Lumileds LXK2-PWC4-0180 Power led Datasheet

Technical Datasheet DS60
power light source
®
LUXEON K2 with TFFC
Introduction
Technology
Leadership
LUXEON® K2 with TFFC is the most robust and powerful LED available
offering the lowest cost of light with the widest operating range of any
power LED.
LUXEON K2 with TFFC
Œ
delivers more useable light
Œ
optimizes applications to reduce size and cost
Œ
enables more robust applications
Œ
reduces thermal management engineering
Œ
enables use of standard FR4 PCB technology
Œ
simplifies manufacturing through the use of surface mount technology.
Œ Industry leading lumen perform
ance, over 200 lumens in
CoolWhite at 1000mA
Œ Over 60 lm/W at 1000mA
Œ Highest operating junction
temperature available, up to 150°C
Œ Highest Drive Currents—1500 mA
Œ Lowest Thermal Resistance—
5.5°C/W
Œ Industry Best Moisture Sensitivity
level—JEDEC 2a
Œ Lead free reflow solder
JEDEC 020c compatible
Œ RoHS Compliant
Œ Autoclave compliant—
JESD22 A102
Œ Industry Best Lumen
Maintenance—50,000 hours life
at 1000 mA with 70% lumen
maintenance
Table of Contents
Product Nomenclature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3
Average Lumen Maintenance Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . .3
Environmental Compliance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3
Flux Characteristics for LUXEON K2 with TFFC . . . . . . . . . . . . . . . . . . . . . . . .4
Flux Characteristics for LUXEON K2 with TFFC Star . . . . . . . . . . . . . . . . . . . .4
Optical Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5
Electrical Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6
Absolute Maximum Ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7
JEDEC Moisture Sensitivity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8
Reflow Soldering Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8
Mechanical Dimensions—SMT 4-Lead Gullwing Form . . . . . . . . . . . . . . . . . . .9
Solder Pad Layout—SMT Lead Form . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10
Mechanical Dimensions—2-Lead Gullwing Form . . . . . . . . . . . . . . . . . . . . . . .11
Solder Pad Design—2-Lead Gullwing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12
Solder Pad Layout—2-Lead Gullwing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12
Pin Out Diagram—Gullwing Form . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12
Mechanical Dimensions— LUXEON K2 with TFFC Star . . . . . . . . . . . . . . . . . .13
Wavelength Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14
Typical Light Output Characteristics Over Temperature . . . . . . . . . . . . . . . . . .14
Typical Forward Current Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15
Typical Relative Luminous Flux . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15
Current Derating Curves . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16
Typical Radiation Patterns . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18
Emitter Reel Packaging . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19
Product Binning and Labeling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20
Luminous Flux Bins . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21
Forward Voltage Bins . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22
White Binning Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .23
LUXEON K2 with TFFC Cool-White Bin Structure . . . . . . . . . . . . . . . . . . . . . .24
LUXEON K2 with TFFC Datasheet DS60 (10/07)
2
Product Nomenclature
LUXEON K2 with TFFC LEDs are tested and binned at 1000mA.
The part number designation is explained as follows:
L X K 2 A B C D E F G H for Emitter
L 2 K 2 A B C D x x E F G H for Star
Where:
A — designates radiation pattern (Value P for Lambertian emitter, M for Lambertian Star product)
B — designates color (see Philips Lumileds AB21)
C — designates color variant (0 for direct colors, C for CoolWhite)
D — designates test current (value 4 for 1000 mA)
E — Reserved for future offerings
FGH — minimum luminous flux (lm) or radiometric power (mW) performance
x x indicates array description for Level 2 Star Product (11 for 1x1 array)
Therefore, products tested and binned at 1000mA follow the part numbering scheme:
L X K 2 P x x 4 x x x x (L 2 K 2 M x x 4 1 1 x x x x for Star)
Average Lumen Maintenance Characteristics
Lifetime for solidstate lighting devices (LEDs) is typically defined in terms of lumen maintenance—the percentage of initial light
output remaining after a specified period of time.
Philips Lumileds projects that white LUXEON K2 with TFFC products will deliver, on average, 70% lumen maintenance at 50,000
hours of operation at a forward current of 1000mA. This projection is based on constant current operation with junction tempera
ture maintained at or below 120°C.
This performance is based on independent test data, Philips Lumileds historical data from tests run on similar material systems,
and internal LUXEON reliability testing. Observation of design limits included in this data sheet is required in order to achieve this
projected lumen maintenance.
More information about lifetime and reliability can be found in the LUXEON K2 Reliability Datasheet on the Philips Lumileds
web site.
Environmental Compliance
Philips Lumileds is committed to providing environmentally friendly products to the solidstate lighting market. LUXEON K2 with
TFFC LEDs are compliant to the European Union directives on the Restriction of Hazardous Substances in electronic equipment,
namely the RoHS directive. Philips Lumileds will not intentionally add the following restricted materials to LUXEON K2 with TFFC
LEDs: lead, mercury, cadmium, hexavalent chromium, polybrominated biphenyls (PBB) or polybrominated diphenyl ethers
(PBDE).
LUXEON K2 with TFFC Datasheet DS60 (10/07)
3
Flux Characteristics for LUXEON K2 with TFFC
Junction and Case Temperature = 25ºC
Table 1.
Minimum Performance at Test Current
Typical Performance at Indicated Current
Minimum Luminous Flux (lm)
Color
Cool
White
Typical Luminous Flux (lm)
Part Number
at 1000mA
at 1500 mA
at 700 mA
at 350 mA
LXK2PWC40200
LXK2PWC40180
LXK2PWC40160
200
180
160
275
250
220
170
150
135
95
85
75
Flux Characteristics for LUXEON K2 with TFFC Star
Junction and Case Temperature = 25ºC
Table 2.
Minimum Performance at Test Currents
Typical Performance at Indicated Current
Minimum Luminous Flux (lm)
Color
Cool
White
Typical Luminous Flux (lm)
Part Number
at 1000mA
at 1500 mA
at 700 mA
at 350 mA
L2K2MWC4110200
L2K2MWC4110180
L2K2MWC4110160
200
180
160
275
250
220
170
150
135
95
85
75
Notes for Tables 1 & 2:
1. Minimum luminous flux performance guaranteed within published operating conditions.
Philips Lumileds maintains a tolerance of ± 10% on flux and power measurements of LUXEON K2 with TFFC.
2. Typical luminous flux performance when device is operated within published operating conditions.
3. LUXEON K2 with TFFC products with even higher luminous flux and radiometric power levels will become available in the
future. Please consult Philips Lumileds or Future Electronics for more information.
4. Radiation Pattern for all LUXEON K2 with TFFC products is Lambertian.
5. LUXEON K2 with TFFC is tested and binned at 25°C with a 20ms monopulse test to minimize heating of the junction
or case.
6. Case Temperature should be measured in the center of the bottom of heatsink slug.
LUXEON K2 with TFFC Datasheet DS60 (10/07)
4
Optical Characteristics
LUXEON K2 with TFFC at Test Current[1]
Junction and Case Temperature = 25ºC[11]
Table 3.
Color
Cool White
Dominant Wavelength [2] λD,
Peak Wavelength [3] λP,
or Color Temperature [4]
CCT
Min.
Typ.
Max.
4500 K
6500 K
Typical
Spectral
Halfwidth
(nm)
Δλ1/2
10000 K
[6]
Typical
Temperature
Coefficient of
Dominant
Wavelength
(nm/oC)
ΔλD/ ΔTJ
Typical
Total
Included
Angle [7]
(degrees)
θ0.90V
Typical
Viewing
Angle [8]
(degrees)
2θ 1/2
160
120
Notes for Table 3:
1. Test current is 1000 mA for all LXK2 Pxx4 xxxx Emitter products (L2K2 Mxx4 11 xxxx for LUXEON K2 with TFFC
Star products).
2. Dominant wavelength is derived from the CIE 1931 Chromaticity diagram and represents the perceived color. Philips
Lumileds maintains a tolerance of ± 0.5 nm for dominant wavelength measurements.
3. Philips Lumileds maintains a tolerance of ± 2nm for peak wavelength measurements.
4. CCT ±5% tester tolerance
5. Typical CRI (Color Rendering Index) for CoolWhite product is 70.
6. Spectral width at ½ of the peak intensity.
7. Total angle at which 90% of total luminous flux is captured.
8. Viewing angle is the off axis angle from lamp centerline where the luminous intensity is ½ of the peak value.
9. All white products are built with Indium Gallium Nitride (InGaN).
10. White power light sources represented here are IEC60825 class 2 for eye safety.
11. Luxeon K2 with TFFC is tested and binned at 25°C with a 20ms monopulse test to minimize heating of the junction
or case.
LUXEON K2 with TFFC Datasheet DS60 (10/07)
5
Electrical Characteristics
Electrical Characteristics at 1000mA
Junction and Case Temperature = 25ºC[4]
Table 4.
Color
CoolWhite[3]
Typical
Dynamic
Resistance
(Ω)
RD
Forward Voltage Vf [1]
(V)
Min.
Typ.
Max.
3.03
3.65
4.71
[2]
0.45
Typical Temperature
Coefficient of
Forward
Voltage
(mV/oC)
ΔVF / ΔTJ
Typical
Thermal
Resistance
Junction to
Case (oC/W)
RθJC
2.8
5.5 (9.5 for Star)
Notes for Table 4:
1. Philips Lumileds maintains a tolerance of ±0.06V on forward voltage measurements
2. Dynamic resistance is the inverse of the slope in linear forward voltage model for LEDs. See figure 13.
3. The forward voltage of the LUXEON K2 with TFFC LED will reduce by up to 0.50V at 1000mA during the first few hours of
operation after SMT reflow. Due to this effect, Philips Lumileds recommends current source drive for consistent and reliable
performance. Cross connected series/parallel arrays or voltage drivers which could result in current hogging or variation in
drive current are not recommended. Please consult your Philips Lumileds authorized distributor or Philips Lumileds Sales
Representative for further information.
4. Luxeon K2 with TFFC is tested and binned at 25°C with a 20ms monopulse test to minimize heating of the junction
or case.
Typical Electrical Characteristics
Junction and Case Temperature = 25ºC
Table 5.
Color
at 1500mA
Typical Forward Voltage Vf (V)
at 700mA
at 350mA
CoolWhite
3.85
3.5
3.3
LUXEON K2 with TFFC Datasheet DS60 (10/07)
6
Absolute Maximum Ratings[3]
Table 6.
Parameter
CoolWhite
Value
DC Forward Current (mA)
1500
Peak Pulsed Forward Current (mA)
1500
Average Forward Current (mA)
1500
ESD Sensitivity
> 2,000 V HBM
Class 2 JESD22A114B
LED Junction Temperature[1]
150°C
Storage Temperature
40°C 185°C
Soldering Temperature
JEDEC 020c 260°C
Allowable Reflow Cycles
3
Autoclave Conditions
121°C at 2 ATM,
100% RH for 72 hours max
Reverse Voltage (Vr)
See Note 2
Notes for Table 6:
1. Proper current derating and thermal management must be observed to maintain junction temperature below the maximum.
2. LEDs are not designed to be driven in reverse bias.
3. Stresses in excess of the absolute maximum ratings can cause damage to the emitter. Maximum Rating limits apply to
each parameter in isolation, all parameters having values within the Current Derating Curve. It should not be assumed that
limiting values of more than one parameter can be applied to the product at the same time. Exposures to the absolute
maximum ratings for extended periods can adversely affect device reliability.
Preliminary LUXEON K2 Emitter Datasheet DS51a (1/07)
7
JEDEC Moisture Sensitivity
Table 7.
Soak Requirements
Level
2a
Floor Life
Time
Conditions
4
weeks
≤ 30°C /
60% RH
Standard
Time
Conditions
(hours)
Accelerated Environment
Time
Conditions
(hours)
696 [1]
+ 5/0
120
+1/0
30°C /
60% RH
60°C /
60% RH
Note for Table 7:
1. The standard soak time includes a default value of 24 hours for semiconductor manufacturer's exposure time (MET)
between bake and bag and includes the maximum time allowed out of the bag at the distributor's facility.
Reflow Soldering Characteristics[1]
JEDEC 020c
Table 8.
Profile Feature
Lead Free Assembly
Average RampUp Rate (Tsmax to Tp)
3°C / second max
Preheat Temperature Min (Tsmin)
150°C
Preheat Temperature Max (Tsmax)
200°C
Preheat Time (tsmin to tsmax)
60 180 seconds
Temperature (TL)
217°C
Time Maintained Above Temperature (TL)
60 150 seconds
Peak / Classification Temperature (TP)
260°C
Time Within 5°C of Actual Peak Temperature (TP)
20 40 seconds
Ramp Down Rate
6°C / second max
Time 25°C to Peak Temperature
8 minutes max
Notes for Table 8:
1. All temperatures refer to topside of the package, measured on the package body surface.
LUXEON K2 with TFFC Datasheet DS60 (10/07)
8
Mechanical Dimensions—SMT 4Lead Gullwing Form
Figure 1. 4lead Gullwing Package Outline Drawing.
Notes for Figure 1:
1. The anode side of the device is denoted by the chamfer on the part body. Electrical insulation between the case and the
board is required—slug of the device is not electrically neutral. Do not electrically connect either the anode or cathode to
the slug.
2. Do not handle the device by the lens except as described in Philips Lumileds document AB29.
3. Drawings not to scale.
4. All dimensions are in millimeters.
5. All dimensions without tolerances are for reference only.
6. Recommended solder paste thickness of 0.15mm.
LUXEON K2 with TFFC Datasheet DS60 (10/07)
9
Solder Pad Design—SMT Lead Form
Conductive Pad
Conductive
Pad
Conductive
Pad
Soldermask
Package
Outline
Figure 2. 4Lead Gullwing Solder Pad Design.
Notes for Figure 2:
1. Electrical isolation is required between signal leads and hexagonal heat slug contact.
2. For optimal thermal performance, maximize board metallization at hexagonal heat slug contact.
Solder Pad Layout—SMT Lead Form
Figure 3. 4Lead Gullwing Package Solder Pad Layout.
Pin Out Diagram
Figure 4. 4Lead Gullwing Pin Out Diagram.
LUXEON K2 with TFFC Datasheet DS60 (10/07)
10
Mechanical Dimensions—2Lead Gullwing Form[7] [8]
Figure 5. 2Lead Gullwing Package Outline Drawing.
Notes for Figure 5:
1. The anode side of the device is denoted by the chamfer on the part body. Electrical insulation between the case and the board
is required—slug of the device is not electrically neutral. Do not electrically connect either the anode or cathode to the slug.
2. Do not handle the device by the lens except as described in Philips Lumileds document AB29—care must be taken to
avoid damage to the lens or the interior of the device that can be damaged by excessive force to the lens.
3. Drawings not to scale.
4. All dimensions are in millimeters.
5. All dimensions without tolerances are for reference only.
6. Recommended solder paste thickness of 0.15mm.
7. Available as a custom part number, contact your local sales representative for more information.
8. The 2Lead Gullwing part is not recommended for use in solder reflow systems. Mount these parts with a thermal
adhesive and hot bar soldering. For conventional reflow surfacemounting, use 4Lead Gullwing Form.
LUXEON K2 with TFFC Datasheet DS60 (10/07)
11
Solder Pad Design—2Lead Gullwing
Figure 6. 2Lead Gullwing Package Solder Pad Layout.
Notes for Figure 6:
1. Electrical isolation is required between signal leads and hexagonal heat slug contact.
2. For optimal thermal performance, maximize board metallization at hexagonal heat slug contact.
Solder Pad Layout—2Lead Gullwing
Figure 7. Solder Pad Layout 2Lead Gullwing.
Pin Out Diagram—Gullwing Form
PIN
NC (TRIMMED)
2
ANODE
3
NC (TRIMMED)
4
CATHODE
Figure 8. 2Lead Gullwing Pin Out Diagram.
LUXEON K2 with TFFC Datasheet DS60 (10/07)
12
FUNCTION
1
Mechanical Dimensions— LUXEON K2 with TFFC Star
LABEL
FORMAT
CATCODE
FLUX. COLOR. VF BIN
SERIAL NUMBER
SERIAL NUMBER
DATECODE
PRODUCTION WEEK & YEAR
PART NUMBER
PART NUMBER
BACK VIEW
PIN OUT DIAGRAM
PIN FUNCTION
1
NC
2
ANODE
3
NC
4
CATHODE
Figure 9. LUXEON K2 with TFFC Star Package Outline Drawing.
Notes for Figure 9:
1. Slots in aluminum core PCB for M3 or #4 mounting screw.
2. Electrical interconnection pads labeled on the aluminum core PCB with "+" and "" to denote positive and negative,
respectively. All positive pads are interconnected, as are all negative pads, allowing for flexibility in array interconnection.
3. Drawings not to scale.
4. All dimensions are in millimeters.
LUXEON K2 with TFFC Datasheet DS60 (10/07)
13
Wavelength Characteristics
CoolWhite at Test Current
Junction and Case Temperature = 25°C
Relative Specrtal Powerr
Distribution
1.0
0.8
0.6
0.4
0.2
0.0
350
400
450
500
550
600
650
700
750
800
Wavelength (nm)
Figure 10. CoolWhite color spectrum of typical CCT part, integrated measurement.
Typical Light Output Characteristics Over Temperature
Relative Photometric Light Output (%)
CoolWhite at Test Current
Junction Temperature, Tj
Case Temperature, Tc
Temperature, °C
Figure 11. Relative light output vs. temperature for white.
LUXEON K2 with TFFC Datasheet DS60 (10/07)
14
Typical Forward Current Characteristics
Junction and Case Temperature = 25°C
Figure 12. Forward current vs. forward voltage for white.
Typical Relative Luminous Flux
Relative Luminous Flux vs. Forward Current
Junction and Case Temperature = 25°C
Normalized Luminous Flux
1.4
1.2
1.0
0.8
0.6
0.4
0.2
0.0
0
200
400
600
800
1000
1200
1400
1600
If - Forward Current (mA)
Figure 13. Relative luminous flux or radiometric power vs. forward current for white
at 20ms monopulse, test current 1000 mA.
Notes for Figures 12 and 13:
1. Driving these high power devices at currents other than the test condition (1000 mA) may be subject to variation in
performance.
2. It is not recommended to operate these devices at less than 100mA drive currents. Pulse width modulation (PWM) is
recommended for dimming effects.
3. LUXEON K2 with TFFC is tested and binned at 25°C with a 20ms monopulse test to minimize heating of the junction or
case.
LUXEON K2 with TFFC Datasheet DS60 (10/07)
15
Current Derating Curves
Note: Current derating curves are intended to represent the operational limits of the product as identified in Table 6. For lumen
maintenance information and conditions, please refer to the Average Lumen Maintenance Characteristics section in this document.
Current Derating Curve for 1500 mA Drive Current
CoolWhite
1800.00
If Forward
(mA)
If - ForwardCurrent
Current (mA)
1500.00
1200.00
900.00
600.00
R
10°C/W
Rj-a
θj-aj=
10ºC/W
RΞ
a=
R
15°C/W
RΞ
15ºC/W
Rj-a
θj-aj=
a=
300.00
RΞ
R
20°C/W
20ºC/W
Rj-a
θj-aj=
a=
R
25°C/W
25ºC/W
Rj-a
θj-aj=
RΞ
a=
0.00
0
25
50
TA 75
100
125
150
175
T a - Ambient
Temperature
Ambient
Temperature
(ºC) (°C)
Figure 14: Maximum forward current vs. ambient temperature, based on TJMAX = 150ºC.
Current Derating Curve for 1000 mA Drive Current
CoolWhite
1200.00
- Forward Current
If If Forward
Current(mA)
(mA)
1000.00
800.00
600.00
R0
θj-a
10 ºC/W
RRj-a
ja==10°C/W
R0
15 ºC/W
θj-a
RRj-a
ja==15°C/W
400.00
R0
20 ºC/W
θj-a
RRj-a
ja==20°C/W
R0
25 ºC/W
θj-a
RRj-a
ja==25°C/W
200.00
0.00
0
25
50
75
100
125
150
Temperature
TA TAmbient
Temperature
(ºC)(°C)
a - Ambient
Figure 15: Maximum forward current vs. ambient temperature, based on TJMAX = 150ºC.
LUXEON K2 with TFFC Datasheet DS60 (10/07)
16
175
Current Derating Curves, Continued
Current Derating Curve for 700 mA Drive Current
CoolWhite
800.00
If - Forward Current (mA)
If Forward Current (mA)
700.00
600.00
500.00
400.00
R∪
10ºC/W
j-a
RRθ
j-a
ja==10°C/W
300.00
R∪
j-a =
20ºC/W
RRθ
j-a
ja =20°C/W
R∪
j-a =
30ºC/W
RRθ
j-a
ja =30°C/W
200.00
R∪
j-a =
RRθ
j-a
40ºC/W
ja =40°C/W
100.00
0.00
0
25
50
75
100
125
150
175
T a - Ambient Temperature (°C)
TA Ambient Temperature (ºC)
Figure 16: Maximum forward current vs. ambient temperature, based on TJMAX = 150ºC.
Current Derating Curve for 350 mA Drive Current
CoolWhite
400.00
If IfForward
(mA)
- ForwardCurrent
Current (mA)
350.00
300.00
250.00
200.00
R(
R Rj-a
θj-aja==10°C/W
10 ºC/W
150.00
R(
R Rj-a
20 ºC/W
θj-aja==20°C/W
100.00
R(
30 ºC/W
θj-aja==30°C/W
R Rj-a
40 ºC/W
θj-aja==40°C/W
R(
R Rj-a
50.00
0.00
0
25
50
75
100
125
150
a - Ambient Temperature (°C)
TA TAmbient
Temperature (ºC)
Figure 17: Maximum forward current vs. ambient temperature, based on TJMAX = 150ºC.
LUXEON K2 with TFFC Datasheet DS60 (10/07)
17
175
Typical Radiation Patterns
Typical Representative Spatial Radiation Pattern
for White Lambertian
100%
90%
Relative Intensity (%)
80%
70%
60%
50%
40%
30%
20%
10%
0%
-90
-70
-50
-30
-10
10
30
50
70
90
Angular Displacement (Degrees)
Figure 18: Typical Representative Spatial Radiation Pattern for White Lambertian.
Please contact your Philips Lumileds representative to obtain optimized optical solutions that have been designed for
LUXEON K2 with TFFC.
Typical Polar Radiation Pattern for White Lambertian
Figure 19: Typical Polar Radiation Pattern for White Lambertian.
LUXEON K2 with TFFC Datasheet DS60 (10/07)
18
Emitter Reel Packaging
LUXEON K2 with TFFC Datasheet DS60 (10/07)
19
Product Binning and Labeling
Purpose of Product Binning
In the manufacturing of semiconductor products, there is a variation of performance around the average values given in the tech
nical data sheets. For this reason, Philips Lumileds bins the LED components for luminous flux, color and forward voltage (VF).
Decoding Product Bin Labeling
LUXEON K2 with TFFC Emitters are labeled using a three or four digit alphanumeric code (CAT code) depicting the bin values for
emitters packaged on a single reel. All emitters packaged within a reel are of the same 3variable bin combination. Using these
codes, it is possible to determine optimum mixing and matching of products for consistency in a given application.
Format of Labeling for Emitters
Reels of CoolWhite Emitters are labeled with a four digit alphanumeric CAT code following the format below.
ABCD
A = Flux bin (J, H, J, K etc.)
B and C = Color bin (W0, U0, V0 etc.)
C = VF bin (D, E, F, G etc.)
LUXEON K2 with TFFC Datasheet DS60 (10/07)
20
Luminous Flux Bins
Table 9 lists the standard photometric luminous flux bins for LUXEON K2 with TFFC emitters (at test current).
Although several bins are outlined, product availability in a particular bin varies by production run and by product performance.
Not all bins are available in all colors.
Table 9.
Flux Bins
Bin Code
Minimum Photometric Flux
(lm)
Maximum Photometric Flux
(lm)
A
8.2
10.7
B
10.7
13.9
C
13.9
18.1
D
18.1
23.5
E
23.5
30
F
30
40
G
40
50
H
50
60
J
60
70
K
70
80
L
80
90
M
90
100
N
100
120
P
120
140
Q
140
160
R
160
180
S
180
200
T
200
220
U
220
260
V
260
300
W
300
350
X
350
N/A
Note: Please see Table 1 for binning parameters and tolerances.
LUXEON K2 with TFFC Datasheet DS60 (10/07)
21
Forward Voltage Bins
Although several bins are outlined, product availability in a particular bin varies by production run and by product performance.
Table 10.
VF Bins
Bin Code
Minimum Forward Voltage
(V)
Maximum Forward Voltage
(V)
A
2.31
2.55
B
2.55
2.79
C
2.79
3.03
D
3.03
3.27
E
3.27
3.51
F
3.51
3.75
G
3.75
3.99
H
3.99
4.23
J
4.23
4.47
K
4.47
4.71
Note: Please see Table 4 for more information on Forward Voltage binning.
LUXEON K2 with TFFC Datasheet DS60 (10/07)
22
White Binning Information
Figure 20: White Binning Structure
LUXEON K2 with TFFC Datasheet DS60 (10/07)
23
LUXEON K2 with TFFC CoolWhite Bin Structure
Figure 21: CoolWhite Bin Structure
LUXEON K2 with TFFC Datasheet DS60 (10/07)
24
LUXEON K2 with TFFC CoolWhite Bin Structure, Continued
CoolWhite LUXEON K2 with TFFC Emitters are tested and binned by x,y coordinates.
19 Color Bins, CCT Range 10,000K to 4,500K
Table 11.
Cool White Bin Structure
Bin Code
Y0
YA
XM
XN
X0
XP
WM
WN
W0
WP
X
Y
0.274238
0.303051
0.307553
0.282968
0.282968
0.307553
0.311163
0.289922
0.300667
0.332708
0.310778
0.283772
0.283772
0.310778
0.293192
0.270316
0.301093
0.313617
0.314792
0.303051
0.342244
0.354992
0.344438
0.332708
0.303051
0.314792
0.316042
0.305170
0.332708
0.344438
0.333222
0.322386
0.305170
0.316042
0.317466
0.307553
0.322386
0.333222
0.320438
0.310778
0.307553
0.317466
0.319597
0.311163
0.310778
0.320438
0.301303
0.293192
0.313617
0.328636
0.328823
0.314792
0.354992
0.368952
0.356917
0.344438
0.314792
0.328823
0.329006
0.316042
0.344438
0.356917
0.345092
0.333222
0.316042
0.329006
0.329220
0.317466
0.333222
0.345092
0.331331
0.320438
0.317466
0.329220
0.329393
0.318606
0.320438
0.331331
0.320211
0.310201
Typical CCT
(K)
Bin Code
8000
WQ
8000
VM
6700
VN
6700
V0
6700
VP
6700
UM
6000
UN
6000
U0
6000
UP
X
Y
0.318606
0.329393
0.329544
0.319597
0.328636
0.348147
0.346904
0.328823
0.310201
0.320211
0.310495
0.301303
0.368952
0.385629
0.371742
0.356917
0.328823
0.346904
0.345781
0.329006
0.356917
0.371742
0.359190
0.345092
0.329006
0.345781
0.344443
0.329220
0.345092
0.359190
0.344232
0.331331
0.329220
0.344443
0.343352
0.329393
0.331331
0.344232
0.332034
0.320211
0.348147
0.367294
0.364212
0.346904
0.385629
0.400290
0.382878
0.371742
0.346904
0.364212
0.362219
0.345781
0.371742
0.382878
0.371616
0.359190
0.345781
0.362219
0.359401
0.344443
0.359190
0.371616
0.355699
0.344232
0.344443
0.359401
0.357079
0.343352
0.344232
0.355699
0.342581
0.332034
6000
Note for Table 11:
1. Philips Lumileds maintains a tester tolerance of ± 0.005 on x, y color coordinates.
LUXEON K2 with TFFC Datasheet DS60 (10/07)
25
Typical CCT
(K)
6000
5300
5300
5300
5300
4750
4750
4750
4750
Company Information
LUXEON® is developed, manufactured and marketed by
Philips Lumileds Lighting Company. Philips Lumileds is a worldclass
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 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.
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 highflux LED
technology leader and is dedicated to bridging the gap between LED
technology and the lighting world. Philips Lumileds technology, LEDs
and systems are enabling new solidstate lighting applications and
markets.
www.luxeon.com
www.futurelightingsolutions.com
For technical assistance or the
location of your nearest sales
office contact any of the
following:
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1 888 589 3662
[email protected]
Europe:
00 800 443 88 873
[email protected]
Asia Pacific:
800 5864 5337
[email protected]
©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
[email protected]
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