in.2)

B. Maximum

Diameter

(mm/in.2)

C. Inner

Opening

Diameter

(mm/in.2)

D. Outer

Opening

Diameter

(mm/in.2)

Thickness

(mm/in.2)

DOM 15 single LED 100-200 13.8/0.5 14.0/0.6 12.0/0.5 14.0/0.6 1.0/0.04

DOM 40 LED retroﬁ t

lamp/wall

sconces/pen-

dants

300-600 20.5/0.8 33.00/1.3 28.0/1.1 33.0/1.3 1.0/0.04

DOM 60 600-1000 26.1/1.0 42.0/1.7 37.0/1.5 42.0/1.7 1.0/0.04

DOM 100 1000-1600 34.1/1.3 55.0/2.2 50.0/2.0 55.0/2.2 1.0/0.04

ChromaLit Dome 40, 60, 100

Mechanical Diagram, ELP30 Mechanical Diagram, ELP40

Mechanical Diagram, ELP60 Mechanical Diagram, CAN15

Mechanical Diagram, CAN30 Mechanical Diagram, CAN40

Mechanical Diagram, DOM15 Mechanical Diagram, DOM40

Mechanical Diagram, DOM60

Handling Considerations

As a dirty or damaged phosphor layer could result in alteration in product performance, ChromaLit

light sources should be handled similarly to most optical components. It is best to handle the parts

at the edges and prevent mechanical abrasion. If adhesives are used, they must be kept off of the

entrance or exit apertures of ChromaLit, since they could greatly impact performance. If parts require

cleaning, use a lint free tissue, isopropanol (IPA), or mild detergent. Dry using compressed air.

46410 Fremont Boulevard Fremont, CA 94538

Tel: +1 510.933.3300 Fax: +1 510.668.0793

sales@intematix.com

www.intematix.com

About Intematix

Intematix develops essential phosphor materials to drive the LED lighting revolution. The

company’s comprehensive range of products and solutions can be used to build foundations

for the world’s LED lighting products and systems including general lighting, displays,

automotive and many others. A broad selection of products and innovative delivery systems

accelerate time-to-market, improve light quality and efﬁ cacy and reduce costs. For more

information, please visit www.intematix.com.

Description Typical Values

TLumen maintenance L70 50K hours at 85oC

Storage life 50K hrs

Storage humidity (non-condensing) 90%

RoHS RoHS Compliant

REACH REACH Compliant

Reliability and Environmental Ratings